EP0304870A2 - Appareil pour le traitement de matériaux - Google Patents

Appareil pour le traitement de matériaux Download PDF

Info

Publication number: EP0304870A2
Authority: EP; European Patent Office
Prior art keywords: rotor; housing; blade members; feed; blade
Prior art date: 1987-08-28
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Withdrawn

Application number

EP88113704A

Other languages

German (de)

English (en)

Other versions

EP0304870A3 (fr

Inventor

Oren D. Urich

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Sterling Grinding Co Inc

Original Assignee

Sterling Grinding Co Inc

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

1987-08-28

Filing date

1988-08-23

Publication date

1989-03-01

1988-08-23 Application filed by Sterling Grinding Co Inc filed Critical Sterling Grinding Co Inc

1989-03-01 Publication of EP0304870A2 publication Critical patent/EP0304870A2/fr

1989-12-27 Publication of EP0304870A3 publication Critical patent/EP0304870A3/fr

Status Withdrawn legal-status Critical Current

Links

Images

Classifications

- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C18/00—Disintegrating by knives or other cutting or tearing members which chop material into fragments
- B02C18/0084—Disintegrating by knives or other cutting or tearing members which chop material into fragments specially adapted for disintegrating garbage, waste or sewage
- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C13/00—Disintegrating by mills having rotary beater elements ; Hammer mills
- B02C13/02—Disintegrating by mills having rotary beater elements ; Hammer mills with horizontal rotor shaft
- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C13/00—Disintegrating by mills having rotary beater elements ; Hammer mills
- B02C13/14—Disintegrating by mills having rotary beater elements ; Hammer mills with vertical rotor shaft, e.g. combined with sifting devices
- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C18/00—Disintegrating by knives or other cutting or tearing members which chop material into fragments
- B02C18/06—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives
- B02C18/08—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives within vertical containers
- B02C18/12—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives within vertical containers with drive arranged below container
- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C18/00—Disintegrating by knives or other cutting or tearing members which chop material into fragments
- B02C18/06—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives
- B02C18/14—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives within horizontal containers

Definitions

This invention relates to apparatus and techniques for processing material and reducing such material to particles of a desired size.
waste wood in addition to the grains and forage materials described above, other materials which must be reduced in particle size include waste wood, paper, waste products (such as spoiled food, e.g., fruits and vegetables), plant and animal waste products, compost, metal, glass, etc.
waste products such as spoiled food, e.g., fruits and vegetables
plant and animal waste products compost, metal, glass, etc.
Other recyclable products and materials are also reduced in particle size before they can be effectively used.
Conventional devices which are routinely used for grinding or reducing particle size of materials typically include a rotating wheel having hammers on the periphery thereof.
a curved screen is positioned in close proximity to the path of the rotating hammers.
the screen typically covers only a small portion of the circumference of the rotating wheel with hammers.
the remainder of the grinding chamber is closed to prevent escape of the material being ground.
the material being reduced in particle size is repeatedly hammered by the rotating hammers until it is able to pass through the openings in the screen. For example, this is the operation of a conventional hammer mill which is used to grind grain and other such materials.
hammer mill is a so-called tub grinder in which the material to be ground is placed in a very large tub (several feet in diameter).
the tub has an opening in the floor in which the outer portion of a rotating wheel is positioned.
On the periphery of the wheel there are fastened a number of hammers.
a screen is positioned below the floor of the tub and in close proximity to the ends of the hammers as the wheel is rotated.
the screen covers a small portion of the circumference of the rotating wheel.
both the hammer mill machines and the tub grinders There are numerous disadvantages associated with both the hammer mill machines and the tub grinders. For example, both types of machines are limited in capacity because the material must pass through small openings in a screen in order to escape the grinding chamber. The screen only covers a portion of the circumference of the rotating wheel. Furthermore, in both types of machines the material being processed is fed only to a very small fraction of the circumference of the rotating wheel. Therefore, there is a small feed area and a small grinding area presented.
tub grinder Another disadvantage of the tub grinder is that a large amount of horsepower is required for the volume of material processed. Another disadvantage of the tub grinder is that it has a large number of moving parts which are subject to a great amount of wear. Furthermore, the tub grinder is limited in capacity in spite of the large size of the machine. Still another disadvantage of the tub grinder is that it can throw material into the air well above the top of the tub. This presents a very dangerous situation, for example, when there are rocks or other heavy objects present in the material being ground.
roller mills have been used to process small grains, such devices are not useful for reducing particle size of various other materials.
Forage grinders utilizing a large reel with knives at the edge have also been used for chopping forage materials; but such devices are not useful for grains or other products of small particle size.
the apparatus for processing materials of all types to reduce particle size.
the apparatus comprises:
An annular channel or chamber is defined between the interior wall of the housing and the rotor member.
the blade members project into the channel or chamber when the rotor is rotated.
the annular channel encompasses a full 360° circular, ring-shaped area within the housing.
the interior wall of the housing defines the outer edge of the grinding chamber and the rotor periphery defines the inner edge thereof.
a discharge opening is adjacent to the annular channel or chamber. For example, when the rotor is in a horizontal plane, the discharge opening is located just below the annular channel or chamber and communicates with it. When the rotor is in a vertical plane, the discharge opening is located just rearwardly of the channel or chamber.
the material to be processed is fed into the annular channel or chamber at all positions around the rotor member.
the material to be processed is fed to the blade members completely around the periphery of the rotor (i.e., full face feed).
This provides for much more rapid and efficient processing of the material in the annular chamber than is the case with conventional grinders.
material can be processed very quickly using smaller tractors than possible with previous machines and techniques.
the apparatus also produces a very uniform comminution of material being processed.
the design of the apparatus also results in less wear and stress on the components than is the case with conventional grinding apparatus. As a result, maintenance costs are less.
the apparatus can also be provided with more than one grinding chamber. That is, the material being processed can be first reduced to a given particle size in one chamber and then reduced to a smaller particle size in a second chamber.
the material e.g., ear corn
the material can be cut to a particular particle size by means of knives, then the material can pass through a screen to another chamber where the blades or hammers on the periphery of the rotor further reduce the particle size of the material before it exits through the discharge opening.
the apparatus of the invention can be provided in various embodiments and various sizes. It can be provided, for example, with the rotor member in either a horizontal plane or in a vertical plane.
Various types of feeding devices can be used to feed the material into the rotor for processing. For example, when the rotor member is in a horizontal plane, a hopper is placed above the rotor and gravity pulls the material from the hopper and into the rotor.
a significant advantage of the apparatus of this invention is that there is a 360° grinding area around the rotor.
the material to be processed can enter the channel or chamber between the rotor and the interior wall of the circular housing at any point. The material cannot proceed to the discharge opening without passing through the grinding area or chamber where the blades or hammers reduce the particle size of such material.
the apparatus of this invention is capable of performing all the functions of previously available grinders and cutters in a rapid and efficient manner. Materials of virtually any type and description can be processed with this apparatus.
FIGS 1 and 1A there is illustrated an apparatus 10 of the invention for processing material to reduce particle size.
the apparatus shown includes a frame member 14 which is supported by wheels 13.
Hitch 15 at the front of the apparatus enables attachment to a tractor for moving the apparatus from one site to another.
Power take-off shaft 18 is connectable to the power take-off of the tractor for powering the apparatus.
Rotor member 20 is positioned within a circular housing 21 supported by the frame. In this embodiment the circular housing is in a horizontal plane.
the rotor member 20 includes a plurality of blade members or hammers 22 attached to the periphery of the rotor. The blade members or hammers extend into a channel or chamber between the rotor 20 and the interior wall of the circular housing 21, as illustrated.
paddle members 19 Attached to the lowermost portion of the rotor are paddle members 19 which sweep or propel the processed material out of the lower portion of the housing and into the discharge chute 26 through an opening in the wall 21.
the grinding channel or chamber extends completely around the rotor for a full 360°.
the blade members or hammers extend outwardly from the rotor into this channel or chamber. Below this channel (i.e., below the blade member or hammers) the paddle members 19 sweep the processed material off the floor of the housing and into the discharge chute.
a cone member 24 is attached at its base to the top of the rotor member 20.
the outer surface of the cone member includes spiral fliting 25.
the cone member assists in feeding material placed into hopper 12 into the channel or chamber between the wall of the circular housing 21 and the rotor 20.
the power take-off shaft 18 is adapted (by means of a gear box) to rotate the rotor about its central axis within housing 21 in a manner such that the blade members or hammers 22 at the periphery of the rotor strike the material to be processed at high speed and thereby reduce the particle size of such material.
a plurality of deflector members 23 which deflect the material being processed away from the interior wall and into the path of the spinning blade members 22 in the channel or chamber.
Material which has been processed or reduced in particle size falls to the floor of the housing 21 and is blown or propelled out of a discharge opening 27 in the wall of the housing 21 and into discharge chute or spout 26, for example, by means of paddle members 19.
the processed material could also be conveyed away from the housing by means of an auger or conveyor belt.
the processed material may be allowed to fall through an opening in the floor of the housing and then can be conveyed away.
the entire floor may be removed to allow the processed material to fall through.
the embodiment shown in Figures 1 and 1A is especially useful for processing materials such as grains (e.g., corn, wheat, oats, barley, milo, other small grains, etc.) or other particulate material (e.g., coal, bark, etc.).
grains e.g., corn, wheat, oats, barley, milo, other small grains, etc.
particulate material e.g., coal, bark, etc.
the channel or chamber between the rotor and the housing is open around the entire circumference of the rotor, the material to be processed is fed to the entire circumference of the rotor.
This feature is referred to herein as "full face feed” and it is a significant advantage over prior devices as it greatly increases the capacity of the apparatus.
pivoting plates 28 When feeding particulate material into the hopper 12 in the apparatus shown in Figure 1A, it may be desirable at times to slow or retard the rate at which the particulate material is fed to the rotor 20 and blade members 22.
a cover or partial cover may also be placed over the top of the hopper when processing small particulate material.
the number of positions at which the blade members or hammers 22 are attached to the periphery of the rotor 20 may vary.
the number of blade members or hammers at each position may also vary.
the greater the number of blade members or hammers attached to the periphery of the rotor the greater is the reduction in the particle size of the material being processed.
the particle size of the material can be further reduced.
the 360° grinding area or channel referred to above is illustrated in the drawings.
the depth of the channel or grinding area may vary, e.g., from one inch to several inches or more. At least one, and preferably all, of the blade members or hammers are positioned within this channel or grinding area.
Figure 2 is a side elevational view, partially cut away, of another embodiment of apparatus 30 of the invention.
apparatus 30 of the invention.
Rotor member 32 is mounted within housing 31 on shaft 41 in a manner such that the rotor may be rotated relative to the housing 31.
the rotor includes upper and lower plates 32A, as illustrated.
each blade member Attached to the periphery of the rotor are a plurality of blade members or hammers 37.
the inner end of each blade member includes an aperture; and pin 38 passes through registering apertures in the upper and lower rotor plates and the apertures in the blade members 37 to pivotally mount each blade member or hammer to the periphery to the rotor 32.
any one or more of the blade members 37 may be pivoted inwardly and then secured by means of pin 46 passing through upper and lower plate members 32A and the outer end of such blade member or hammer.
the lower blade member or paddle 37A of each set of blades is shown in its retracted position where it is secured by means of a removable pin 46.
the apparatus shown in Figure 2 also shows cone member 34 having spiral fliting 35 on its outer surface, as illustrated.
a plurality of cutting knives 36 may be secured to the fliting 35 at various locations to facilitate shredding or cutting of elongated or fibrous material to be processed (e.g., hay, straw, tree branches, etc.).
the knives are preferably detachably mounted so that they can be replaced if they should become worn or broken.
Hopper 12 surrounds the cone member and the upper portion of the housing 31 to serve as a reservoir for material to be processed.
the rotor is driven via drive shaft 45 which is adapted to be attached to the PTO drive of a tractor, for example.
Gear box 40 is adapted to drive a rotor shaft 41 which is perpendicular to the horizontal plane of the circular housing 31.
the cone member 34 may be driven separately from the rotor member 32.
a drive shaft 43 having gear 44 attached to the lower end thereof.
Drive shaft 43 passes upwardly through bearing housing 42 and through the hollow center of rotor shaft 41 to the hub cone support member 47 (shown in dotted lines).
the cone 34 may be attached directly to the hub support 47.
the cone member 34 may be driven by means of gear 44 at any desired speed separate from the rotation of rotor member 32.
the gear 44 may be driven by a hydraulic motor (or even an electric motor if there is electricity available). If it is not desired to rotate the cone 34 at a different speed than rotor member 32, then the base of the cone member may be secured directly to the upper portion or surface of the rotor member 32.
Figure 2 also illustrates the retarding plates 28 which have been moved to their inner most position in order to retard the rate at which the material to be processed is fed into the rotor 32.
Figure 2 also illustrates the provision of a plurality of knife members 17 secured to the lower portion of the cone 34 and projecting outwardly in a horizontal plane.
the knife members have a sharpened leading edge and are for the purpose of pre-processing certain types of materials to reduce the particle size to a certain range before the material falls into the channel or chamber between the rotor and the wall of the housing for final processing.
the knives 17 first cut the ear (i.e., cob portion) to a size which allows it to fall through openings in screen 29 to reach the rotor where the cob pieces and the corn kernels are further reduced in particle size. Also, when it is desired to grind hay or paper to a very fine particle size, the knives 17 first cut the material to a certain size before it can fall through the screen and into the rotor for final processing.
the inclusion of horizontal, stationary bars 16 in close parallel proximity to the knife members 17 facilitates cutting action of the knives in this particular chamber.
the bars 16 are optional, but preferred.
the length of the bars is about one-half the length of the knives so that there is overlap, as shown.
the bars may be positioned either above the knives, or below the knives, or both.
the horizontal spacing between the knives and the bars is about 0.12 to 1 inch.
FIG. 2 further illustrates the provision of screen members 29 positioned parallel to the rotor member but spaced just above it.
Each screen member 29 is pivotably mounted in a manner such that each such screen may be moved entirely out of the housing, if desired.
the purpose of the screen member is to assure that the material which enters into the chamber between the rotor and the interior wall of the circular housing has been reduced to a certain particle size for further processing.
Figure 2 also illustrates deflector members 33 on the interior wall of the housing 31.
the deflector members serve only to deflect the material away from the wall and into the path of the rotating blades or hammers 37 as the material is being processed.
the deflector members extend transversely along the inner wall of the circular housing. They extend partially from the top of the housing to the bottom.
the deflectors can be of any desired shape (e.g., triangular, square, cylindrical, etc.). They may be sloped inwardly toward the rotor, or they may be blunt.
FIG 3 is a top view of the embodiment of material processor apparatus shown in Figure 2.
a discharge chute 48 which is connected to an opening in the wall of the circular housing 31.
the material is processed and falls to the bottom of the housing 31 it is forced by way of air movement, or by means of paddles 39 attached to the lower surface of the rotor member 32, to be propelled outwardly through discharge chute 48.
a conveyor belt could be used to move the processed material away from the housing.
the housing 31 is shown supported on platform 11 carried by the frame.
FIG 4 there is shown a top view, partially cutaway, of another embodiment of apparatus 50 of the invention.
the circular housing 52 is disposed in a vertical plane.
Rotor member 54 is rotatably supported within housing 52, and rotor 54 rotates about an axis at the center of the housing.
the rotor member 54 includes a plurality of blade members or hammers 56 attached to its periphery. At the front portion of the rotor there are knife members 67 and 68 which may have sharpened leading edges, if desired. As with the other embodiments of apparatus of the invention, the blade members or hammers may be pivotally attached or rigidly attached to the outer edge of the rotor.
the advantages to having the blade members or hammers pivotally attached are that (a) the blade members may pivot if they encounter a solid object such as a large rock or chunk of iron, etc., and (b) the blade members may be intentionally pivoted to an inward position and then secured (e.g., as illustrated in Figure 2).
Cone member 55 is secured at its base to the surface of the rotor member 54.
the cone includes spiral fliting 57 on its outer surface.
knives 58 are secured at various places to fliting 57.
the knives 58 facilitate the tearing or loosening of bulkly material or fibrous material being processed so that smaller chunks or particles of material are fed to the rotor for processing. That is, the cone 55 serves as a pre-processor for entangled material, compacted or compressed material, or fibrous materials.
the rotor 54 and blade members 56, 67 and 68 are exposed throughout the entire circumference of the rotor so that the material being processed is fed to the full face of the rotor.
the cone 55 facilitates the even feeding of the material around the periphery of the rotor.
the circular housing includes a portion which extends 360° around the rotor to define an annular channel or chamber therebetween.
Trough 60 forms a platform for the material to be processed.
Drive chains or aprons 62 are driven along the length of the trough to force the material into the cone and the rotor.
the drive chains preferably include teeth or hooks 63 to facilitate gripping of the bulk material being moved in the trough.
the length and width of the trough may vary. Generally speaking, it is preferred that the width of the trough be no wider than the width of the rotor member and blade members attached to the periphery of the rotor member. Normally the trough is in a horizontal plane when the rotor is in a vertical plane.
the rotor member is adapted to be driven by means of shaft 64 which may be powered by the power-take-off shaft of a tractor, or it may be powered by an engine mounted directly on the frame of the apparatus 50.
the circular housing 52 includes an opening in the wall thereof, rearwardly of the blade members on the rotor, which serves as a discharge opening for the material which has been reduced in particle size.
one side of the rotor member includes paddles 59 which serve to push the processed material out through the discharge opening in the housing 52. Then the processed material may be conveyed away from the housing by means of a conveyor.
an auger 65 within tube 66 for conveying away the processed material.
conveyor means it is possible to use a moving belt in place of the auger to remove the processed material.
the paddles may throw the processed material out through a tube or pipe connected to the housing. This feature is illustrated in dotted lines 61 in Figures 5 and 6.
FIG. 5 is a side elevational view of the apparatus 50 shown in Figure 4.
rotor member 54 within housing 52.
Cone member 55 is secured to one face of the rotor 54.
Drive chain 62 is shown in trough 60. Attached to the drive chain at various intervals are teeth or hook members 63.
the speed at which the drive chain urges the material to the rotor can be adjusted so that the material is fed at the maximum rate at which the rotor can process it.
a conventional hydraulic governor system is used to control the speed of the drive chain.
Figure 6 is an end view of the apparatus 50 shown in Figure 4, looking directly into the cone 55 and the rotor 54 within circular housing 52.
Figure 7 is a perspective view illustrating in more detail the rear face of the rotor member 54, blade members 56, and circular housing 52 of the apparatus 50 shown in Figure 4.
a plurality of deflectors 53 which extend transversely along the wall of the housing across the grinding channel or chamber. Rearwardly of this area is the discharge opening 70 through which the processed material is pushed by the paddles 59.
the apparatus of this invention can be made in various sizes.
useful devices can be made in which the diameter of the rotor member (including blade members or hammers) can be as small as 18 inches or as large as 20 feet or more.
the length of the blade members or hammers may also vary, for example, from about one inch to 20 inches or more.
the number of blade members or hammers at each desired location on the periphery of the rotor may vary from one to several (e.g., 6), depending upon the desired reduction in particle size of the material being processed.
the blade members or hammers are preferably made of steel.
the leading edge of each may be blunt or sharpened.
the leading edge of the upper or front blade members on the rotor may be sharpened while the remaining blade edges are blunt.
the rotor may also include broad-faced paddle members on the lower edge (for horizontal rotors) or in the rear most position (for vertical rotors) to sweep or propel the processed material out of the discharge opening in the housing.
the paddle member can be rigidly or pivotally fastened to the rotor.
the clearance between the outer end of the blade members and the deflectors present on the inner wall of the housing is at least about 0.25 inch and may be about 0.75 inch, although this amount of clearance is not critical.
the spacing between adjacent blade members or hammers at each location on the rotor may also vary. Also, the depth of the housing may vary, e.g., from about one inch to 2 feet or more.
the speed at which the rotor is rotated within the housing may vary. It has been found, however, that the preferred tip speed for the blade members or hammers is in the range of about 100,000 to 150,000 inches per minute for optimum results.
the deflectors on the interior wall of the housing may vary in size, shape and spacing.
the deflectors deflect the material being processed away from the wall of the housing in the channel or grinding chamber and into the path of the blade members or hammers where it can be reduced in particle size. If the material being processed is manure or compost material or the like, it is not necessary to include such deflectors on the interior wall of the housing.
the fliting on the surface of the cone member is preferably spiral, although it could be otherwise.
the fliting could be in the form of several individual flites which are perpendicular to the rotor.
the fliting could be individual flites which are oriented at an angle to the rotor.
the fliting includes knives or sharp protrusions for loosening bulk material before it proceeds into the channel or chamber between the rotor and the interior wall of the housing.
the cone member also distributes the material around the entire periphery of the rotor. This assures that the rotor works at maximum capacity in processing the material.
the rotor is completely exposed and accessible on its periphery to allow the material to be fed into the channel or chamber at all points around the rotor (i.e., a full face feed of 360°).
the advantages provided by the apparatus of this invention are also obtained even if there is substantial full face feed of material to the rotor.
the cone member even if there is a small portion of the rotor periphery which is not available to receive material to be processed, the cone member nevertheless will distribute the material around the accessible portion of the periphery of the rotor to use the maximum portion of the capacity of the rotor.
the height of the cone member may also vary. Generally speaking, it is preferred for the cone to project outwardly from the rotor a distance equal to about one-half to 1.5 times the diameter of the rotor.
the apparatus of the invention can be adapted to process materials of all types and sizes. For example, it may be used to reduce particle size of small particulate material, or materials of intermediate size (e.g., ear corn), or materials of large size, including stringy, entangled and fibrous materials such as hay, straw, paper, etc. Even very large bales of material may be fed to the apparatus in whole form (e.g., square bales as large as 4 feet by 4 feet by 8 feet, or round bales up to 8 feet in diameter). Various other types of materials may also be processed, e.g., tree branches, bark, coal, PC boards, refuse, etc.
the apparatus of the invention can be used to reduce material to any desired particle size by varying the number of blade members or hammers on the periphery of the rotor, the spacing between blade members or hammers, etc.
the apparatus described herein is much more efficient than prior types of grinding devices (e.g., requiring 20-35% less power than with previous devices).
the uniformity of the processed material is also very good and is consistently more uniform than possible with conventional machines.

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Engineering & Computer Science (AREA)
Food Science & Technology (AREA)
Environmental & Geological Engineering (AREA)
Crushing And Pulverization Processes (AREA)
Disintegrating Or Milling (AREA)

EP88113704A 1987-08-28 1988-08-23 Appareil pour le traitement de matériaux Withdrawn EP0304870A3 (fr)

Applications Claiming Priority (2)

Application Number	Priority Date	Filing Date	Title
US90792		1979-11-02
US9079287A	1987-08-28	1987-08-28

Publications (2)

Publication Number	Publication Date
EP0304870A2 true EP0304870A2 (fr)	1989-03-01
EP0304870A3 EP0304870A3 (fr)	1989-12-27

Family

ID=22224333

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
EP88113704A Withdrawn EP0304870A3 (fr)	1987-08-28	1988-08-23	Appareil pour le traitement de matériaux

Country Status (4)

Country	Link
EP (1)	EP0304870A3 (fr)
JP (1)	JPH01135547A (fr)
AU (1)	AU2116788A (fr)
BR (1)	BR8804382A (fr)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
EP0495420A1 (fr) *	1991-01-15	1992-07-22	SERVIZI ECOLOGICI S.p.A.	Broyeur pour déchets solides en particulier pour déchets urbains
DE102006033835A1 (de) *	2006-07-21	2008-01-24	Backers Maschinenbau Gmbh	Vorrichtung zum Sieben oder Brechen von grobem Material
RU2467555C1 (ru) *	2011-06-29	2012-11-27	Федеральное государственное образовательное учреждение высшего профессионального образования Ульяновская государственная сельскохозяйственная академия	Измельчитель корнеклубнеплодов
RU2742509C1 (ru) *	2019-12-03	2021-02-08	Роман Викторович Бесполденов	Молотковая дробилка для зерна с вертикально установленным ротором
CN117654747A (zh) *	2024-02-01	2024-03-08	宿松东新生态养殖有限公司	一种生态有机饲料加工用原料粉碎机

Citations (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
DE3011723A1 (de) *	1979-03-27	1980-10-02	Berggren Torsten L	Maschine zum herstellen von holzflocken aus spaenen
DE2928471A1 (de) *	1979-07-14	1981-01-22	Kampschulte & Co J	Maschine zum zerkleinern von stueckigen gegenstaenden
DE3105104A1 (de) *	1981-02-12	1982-08-19	Hans Einhell Inh. Josef Thannhuber GmbH & Co KG, 8380 Landau	"zerkleinerungsvorrichtung"

1988
- 1988-08-18 AU AU21167/88A patent/AU2116788A/en not_active Abandoned
- 1988-08-23 EP EP88113704A patent/EP0304870A3/fr not_active Withdrawn
- 1988-08-26 BR BR8804382A patent/BR8804382A/pt unknown
- 1988-08-26 JP JP21231188A patent/JPH01135547A/ja active Pending

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
DE3011723A1 (de) *	1979-03-27	1980-10-02	Berggren Torsten L	Maschine zum herstellen von holzflocken aus spaenen
DE2928471A1 (de) *	1979-07-14	1981-01-22	Kampschulte & Co J	Maschine zum zerkleinern von stueckigen gegenstaenden
DE3105104A1 (de) *	1981-02-12	1982-08-19	Hans Einhell Inh. Josef Thannhuber GmbH & Co KG, 8380 Landau	"zerkleinerungsvorrichtung"

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EP0495420A1 (fr) *	1991-01-15	1992-07-22	SERVIZI ECOLOGICI S.p.A.	Broyeur pour déchets solides en particulier pour déchets urbains
DE102006033835A1 (de) *	2006-07-21	2008-01-24	Backers Maschinenbau Gmbh	Vorrichtung zum Sieben oder Brechen von grobem Material
RU2467555C1 (ru) *	2011-06-29	2012-11-27	Федеральное государственное образовательное учреждение высшего профессионального образования Ульяновская государственная сельскохозяйственная академия	Измельчитель корнеклубнеплодов
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CN117654747A (zh) *	2024-02-01	2024-03-08	宿松东新生态养殖有限公司	一种生态有机饲料加工用原料粉碎机
CN117654747B (zh) *	2024-02-01	2024-06-11	宿松东新生态养殖有限公司	一种生态有机饲料加工用原料粉碎机

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BR8804382A (pt)	1989-03-28
EP0304870A3 (fr)	1989-12-27
JPH01135547A (ja)	1989-05-29

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