The present invention relates to a comminutor, or a so-called shredder. Such a comminutor is utilized for the purpose of comminuting bulk material, for instance wood.
In practice material is reduced in size using comminutors specifically utilized for one type of material. This means that such a comminutor is employed specifically for for instance wood. Other types of comminutor are used for other materials. This results in practice in comminutors with limited flexibility of use.
Relatively great forces are necessary for comminuting bulk material. The comminutors hereby have to take a very robust form. The problem that occurs here is the limited accessibility to the comminutor, such as the accessibility to settings for adjusting the comminutor to the bulk material and the desired reduction in size, as well as the accessibility to components in the case of malfunction, repair and maintenance.
The present invention has for its object to provide an improved comminutor with which the above stated drawbacks are obviated or at least reduced.
This object is achieved with the comminutor for comminuting bulk material according to the invention, wherein the comminutor comprises:
By providing a rotatable drum on which blades are arranged, bulk material carried into the frame of the comminutor is at it were shredded by the co-action of these blades with counter-blades which are preferably disposed fixedly on the frame. By allowing the blades to rotate, material is pressed into the space provided between the blades and the counter-blades. Such blades are also referred to as hammers, blades, combs and so on.
After the comminuting step the comminuted material is carried through a screen. Depending on the screen size, the comminuted material is then discharged or the material is carried along by the drum once again for an additional comminuting operation.
Providing an access door which is provided with a tilting mechanism achieves that relatively easy access can be gained to the interior of the comminutor, and in particular the screen, by opening this door. A door can otherwise be understood to mean any other form of door element, such as a hatch or partition. The door is preferably located on the side of the comminutor and, in the closed position of the door, substantially wholly seals the comminuting space in which the drum is present, while in the opened position access is gained to the diverse components, including particularly the screen as stated above. This has the advantage that a user can exchange the screen for another screen with associated screen size in relatively simple manner. This makes the comminutor according to the invention suitable for application with diverse types of bulk material, including for instance wood, carpet, floor covering, plastic, walls and so on. The bulk material is particularly deferrized here, i.e. iron parts are removed from the introduced bulk material in order to thereby simplify further processing.
Using the adjustable screen size in combination with the currently preferred slowly rotating shredder with a rotation speed in the range of 20 to 40 rpm, and particularly about 30 rpm, it has been found that the comminution of the bulk material can be performed in a single comminuting step. This has the result that a separate pre-comminutor is not required. The comminutor according to the invention hereby provides a universal comminutor suitable for comminuting diverse types of bulk material, wherein access is also gained to the interior parts of the comminutor by means of the door, which in a currently preferred embodiment gives a user access from the ground. This hugely increases the convenience of use and provides a flexibly adjustable comminutor.
In a currently preferred embodiment the tilting mechanism is embodied such that in the opened position substantially the whole door is situated outside the frame. Because the door in opened position is located substantially wholly outside the frame, the door and/or elements mounted thereon can be hoisted away in relatively simple manner using a crane or gripper. Working conditions are hereby considerably improved in the case of a repair, since such a heavy element, on which counter-blades are preferably also mounted, need not be lifted by hand. This increases convenience of use.
In an advantageous preferred embodiment according to the present invention the tilting mechanism is provided with a carrier for lifting and co-displacing the door on the underside as defined in the closed position of the door.
When a carrier is provided, a door element is not only folded open. By also co-displacing the underside, the door element is carried further outward in the opened position. The access of a user is hereby improved and removal of the door element with a crane, for instance for the purpose of maintenance and repair, is also greatly simplified.
In a currently preferred embodiment the carrier is embodied as a hook-like carrier element which hooks behind a half hinge-like element provided on the underside of the door element, which in the closed position rests on a shaft or pin of the frame. Other embodiments are of course also possible.
The tilting mechanism is preferably further provided with a safety element for holding in the opened position the underside of the door co-displaced by the carrier. The safety element prevents the possibility of the door falling out of the comminutor during opening thereof and resulting in dangerous situations. The outward sliding of the door element during opening thereof is in fact bounded by the safety element.
The frame is preferably also further provided with a screen support part which is at least partially displaceable or slidable outward by the tilting mechanism during opening of the door. Allowing the screen support part, on which the screen used in a currently preferred embodiment supports, to slide outward during opening of the door greatly simplifies access to the screen for a user. It is hereby possible in effective manner to exchange a screen and/or remove from the comminutor undesired parts left on the screen. This results in an effective option for adjusting the comminutor according to the invention to the bulk material for comminuting, wherein additional undesired components, for instance iron parts, can be removed from the comminutor in effective manner without causing further damage.
In an advantageous preferred embodiment according to the invention the counter-blades are provided on the door.
Providing the counter-blades on the door achieves on the one hand a stable fixing of the counter-blades relative to the rotating blades. Providing the counter-blades on the door achieves on the other hand that the counter-blades are accessible in relatively simple manner by opening the door.
In a currently preferred embodiment the blades are provided in modular form so that these blades can also be replaced in relatively simple manner in the case of damage or for the purpose of applying the comminutor for other bulk materials.
The door is preferably provided with an adjusting mechanism for adjusting the distance between a blade and a counter-blade. A precise adjustment of the space between the blades and the counter-blades makes it possible to realize a better comminuting or cutting behavior, which is moreover adjustable on the basis of the bulk material on the one hand and the desired comminution size on the other. This can be carried out in effective manner owing to this precise adjustment, whereby the material to be reduced in size will in addition require fewer rotations in the comminutor for an additional comminuting operation. This has the result, among others, of reducing the amount of diesel required when a separate diesel engine is used as a drive. This achieves that the costs and the emission of gases remain minimal.
The adjusting mechanism preferably comprises a blocking means for fixing the door relative to the frame during use. Fixing the door also fixes the counter-blades connected thereto relative to the drum. This has the effect that possible iron parts present among the bulk material cannot press aside the knives and/or blades and result in problems during further processing of the material.
In a further advantageous preferred embodiment according to the present invention the drum is provided with an internal bearing-mounting.
Providing a bearing-mounting in the interior of the drum achieves that a better support of the drum can be realized. This is important in view of the relatively great forces exerted on this drum during comminution of the bulk material. Providing an internal bearing-mounting makes the distance between a left-hand and a right-hand bearing relatively smaller, whereby a possible sagging of the drum will also be smaller. The distance between the blades and the counter-blades is hereby also better maintained, so that an effective comminution can be realized.
The invention also relates to a trailer provided with a comminutor as described above.
Such a trailer provides the same effects and advantages as stated for the comminutor. Using a trailer provided with the above described comminutor a so-called stand-alone installation can be obtained. The trailer is preferably provided here with a separate drive which for instance makes use of a diesel engine and, if desired, a crane or gripper for filling the comminutor with the bulk material for processing. The comminutor according to the invention can hereby be used in effective manner at diverse locations, including remote locations such as in a forest.
The invention further also relates to a method for comminuting bulk material, the method comprising the steps of:
Such a method provides the same effects and advantages as stated for the comminutor and/or trailer provided therewith as stated.
Further advantages, features and details of the invention are elucidated on the basis of the preferred embodiments thereof, wherein reference is made to the accompanying drawings, in which:
A trailer 2 (
Comminutor 4 (
Drum 20 (
When door 24 is opened (
Screen 74 (
Counter-blades 26 are provided in modular manner in recesses 80 arranged in door 24. Counter-blades 26 are hereby easily replaceable.
Drum 20 with flanges 78 is driven from outside using a drive 82. Provided on the inner side of drum 20 is bearing-mounting 84 comprising a flange 86, which is fixedly connected to the inner side of drum 20, and a carrier gear 88. The length of drum 20 between the two support points with flanges 86 is in this way reduced, whereby less outward bending will occur in the case of similar forces.
During use of comminutor 4, material for comminuting is introduced into opening 18, for instance using a crane. Owing to the rotating movement of drum 20, on which blades 22 are arranged, the material for comminuting is shredded between blades 22 and blades 26, which in the shown embodiment are mounted on door 24. On the underside of comminutor 4 the comminuted material is carried over screen 74 with a determined screen size. Screen 74 determines which size of the comminuted material can leave comminutor 4. This material is then discharged. In order to gain access to the interior of comminutor 4, door, 24 is opened using cylinder 40. Undesired parts can hereby be removed from screen 74 and/or components, including screen 74 itself, can be replaced in relatively simple manner.
The present invention is by no means limited to the above described preferred embodiments thereof. The rights sought are defined by the following claims, within the scope of which many modifications can be envisaged.
Number | Date | Country | Kind |
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2009580 | Oct 2012 | NL | national |
This application claims the priority benefit of U.S. Provisional Patent Application No. 61/814,984, filed Apr. 23, 2013, titled “Comminutor for Comminuting Bulk Material, and Method Therefor”. This application also claims the priority benefit of NL Patent Application No. 2009580, filed Oct. 5, 2012, titled “Comminutor for Comminuting Bulk Material, and Method Therefor,” and the entire disclosure of each of which is hereby incorporated by reference for all purposes.
Number | Date | Country | |
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61814984 | Apr 2013 | US |