DE102009045983A1 - Conveyor for transportation of e.g. fibers in food industry, has conveying coil comprising individual elements connected with one another by fittings, where dimensions of elements correspond to portion of specific degree of helix - Google Patents

Abstract

The conveyor has a conveying coil comprising individual elements, where dimensions of the individual elements correspond to a portion of 90 degree of a helix. The elements are connected with one another in a force-fit, form-fit and/or firm manner by special fittings such as hooks. The coil is provided with recesses and partly surrounded by a device element that receives a material to be conveyed. The elements are made of cermet, where a surface area of components of the elements is provided with a surface coating made of metal, plastic and/or ceramic. An independent claim is also included for a method for manufacturing a conveyor.

Description

The invention relates to the field of mechanical engineering and conveyor technology and relates to a conveyor, as can be used, for example, for the transport of bulk materials or other flowable materials or solids, and to a method for their preparation.

Conveyor technology is the technique of moving work objects and persons in any direction over limited distances through technical aids, including the teaching of the means of conveyance and the systems formed by them ( http://www.tu-chemnitz.de/mb/FoerdTech/forschung.php ). Conveyor technology is an economic sector of increasing importance. The inclusion of new materials creates new principles of action and thus completely new constructions.

Conveying goods have a wide range of properties in terms of density, size, shape and consistency. The design of the conveyor system is essentially based on these properties and the industrial process flow. In this case, conveyors with screws, spirals or spirals are preferably used for transporting dust-like to piece-shaped, fibrous and doughy bulk materials over short to long distances. Such conveyors are used in a variety of industries, such as the food industry, construction, chemical, and waste industries.

Screw conveyors are characterized in that they have a central shaft, are attached to and on the elements that transport the conveyed in the desired direction. The acting moments and forces of screw conveyors are essentially transmitted from and through the shaft. The advantage of screw conveyors is their sturdy construction, whereby large moments and forces are transferable. As materials for such augers mainly metallic materials, such as steel are used so that the aforementioned advantages can be exploited.

Also known is a modular system for the modular construction of screw conveyors made of plastic ( www.polymat.at ). For this purpose, individual screw elements made of plastic are applied to a shaft and installed in a conveyor tube with drive. The individual elements can be combined directly into a composite without complex transfer stations. Depending on the application, PA, PE, PP, POM, PUR, PBT, PVDF, PEEK can be used as plastics.

Furthermore, spiral conveyors are used, which, unlike screw conveyors, do not require a supporting shaft for their function. By definition, a spiral or a screw line is a curve that runs around a point or an axis and moves away from or approaches it depending on the direction of travel ( www.wikipedia.de ). Conveyor spirals are mainly used for difficult conveyed goods, such as fibers or uneven bulk goods. With such conveyors augers clog quite often. Conveyor spirals are loaded mainly to train and transmitted to augers often lower moments.

It is known after the EP 0 215 516 A1 a connecting element for spiral segments. The ends of two spiral segments are connected together by a coupling element, which connects the two ends of the spiral segments coaxially with each other in rotation, so that the two spiral segments in rotation and pitch match each other.

The disadvantage of this solution that is severely limited by the connecting elements of the conveyor cross-section, which can also lead to blockages. Furthermore, the connecting element acts in such a way that practically there is again a screw conveyor which is stabilized by the connecting elements.

Furthermore, conveyor coils are known in cleaning devices for printing machines ( DE 10 2007 025 982 A1 ). In these cleaning devices, soiling on the cleaning roller is stripped off a squeegee and transported into a collecting space. In the collecting space a conveyor coil is rotatably driven, which promotes the contaminants from the collecting space to an outlet. The delivery helix is a substantially self-supporting component, which has a profile arranged screwed along a helix. The term helix denotes a line which rotates with constant or non-constant pitch around the shell of a circular cylinder or of another rotationally symmetrical body.

The disadvantage of the solutions according to the prior art is that the screw conveyors and conveyor spirals or conveyor coil can not be adapted effectively enough to the relevant in practice conveying conditions in terms of, for example, dimensions, pitch, torque transmission, power transmission.

The object of the present invention is to provide a conveyor which operates stably under the practical conditions and very effectively to the respective Promotional tasks can be adjusted, and a simple and inexpensive process for their preparation.

The object is achieved by the invention specified in the claims. Advantageous embodiments are the subject of the dependent claims.

The conveying device according to the invention with a conveyor spiral consists of individual elements, which correspond in their dimensions along the helix at least a portion of 90 ° of the helix, and at least two individual elements non-positively and / or positively and / or materially connected to each other.

Advantageously, the dimensions of the individual elements along the helix correspond to a multiple of 90 °, wherein advantageously still the dimensions of the individual elements along the helix are two to eight times of 90 °.

Likewise advantageously, the dimensions of the individual elements along the helix have any number of degrees beyond 90 °.

Further advantageously, the connection between the individual elements is non-positive and positive.

And also advantageously, the connection between the individual elements is realized in a form-fitting manner via built-in parts in the interior of the body of the individual elements, wherein still advantageously the built-in parts in the form of ribs, hooks and eyes, tongue and groove, pins, webs are present.

It is also advantageous if the connection between the individual elements is non-positively realized by screwing, cohesive bonding, welding, soldering, and form-fitting via riveting, latching, or mechanical brackets in the form of tabs or hooks.

It is also advantageous if the connection between the individual elements is detachable.

It is also advantageous if the connection between individual elements is detachable and not detachable between further individual elements.

It is also advantageous if the individual elements are made entirely of plastic or entirely of ceramic.

And it is also advantageous if the individual elements predominantly made of plastic and / or ceramic, which are still advantageously as thermoset plastics, thermoplastics, elastomer present, and this further advantageously PA, PE, PET, PVC, PS, PC, LCP, PP , POM, PUR, PBT, PVDF, PEEK, which in turn are advantageously provided with reinforcing and / or filling materials, and are also advantageously present as ceramics SiC, Al ₂ O ₃ , cermets, ZrO ₂ .

It is also advantageous if parts of the individual elements and / or their surface partly consist of materials other than the base material of the individual elements, wherein still advantageously the base components of the individual elements are provided with metal reinforced edges, and further advantageously the surface of the base components of the individual elements with a Surface coating of metal, plastic and / or ceramic is provided.

It is also advantageous if the conveyor spiral is cantilevered and provided on its surface with wells that receive the conveyed.

It is also advantageous if the conveyor spiral is completely or partially surrounded by a device element which serves to receive the conveyed material, wherein advantageously the conveyor spiral is arranged in a tubular or trough-like container.

It is also advantageous if at least two individual elements are connected to one another to form a conveying spiral, wherein the individual elements have the same or different dimensions, pitch, material, inclination, connection and / or number.

In the method for producing a conveyor according to the invention, a negative mold of the individual elements are produced and subsequently the individual elements are produced by injection molding, pressing, sintering, internal water pressure injection molding (WID), internal gas pressure injection molding (GID), multi-component injection molding, foaming.

Advantageously, plastic individual elements are produced by injection molding in a negative mold.

Also advantageously, parts of the later conveyor spiral made of non-plastic materials are inserted into the negative mold and the plastic by means of injection molding with these parts non-positively and / or positively connected.

Further advantageously, ceramic and / or plastic individual elements are produced by pressing into a negative mold.

And also advantageously parts of the later conveyor spiral of non-ceramic / plastic materials are inserted into the negative mold and the ceramic and / or the plastic by means of pressing these parts positively and / or positively connected.

With the solution according to the invention, it becomes possible for the first time to specify a conveying device which can be adapted to the different practical conditions and which operates stably and safely.

This is achieved essentially by the modular construction of the conveyor by the connection of individual elements to a conveyor spiral. With the help of this conveyor according to the invention bulk materials, particulate solids and all kinds of flowable materials can be transported safely and smoothly. In this case, in particular, the shape of the conveyor spiral can be used advantageously, since blockages can be largely avoided by this form. Conveyor spirals show a good torque transfer and are loaded according to the drive position to train or pressure. You can record all occurring force vectors well and transferred in relatively low-loss manner on the conveyed.

In the context of this invention, a conveying device in the form of a conveying spiral is to be understood as meaning a device which is an essentially self-supporting component which has a course arranged screwed along a helix. The term helix should be understood to mean a line which rotates with constant and / or non-constant pitch around the shell of a circular cylinder or of another rotationally symmetrical body. In this case, device elements in the form of a shaft or axis may be present, but these do not act according to the invention as a shaft or axis with respect to the torque and / or power transmission.

The conveying device according to the invention can be composed of at least two individual elements, but usually a plurality of individual elements. This modular design through individual elements requires a secure connection between the individual elements. This can be done according to the invention non-positively and / or positively.

In the case of positive connections, this can be done advantageously by internals in the interior of the body of the individual elements, for example in the form of ribs or webs or hooks and eyes. This allows a secure and stable connection of the individual elements can be achieved, which can also be solved.

A detachable connection is advantageous in that thereby the conveyor can be taken apart and not yet worn individual elements can be used again. Also, in a repair, only the defective individual elements need to be replaced.

In the case of cohesive connections, this can be advantageously realized by gluing, welding, soldering, or in the case of positive connections via mechanical brackets in the form of tabs or hooks. Some of these compounds may also be soluble. These connections can be made both inside the body of the individual elements and on their surface, provided that it does not hinder their application and safe operation.

Due to the modular design of the conveyor according to the invention can be reacted very flexible to the practice-relevant requirements. Thus, the conveyor can be arranged by connecting individual elements with the same or different dimensions, pitch, material, inclination, connection and / or number within a conveyor spiral, so that both the safe operation and the prevention of blockages can be realized.

It is also possible that the conveyed material is transported in recesses in the surface of the conveyor spiral and the conveyor is free-standing and self-supporting. This can also be realized, for example, by arranging a conveyor according to the invention inside a bulk material silo.

However, in most cases, the transported material is guided in some form by a device element, which then also completely or partially surrounds the conveying device according to the invention. This will often be the case in a pipe or trough.

To improve the function or to extend the operating time of a conveyor according to the invention parts of the conveyor, such as the edges, be replaced by other particularly wear-resistant or corrosion-resistant materials or coated with it.

As materials for the conveyor according to the invention are mainly plastics and ceramics with all known additives used. From these materials, the individual elements are simple and inexpensive and can be produced in large quantities. In this case, the reliability and duration can be positively influenced by the selection of the possible plastics and ceramics depending on the material to be conveyed.

Depending on the specific conditions of use with regard to the transported material, the distances to be overcome and, if necessary, increases, the In existing media conditions and temperatures, the material may be selected between thermosets, thermoplastics, elastomers or other polymers. Likewise, different ceramics and cermets can be used.

A particular advantage of the solution according to the invention is that the conveyor can be used simultaneously in addition to the task as a conveyor even for drying, loosening, dosing, separating and / or classifying the conveyed material. For this purpose, appropriately heated process gases or air can be passed through the conveyor. Or there may be openings in the device element around the conveyor.

Likewise, the installation of a pipe or a rod in the middle of the spiral instead of the cylindrical or rotationally symmetrical body around which the helix winds, is possible. These can also be heated, for example, or convey gaseous or liquid or solid media into the pumping chamber.

Furthermore, the conveyor according to the invention is produced according to the invention by a negative mold is produced by the respective individual element, in which then the respective material is introduced and solidified by injection molding or pressing. In this case, it is already possible to produce elements which serve for a secure positive connection of the individual elements. This may be, for example, ribs or webs, which increase the surface in the interior of the body of the individual elements and thus ensure a better positive connection when nesting of the elements.

The invention will be explained in more detail using an exemplary embodiment.

It shows

1 a schematic diagram of two individual elements and

2 a schematic diagram of two connected individual elements and

3 a schematic representation of several connected individual elements

example 1

A conveyor spiral is composed of 40 individual elements of the same shape. The individual elements have been manufactured by injection molding from glass fiber reinforced polyamide 6.6. To produce the individual elements, an injection mold was produced as a negative mold of the individual elements made of 13NiCr18 steel. The pellets produced in the pultrusion process in the dimensions 3 × 5 mm consists of PA 6.6 and 30 wt .-% E glass fibers with a filament length of 5 mm and a filament thickness of 10 microns. A screw injection molding machine, the granules are fed through a hopper and melted in the plasticizing unit by shearing due to the rotational movement of the screw and by heating. The melt is injected at a temperature of 260 ° C and a pressure of 60 MPa in the forming cavity of the two-part injection mold. After achieving the dimensional stability by cooling the melt, the single element is removed from the mold.

The individual elements have a cross-section which is arranged normal to the helix of the conveyor spiral. The helix is characterized by a constant pitch of 100 mm. The cylinder enveloped by the helix has a diameter of 100 mm. The single element corresponds to a section of the helix of 360 °. The interior of the individual elements is stabilized by 3 and 2 webs which are arranged over the entire length of the individual elements in the axial direction, wherein 3 webs are guided from one end of the single element to in the middle region of the single element and from there to the other end of the single element 2 webs are continued. As a result, the nesting of an end of the single element with 2 webs with at least one end of the second single element with 3 webs is possible.

Furthermore, the envelope of the individual elements at the two ends is not completely and offset by 180 ° relative to the cross section arranged. Also, the individual elements can be inserted into each other at two ends and adhere to each other via form and force. The two end pieces of the conveyor spiral have at each end a completely closed body of the individual elements, so that after assembly of the individual elements a completely closed conveyor spiral is present with 20 complete turns of the helix. For the respective end pieces another injection mold must be produced as a negative mold.

The dimensions of the conveyor spiral are 35 mm in width and 45 mm in height and 2.00 m in length. To improve the adhesion and to ensure the reliability of the interlocked individual elements are glued together by means of an adhesive.

The conveyor spiral thus produced is used in a conveyor tube with head drive and after commissioning 1900 kg / h granular waste materials are promoted with a mean grain diameter of 10 mm.

The conveying process works stably and with high reliability.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 0215516 A1 [0007]
• DE 102007025982 A1 [0009]

Cited non-patent literature

• http://www.tu-chemnitz.de/mb/FoerdTech/forschung.php [0002]
• www.polymat.at [0005]
• www.wikipedia.de [0006]

Claims (28)

Conveyor with a conveyor spiral, which consists of individual elements which correspond in their dimensions along the helix at least a portion of 90 ° of the helix, and at least two individual elements non-positively and / or positively and / or materially connected to each other. A conveyor according to claim 1, wherein the dimensions of the individual elements along the helix correspond to a multiple of 90 °. A conveyor as claimed in claim 2, wherein the dimensions of the individual elements along the helix are two to eight times 90 °. Conveying device according to claim 1, in which the dimensions of the individual elements along the helix have any number of degrees exceeding 90 °. Conveying device according to claim 1, wherein the connection between the individual elements is non-positive and positive. Conveying device according to claim 1, wherein the connection between the individual elements is realized in a form-fitting manner via built-in parts in the interior of the body of the individual elements. Conveying device according to claim 6, in which the built-in parts in the form of ribs, hooks and eyes, tongue and groove, pins, webs are present. Conveying device according to claim 1, in which the connection between the individual elements is non-positively realized by screwing, cohesive bonding, welding, soldering, and positive locking, locking, or mechanical brackets in the form of tabs or hooks. Conveying device according to claim 1, in which the connection between the individual elements is detachable. Conveying device according to claim 1, in which the connection between individual elements is detachable and not detachable between further individual elements. Conveying device according to claim 1, wherein the individual elements are made entirely of plastic or entirely of ceramic. Conveying device according to claim 1, wherein the individual elements consist predominantly of plastic and / or ceramic. Conveying device according to claim 11 and 12, in which duromers, thermoplastics, elastomers are present as plastics. Conveying device according to claim 11 and 12, in which the plastics PA, PE, PET, PVC, PS, PC, LCP, PP, POM, PUR, PBT, PVDF, PEEK are present. Conveying device according to claim 11 and 12, wherein the plastics are provided with reinforcing and / or filling materials. Conveying device according to claim 11 and 12, in which ceramic SiC, Al ₂ O ₃ , cermets, ZrO ₂ are present. Conveying device according to claim 1, in which parts of the individual elements and / or their surface partly consist of materials other than the base material of the individual elements. Conveying device according to claim 17, in which the base components of the individual elements are provided with metal-reinforced edges. Conveying device according to claim 17, in which the surface of the base components of the individual elements is provided with a surface coating of metal, plastic and / or ceramic. Conveying device according to claim 1, wherein the conveyor spiral is cantilevered and provided on its surface with recesses, the. pick up the conveyed goods. Conveying device according to claim 1, wherein the conveyor spiral is wholly or partially surrounded by a device element which serves to receive the conveyed material. A conveyor according to claim 21, wherein the conveyor spiral is arranged in a tubular or trough-like container. Conveying device according to claim 1, wherein at least two individual elements are connected to each other to form a conveyor spiral, wherein the individual elements have the same or different dimensions, pitch, material, inclination, connection and / or number. Method for producing a conveyor according to at least one of claims 1 to 23, in which a negative mold of the individual elements is produced and subsequently the individual elements are produced by injection molding, pressing, sintering, internal water pressure injection molding (WID), internal gas pressure injection molding (GID), multi-component injection molding, foaming. The method of claim 24, wherein the plastic individual elements are produced by injection molding in a negative mold. The method of claim 24, wherein parts of the later conveyor spiral made of non-plastic materials inserted into the negative mold and the plastic by means of injection molding with these parts non-positively and / or positively connected. The method of claim 24, wherein the ceramic and / or plastic individual elements are produced by pressing into a negative mold. The method of claim 24, wherein parts of the later conveyor spiral made of non-ceramic / plastic materials inserted into the negative mold and the ceramic and / or the plastic by means of pressing with these parts non-positively and / or positively connected.

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