This application is the National Stage of PCT/IB2008/001879 filed on Jul. 18, 2008, which claims priority under 35 U.S.C. §119 of Italian Application No. MO2007A000249 filed on Jul. 27, 2007.
The invention relates to a shot-blasting machine for surface treatment of products.
As is known, shot-blasting machines, using a compressed-air propelling system, or a system based on centrifugal force, project particles against a surface of one or more products, generating a surface treatment which can be cleaning, roughening, deburring and/or hardening (shot-peening).
The particles which are projected against the products are usually generically known as “grit”, and consist in an abrasive mixture of sand, pumice, glass, steel shots and/or other materials of various granulometry according to the type of finishing required.
The fields of use of the machines are very varied indeed, according to the type of treatment to be carried out.
Some examples of products or working which use these machines are the following: cleaning and sanding of casts, descaling of steels and non-ferrous alloys, preparation for enamelling and/or galvanising, rusticating stones or agglomerates, shot-blasting tools, springs, leaf-springs, motor-car wheel rim surface finishing, etc.
Traditional shot-blasting machines are in general made up of a containing chamber for containing the products to be treated, internally of which the projecting organs are located, which projecting organs are of the mechanical turbine or nozzle type operating by compressed air, which project the grit against the products.
Product moving organs are usually included internally of the containing chamber, which enable the products to be moved with respect to the projecting organs so that the whole surface of the products can be struck by the flow of grit being shot.
The moving organs are of known type and consist in turntables, roller planes, conveyor belts, hooks on a monorail and others.
The loading of the shot-blasting machines with the products to be treated and the unloading of the treated products is usually done manually by specialised personnel.
This manual activity, however, has various drawbacks, such as e.g. the need to have available the actual member of personnel, leading to a relevant cost for what are after all repetitive, little-rewarding and at times tiring work operations. To obviate these drawbacks, the prior art includes combining shot-blasting machines with separate machines dedicated to the manipulation of the products, such as for example articulated robots provided with claws that can grip the products to be treated, locate them in the containing chamber before the start of treatment, and extract them at the end of the operations.
This product loading and unloading system is also not without drawbacks.
One drawback is that articulated robots have considerably space-consuming dimensions and in order to operate they require a certain amount of working space in the vicinity thereof.
This drawback is particularly noted in those plants in which a large number of products have to be moved rapidly, and in which for this aim fork-lift trucks or other lifting devices are used, which require large maneuvering spaces and wide avenues to move in.
Another noteworthy point is that plants equipped with articulated robots are subject to particularly high installation, control/management and maintenance costs, which have a negative influence on the final cost of the treated products. It is also stressed that the need to combine two separate machines, i.e. a shot-blaster and an articulated robot, leads to the inconvenient need to connect and interface the operation of one machine with that of the other, and this operation is not always rapid and immediate to set up.
The main aim of the present invention is to provide a shot-blasting machine for surface treatment of products, which machine treats a large number of products in a practical, simple and functional way, without any need for substantial use of personnel and which, at the same time, is of an especially limited size.
A further object of the present invention is to operate with very contained installation, management and maintenance costs.
A further object of the present invention is to provide a shot-blasting machine for surface treatment of products which enables the above-mentioned drawbacks in the prior art to be obviated, with a simple and rational solution which is also simple and effective to use.
The above-described objects are all attained by the present shot-blasting machine for surface treatment of products, comprising at least a base frame, at least a containing chamber for containing at least a product to be treated associated to said base frame and provided with at least an access opening, at least a projecting organ being associated internally of said chamber and suitable for projecting a flow of shot-blasting particles onto said product, characterised in that it comprises automated unloading means associated to said base frame and suitable for unloading said product from said chamber through said access opening.
Further characteristics and advantages of the present invention will better emerge from the description that follows of a preferred but not exclusive embodiment, of a shot-blasting machine for surface treatment of products, illustrated by way of non-limiting example in the accompanying figures of the drawings, in which:
With special reference to the figures of the drawings, 1 denotes in its entirety a shot-blasting machine for surface treatment of products.
The machine 1 is destined to be associated to an advancement line 2 of products M to be treated, e.g. a conveyor belt or a roller plane.
The advancement line 2 defines in practice a substantially horizontal plane 3 for moving the products M.
In more detail, the machine 1 comprises a base frame 4 which supports a containing chamber 5 for containing the products M which is arranged by a side of the advancement line 2.
An access opening 6 is afforded on a wall of the chamber 5 which wall faces the advancement line 2 of the products M, through which opening 6 the products M can both enter and exit the chamber 5.
The access opening 6 is arranged substantially at the same height from the ground as the plane 3, such that at least a portion of the advancement line 2 is arranged in front of the access opening 6.
A series of projecting organs 7 is mounted internally of the chamber 5, for projecting a flow of shot-blasting particles onto the product M which is located in the chamber 5.
The projecting organs 7 are usefully of a type having a centrifuging action and consist in mechanical turbines; however, in other embodiments of the present invention the projecting organs 7 could operate with compressed air and be constituted by nozzles.
Rotating means 8 are also provided internally of the chamber 5, which rotating means 8 turn the products M around a work axis A which is horizontal or slightly inclined.
The rotating means 8 consist, for example, of a cage element 9a, which snugly contains a product M, and of a device 9b for rotating the cage element 9a around the work axis A.
The cage element 9a is, in detail, defined by a substantially circular plate 10 arranged vertically and facing the access opening 6 and by a plurality of horizontal bars 11 which extend from the plate 10 towards the access opening 6. The end 12 of the cage element 9a opposite the plate 10 is facing towards the access opening 6, is open and is substantially flared, i.e. the bars 11 are bent and inclined along centrifugal directions with respect to the work axis A.
The flaring of the cage element 9a defines a mouth for introducing products M into the cage element 9a.
The machine 1 advantageously comprises automated unloading means 13 for removing the products M from the chamber 5 through the access opening 6.
The automated unloading means 13, e.g., are constituted by a pusher element which is mounted internally of the chamber 5 and which pushes the products M through the access opening 6 in order to position them on the advancement line 2 at the conclusion of the work operations performed in the chamber 5.
The pusher element 13, in detail, consists of a first linear actuator, of a fluid-operating jack type, the liner 14 of which is solidly mounted on the chamber 5 and the stem 15 of which is arranged to pass through the plate 10 to push a mobile end 16.
The first linear actuator extends horizontally along the work axis A.
The mobile end 16 inserts internally of the cage element 9a and, by effect of the thrust of the pusher element 13, can be moved between a first work position arranged in proximity of the plate 10 and a second work position arranged in proximity of the open end 12.
The mobile end 16 is mounted on the stem 15 and is rotatable around the work axis A and is in turn solidly associated to a pusher body 17 which enters into contact with the products M during the stage of expulsion thereof from the chamber 5.
The pusher body 17 is constituted, for example, by a transversal rod which is transversal to the work axis A, terminal parts 18 of which rod are forked and arranged forkingly about two bars 11 such as to function as a guide during sliding of the transversal rod 17 along the cage element 9a.
Further embodiments (not illustrated in the figures) are not, however, excluded, in which the terminal parts 18, though continuing to function as guides along the bars 11, are differently shaped, for example in loops, bushes, sleeves or the like.
The machine 1 is advantageously further provided with automated loading means 19, which enable entry of the products M in the chamber 5 through the access opening 6.
In the particular embodiments of the invention, illustrated in
In the embodiment of the invention illustrated in
The free end of the arm 21 substantially faces the access opening 6 and a pusher plate 22 is mounted thereon, which pusher plate 22 pushes the products M internally of the chamber 5 when the arm 21 is set in rotation.
The machine 1 as illustrated in
The products M reach the machine 1 in succession on the advancement line 2. When the first product M to be worked is arranged facing the access opening 6, the drawing device 19 pushes it internally of the chamber 5 and, in particular, internally of the cage element 9a which is aligned with the access opening 6 and which initially has the mobile end 16 thereof arranged in the first work position. During the shot-blasting operation, the projecting organs 7 shoot the shot-blasting particles against the product M and at the same time the product M is set in rotation around the work axis A by the cage element 9a.
When the working process is finished, the product M is expelled by extension of the first linear actuator 13 which displaces the mobile end 16 from the first to the second work position.
The just-worked product M is then returned to the advancement line 2, on which it can be distanced and sent on to following work stations.
In a further embodiment of the invention, illustrated in
The automated loading means 19, on the other hand, consist of a gripping structure for the products M which is solidly constrained to the transversal rod 17 and is movable there-with between the first and the second work positions. The gripping structure 19 consists of a bridge-shaped frame, which in the second work position is locatable in a forked position with respect to the advancement line 2.
The frame is constituted by a pair of contact elements 23, located at a distance from the pusher body 17 on an opposite side with respect to the pusher element 13, and by two connecting sections 24, which connect the contact elements 23 with the transversal rod 17.
In practice, the gripping structure 19 is of such size and shape that the products M to be worked can be located substantially snugly between the contact elements 23 and the pusher body 17.
The functioning of the machine 1 as illustrated in
The activation of the advancement line 2 causes the products M to reach the machine 1 up until one thereof is located between the contact elements 23 and the pusher body 17.
At this point, the pusher element 13 is activated from the second work position into the first work position, which draws the gripping structure 19 and with it the product M internally of the chamber 5 and the cage element 9a.
On completion of the shot-blasting operation, inverse activation of the pusher element 13 from the first into the second work position means the worked product M can be expelled and returned to the advancement line 2, and subsequent work operations can be performed thereon.
It has in point of fact being ascertained how the described invention achieves the proposed objects.
The invention thus conceived is susceptible to numerous modifications and variations, all of which falling within the scope of the inventive concept. Furthermore all the details can be replaced with others that are technically equivalent.
In practice, the materials used, as well as the contingent shapes and dimensions, may be any according to requirements without because of this moving outside the protection scope of the following claims.
Number | Date | Country | Kind |
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MO2007A00249 | Jul 2007 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB2008/001879 | 7/18/2008 | WO | 00 | 1/26/2010 |
Publishing Document | Publishing Date | Country | Kind |
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WO2009/016448 | 2/5/2009 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4018006 | Moelders | Apr 1977 | A |
4037364 | Freeman et al. | Jul 1977 | A |
4121387 | Weis et al. | Oct 1978 | A |
4326362 | Williams et al. | Apr 1982 | A |
5142830 | Carpenter | Sep 1992 | A |
5361548 | Kuehn | Nov 1994 | A |
5512005 | Gulling | Apr 1996 | A |
Number | Date | Country |
---|---|---|
482 510 | Dec 1969 | CH |
1 191 154 | May 1970 | GB |
1 242 933 | Aug 1971 | GB |
Entry |
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International Search Report. |
Number | Date | Country | |
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20100130110 A1 | May 2010 | US |