DE202018101406U1 - Drehauswerfer for conveyed goods - Google Patents

Abstract

Drehauswerfer for conveyed, wherein the Drehauswerfer (1) has a housing (2) and in the housing (2) has a valve cone (3) with frusto-conical basic shape, which is rotatably mounted in the housing (2) and driven by a shaft (30) , wherein the housing (2) has a Fördergut inlet (6), a first Fördergut outlet (7) and a second Fördergut outlet (8) and in the poppet (3) gangway-like recesses (54, 55, 56) for guiding of the conveyed material from the conveyed material inlet (6) to the first conveyed material outlet (7) or to the second conveyed material outlet (8) are formed, which extend into the interior of the valve cone (3) and are connected to one another, characterized in that the rotary launcher (1) has a spring (9) for pressing the poppet (3) against a wall (49) of the housing (2).

Description

The invention relates to a Drehauswerfer for conveyed and a test device for testing conveyed for metallic contaminants, which has such a rotary launcher.

In particular, in the food and pharmaceutical industries, it is necessary to continuously examine conveyed for contamination with metal. For this purpose, an inspection device for testing the conveyed material for metallic impurities may be provided. The testing device may comprise a metal detector, which is arranged on a line through which the conveyed material is guided as a product stream, so that the metal detector can detect metallic objects that are transported with the conveyed through the line. If it is determined by means of the metal detector that there is a contamination of metal in the conveyed, the contaminated part of the conveyed material can be separated out by a Drehewerfers from the product stream.

Out DE 10 2008 062 304 A1 Such a rotary projector is known, which is referred to there as a pressure-tight diverter valve. The Drehauswerfer has a housing in which a valve cone is rotatably mounted. The housing has a material inlet, a first material outlet and a second material outlet. In the valve cone recesses are formed, which lead the product flow from the material inlet to the first material outlet in a first position, while the second material outlet is closed. If it is now determined that there is a metallic contaminant in the product flow, the valve cone is transferred to a second position, in which the first material outlet is closed and the second material outlet is opened. The contaminated part of the conveyed material is now guided to the second material outlet. As soon as the contaminated part has left the rotary launcher at the second material outlet, the poppet is returned to the first position, so that the product flow is now guided again from the material inlet to the first material outlet.

In order to be able to effect the rotation of the valve cone in the housing, is in DE 10 2008 062 304 Aleine wave provided, which is releasably connectable via a metal plate with the poppet. The metal plate is embedded in an end face of the valve cone and has a coupling opening into which the shaft can be coupled. For this purpose, the shaft must be passed through an opening in the housing. The diameter of the opening should substantially correspond to the diameter of the shaft, in any case be as small as possible, so that although a rotation of the shaft is possible, but no conveyed material on the shaft can escape from the housing. Nevertheless, an annular seal is required to seal the housing against the shaft. In the housing, the valve plug is held by means of a lid which is screwed onto the housing. In the housing itself, the valve plug is loose, so that the tightness between the valve plug and the housing is affected by wear of the valve plug. To be able to counteract the consequences of wear, sees DE 10 2008 062 304 A1 a gap, which is formed between the end face of the valve cone, in which the metal plate is formed, and the said end face facing wall of the housing. A wear of the valve cone on its lateral surface would cause the valve plug is pushed further into the housing. The play of the valve plug in the housing increases nevertheless. The gap also requires cleaning.

For cleaning the in DE 10 2008 062 304 A1 The pipe cover must be unscrewed to remove the poppet. This assumes, however, that the valve cone is decoupled from the shaft. After cleaning, the valve plug is inserted back into the housing, with the shaft having to be coupled again with the valve plug via the coupling opening in its metal plate.

However, the known Drehauswerfer are subject to high wear. This is due to the fact that the speeds at which the product flow is passed through the valve plug are very high. On the other hand, the valve cone is usually made of a plastic, the housing, however, made of a metal. In addition, the cleaning of the Drehewerfers is too expensive, the larger the number of parts. It is therefore desirable to reduce the cleaning effort as much as possible so.

The object of the invention is to eliminate the disadvantages of the prior art. In particular, a positioning system is to be specified which has a small footprint. In particular, a rotary launcher for conveyed material is to be specified, which has an improved tightness even when the valve cone is worn, which is easier to assemble and disassemble and which is easier to clean. Furthermore, a test device for testing conveyed to metallic impurities should be specified, which has such a rotary launcher.

This object is solved by the features of claims 1 and 15. Advantageous embodiments of the invention will become apparent from the features of the dependent claims.

According to the invention, a rotary launcher is provided for conveyed having a housing and in the housing a frusto-conical valve cone which is rotatably mounted in the housing and driven by a shaft. The housing has a conveyed material inlet, a first conveyed material outlet and a second conveyed material outlet. In the poppet gear-like recesses for guiding the conveyed material from Fördergut inlet to the first Fördergut outlet or to the second Fördergut outlet are formed, which extend into the interior of the valve cone and are connected to each other there. The rotary lobe has a spring for pressing the poppet against a wall of the housing.

The Drewerferwerfer invention may have more than one spring, for example, two, three, four or more springs. The spring or springs may be a compression spring. In a preferred embodiment, the compression springs are one or more annular springs or one or more spiral springs, more preferably one or more annular springs.

By means of the spring (s) of the valve cone is pressed against a wall of the housing. The valve cone has a frustoconical basic body with a lateral surface, a base side and a cover side. The base side, which essentially corresponds to the base surface of the main body, has a larger diameter than the cover side, which substantially corresponds to the top surface of the main body. The housing defines an interior whose basic shape is complementary to the basic shape of the valve cone. In this case, the housing has a stop surface in the direction of which the spring (s) press the valve cone, whereby it is pressed with its lateral surface against the - tapering in the direction of the stop surface - wall of the housing. Thus, the valve cone lies with its lateral surface close to the wall of the housing. The spring pressure also ensures a tightness between the lateral surface of the valve cone and the tapered wall of the housing, even if the valve cone wears. The wear is compensated by the spring (s), because the spring travel of the spring (s) in conjunction with the tapered wall of the housing, against which the lateral surface of the valve plug is pressed, compensates for the wear. In order to enable such a compensation, it is preferred if a gap is formed between the cover side of the valve cone and the stop face, so that the valve cone does not contact the stop face. Preferably, the valve cone is located over its entire lateral surface on the tapered wall of the housing in order to achieve the greatest possible sealing effect.

The housing of the rotary headlamp according to the invention preferably has an access opening which can be closed by means of a lid. The access opening is preferably opposite the stop surface. The spring (s) may be held on the lid. In one embodiment, a holding element is provided for holding the spring (s) on the lid, which is guided by a passage which is formed in the lid. The holding element is preferably not immovably fixed to the lid, but is held by this movable in the implementation. Preferably, the holding element has a base plate which is fastened to the base side of the valve cone, for example by means of a screw connection. From the base plate, a pin may extend through the passage formed in the lid. The pin is firmly connected to the base plate. The pin is preferably movable within the passage of the cover in the axial direction and rotatably supported about its longitudinal axis, while a movement is prevented transversely to its longitudinal axis of the passage. Between the base plate and the lid, preferably the spring (s) are arranged. If the spring or springs are ring springs, then the spring (s) may be passed around the pin so that the pin fixes them in position transverse to the longitudinal axis of the pin. In the base side of the valve cone, a first recess for receiving the base plate of the holding element may be formed. It is preferred if the base plate is flush with the base of the valve cone. The springs, which are arranged between the base plate and the inside of the lid, exert pressure on the valve cone via the base plate, in the direction of the stop surface of the housing. Between the inside of the lid and the base side, a gap is preferably formed, d. H. the lid does not touch the poppet or base plate. In the gap, the spring (s) may be arranged.

Preferably, the retaining element has a head which is releasably secured to one end of the pin. If the pin of the retaining element is guided by the bushing formed in the cover, the head is located outside the housing. Preferably, the pin is screwed to the head. The diameter of the passage is preferably chosen so that it bears tightly against the jacket of the pin, in such a way that the pin within the implementation in the axial direction is movable and rotatable about its longitudinal axis, transversely to the axial direction but immovable. The head, which is bolted to the pin, prevents the pin from being pulled out of the bushing.

As long as the pin is screwed to the head, form poppet, cover, holding elements, springs and, if the stub shaft firmly with the Valve cone is connected, in addition, the stub shaft a unit. These parts of this unit do not lose themselves. The unit is therefore also referred to as a non-losing unit. If the valve plug is to be removed from the housing, for example to clean the valve plug, the housing or both, the cover must be removed from the access opening. The coupling between the stub shaft and the shaft is released. With the decrease of the lid, the valve plug is pulled out of the housing at the same time because the base plate is connected to the lid via the holding element. If the valve body is inserted into the housing via the access opening, the cover is simultaneously placed on the housing under closure of the access opening. In addition, the coupling between the stub shaft and the shaft is made. Because the poppet and the lid are parts of a non-losing unit, the handling of the rotary launcher according to the invention as well as its cleaning are simplified. The removal of the valve plug from the housing and the insertion of the valve plug into the housing require no tools, especially no tools.

If the lid, the spring (s) and / or the holding element to be cleaned, it can, after the cover from the access opening and with it the valve plug are removed from the housing, the head can be released from the pin. The lid may be withdrawn from the pin, thereby separating the lid from the base to which the pin is attached and the springs. Are the springs ring springs, these can be removed from the bridge. For cleaning the housing and / or the valve cone, however, it is not necessary to disassemble the cover from the holding element.

In a preferred embodiment, the Drehauswerfer on a stub shaft, which is fixedly connected to the valve cone on its top side. He is then part of the non-losing unit. The stub shaft is intended for coupling with the shaft of a drive. The stub shaft may have a shaft which is guided by a passage formed in the housing. The diameter of the bushing is larger than the diameter of the shaft. Preferably, the diameter of the passage is much larger than the diameter of the shaft. The expression "much larger" in this context means that between the lateral surface of the shaft and the boundary edge of the implementation, a circumferential gap is formed when the stub shaft is guided through the bushing. It is not necessary to seal the gap between the lateral surface of the shaft and the boundary of the passage. It can be provided that the diameter of the passage is at least 10% larger than the diameter of the shaft. A larger gap facilitates cleaning of the housing.

The stub shaft can be positively connected to the valve cone. For this purpose, it may be provided that the shank of the stub shaft carries a head, which is inserted into a second recess, which is formed in the top side of the valve cone, and bears there form-fitting manner on the valve cone.

The firm connection between the valve plug and the stub shaft makes it possible to remove both together from the housing, which facilitates both the cleaning of the housing and the cleaning of the valve cone and the stub shaft. If the diameter of the passage in the housing is much larger than the diameter of the shaft, the cleaning of the housing is further simplified. The fixed connection between the stub shaft and the valve cone also facilitates the disassembly and assembly of the Drehauswerfers invention.

Is the stub shaft firmly connected to the valve cone, the stub shaft is part of the non-losing unit. This simplifies the handling of the Dreestrawerfers invention as well as its cleaning on.

Preferably, the lid is connectable by means of a releasable, first clamping connection with the housing. A screw connection between the cover and the housing is therefore not required. The releasable first clamp connection facilitates opening and closing of the access opening of the housing. After opening the lid, the poppet and, if provided, the stub shaft firmly connected to the poppet can be removed from the housing. No tools are required for this.

For releasable connection of the lid to the housing by means of the first clamping connection can be provided that the housing has on the side in which the access opening is formed, a circumferential ridge on which the lid can abut with its inside. Preferably, the web has a surface side which lies in a plane in which the access opening extends, or which extends orthogonal to the longitudinal axis of the valve cone when the valve cone is inserted into the housing. On this surface side, the lid can rest with its inside when the access opening is closed. The extent of the web is preferably selected so that the edge of the lid is flush with the outer edge of the web when the lid rests on the web. The first clamping connection may be a first closing element which, while exercising a Clamping force presses the lid against the web. The first closing element may have a means for producing and releasing the first clamping connection. This means preferably enables the manufacture and release of the first clamping connection without the use of a tool or other means.

The first clamp connection may be a tri-clamp connection. In the case of a tri-clamp connection, the first closing element is a closure clip which can be closed and opened via a threaded pin rotatably mounted in it and a wing nut cooperating with the threaded pin.

A handle may be secured to the lid to facilitate placement of the lid on the access opening and removal of the lid from the access opening. If the valve cone and / or the housing are to be cleaned, then it is only necessary to release the first clamping connection.

The Drewerferwerfer invention may have a holding device to which the housing is releasably or permanently attached. For releasable attachment of the housing to the holding device, a releasable second clamping connection can be provided. The second clamping connection may be a second closing element which, while exerting a clamping force, presses the housing against the holding device. The second closing element may have a means for producing and releasing the second clamping connection. This means preferably allows the manufacture and release of the second clamping connection without the use of a tool or other means.

The second clamp connection may be a tri-clamp connection. In the case of a tri-clamp connection, the first closing element is a closure clip which can be closed and opened via a threaded pin rotatably mounted in it and a wing nut cooperating with the threaded pin. Preferably, construction and operation of the second closing element structure and operation of the first closing element correspond.

The rotary launcher according to the invention may have a drive for driving the poppet. The drive preferably has a shaft which can be coupled to the stub shaft, which is fixedly connected to the valve cone, for example via a plug connection. For this purpose, the stub shaft on its end facing away from the valve cone having a shape which is positively connected to the shaft of the drive. For example, the end of the stub shaft can be designed as a plug-in head, for example as a square or hexagon. The shaft then has a plug head of the stub shaft complementary coupling element, for example, a recess, for. B. in the form of a sleeve, in its end facing the stub shaft front side. The drive may be carried by the holding device.

To ensure that the valve plug - for example, after its cleaning - is inserted in a predetermined position in the housing, a rotation can be provided. By means of the rotation can be prevented that the valve cone is rotated about its axis of rotation, based on the predetermined position, is inserted into the housing. In the predetermined position it is ensured that the gangway-like recesses are located in a known starting position to the conveyed material inlet, the first conveyed material outlet and the second conveyed material outlet. The rotation is preferably designed so that the stub shaft can be coupled only in one position with the shaft of the drive. For example, it can be provided that the rotation lock has a groove in a coupling element into which a corresponding element, for. B. a web, the other coupling element can intervene. The groove can, for example, in the plug head of the stub shaft, z. B. in the lateral surface of the square, be formed while the web can be formed in the inner circumferential surface of the sleeve of the shaft. In the case of a square of the stub shaft, the anti-twist device ensures that the poppet can not be mounted at 90 °, 180 ° or 270 ° to the specified position.

It can be provided that the holding device has a spacer which is fastened to a carrier of the holding device. By means of the spacer, the housing can be held at a predetermined distance from the carrier of the holding device and the drive. The spacer may have a first ring and a second ring arranged parallel thereto, which are connected to each other via struts. The stub shaft can be guided by the first ring. It may also be passed through the second ring when the connection between the stub shaft and the shaft of the drive is outside the spacer. The first and second rings have a diameter which is larger than the diameter of the stub shaft.

Preferably, the housing is releasably secured to the first ring of the spacer by means of the releasable, second clamping connection. For this purpose, the housing may have a tubular portion whose longitudinal axis is located on the longitudinal axis of the stub shaft and at the end face of the implementation is located in the housing is trained. The tubular portion may extend from the abutment surface of the housing in a direction away from the access opening. That is, the poppet itself does not extend into the tubular portion when inserted into the housing. For this purpose, the inner diameter of the tubular portion may be formed smaller than the diameter of the cover side of the valve cone.

The tubular portion may have a circumferential ridge on the end face in which the passage is formed. The web preferably extends outwardly, that is in a direction orthogonal to the longitudinal axis of the tubular portion and away from this longitudinal axis. The web can be with its, the abutment surface of the housing side facing away from the ring and there releasably secured by means of the second closing element.

The spacer may have cleaning openings. For example, the gaps that lie between the struts of the spacer may be cleaning apertures. The connection of the two rings of the spacer by means of the struts to form the gaps facilitates its cleaning.

The housing may be made of a metal or plastic. The lid can be made of a metal or plastic. Preferably, the housing and the lid are made of the same material. The valve plug may be made of metal, ceramic or plastic, wherein it is preferably made of plastic, more preferably of a plastic such as polycarbonate, polyoxymethylene or polytetrafluoroethylene. The stub shaft may consist of a metal or plastic, preferably of metal.

The rotary launcher according to the invention is suitable for conveyed goods of all kinds. The conveyed goods can be flow goods, bulk goods, goods in bulk or mixtures thereof. The rotary launcher according to the invention can be used in particular in the pharmaceutical and food industry, for example in the meat processing industry.

The rotary launcher according to the invention can have one or more adapters, which make it possible for the rotary launcher to be at different conveying speeds to the conveyed goods entrance of the rotary launcher and / or to conventional machines, for example machines for processing the conveyed goods, filling machines or testing devices for testing conveyed goods for metallic impurities, to equip with the Drewerferwerfer invention. To the adapter lines in which the conveyed material is transported, to the Fördergut inlet, the first Fördergut outlet and the second Fördergut outlet, which are collectively referred to as Fördergut connections, are connected. The adapters can be designed as pipe sections through which the conveyed material is to be transported. For this purpose, it may be provided that connect to one or more, preferably to all Fördergut connections pipe sections that extend in a direction that leads away from the Fördergut connection. Through the pipe sections, the conveyed material can be performed. For this purpose, the pipe sections, if necessary, can be shortened. The ends of the pipe sections facing away from the conveyed material connections can carry flanges, so that flange connections between the pipe section on the one hand and machines of different manufacturers, for example filling machines and / or downstream machines, can be easily produced. The pipe pieces may have the same or different lengths. It is particularly expedient if a longer pipe section is provided on the conveyed material inlet in order to be able to compensate for delay and / or inertia during the transport of the conveyed material to the conveyed product inlet. The term "longer" refers to pieces of pipe which is formed on one of the two conveyed material outlets.

According to the invention, a test device for testing conveyed material for metallic contaminants is also provided. The test device according to the invention has a rotary projector according to the invention and a metal detector. The metal detector is located upstream of the conveyance inlet of the housing of the rotary launcher with respect to a product flow of product.

By means of the test device according to the invention, the conveyed material can be continuously examined for metallic impurities. For this purpose, the conveyed material can be guided past the metal detector in a line in which it is guided as a product stream. To the line is followed by the conveyed-inlet of the housing of the Dreestrawerfers invention. As long as no metallic contamination has been detected in the conveyed by means of the metal detector, the product flow enters the conveyed material inlet of the housing and is guided there by a passage of the valve cone to the first Fördergut outlet of the housing. For this purpose, the valve cone is in a first position. At the first Fördergut outlet of the housing, the product flow exits the housing and can be led away via another line from the Drewerwerfer for further use. However, if it is determined by means of the metal detector that there is a metallic contaminant in the product stream, then a part of the conveyed material in which the contaminant is located, by means of the Drehewerfers separated out from the product stream. For this purpose, the valve cone is rotated from the first position to a second position by means of the drive. The part containing the contaminant enters the poppet through the fluid inlet and is directed through a passage formed in the poppet to the second fluid outlet of the housing. At the second Fördergut outlet of the housing, the contaminated part of the housing exits and can then be eliminated. After the contaminated part of the product stream has left the rotary launcher, the poppet is transferred from the second position back to the first position. The product stream then passes from the product inlet again to the first product outlet.

• 1 eine Seitenansicht einer Ausführungsform eines erfindungsgemäßen Drehauswerfers, jedoch ohne Darstellung des Antriebs und der Schließelemente;
• 2 eine Schnittdarstellung der in 1 gezeigten Ausführungsform entlang Schnittlinie C--C in 1;
• 3 eine vergrößerte Darstellung des Ausschnittes D von 2;
• 4 eine perspektivische Darstellung der in 1 gezeigten Ausführungsform, jedoch ohne Darstellung des Gehäuses und der Schließelemente;
• 5 eine weitere Schnittdarstellung der in 1 gezeigten Ausführungsform, einschließlich Darstellung des Gehäuses, der Welle des Antriebs und der Schließelemente, wobei die Schnittebene um 90° zum in 2 gezeigten Schnitt um die Schnittlinie C--C gedreht liegt;
• 6 eine perspektivische Darstellung des Ventilkegels und des Wellenstumpfes der in 1 gezeigten Ausführungsform des erfindungsgemäßen Drehauswerfers;
• 7 eine vereinfachte Schnittdarstellung des Gehäuses und des Ventilkegels der in 1 gezeigten Ausführungsform des erfindungsgemäßen Drehauswerfers, wobei sich der Ventilkegel in einer ersten Stellung befindet; und
• 8 eine vereinfachte Schnittdarstellung des Gehäuses und des Ventilkegels der in 1 gezeigten Ausführungsform des erfindungsgemäßen Drehauswerfers, wobei sich der Ventilkegel in einer zweiten Stellung befindet.

The invention will be explained in more detail below with reference to embodiments, which are not intended to limit the invention, with reference to the drawings. Show

• 1 a side view of an embodiment of a Drehauswerfers invention, but without showing the drive and the closing elements;
• 2 a sectional view of in 1 shown embodiment along section line C - C in 1 ;
• 3 an enlarged view of the section D of 2 ;
• 4 a perspective view of in 1 shown embodiment, but without representation of the housing and the closing elements;
• 5 another sectional view of in 1 shown embodiment, including representation of the housing, the shaft of the drive and the closing elements, wherein the sectional plane at 90 ° to the in 2 shown section is rotated about the cutting line C - C;
• 6 a perspective view of the valve cone and the stub shaft of in 1 shown embodiment of the invention Dreschaftswerfers;
• 7 a simplified sectional view of the housing and the valve plug in 1 shown embodiment of the invention Dreestrawerfers, wherein the valve cone is in a first position; and
• 8th a simplified sectional view of the housing and the valve plug in 1 shown embodiment of the invention Dreestrawerfers, wherein the valve cone is in a second position.

The embodiment shown in the figures of a Drehauswerfers invention 1 has a housing 2 in which a poppet 3 is rotatably mounted with a frusto-conical basic shape (see in particular 1 and 2 ). The housing has an access opening 4 on, by means of a lid 5 can be closed. In the housing are a Fördergut inlet 6 , a first conveyed goods outlet 7 and a second conveyed outlet 8th educated. This is the Fördergut inlet 6 and the first conveyance inlet 7 across from.

On the lid 5 are four ring springs 9 arranged there by means of a holding element 10 are held. The holding element 10 has a base plate 11 on that in a first recess 12 at the bottom 52 of the valve cone 3 is formed by means of screws 13 is attached. The base plate 11 has a circular cross section (see 4 ), whose center is on the longitudinal axis A of the housing 2 lies. When placing the lid 5 on the access opening 4 gets the base plate 11 in the first recess 12 , Here is the first recess 12 designed so that the base plate 11 flush with the base 52 of the valve cone 3 concludes.

At the base plate 11 is a pen 14 attached, its longitudinal axis when the lid 5 the access opening 4 closes, on the longitudinal axis A of the housing 2 lies. The pencil 14 is guided through an opening in the lid 5 is trained. The pencil 14 is within the implementation 16 of the lid 5 along the longitudinal axis A movable and rotatably held about this longitudinal axis, while a movement transverse to the longitudinal axis A of the implementation 16 is blocked. The ring springs 9 are on the pin 14 attached and lie between the base plate 11 and the inside 17 of the lid 5 , Between the inside 17 of the lid 5 and the base page 52 of the valve cone 3 is a gap 18 formed, ie the lid 5 is not on the valve cone 3 at. In the gap 18 are the ring springs 9 arranged. Is the lid 5 on the housing 2 locked under the access opening 4 attached, so press the springs 9 the valve cone 3 along the longitudinal axis A from the lid 5 away and towards the stop surface 41 of the housing 2 , The stop surface 41 lies the access opening 4 across from.

The holding element 10O has a head 15 on that at the end of the pen 14 , that of the base plate 11 facing away, is releasably attached. The pencil 14 of the holding element 10 is through in the lid 5 trained execution 16 guided, so that the head 15 outside the case 2 located when the lid 5 the access opening 4 closes. The head 15 is bolted to the pin, which prevents the pin 14 from the implementation 16 can be pulled.

If the pen 14 with the head 15 screwed form poppets 3 , Lid 5 . retaining element 10 and feathers 9 a non-losing unit, in addition to the stub shaft 29 belongs. Should the valve cone 3 out of the case 2 be removed, then the lid 5 from the access opening 4 decreased. In this case, the coupling between the stub shaft 29 and the wave 30 solved. Together with the lid 5 becomes the valve cone 3 removed from the housing because of the valve plug 3 over the retaining element 10 with the lid 5 connected is. With the insertion of the valve cone 3 over the access opening 4 in the case 2 becomes the lid at the same time 5 on the case 2 locked under the access opening 4 placed. In addition, the coupling between the stub shaft is 29 and the wave 30 produced.

The lid 5 can from the holding element 10 be separated by the head 15 from the pen 14 solved and the lid 5 then from the pen 14 is deducted. Then you can use the ring springs 9 from the pen 14 be removed. However, this is not required to the housing 2 and / or the poppet 3 to clean.

For detachable connection of the lid 5 with the housing 2 a detachable, first clamp connection is provided. For this purpose, the housing 2 one around the access opening 4 circumferential jetty 19 on. At the footbridge 19 is the lid 5 flush with its inside when the lid 5 the access opening 4 closes. The first clamping connection can by means of a first closing element 20 (please refer 5 ) are realized, which under exercise of a clamping force the lid 5 against the jetty 19 pressed. The first closing element 20 has for producing and releasing the first clamping connection, a first closure clip, which can be closed and opened via a rotatably mounted in its threaded pin and cooperating with the threaded pin wing nut on.

On the outside 21 of the lid 5 can be a bow-shaped handle 22 be attached, the putting on of the lid 5 on the access opening 4 and removing the lid from the access opening 4 facilitated.

For holding the housing 2 is a holding device 23 provided a carrier 24 has (see in particular 2 . 4 and 5 ). On the carrier 24 is a spacer 25 attached. The spacer 25 has a first flat ring 26 and a second flat ring arranged parallel thereto 27 on that on the carrier 24 by means of screws 35 is attached. The Rings 26 . 27 each have a cross section in the form of a circular ring whose center lies on the longitudinal axis A and whose inner diameter is greater than the diameter of the stub shaft 29 and the wave 30 is. The Rings 26 . 27 are about striving 28 connected to each other. The stub shaft 29 that is attached to the valve plug 3 is attached, is through the rings 26 . 27 guided.

The housing may be attached to the first ring 26 of the spacer 25 be releasably secured by means of a releasable, second clamping connection. For this purpose, the housing 2 a tubular section 31 on, whose longitudinal axis on the longitudinal axis A of the housing 2 lies. The tubular section 31 extends from the stop surface 41 of the housing 2 in one direction, the access opening 4 turned away. It is in 2 to recognize that the valve cone 3 even not in the tubular section 31 extends when in the case 2 is used. The inner diameter of the tubular portion is smaller than the diameter of the cover side 53 of the valve cone 3 ,

The tubular section 31 has an end face 32 on top of the access opening 4 turned away. At the front 32 of the tubular portion 31 is a circumferential walkway 33 educated. The jetty 33 extends in a direction orthogonal to the longitudinal axis A of this away. Is the case 2 on the spacer 25 attached, so is the bridge with his, the stop surface 41 of the housing 2 facing away from the ring, with the outer edges of the ring 26 and the bridge 33 are formed flush with each other. The second clamping connection can by means of a second closing element 34 (please refer 5 ) are realized, the web under exercise of a clamping force 33 and thus the case 2 against the ring 26 pressed. The second closing element 34 has for producing and releasing the second clamping connection on a second closure clip, which can be closed and opened via a rotatably mounted in its threaded pin and cooperating with the threaded pin wing nut. The spaces between the struts 28 of the spacer 25 form cleaning holes that facilitate its cleaning. To prevent twisting of the housing on the first ring, the ring can 26 dowels 43 have, which engage in corresponding recesses in the web 33 are formed.

The stub shaft 29 is with the valve cone 3 on the top side 53 firmly connected. He is then part of the non-losing unit. The stub shaft 29 has a shaft 37 on. The shaft 37 is when the valve plug 3 in the case 2 is inserted, by a conduct 42 in the case 2 in the front side 32 of the tubular portion 31 is trained, led. The diameter of the bushing 42 is, in particular in 2 it can be seen much larger than the diameter of the shaft 37 , Between the lateral surface of the shaft 37 and the perimeter edge of the passage 42 is a circumferential gap 36 formed when the shaft 37 of the stub shaft 29 through the implementation 42 is guided. The gap 36 between the lateral surface of the shaft shaft and the boundary of the passage is not sealed.

The stub shaft 29 has a plate-shaped head 38 on, hereinafter referred to as shaft head 38 referred to as. The shaft head 38 has a circular cross section and is fixed to the shaft 37 connected. The shaft 37 and the shaft head 38 have a common longitudinal axis, on the longitudinal axis A of the housing 2 lies when the valve plug 3 in the case 2 is used. The shaft head 38 has a larger diameter than the shaft 37 , In the cover page 53 of the valve cone 3 is a second recess 39 formed the shaft head 38 under form-fitting absorbs, so that this with the cover side 53 flush. In this way, the stub shaft 29 positive fit with the valve cone 3 connected. The shaft head 38 is by means of screws 40 on the valve cone 3 attached. Because the stub shaft 29 firmly with the valve cone 3 connected, he is part of the non-losing unit.

To drive the valve cone 3 a drive is provided. The drive has the shaft 30 on that with the stub shaft 29 that with the poppet 3 is firmly connected, can be coupled. The drive, including the shaft 30 , is in a housing 45 arranged by the carrier 24 is held. The longitudinal axis of the shaft 30 lies on the longitudinal axis A of the housing 2 , By means of the drive, the valve cone 3 be rotated about the longitudinal axis A, at the same time the axis of rotation of the valve plug 3 , the shaft stump 29 and the wave 30 is. With the valve cone 3 becomes at the same time the retaining element 10 rotated about the longitudinal axis A.

The wave 30 and the stub shaft 29 can be coupled together and decoupled from each other without tools. It is therefore possible to use the valve plug 3 complete with stub shaft 29 out of the case 2 can be taken without an aid is required. This is only the means of the first closing element 20 To solve solved first clamp connection and the lid 5 to decrease. By removing the lid 5 becomes at the same time the valve cone 3 complete with stub shaft 29 out of the case 2 taken. Conversely, also for inserting the valve cone 3 under coupling of the stub shaft 29 with the wave 30 no tools required. All that is required is the valve cone 3 complete with stub shaft 29 in the case 2 be used by the lid and the first clamping connection by means of the first closing element 20 getting produced.

For coupling and decoupling of the shaft 30 with the stub shaft 29 a plug connection is provided. For this purpose, the stub shaft 29 at his, the valve cone 3 opposite end of a plug head 46 on (see in particular 6 ), in a serving as a corresponding coupling element recess 47 can be introduced. The recess 47 is in the front of the shaft 30 formed the stump 29 is facing.

It is especially in 2 to recognize that between the cover page 53 of the valve cone 3 and the stop surface 41 of the housing 2 A gap 48 is formed, which is around the shaft 37 of the stub shaft 29 circulates. The ring springs 9 press the valve cone 3 in the direction of the stop surface 41 , causing it with its lateral surface 51 against the - in the direction of the stop surface 41 tapered wall 49 of the housing 2 is pressed. This is the valve cone 3 with its lateral surface 51 close to the wall 49 of the housing 2 at. The spring pressure of the springs 9 ensures a tightness between the lateral surface 51 of the valve cone 3 and the tapered wall 49 of the housing 2 ,

At the conveyance inlet 6 , the first conveyed goods outlet 7 and the second Fördergut outlet 8th are pieces of pipe 57 arranged at their, the conveyed material outlets 6 . 7 . 8th opposite ends, flanges 50 can carry, so that the Drehauswerfer 1 can be easily adapted to machines from different manufacturers and then connected.

6 shows the valve cone 3 with its lateral surface 51 that's his base 52 with its cover page 53 combines. The cover page 53 has a smaller diameter than the base side 52 on. The interior of the housing 2 has an interior whose basic shape of the valve cone 3 equivalent. For this purpose, the housing 2 an access opening 4 on, which is dimensioned so that the valve cone 3 can be inserted into the interior so that it covers its entire lateral surface 51 on the wall 49 forming a narrow gap 48 between the stop surface 41 and the cover page 53 of the valve cone 3 and forming a narrow gap between the base side 52 of the valve cone 3 and the access opening 4 is applied. For this purpose, the wall runs 49 conical from the access opening 4 to the stop surface 41 to. The gap between the base page 52 of the valve cone 3 and the access opening 4 becomes part of the pen 14 of the holding element 10 and the ring springs 9 taken when the lid 5 the access opening 4 closes. The gap 14 is then the remainder of the gap between the base 52 of the valve cone 3 and the access opening 4 ,

In the valve cone 3 are ganglike recesses 54 . 55 . 56 for guiding the conveyed material from the conveyance inlet 6 to the first conveyed material outlet 7 or to the second conveyed material outlet 8th are formed. The recesses 54 . 55 and 56 extend to form passages in the interior of the valve cone 3 where the recesses meet. The recesses 54 . 55 and 56 are corresponding to the conveyed material inlet 6 , to the first conveyed goods outlet 7 and to the second conveyed material outlet 8th educated. The first recess 54 lies on an axis with the second recess 55 , The first recess 54 and the second recess 55 form a first course, the third recess 56 and the first recess 54 make a second course. In the embodiment shown, the recesses lie 54 . 55 . 56 at an angle of 90 °, relative to a plane transverse to the longitudinal axis A, to each other. However, this is not mandatory. Alternatively, they may lie at different angles, provided that they are on the lateral surface 51 of the valve cone 3 are spaced from each other.

In 7 is a first position of the valve plug 3 in the case 2 shown. In this position, the first recess borders 54 of the valve cone 3 to the conveyance inlet 6 on and the second recess 55 of the valve cone 3 to the first conveyed material outlet 7 , The third recess 56 of the valve cone 3 adjoins the wall 49 of the housing 2 at. This is the third recess 56 closed, while the first and second recess 54 . 55 are open. Thus, the first gear is open, while the second gear is closed. A product flow of the material to be conveyed to the material to be conveyed 6 is passed, passes through the first gear, that of the first recess 54 and the second recess 55 is formed to the first conveyed material outlet 7 of the housing 2 (Arrow PS1). At the first conveyor outlet 7 of the housing 2 the product stream exits the housing 2 out and can over another line from the housing 2 be carried away for further use. The first conveyed material outlet 7 can represent the good or product outlet.

In 8th is a second position of the valve plug 3 in the case 2 shown. In this position, the third recess borders 56 of the valve cone 3 to the conveyance inlet 6 on and the first recess 54 of the valve cone 3 to the second conveyed material outlet 8th , The second recess 55 of the valve cone 3 adjoins the wall 49 of the housing 2 at. This is the second recess 55 closed, while the first and third recesses 54 . 56 are open. Thus, the second gear is open, while the first gear is closed. A product flow of the material to be conveyed to the material to be conveyed 6 is passed, passes through the second gear, that of the third recess 56 and the first recess 54 is formed, the second conveyed material outlet 8th of the housing 2 (Arrow PS2). At the second conveyor outlet 8th of the housing 2 the product stream exits the housing 2 out and can over another line from the housing 2 be carried away. The second conveyed material outlet 8th can represent the bad outlet.

By means of the drive, the valve cone 3 be rotated from the first position to the second position or vice versa. This is the valve cone 3 around a rotation axis (arrow B in the 2 to 5 ), which lies on the longitudinal axis A of the housing. By means of the drive, the valve cone 3 held in this position after reaching the predetermined position.

LIST OF REFERENCE NUMBERS

1

Drehauswerfer

2

casing

3

shuttle

4

access opening

5

cover

6

Conveyed inlet

7

first conveyed outlet

8th

second conveyed outlet

9

Ringfeder

10

retaining element

11

baseplate

12

first recess

13

screw

14

pen

15

head

16

Execution in the lid

17

inside

18

gap

19

web

20

first closing element

21

outside

22

Handle

23

holder

24

carrier

25

spacer

26

first ring

27

second ring

28

strut

29

stub shaft

30

wave

31

tubular section

32

front

33

web

34

second closing element

35

screw

36

gap

37

shaft

38

stem head

39

second recess

40

screw

41

stop surface

42

execution

43

dowel

45

casing

46

in head

47

recess

48

gap

49

wall

50

flange

51

lateral surface

52

base side

53

cover page

54

first recess

55

second recess

56

third recess

57

pipe section

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

• DE 102008062304 A1 [0003, 0004, 0005]
• DE 102008062304 [0004]

Claims (15)

Drehauswerfer for conveyed, wherein the Drehauswerfer (1) has a housing (2) and in the housing (2) has a valve cone (3) with frusto-conical basic shape, which is rotatably mounted in the housing (2) and driven by a shaft (30) , wherein the housing (2) has a Fördergut inlet (6), a first Fördergut outlet (7) and a second Fördergut outlet (8) and in the poppet (3) gangway-like recesses (54, 55, 56) for guiding of the conveyed material from the conveyed material inlet (6) to the first conveyed material outlet (7) or to the second conveyed material outlet (8) are formed which extend into the interior of the valve cone (3) and are connected to one another, characterized in that the rotary launcher (1) has a spring (9) for pressing the poppet (3) against a wall (49) of the housing (2). Rotary after Claim 1 , characterized in that the housing (2) has an access opening (4) which is closable by means of a lid (5), wherein the spring (9) on the lid (5) is held. Rotary after Claim 2 , characterized in that for holding the spring (9) on the cover (5) a holding element (10) is provided, which is guided through a passage (16) in the lid (5). Rotary after Claim 3 , characterized in that the retaining element (10) comprises a base plate (11) fixed to the base (52) of the poppet (3) and from which a pin (14) passes through the passage (16) formed in the Cover (5) is formed extends, wherein the spring (9) between the base plate (11) and the cover (5) is arranged and the pin (14) in the passage (16) in the direction of its longitudinal axis movable and about its longitudinal axis is held immovable and transversely to its longitudinal axis immovable. Rotary after Claim 4 , characterized in that in the base side (52) of the valve cone (3) has a first recess (12) for receiving the base plate (11) of the holding element (10) is formed. Rotary after Claim 4 or Claim 5 , characterized in that the holding element (10) has a head (15) which is releasably secured to one end of the pin (14). Rotary projector according to one of the preceding claims, characterized in that the valve cone (3) has a cover side (53) and that a stub shaft (29) is fixedly connected to the valve cone (3) on its cover side (53), wherein the stub shaft (29 ) has a shaft (37) which is guided through a passage (42) which is formed in the housing (2). Rotary after Claim 7 , characterized in that the diameter of the passage (42) is at least 10% larger than the diameter of the shaft (37). Rotary after Claim 7 or Claim 8 , characterized in that the shaft (37) carries a head (38) and in the cover side (53) of the valve cone (3) has a second recess (39) is formed, in which the head (38) rests positively. Rotary projector according to one of the preceding claims, characterized in that the cover (5) by means of a releasable, first clamping connection with the housing (2) is connectable. Rotary after Claim 10 , characterized in that the housing (2) on the side in which the access opening (4) is formed, a circumferential ridge (19) on which the lid (5) rests with its inner side (17). Rotary projector according to one of the preceding claims, characterized in that the housing (2) by means of a releasable, second clamping connection to a holding device (23) is attached. Rotary after Claim 12 , characterized in that the holding device (23) has a spacer (25) which holds the housing (2) at a distance from the holding device (23) and has the cleaning openings. Rotary launcher according to one of the preceding claims, characterized in that it comprises one or more adapters (50, 57) for connecting a machine to the rotary driver (1), wherein an adapter is a tubular piece (57) connected to one of conveyed material inlet (6), first Fördergut outlet (7) and second Fördergut outlet (8) connects. Inspection device for testing conveyed for metallic contaminants, characterized in that it comprises a rotary projector (1) according to one of Claims 1 to 14 and a metal detector, wherein the metal detector, based on a product flow of product, upstream of the conveyed material inlet (6) of the housing (2) of the rotary launcher (1) is arranged.

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