DE102009059724A1 - Method and device for testing a shaped fuel body - Google Patents

Abstract

The method according to the invention for testing a shaped fuel body (2), comprising the following steps: - Transporting the shaped fuel body (2) on a transport device (3); - During transport, checking whether the molded fuel body (2) meets at least one specification; and - separating the shaped fuel body (2) from the transport device (3), if it does not meet the specification, is characterized in that the specification comprises at least one of the following conditions: a) a temperature of the shaped fuel body (2) is below a predefinable one limit temperature; b) a height (22) of the molded fuel body (2) above the transport device (3) lies in a predetermined height range around a predetermined limit height; and c) a width (23) of the shaped fuel body (2) in the direction (7) of the transport lies in a predefinable width range around a predefinable limit width. The method according to the invention and the device (1) according to the invention for testing a shaped fuel body make it possible to check briquettes (2) for certain specifications during the transport of the briquettes (2) and to remove these briquettes (2) from the transport device if these specifications are not met ( 3) separate.

Description

The subject of the present invention is a method and an apparatus for testing a shaped article of fuel. As a result, in particular briquettes are checked for compliance with certain requirements during transport and possibly discarded. The method according to the invention and the device according to the invention can be used in particular in the further processing, packaging or repackaging of brown coal briquettes.

Fuel moldings such as briquettes must meet certain specifications. When transporting briquettes, for example, for further processing or packaging, it is known to weed out broken briquettes. To ensure easy further processing or packaging, it is necessary that the briquettes are fed individually and in a specific orientation to the processing or packaging. It should also be ensured that only briquettes that are not subject to the risk of spontaneous combustion are processed or packaged.

It is therefore an object of the present invention at least partially to overcome the disadvantages known from the prior art and, in particular, to provide a method and a device for testing fuel moldings in which the transport of shaped fuel bodies of a specific orientation is reliably ensured on the basis of specifiable criteria can be processed without self-ignition endangered fuel moldings or packaged.

These objects are achieved with the features of the independent claims. The respective dependent claims are directed to advantageous developments.

• – Transport des Brennstoffformkörpers auf einer Transportvorrichtung;
• – während des Transports Prüfung, ob der Brennstoffformkörper mindestens einer Vorgabe entspricht; und
• – Trennen des Brennstoffformkörpers von der Transportvorrichtung, wenn dieser der Vorgabe nicht entspricht.

The inventive method for testing a shaped article comprises the following steps:

• - Transport of the fuel molding on a transport device;
• - during transport, check whether the fuel molding complies with at least one specification; and
• - Separating the fuel molding from the transport device, if this does not meet the specification.

• a) eine Temperatur des Brennstoffformkörpers liegt unterhalb einer vorgebbaren Grenztemperatur;
• b) eine Höhe des Brennstoffformkörpers über der Transportvorrichtung liegt in einem vorgebbaren Höhenbereich um eine vorgebbare Grenzhöhe; und
• c) eine Breite des Brennstoffformkörpers in Richtung des Transports liegt in einem vorgebbaren Breitenbereich um eine vorgebbare Grenzbreite.

The method according to the invention is characterized in that the specification comprises at least one of the following conditions:

• a) a temperature of the fuel molding is below a predetermined limit temperature;
• b) a height of the fuel molding over the transport device is in a predetermined height range to a predetermined limit height; and
• c) a width of the fuel molding in the direction of transport is in a predeterminable width range to a predetermined limit width.

This means that, for example, a shaped fuel body whose temperature is above the predefinable limit temperature, is separated from the transport device. About the specification of the height of the fuel molding on the transport device on the one hand destroyed or incorrectly produced fuel moldings can be sorted out and on the other hand shaped body whose orientation on the transport device does not meet the requirements, are recorded and separated. For example, so fuel moldings that lie on the transport device and are not transported upright be discarded.

By specifying the width of the shaped fuel body in the direction of transport on the transport device, on the one hand misoriented fuel tablets can be discarded and on the other hand so-called adhesives can be prevented in which two or more briquettes stick together due to adhesion or chemical reactions.

The method according to the invention enables the separation of fuel moldings which can not be further processed or packaged, which are not properly oriented on the transport device or which are so hot that spontaneous combustion seems to be possible. At the same time as the separation from the transport device, the issuing of a warning, for example via a corresponding optical and / or acoustic signal, can additionally take place. For clarification, it should be noted that it is sufficient if one of the conditions a) to c) is not fulfilled, but also two or three of the conditions a) to c) can not be fulfilled. If only one of the conditions a) to c) is not met, the fuel molding or the briquette does not meet the specification. Preferably, the test is for compliance with all three conditions a) to c).

According to an advantageous embodiment of the method according to the invention, the transport via a transport device, which is designed as a guide whose width is smaller than a length of the fuel moldings in this direction.

Due to the reduced width of the guide, a fuel mold to be separated relative simply be disconnected from the guide by knocking off.

According to an advantageous embodiment of the method according to the invention, the guide has a width transversely to the direction of transport, which corresponds to the width of a return of the fuel molding.

Fuel moldings and in particular briquettes regularly have projections on one side of the surface and corresponding recesses on an opposite side, so that it is easily possible to stack such briquettes in a stable manner. By using this return to transport so a defined position of the briquette can be achieved in a direction transverse to the guide. Consequently, a stable transport can be ensured.

According to an advantageous embodiment of the method according to the invention, the separation of the fuel molding is carried out by the transport device by pushing down from the transport device.

In particular, when the transport device comprises a guide whose width is smaller than the extension of the fuel moldings in this direction, can easily by a shock up or down on one side of the shaped fuel body, the tilting of this shaped fuel body of the guide or transport device in an area under the leadership or transport device can be achieved.

• a) einer Temperatur des Brennstoffformkörpers;
• b) einer Höhe des Brennstoffformkörpers über der Transportvorrichtung; und
• c) einer Breite des Brennstoffformkörpers in Richtung des Transports

und eine mit dem mindestens einen Sensor verbindbare Steuereinrichtung, die geeignet und bestimmt ist, für den Fall, dass wenigstens eine der gemessenen Größen außerhalb einer Vorgabe liegt, die Trennvorrichtung so anzusteuern, dass der Brennstoffformkörper von der Transportvorrichtung getrennt wird.According to a further aspect of the invention, an apparatus for testing a shaped article of fuel during transport of the shaped article is proposed, comprising a transport device, a separating device for separating a shaped article from the transport device and at least one sensor for detecting at least one of the following variables

• a) a temperature of the fuel molding;
• b) a height of the shaped fuel body above the transport device; and
• c) a width of the fuel molding in the direction of transport

and a control device that can be connected to the at least one sensor and that is suitable and intended, in the event that at least one of the measured variables lies outside of a specification, to control the separating device in such a way that the fuel formed body is separated from the transport device.

In particular, the device and in particular also the control device is suitable and intended to implement the method according to the invention.

According to an advantageous embodiment of the device according to the invention, the transport device comprises a guide whose width is longer than the length of the fuel moldings in this direction.

In particular, the guide is a chain drive whose width corresponds to the corresponding extent of a return of the fuel tablets in this direction. By forming a transport device which is smaller in width than the length of the fuel moldings in this direction, it is possible in a simple manner, for example by triggering an instability, to separate the fuel molding from the guide.

According to a further advantageous embodiment of the device according to the invention, the at least one sensor for detecting the temperature of the fuel molding comprises a non-contact infrared temperature sensor.

Here, temperatures of the fuel moldings can be determined in a simple manner without having to be touched by a corresponding element. Alternatively or additionally, one or more temperature sensors may be formed, which measure the temperature of the or the fuel moldings in contact. In particular, these may be thermocouples or thermoresistors, which may be combined with, for example, a mechanical sensor for determination with other sizes, so that when touched to check the height or width of the fuel mold body and its temperature is detected simultaneously.

• – der Höhe des Brennstoffformkörpers über der Transportvorrichtung; und
• – der Breite des Brennstoffformkörpers in Richtung des Transports mindestens einen der folgenden Messfühler
• – ein federbelastetes Element;
• – eine Rolle;
• – eine federbelastete Rolle;
• – einen induktiven Sensor;
• – einen optischen Sensor; und/oder
• – einen mechanischen Sensor.

According to a further advantageous embodiment of the device according to the invention, the at least one sensor for detecting at least one of the following variables

• - The height of the fuel molding over the transport device; and
• - The width of the fuel molding in the direction of transport at least one of the following sensor
• A spring-loaded element;
• - a role;
• - A spring-loaded roller;
• An inductive sensor;
• An optical sensor; and or
• - a mechanical sensor.

By spring-loaded elements, rollers or spring-loaded rollers, the terms of a Briquettes are determined in which is determined which counterforce acts on the spring and how long this is the case or in which a corresponding position of the roller and the revolutions are determined. Due to the known speed of the transport device can be used to determine a width of the fuel molding in the direction of transport.

The corresponding height of the fuel molding on the transport device can be determined by such an element by checking whether a corresponding running along or a corresponding load of these elements takes place. By means of an inductive sensor, changes, that is to say the movement in and out of a fuel article in and out of the sensitive region of the inductive sensor, can be determined, and from this the corresponding parameters can be determined. An optical sensor may, for example, include a camera with a corresponding evaluation software and, on the other hand, comprise one or more light barriers, via which the entry and exit of the fuel molding into or out of the sensitive area of the optical sensor can be determined. Mechanical sensors can be triggered by moving a mechanical element through the fuel article.

According to a further advantageous embodiment of the device according to the invention, the separating device has a separating shaft, in which a non-compliant fuel shaped body can be transferred. In this context, it is particularly preferred that the separating device comprises a pulse generator, by means of which a shaped fuel body not conforming to the specifications can be transferred into the separating shaft.

For example. It is possible if the fuel molding is moved over a guide whose width is smaller than the length of the fuel molding by a shock against the fuel mold from above or from below to separate them from the transport device. Thus, for example, a corresponding separation shaft can be formed below the transport device, so that the fuel molding that does not conform to the specifications falls into it. The corresponding shock can then be triggered by the pulse generator.

The details and advantages disclosed for the device according to the invention can be transferred and applied to the method according to the invention and vice versa. In the following, the invention will be explained in more detail based on the attached drawings, without the invention being restricted to the details and examples shown there. They show by way of example and schematically:

1 a plan view of a device according to the invention;

2 a section of a first detail of a device according to the invention;

3 a section of a second detail of a device according to the invention and

4 a third detail of a device according to the invention in section.

1 schematically shows an inventive device for testing a briquette 2 trained fuel moldings. The device 1 serves to check the briquette 2 during transport of the briquette 2 , The device 1 includes a transport device 3 and a separator 4 for separating a briquette 2 from the transport device 3 , The device 1 further includes a temperature sensor 5 whose mode of action is particular in 3 will be described in more detail, an expansion sensor 6 (please refer 2 ), which is used to check if the height of the briquette 2 above the transport device 3 lies in a predetermined height range to a predetermined limit height and at the same time whether a width of the briquette 2 in the direction 7 of the transport is within a predeterminable width range by a predetermined limit width.

The separator 4 includes a separation shaft 8th that under the transport device 3 is formed and a pulse generator 9 , Through the pulse generator 9 can be a bump on a briquette 2 , which does not meet the specifications, be exercised, so that the briquette 2 from the transport device 3 tilts and into the separation shaft 8th falls. This is simplified by having a length 10 of the briquette 2 is greater than a width 11 the transport device 3 , The divider 8th is designed so that the separate briquette 2 without the risk of jamming or the like of the transport device 3 can be separated and removed.

pulse 9 , Expansion sensor 6 and temperature sensor 5 are via signal lines 12 with a control device 13 connected. This processes the signals of the expansion sensor 6 and the temperature sensor 5 and checks if they are within the specification. If this is not the case, the pulse generator 9 over the signal line 12 appropriately driven to the relevant briquette 2 from the transport device 3 to separate.

2 schematically shows a section through the device 1 in the area of the expansion sensor 6 , The expansion sensor 6 includes two roles 14 that have a spring 15 to the briquette 2 be pressed. About the determination of the spring force and / or the position of the rollers 14 or the expansion sensor 6 in the vertical direction can be determined whether this is a briquette 2 is pressed and over the term of the roles 14 on the briquette 2 can be the appropriate width of the briquette 2 in the direction 7 of transport. By the spring force of the spring 15 and / or the vertical position of the rollers 14 lets adjust the height of the briquette 2 determine.

The briquette 2 has a lead 16 and a return 17 on. These are designed to be used when stacking different briquettes 2 can mesh. The transport device 3 represents a steel hinge belt conveyor. The transport device 3 includes a chain 18 , on individual links of this chain 18 is a segmented plate-like guide 19 assembled. The plates of the leadership 19 are designed to be in the recesses 17 to come to rest.

3 shows a further section through the device according to the invention 1 in the area of the temperature sensor 5 , The temperature sensor 5 is on the top of the briquette 2 in the area of the projection 16 directed. It is a non-contact temperature sensor 5 , in particular a temperature sensor 5 working on the infrared principle.

4 schematically shows a further section through the device according to the invention 1 in the area of the separating device 4 , In the event that the briquette 2 does not meet the specification, for example. A temperature above a predetermined limit temperature of, for example. About 40 ° C, is by the pulse generator 9 a push in the direction 20 on the briquette 2 given. This then tilts in the direction 21 from the leadership 19 the transport device 3 and is in the separation shaft, not shown here 8th taken up and removed.

In principle, different specifications that the briquette 2 must be specified. Important requirements are the specification of a limit temperature, which must not be exceeded. This is, for example, in the range of 40 ° C. Furthermore, the limit height, for example, the normal height 22 a briquette 2 The height range is chosen so that usual production tolerances in the production of briquettes 2 not for separating the briquette 2 from the transport device 3 to lead.

1 is a width 23 the briquettes 2 which can be used as a limit width in the context of the method according to the invention. The width range is preferably set so that usual tolerances in the production of briquettes 2 not for separating the corresponding briquette 2 from the transport device 3 to lead. The predetermined width range is chosen in particular so that a lying briquette 2 is outside the specification and that two or more sticking briquettes 2 also outside the specification.

The inventive method and the device according to the invention for testing a shaped article of fuel make it possible to use briquettes 2 during the transport of the briquettes 2 to check for specific specifications and these briquettes 2 in case of failure to comply with these requirements of the transport device 3 to separate.

LIST OF REFERENCE NUMBERS

1

Apparatus for testing a shaped fuel body

2

briquette

3

transport device

4

separating device

5

temperature sensor

6

expansion sensor

7

Direction of transportation

8th

separator Drawer

9

pulse

10

Length of the briquette

11

Width of the transport device

12

signal line

13

control device

14

role

15

feather

16

head Start

17

return

18

Chain

19

guide

20

direction

21

direction

22

Height of the briquette

23

Width of the briquette

Claims (10)

Method for testing a shaped fuel body ( 2 ), comprising the following steps: transport of the fuel molding ( 2 ) on a transport device ( 3 ); During transport, checking whether the shaped fuel body ( 2 ) corresponds to at least one specification; and - separating the shaped fuel body ( 2 ) of the transport device ( 3 ), if this does not comply with the specification, characterized in that the specification comprises at least one of the following conditions: a) a temperature of the fuel molding ( 2 ) is below a predeterminable limit temperature; b) a height ( 22 ) of the fuel molding ( 2 ) above the transport device ( 3 ) lies in one predefinable height range around a predefinable limit height; and c) a width ( 23 ) of the fuel molding ( 2 ) in the direction ( 7 ) of the transport is within a predeterminable width range by a predetermined limit width. Method according to Claim 1, in which the transport via a transport device ( 3 ), which as a guide ( 19 ) whose width ( 11 ) is less than a length ( 10 ) the shaped fuel body ( 2 ) in this direction. Method according to Claim 2, in which the guide ( 19 ) a width ( 11 ) transverse to the direction of the transport, the width of a return ( 17 ) of the fuel molding ( 2 ) corresponds. Method according to one of the preceding claims, in which the separation of the shaped fuel body ( 2 ) of the transport device ( 3 ) by repelling the transport device ( 3 ) he follows. Contraption ( 1 ) for testing a shaped fuel body ( 2 ) during transport of the fuel molding ( 2 ) comprising a transport device ( 3 ), a separating device ( 4 ) for separating a shaped fuel body ( 2 ) of the transport device ( 3 ) and at least one sensor ( 5 . 6 ) for detecting at least one of the following quantities: a) a temperature of the shaped fuel body ( 2 ); b) a height ( 22 ) of the fuel molding ( 2 ) above the transport device ( 3 ); and c) a width ( 23 ) of the fuel molding ( 2 ) in the direction ( 7 ) of the transport and one with the at least one sensor ( 5 . 6 ) connectable control device ( 13 ), which is suitable and determined, in the event that at least one of the measured quantities lies outside a specification, the separating device ( 4 ) so that the fuel molding ( 2 ) of the transport device ( 3 ) is separated. Contraption ( 1 ) according to claim 5, wherein the transport device ( 3 ) a guided tour ( 19 ) whose width ( 11 ) is smaller than the length ( 10 ) the shaped fuel body ( 2 ) in this direction. Contraption ( 1 ) according to claim 5 or 6, wherein the at least one sensor ( 5 ) for detecting the temperature of the fuel molding ( 2 ) comprises a non-contact infrared temperature sensor. Contraption ( 1 ) according to one of claims 5 to 7, in which the at least one sensor ( 6 ) for detecting at least one of the following quantities - the height ( 22 ) of the fuel molding ( 2 ) above the transport device ( 3 ); and - the width ( 23 ) of the fuel molding ( 2 ) in the direction ( 7 ) of the transport comprises at least one of the following probes: - a spring-loaded element; - a role ( 14 ); A spring-loaded roller ( 14 ); An inductive sensor; An optical sensor; and - a mechanical sensor. Contraption ( 1 ) according to one of claims 5 to 8, in which the separating device ( 4 ) a separating shaft ( 8th ) into which a non-compliant fuel molding ( 2 ) is convertible. Contraption ( 1 ) according to claim 9, wherein the separating device ( 4 ) a pulse generator ( 9 ), by which a non-standard fuel shaped body ( 2 ) in the separation shaft ( 8th ) is convertible.

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