DE202017106872U1 - Sensor arrangement for determining a variable voltage of a circulating chain or belt drive - Google Patents

Abstract

Sensor arrangement for determining a variable voltage of a circulating chain or belt drive, comprising a spring element (8) fastened to a base body (9), which is in operative connection with the chain or belt drive, and an inductive sensor (10) which changes the voltage Monitors spring element (8), characterized in that the inductive sensor (10) for detecting a variable distance of a plurality of spring coils (11) of the metallic compression spring spring element (8) to each other directly opposite these spring coils (11) is arranged.

Description

The invention relates to a sensor arrangement for determining a variable voltage of a circulating chain or belt drive, comprising a fixed to a body spring element, which is in operative connection with the chain or belt drive and an inductive sensor which monitors voltage-dependent changes of the spring element, and a Clamping system for using the sensor arrangement.

Clamping systems are used particularly in conveyor systems to absorb vibrations, wear or temperature fluctuations that express themselves in longitudinal dimensions.

From the DE 20 2015 104 860 U1 there is known a chain or belt tensioning device for a chain or belt on a conveyor which includes a base member, a chain guide profile with a chain or belt guide member slidably mounted in or on the base member and one between the base member and the chain guide profile shows acting spring element. An inductive sensor is attached to the base element, wherein a metallic initiator element is arranged on the chain guide profile of the side facing the sensor. By means of this arrangement, a certain position of the chain guide profile relative to the base element is detected, whereby a decrease in a chain tension is detected.

In such tensioning systems for conveyor systems, it is very expensive to monitor the entire travel path, since the travel path is significantly greater than a detection range of the inductive sensor.

The DE 42 39 635 A1 shows a method and a device for position detection of valve rod movements of electro-pneumatic voltage regulator, in which in an inductively operating sensor, an RF oscillation within an LC resonant circuit for generating a high-frequency alternating electromagnetic field is excited, wherein a moving from the valve rod electrically conductive body, the HF Oscillation attenuated path-dependent.

The invention has for its object to provide a sensor arrangement for determining a variable voltage of a revolving chain or belt drive, wherein the detection range of the sensor is smaller than the travel and still the variable voltage can be reliably determined.

According to the invention the object is achieved in that the inductive sensor for detecting a variable distance of a plurality of spring coils of the spring element formed as a metallic compression spring is arranged directly opposite one another these spring coils. This has the advantage that by considering the compression of the compression spring, in which reduce the distances between the spring coils of the compression spring, even longer travel paths can be evaluated, which are outside the detection range of the sensor. For a simple detection of the change in distance of the spring coils due to vibrations, wear or temperature fluctuations is possible.

Advantageously, the inductive sensor extends axially to the compression spring. This axial arrangement reduces the stressed space for the sensor assembly and thus increases the possible applications of the sensor arrangement. The compression spring may also be formed as a spiral spring.

In one embodiment, the inductive sensor is disposed within the compression spring, wherein an inner diameter of the compression spring is greater than an outer diameter of the inductive sensor. This ensures that no mechanical contact between pressure spring and sensor occurs and can be reliably determined by the contactless detection of the distance of the spring coils of the state of tension of the chain or belt drive.

In one embodiment, the inductive sensor extends radially to the compression spring. This arrangement allows a particularly accurate detection of the changing distance, since the detection range of the sensor can be brought close to the spring coils.

In one variant, the compression spring consists of a steel. The design of the entire compression spring made of steel, a particularly space-friendly and cost-reducing sensor arrangement is created.

Advantageously, the inductive sensor comprises a resonant circuit whose damping is proportional to the variable voltage. Since in the compression of the compression spring by the compression of the spring coils by the inductive sensor more metal is detected, the damping of the resonant circuit, which is utilized as a signal for the changed voltage increases.

In a development of the invention, the inductive sensor has an analogue and / or digital output and / or an I / O link interface, wherein programmable status information can be output.

By means of a signal evaluation or control and evaluation unit installed in the inductive sensor, information about the existing voltage can be made clearly visible, for example via a change in the output voltage or via an IO link via which corresponding information is output. In this case, for example, the values "full compressive stress", "half compressive stress" or "no compressive stress" can be output via the output.

In order to monitor vibrations, an acceleration sensor is integrated in the inductive sensor. By means of this vibration monitoring conclusions can be drawn on the life of the sensor assembly, in particular of the spring bearing.

A development of the invention comprises a tensioning system for a chain or belt drive, in particular for a conveyor system, with a sensor arrangement for determining a variable tension of the chain or belt drive. In order to specify a clamping system in which the detection range of the sensor is smaller than the travel path and nevertheless the variable voltage can be reliably determined, the sensor arrangement is designed according to at least one feature described in this patent application.

Advantageously, the sensor arrangement comprises a chain or belt drive bearing chuck, which is mounted on the compression spring, which is arranged in a clamping box, in which the chuck dives in dependence on the voltage.

In one embodiment, the sensor assembly is attached to a lever arm which is fixedly connected to a flange of the clamping box. In this case, the monitoring of the changing voltage by changing the damping due to overlaps of the detection surface of the inductive sensor and the lever arm. The inductive sensor is firmly connected to the flange of the clamping box and thus experiences no rotational movement, whereby a falsification of the measurement result is prevented.

In an alternative, the sensor arrangement is arranged in the clamping box, which has a smooth surface. This prevents that during the movement of the compression spring relative to the inside of the compression spring arranged inductive sensor, a faulty sensor signal is output due to a contact both.

The invention allows numerous embodiments. Two of these will be explained in more detail with reference to the figures shown in the drawing.

• 1 eine Prinzipdarstellung einer Förderanlage mit einer Kettenspannvorrichtung,
• 2 ein erstes Ausführungsbeispiel eines erfindungsgemäßen Spannsystems mit erfindungsgemäßer Sensoranordnung,
• 3 ein weiteres Ausführungsbeispiel des erfindungsgemäßen Spannsystems mit erfindungsgemäßer Sensoranordnung,
• 4 ein weiteres Ausführungsbeispiel des erfindungsgemäßen Spannsystems,
• 5 ein Ausführungsbeispiel für die Anwendung eines erfindungsgemäßen Spannsystems.

Show it:

• 1 a schematic diagram of a conveyor system with a chain tensioning device,
• 2 A first embodiment of a clamping system according to the invention with inventive sensor arrangement,
• 3 a further embodiment of the clamping system according to the invention with inventive sensor arrangement,
• 4 a further embodiment of the clamping system according to the invention,
• 5 an embodiment of the application of a clamping system according to the invention.

In 1 is a principle of a conveyor system shown. In this conveyor system 1 come driven belts or chains 2 for use, which are endless and formed by a wheel 3 be driven circumferentially and at least one more deflection 4 have. This is done by means of a clamping system 5 a permanent, even preload on the chain 2 or the belt.

In addition, a clamping system 5 be considered, in which the bias of a chain 2 should be maintained. To vibration, wear (longitudinal extent of the chain 2 ) or temperature fluctuations (longitudinal extent of the chain 2 ) intercept, becomes a clamping system 5 used, which according to the 2 to 4 from a clamping box 6 and a chuck 7 is formed. In the clamping box 6 is a metallic compression spring 8th arranged, which the clamping head 7 wearing. The compression spring 8th is on a body 9 the clamping box 6 attached and stretches inside the tension box 6 in a linear direction between the base body 9 and the chuck 7 out. According to 2a is inside the compression spring 8th an inductive sensor 10 arranged, the detection area a plurality of spring coils 11 the compression spring 8th includes. Inside the inductive sensor 10 is a non-illustrated LC resonant circuit is arranged, which is connected to a signal evaluation, also not shown. The unloaded state of the compression spring 8th is in 2 B shown. Does the distance between the main body change? 9 and the chain 2 , so the pressure spring 8th upset as it is in 2c is shown. By this compression detected within the compression spring 8th arranged inductive sensor 10 more metal, resulting in a higher damping in the inductive sensor 10 built resonant circuit leads. The output signal of the inductive sensor 10 thus provides information about the Clamping condition, ie the applied distance between base body 9 and chain 2 ,

In 3 is shown a further embodiment of the clamping system according to the invention, in which the inductive sensor 10 radially to the compression spring 8th is arranged ( 3a) , Here is the inductive sensor 10 within a wall of the clamping box 6 attached. By means of the compression spring 8th becomes the entire travel of the clamping head 7 supervised. As the detection range of the inductive sensor 10 is very small to the full stroke of the chuck 7 The monitoring takes place by considering the change in the distance of the spring coils 11 the compression spring 8th ( 3b . 3c) ,

In 4 is another embodiment of the clamping system according to the invention 5 and the sensor arrangement according to the invention, in which a lever arm 12 that stuck to the main body 9 , For example, a flange of the clamping box 6 is attached, the inductive sensor 10 carries, which is parallel to the clamping box 6 expands. In this case, the monitoring of the movement of the clamping head 7 by changing the damping of the resonant circuit, which in the inductive sensor 10 due to a change in the distance between the detection surface of the sensor 10 and the clamping head 7 .. because the inductive sensor 10 firmly on the body 9 is arranged, this thus experiences no movement.

According to 5 the monitoring of the contact force or thickness of workpieces or objects takes place. The conveyor belt 2 is, for example, a roller conveyor which holds the objects 14 promotes. The conveyor belt is fixed and can not yield. If there is a change in the thickness of the objects 14 will be the angle of the clamping system 5 to change. The clamping system has a lever arm and a pressure roller 13 on. Because the sensor is the clamping system 5 detected, the sensor will detect the change in angle, whereby the contact force or the thickness of the objects can be detected.

By the proposed solution, the current state of tension of the chain or belt drive can be better monitored. At the same time a long-term measurement is possible. Thus, there is the possibility to schedule maintenance in good time and avoid disruptions. Furthermore, vibrations in the drive can be measured in order to draw conclusions about the operational capability of the conveyor system. Additionally, the vibrations may provide information about the use of the conveyor, e.g. about torque fluctuations or whether a constant torque is set. The proposed system can also be applied in other areas, e.g. in vibration dampers, where by the spring monitoring a vibration amplitude can be recorded. In processes can be monitored with the proposed solution, whether a spring is overloaded by this is compressed to block length or whether a tension spring is deflected too much.

In the alternative use of clamping levers instead of the clamping box the way for the detection of the entire clamping range with an inductive sensor is usually not suitable. Thus, the detection of the clamping path or an angular change is not directly on the chain or tensioning wheel, but on the body. The use of clamping levers is due to relatively simple design for optimal retrofitting, as well as for the standard equipment, since no reworking necessary. The attachment is made by an adapter. In addition, different clamping lever sizes can be used. The output signal has a high signal amplitude.

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 202015104860 U1 [0003]
• DE 4239635 A1 [0005]

Claims (11)

Sensor arrangement for determining a variable voltage of a circulating chain or belt drive, comprising a spring element (8) fastened to a base body (9), which is in operative connection with the chain or belt drive, and an inductive sensor (10) which changes the voltage Monitors spring element (8), characterized in that the inductive sensor (10) for detecting a variable distance of a plurality of spring coils (11) of the metallic compression spring spring element (8) to each other directly opposite these spring coils (11) is arranged. Sensor arrangement after Claim 1 , characterized in that the inductive sensor (10) extends axially to the compression spring (8). Sensor arrangement after Claim 2 , characterized in that the inductive sensor (10) is disposed axially within the compression spring (8), wherein an inner diameter of the compression spring (8) is greater than an outer diameter of the inductive sensor (10). Sensor arrangement after Claim 1 , characterized in that the inductive sensor (10) extends radially to the compression spring (8). Sensor arrangement according to at least one of the preceding claims, characterized in that the inductive sensor (10) comprises a resonant circuit whose damping is proportional to the variable voltage. Sensor arrangement according to at least one of the preceding claims, characterized in that the inductive sensor has an analog and / or digital output and / or an I / O link interface, wherein programmable status information can be output. Sensor arrangement according to at least one of the preceding claims, characterized in that an acceleration sensor for monitoring vibrations in the inductive sensor (10) is integrated. Clamping system for a chain or belt drive, in particular for a conveyor system, with a sensor arrangement for determining a variable voltage of the chain or belt drive, characterized in that the sensor arrangement is designed according to at least one of the preceding claims. Clamping system after Claim 8 , characterized in that the sensor arrangement comprises a chain or belt drive bearing chuck (7) which is placed on the compression spring (8) which is arranged in a clamping box (6), in which the chuck (7) in dependence the tension dips. Clamping system after Claim 8 or 9 , characterized in that the sensor arrangement is fixed to a lever arm (12) which is fixedly connected to a flange (9) of the clamping box (6). Clamping system after Claim 8 or 9 , characterized in that the sensor arrangement is arranged in the clamping box (6), which has a smooth inner surface.

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