Related Technical Field of the Invention:

The present invention relates to a system for monitoring wear state of the wear plates which are positioned on the equipment exposing to the physical and mechanical wear and which aims to prolong the lifespan of the equipment.

State of the Art:

Factors such as impact, corrosion and friction occurring on the portion, where the raw material strikes on the equipment surface, while granular or solid particulate materials flow causes wear on the equipment surface.

Nowadays, interior surface of equipment is coated with replaceable plates, which can be manufactured from various materials, so that the main structure of equipment is not worn. The fact that the interior surface of the equipment is coated may ensure to prolong the lifespan of the equipment, however plates worn over time in different thickness and sizes should be replaced. Furthermore, continuously reaching and accessing inside of the equipment and examining wear states of the wear plates constitute a drawback.

In the state of the art, the patent document numbered "US2017184169A1" subject to the application, it is provided a wear indicator arranged on the real friction lining and preferably embedded therein. The invention is a real sensor that detects wear state of the friction lining and configured, such that it senses the wear state continuously or at least in a slightly-increasing manner. As the friction lining wears more, the conductor tracks are gradually interrupted and an appertaining signal generated by the receivertransmitter unit located in the wear indicator is received and displayed by a control unit and/or reading device that is installed in the vehicle or located externally. The transmission technology preferred according to the invention is the so-called RFID (radio frequency identification) technology and especially SAW (surface acoustic wave) technology. In the state of the art, the patent document numbered "US2017003208A1" subjected to the application comprises a sensor, an outer body and a sensor to detect and indicate wear to the outer body. The outer body exhibits an opening extending at least partially through it and the sensor is positioned within the gap.

In the state of the art, the patent document numbered "TR201903671 " subjected to the application ensures to determine the abrasion resistance of at least one wear layer arranged on a carrier plate in an off-line manner, which is at the out of the production line of carrier plate.

In the state of the art, there are various wired and wireless approaches to monitor lifespans of the wear plates. In wired ones, it is required to install a cabling system to each sensor, that is, to each wear plate to be measured in terms of wear. Therefore, it is required to use more equipment, thereby causing to a difficult assembly due to complexed cabling. Furthermore, it is inevitable to avoid damages to the cabling during the operation. In wireless ones, complexed electronic circuits are needed in the sensor and said circuits are required to be connected with a power supply to receive and transmit signals. And this leads that the wear monitoring sensor has a certain lifespan.

In the state of the art, there are applications that perform wear monitoring by means of RFID tag. In such application, RFID sensor is embedded in the wear plate. This process is both laborsome and the signal sensitivity between the RFID tag and the reader is weakened due to the metal effect. Furthermore, RFID tags should be protected against impacts.

In the state of the art, there is no system that is able to monitor the wear state that may occur on the wear plates in a wireless manner by means of passive RFID tag out of the sensor and wear plates operation through a mechanism mounted on the wear plate.

Consequently, An improvement is necessary to be made to overcome the abovementioned disadvantages and the inadequacy of recent solutions in eliminating these disadvantages in the related technical field. Object of the Invention:

The most important object of the present invention is to provide a system for monitoring wear state of the wear plates which are positioned on the equipment exposing to the physical and mechanical wear and which aims to prolong the lifespan of the equipment.

Another important object of the present invention is to decrease the additional cost and complexity resulting from the cabling.

Another important object of the present invention is to provide ease of mounting.

Another important object of the present invention is to prevent possible signal losses due to metal, because RFID tags will be on outer side of the wear plate.

Another object of the present invention is to eliminate the need for the power supply, such as cell battery or battery, through complexed electronic circuits on the sensor for the purpose of data exchange and signal transmission.

The subject matter invention's structural features and characteristics and its all advantages will be understood clearly by means of the figures given below and the detailed description provided with references to the figures. Therefore, assessment should be done by taking these figures and detailed description into consideration.

Description of the Figures:

Figure -1 ; an isometric view of the inventive wear sensing system.

Figure -2; a sectional view of the inventive wear sensing system.

Figure -3; an isometric view of components of the inventive wear sensing system.

Figure -4; an isometric view of the inventive wear sensing system. Reference Numbers:

100. Wear sensing system

101. Housing

102. Tag housing

103. Radio frequency identification tag

104. Trigger mechanism

114. Needle

115. Spring

200. Wear plate

300. Tag reader and antenna system

Description of the Invention

The present invention relates to a system for monitoring wear state of the wear plates which are positioned on the equipment exposing to the physical and mechanical wear and which aims to prolong the lifespan of the equipment.

The inventive wear sensing system (100) comprises a housing (101 ), a tag housing (102), a radio frequency identification tag (103) and a trigger mechanism (104).

The inventive wear sensing system (100) can be mounted on the wear plate (200) directly or through a nut.

Said wear plate (200) is mounted on equipment, which are exposed to physical and mechanical wear, and ensures to prolong the lifespan of the equipment. The housing (101 ) is mounted on the wear plate (200) and is worn simultaneously together with the wear plate (200). Further, the housing (101 ) ensures to attach the trigger mechanism (104) therein and the tag housing (102) thereon.

Said tag housing (102) is affixed on the housing (101 ) and ensures to attach the radio frequency identification tag (103) thereon. The tag housing (102) keeps the radio frequency identification (103) distant from the metal environment. The tag housing (102) is manufactured from a material such as plastic or polyamide.

Tag reader and antenna system (300) reads the radio frequency identification (RFID) tag (103) and performs the signal exchange. The tag reader and antenna system (300) provides a warning that the wear has reached up a critical level, when it cannot receive a signal from the radio frequency identification tag (103).

The radio frequency identification tag (103) carries out the signal exchange with the tag reader and antenna system (300). The radio frequency identification tag (103) is activated by the signal received from the tag reader and antenna system (300) and sends back a signal and carries out the reading process. Since the radio frequency identification tag (103) is a passive tag, it does not require any power supply.

Trigger mechanism (104) is activated, when the wear occurring in the housing (101 ) reaches a critical level, and further comprises a metal needle (1 14) to break the radio frequency identification tag (103) and a metal spring (1 15) to operate the needle (1 14). The trigger mechanism (104) ensures that the spring (1 15) is released and the needle (1 14) breaks the radio frequency identification tag (103), when the wear reaches a predetermined critical level. The trigger mechanism (104) is manufactured from a material such as metal, polyamide or castermid. The trigger mechanism (104) is positioned in the tag housing (102) in a proper distance based on the critical wear point of the wear plate (200). The distance may vary based on the thickness of the wear plate (200).

In an embodiment of the present invention, said system is mounted on the wear plate (200) directly or by means of a nut. The system comprises a metal housing (101 ), wherein the trigger mechanism (104) is to be positioned and on which the tag housing (102) is to be positioned. Said housing (101 ) is mounted on the wear plate (200) and is exposed to the physical wear together with the wear plate (200). When the wear does not reach a critical level, the tag reader and antenna system (300) is able to receive a signal from the passive radio frequency identification tag (103) and thus, it will be understood that the wear does not reach a critical level. When the wear reaches a predetermined critical level, the mechanism is activated, and the metal needle (1 14) damages the radio frequency identification tag (103). Since it is not possible to receive a signal from the damaged radio frequency identification tag (103), it will be detected that the wear occurring on the wear plate (200) reaches a critical level and a warning will appear on the monitoring device.