RU188262U1 - RADIO FREQUENCY IDENTIFICATION DEVICE CASE - Google Patents

Abstract

The utility model relates to the field of radio engineering and can be used in the construction of radio-frequency identification systems for various objects from various materials, under various conditions, while maintaining the reading range. The housing of the radio-frequency identification device of the object comprises a base with a cavity for the device of radio-frequency identification of the object and a housing cover connected to the base, wherein said housing is made with one rack of elastic material, the free end of which is provided with a mounting pad for mounting to the surface of the object. The technical result achieved by the implementation of this utility model is to increase the number of objects of application, including small or hard-to-reach objects and objects with complex geometry, while improving operational characteristics, namely, increasing resistance to shock loads, safety, reliability and the durability of the device radio frequency identification of the object.

Description

The utility model relates to the field of radio engineering and can be used in the construction of radio-frequency identification systems for various objects from various materials, under various conditions, while maintaining the reading range.

The reading parameters of the radio frequency identification device of the object, such as the reading range and the resonant frequency, change when the antenna of the said device is in close contact with the surface material on which it is located. The parameters of the radio-frequency identification device of an object located on the surface of the marked object may be worse or better than the parameters obtained by measuring the said device in open space (at a considerable distance from foreign objects).

Thus, from the prior art, a structure for attaching a radio frequency identification device (RFID tags) to the surface of a steel identifiable object is known. A mount is a substrate on which an RFID tag is installed, consisting of an antenna and a chip attached to it, and racks attached at right angles to the bottom plane of the substrate, necessary to provide the necessary distance from the RFID tag to the steel surface to eliminate the effect of steel on radiophysical RFID tag properties. Racks, in turn, contain magnets at the ends, for attaching RFID tags to a steel surface. These racks can be bent for fastening to radial steel surfaces (application WO 2007/003293, published January 11, 2007).

The disadvantages of the known design are the lack of strength and durability of the RFID tag, since the known design lacks a protective housing that ensures the integrity of the RFID tag during its operation, in particular, with possible impact or side loads. In addition, the presence of two supports not only reduces the flexibility of the casing of the mark, but excludes the possibility of use on small objects and objects with complex geometry, since a plane of at least the size of the casing itself is required, and the known fastening is suitable only for steel.

Also known from the prior art is the housing of the radio frequency identification device of the object, which is a plastic shell connected to supports for mounting the radio frequency identification device to the surface of the object (CN patent No. 203463424, published 05.03.2014).

A disadvantage of the known solution is the lack of strength of the body under shock loads, which leads to rapid damage to the radio frequency identification device of the object and reduce durability, since the design of the supports does not allow them to bend under shock loads to soften the force of impact. In addition, the presence of two supports eliminates the possibility of application on small objects, and on objects with complex geometry, since a plane of at least the size of the body itself is required, and the known fastening is suitable only for steel.

In addition, from the prior art, the housing of a radio-frequency identification device of an object is known, comprising a base with a cavity for a radio-frequency identification device of an object and a housing cover connected to the base, said housing at opposite ends being made with struts of elastic material for attaching the housing to the surface of the object ( RF patent No. 175191, published on 11.27.2017).

The disadvantages of the known design are the lack of flexibility in the design of the housing due to the presence of several (two) supports located at opposite ends of the housing, which negatively affects the resistance to shock loads, reliability and durability of the device. In addition, the presence of two supports located at opposite ends of the housing excludes the possibility of use on small or hard-to-reach objects and on objects with complex geometry, since a plane of at least the size of the housing itself is required.

The closest analogue of the claimed solution is the bracket for mounting the RFID tag, which is a curved element with a mechanism for attaching to the object (US patent No. 8608086, published December 17, 2013).

A disadvantage of the known solution is the lack of strength of the casing under shock loads, which leads to rapid damage to the radio-frequency identification device of the object and a decrease in durability, since the design of the support does not allow it to bend under shock loads to soften the impact force.

The technical problem of the claimed utility model is the creation of a protective casing for an RFID device with enhanced protective characteristics, maintaining the integrity of the RFID device under shock loads, increasing the service life, preserving the radiophysical properties of the antenna, reducing the influence of the object material on the RFID device, increasing the reading range, with a simplified installation process at one point on any objects and not requiring a joint venture Hoc plane for installation.

The technical result achieved by the implementation of this utility model is to increase the number of objects of application, including small, hard-to-reach objects and objects with complex geometry, while improving operational characteristics, namely, increasing shock resistance, safety, reliability and the durability of the device radio frequency identification of the object.

The specified technical result is achieved in the housing of the radio-frequency identification device, containing a base with a cavity under the device for radio-frequency identification of the object and a housing cover connected to the base, while the said housing is made with one rack of elastic material, the free end of which is equipped with a mounting platform for mounting to the surface object.

The technical result indicated earlier can only be obtained by implementing the entire set of essential features characterizing the claimed utility model.

Owing to the implementation of the housing of the radio-frequency identification device of the object, comprising a base with a cavity for the radio-frequency identification device of the object and a housing cover connected to the base, a long service life and reliable protection of the radio-frequency identification device from external influence of adverse factors, in particular from shock loads, water and dust, are provided . The implementation of the housing with a rack of elastic material, the free end of which is equipped with a mounting platform for mounting to the surface of the object, provides the ability to mount the housing of the RFID device to almost any object having a mounting plane greater than or equal to one mounting platform of the housing, including the possibility of mounting on small or hard-to-reach objects and on objects with complex geometry. Moreover, the presence of only one rack with an installation site allows not only to increase the number of objects of application while maintaining the operational characteristics of the device, but also to increase these operational characteristics, namely, to increase the safety of the device of radio-frequency identification of the object and installation to the object when exposed to shock loads, since the presence of one elastic stand provides bending under the action of possible multidirectional impacts with subsequent return to its original position, thereby amor iziruya, reducing the force of impact attributable to housing.

In addition, due to the implementation of the housing with a rack of flexible material, the free end of which is equipped with a mounting platform for attaching to the surface of the object, a gap is created between the surface of the identifiable object and the radio frequency identification device, which reduces the influence of the material of the identifiable object on the said device and provides a reading range.

In the particular case of the implementation of the base of the housing with a device for radio-frequency identification of the object can be performed parallel to the plane of the installation site, and, therefore, the plane of the object.

In a particular case, the base of the housing with the device for radio-frequency identification of the object can be made at an angle to the installation site, and, consequently, to the surface of the object, to increase the reading range of the device. The angle between the base of the housing and the mounting pad can be between 15 ° - 50 °. With the indicated angle range, the necessary direction of the radio wave is set for further improvement and increase in reading range.

In the particular case of implementation, the angle between the strut and the base of the case is 110-150 °, which further increases the strength of the case, resistance to shock loads, especially to the perpendicular base and the safety of the radio-frequency identification device, since depending on the direction of impact the base carries out longitudinal inclinations and is restored initial position.

In the particular case of implementation, the distance from the installation site to the RFID device is 25-35 mm, which further improves and increases the reading range.

In the particular case, the stand is made in one piece with the base and has a longitudinal slot, which further increases the strength, resistance to shock loads and the safety of the radio-frequency identification device, since depending on the direction of impact the body carries out transverse inclinations and is restored to its original position, as well the slot makes two supports in one rack and if one of the two supports is damaged, the casing can work on the remaining one.

In a particular case, the mounting platform for attaching the housing to the surface of the object can be made with various mounting tools, including special plastic nails, a whole range of screws, bolts and self-tapping screws suitable for the dimensions of the hole in the platform, plastic ties, tapes, wire, as well as due to a magnet built into the mounting pad, which makes it possible to mount the RFID device to any identification object.

In the particular case, the cavity under the RFID device may have a protrusion around the perimeter for performing thermal or ultrasonic welding with a lid to ensure the tightness of the cavity of the location of the RFID device.

In the particular case, the housing can be made of thermoplastics, such as polypropylene and polyethylene, which ensures durability, flexibility and impact resistance.

In a particular case, the cover can be located on the base on the side of the elastic strut and welded to the base of the housing.

The claimed utility model in a particular case is illustrated by drawings.

Figure 1 presents a view of the housing of the device for radio-frequency identification of the object in isometry.

In FIG. 2 is a top view of the casing of a radio frequency identification device of an object.

In FIG. 3 is a longitudinal section of the body of the radio-frequency identification device of the object.

In FIG. 4 - an enlarged place of a longitudinal section of the body of the device of radio-frequency identification of the object.

In FIG. 5 - version of the mounting pad for a plastic nail

In FIG. 6 - version of the installation site for all types of screws, bolts, screws, as well as plastic ties, tape, wire, etc.

In FIG. 7 is an embodiment of a mounting pad with a built-in magnet.

In FIG. 8 is a variant of the housing with an angular arrangement of the base relative to the plane of the object.

According to the claimed utility model, the housing for the radio-frequency identification device of the object comprises a base 1 with a landing cavity 3 or several cavities for the radio-frequency identification device of the object 5 and a cover 2 connected to the base 1, while the said housing is made with one flexible stand 4 of elastic material, on the free end of which there is an installation site for attaching the housing to the surface of the object, providing easy installation, remoteness of the radio frequency identification device from the object and resistance to shock bending and deformation. Said elastic strut 4 can be made at an angle to the base 1, in particular, the angle α between the elastic strut and the base 1 of the casing is 110 ° - 150 °, which increases the strength of the casing with its longitudinal tilts, while the angle β between the strut and the mounting platform can be 30 ° - 70 °. The stand of elastic material is bent under the action of multidirectional impacts with subsequent return to its original position, thereby preserving the integrity of the radio-frequency identification device of the object, the integrity of the housing and mounting to the object.

In the particular case of implementation, the elastic stand 4 is made integrally with the base 1 of the housing or is a continuation of the base 1 of the housing, bent relative to it, thereby increasing the strength of the housing, therefore, additionally increases the resistance to shock loads.

The elastic strut 4 is made with a slot 13, which facilitates bending, transverse tilts of the housing and restores it to its original position, in particular, with a longitudinal length from the edge of the base 1 to the mounting pad 6. The presence of the slot 13 makes two supports in one rack and if one of two housing will be able to work on the remaining.

The presence of only one rack 4 allows you to mount the housing of the RFID device to almost any object having a mounting plane greater than or equal to the mounting pad 6. The mounting pad 6 necessary for attaching the chassis to the surface of the identified object can be made with a hole 8 for a plastic nail 9, designed for fastening in this case to wood; with a hole 10 for fastening with screws, bolts, nails and self-tapping screws suitable for this hole 10 for fastening to any objects; with holes 11 for fastening with plastic ties, ribbons, wire for attaching to round objects or objects of complex shape, or to objects where installation by the above elements is not permissible; and with a built-in magnet 12 for fastening to metal objects.

The cavity 3 for the RFID device 5 has a protrusion 7 along the perimeter, which serves to improve the quality of ultrasonic or thermal welding and to ensure the tightness of the cavity of the RFID device 5. The cover 2 can be located on the base 1 of the body from the side of the identified object.

The base, cover, elastic rack, mounting pad of the body are made of thermoplastics, such as polypropylene and polyethylene, which ensures durability, flexibility and impact resistance.

The base of the housing with a device for radio frequency identification of the object can be performed parallel to the installation site, and, consequently, the plane of the object. Also, the base of the housing with the device for radio-frequency identification of the object can be made at an angle to the installation site, and, consequently, to the surface of the object, to increase the reading range of the device. The angle φ between the base of the housing and the mounting pad can be 15-50 °. It was found that with the specified range of angles, the radiophysical properties increase and the reading range is further improved and increased. So, for example, when objects located above or below the reader or in a space closed around the perimeter are read, so that the wave can go outside due to reflections from the closed space. Thus, the quality and reading range are increased while increasing shock resistance, safety, reliability and durability of the radio frequency identification device of the object.

The casing of the RFID device is characterized by enhanced protective characteristics that preserve the radio-physical properties of the antenna and the integrity of the RFID device under shock loads due to the design of the casing and increase the life of the said device with a simplified process of mounting at one point on any objects and not requiring a special plane for installation, due to various possible mounting areas of the housing, it is possible to mount the housing to various objects mounting means.

Claims (10)

1. The body of the device for radio-frequency identification of the object, characterized in that it contains a base with a cavity for the device of radio-frequency identification of the object and a housing cover connected to the base, while said body is made with one rack of elastic material, the free end of which is equipped with a mounting platform for mounting to surface of the object. 2. The housing according to claim 1, characterized in that the base of the housing with a device for radio-frequency identification of the object is made parallel to the installation site. 3. The housing according to claim 1, characterized in that the angle between the stand and the base of the housing is 110-150 °. 4. The housing according to claim 1, characterized in that the distance from the installation site to the housing of the radio frequency identification device is 25-35 mm. 5. The housing according to claim 1, characterized in that the base of the housing with the device for radio-frequency identification of the object is made at an angle to the installation site, the angle being from 15 to 50 °. 6. The housing according to claim 1, characterized in that the rack is made in one piece with the base and has a longitudinal slot 7. The housing according to claim 1, characterized in that the mounting platform is configured to mount the housing to the surface using plastic nails, screws, bolts and self-tapping screws suitable for the dimensions of the opening of the platform, plastic ties, ribbons, wire and a magnet built into the mounting platform . 8. The housing according to claim 1, characterized in that the cavity under the RFID device has a protrusion along the perimeter of the base. 9. The housing according to claim 1, characterized in that it is made of thermoplastics: polypropylene or polyethylene. 10. The housing according to claim 1, characterized in that the cover is located on the base from the side of the elastic strut and is welded to the base of the housing.

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