CN215529600U - Intelligent temperature sensing end cap of qxcomm technology - Google Patents

Abstract

The utility model discloses an omnidirectional intelligent temperature sensing plug which comprises an insulating shell and a temperature measuring inner core assembly arranged in the middle of the insulating shell, wherein the temperature measuring inner core assembly comprises an inner core base (10) and an inner core mounting platform (20) fixed on the top surface of the inner core base (10), a plurality of inner core mounting planes (201) which are milled flat along the axial parallel direction of the inner core mounting platform (20) are arranged on a column body of the inner core mounting platform (20), and a temperature measuring label (30) is fixed on each inner core mounting plane (201).

Description

Intelligent temperature sensing end cap of qxcomm technology

Technical Field

The utility model relates to the technical field of Radio Frequency Identification (RFID), in particular to an intelligent temperature sensing plug based on a Radio Frequency Identification technology.

Background

The cable end cap is generally arranged at the end part of the cable and can play the roles of water resistance and easy maintenance of the cable. The existing cable plug has a single function, only can play a role of plugging the end part of a cable, and lacks a cable plug capable of monitoring the temperature of a joint inside a cable joint. The radio frequency identification technology is a non-contact automatic identification technology for realizing information transmission and tracking of a specific target through radio waves, and has been recognized as one of the ten important technologies in the 21 st century by the world as a technology capable of accurately, quickly and real-timely acquiring specific target information. Compared with the traditional bar code, the radio frequency identification technology has the advantages of water resistance, magnetism prevention, high temperature resistance, long service life, large storage information capacity, non-line-of-sight identification, high reading speed, long reading and writing distance, simultaneous reading of multiple labels and the like, and has huge application space in numerous fields of logistics management, access control systems, luggage sorting, electronic toll collection systems, biomedical treatment and the like through the combination with the Internet. Therefore, with the increasing development of the internet of things, it is necessary to provide an intelligent temperature sensing plug which can be used as an equipment identifier and can also be used as a temperature sensor for measuring temperature.

The temperature measurement label of the temperature sensing plug in the prior art is usually 1, for example, the chinese utility model patent with publication number CN211234777U discloses an intelligent temperature sensing plug, the temperature measurement label is installed on the plane of the top of the plug, and the plug is usually horizontally installed, which requires the reader-writer to be installed on the cabinet door of the ring main unit, but the ring main unit cabinet door needs to be opened, the installation of the reader-writer is troublesome, and the problem of unstable read data exists when the reader-writer is installed in other directions; in the prior art, a passive temperature measurement plug is provided, a temperature measurement tag is arranged on one side of an inner core of the plug, the front face of the temperature measurement tag of the plug needs to face a reader-writer when the plug is required to be installed, the top of a ring main unit is a proper installation position, but the front face of the temperature measurement tag of the plug cannot be guaranteed to face the reader-writer, and if the reader-writer and the temperature measurement tag are not installed in a front-to-front mode, the problem that the temperature measurement tag cannot be read exists.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model aims to provide an omnidirectional intelligent temperature sensing plug, which can be used as an equipment identifier and a temperature sensor for measuring temperature, so that information reading at 360 degrees without dead angles is realized.

In order to achieve the purpose, the omnidirectional intelligent temperature sensing plug comprises an insulating shell and a temperature measuring inner core assembly arranged in the middle of the insulating shell, wherein the temperature measuring inner core assembly comprises an inner core base (10) and an inner core mounting platform (20) fixed on the top surface of the inner core base (10), a plurality of inner core mounting planes (201) which are milled in the axial parallel direction of the inner core mounting platform (20) are arranged on a column body of the inner core mounting platform (20), and a temperature measuring label (30) is fixed on each inner core mounting plane (201).

Preferably, the temperature measurement label (30) comprises a base material (301), a temperature measurement label chip (302) and a label antenna (303), wherein the label antenna (303) is etched on the front surface and the back surface of the base material (301), one surface of the base material (301) is fixed on the inner core mounting plane (201), and the temperature measurement label chip (302) is mounted on the front surface of the label antenna (303) on the other surface of the base material (301).

Preferably, every 120 degrees of the column body of the inner core mounting platform (20) is provided with an inner core mounting plane (201) which is milled flat along the axial parallel direction of the inner core mounting platform (20).

Preferably, every 180 degrees of the column body of the inner core mounting platform (20) is provided with an inner core mounting plane (201) which is milled flat along the axial parallel direction of the inner core mounting platform (20).

Preferably, the inner core base (10) is cylindrical, the inner core mounting platform (20) is also approximately cylindrical, the diameter of the inner core mounting platform (20) is smaller than that of the inner core base (10), and the inner core mounting platform (20) and the inner core base (10) are coaxially arranged.

Preferably, the inner core base (10) and the inner core mounting platform (20) are integrally formed to form a temperature measuring inner core assembly.

Preferably, the temperature measuring label (30) is adhered to the inner core mounting plane (201) by using heat conducting glue.

Preferably, the area of the inner core mounting plane (201) is slightly larger than that of the temperature measuring label (30).

Preferably, the substrate (301) is made of a material with a high dielectric constant.

Preferably, the insulating housing is an epoxy insulating housing.

Compared with the prior art, the omnidirectional intelligent temperature sensing plug is characterized in that an inner core base (10) and an inner core mounting platform (20) are integrally formed to form a temperature measuring inner core assembly, a plurality of inner core mounting planes (201) which are milled in the axial parallel direction of the inner core mounting platform (20) are arranged on the column body of the inner core mounting platform (20), and a temperature measuring tag (30) is fixed on each inner core mounting plane (201), so that the omnidirectional intelligent temperature sensing plug not only can be used as an equipment identifier, but also can be used as a temperature sensor for measuring temperature, and the temperature measuring tags are arranged on two or even three surfaces of the inner core mounting platform (20), so that 360-degree dead-corner-free reading can be basically realized, and the reading success rate is improved.

Drawings

FIG. 1 is a front view of an omnidirectional intelligent temperature sensing plug of the present invention;

FIG. 2 is a cross-sectional view of an omnidirectional intelligent temperature sensing plug of the present invention;

fig. 3 is a top view of an omnidirectional intelligent temperature sensing plug of the present invention.

Detailed Description

Other advantages and capabilities of the present invention will be readily apparent to those skilled in the art from the present disclosure by describing the embodiments of the present invention with specific embodiments thereof in conjunction with the accompanying drawings. The utility model is capable of other and different embodiments and its several details are capable of modification in various other respects, all without departing from the spirit and scope of the present invention.

Fig. 1 is a front view of an omnidirectional intelligent temperature sensing plug of the present invention, fig. 2 is a cross-sectional view of the omnidirectional intelligent temperature sensing plug of the present invention, and fig. 3 is a top view of the omnidirectional intelligent temperature sensing plug of the present invention. As shown in fig. 1, 2 and 3, the omnidirectional intelligent temperature sensing plug of the present invention includes an insulating housing (not shown in the figure) and a temperature measuring core assembly disposed in the middle of the insulating housing, where the temperature measuring core assembly includes a core base 10 and a core mounting platform 20 fixed on the top surface of the core base 10, in a specific embodiment of the present invention, the core base 10 is cylindrical, the core mounting platform 20 thereon is also approximately cylindrical, and the diameter of the core mounting platform 20 is smaller than that of the core base 10, the core mounting platform 20 and the core base are coaxially disposed, the lower bottom surface of the core mounting platform is fixed to the upper bottom surface of the core base 10, and the core base 10 and the core mounting platform 20 are integrally formed to form the temperature measuring core assembly.

The column body of the inner core mounting platform 20 is uniformly provided with a plurality of milled inner core mounting planes 201, in the specific embodiment of the utility model, the column body of the inner core mounting platform 20 is provided with three milled inner core mounting planes 201, every 120 degrees of the column body of the inner core mounting platform 20 is provided with one inner core mounting plane 201 milled in the axial parallel direction of the inner core mounting platform 20, the area of the inner core mounting plane 201 is slightly larger than the area of the temperature measurement label 30 so as to be aligned with the temperature measurement label 30, the temperature measurement label 30 is composed of a base material 301, a temperature measurement label chip 302 and a label antenna 303, the base material 301 is a flat plate, the label antenna 303 is usually an etched metal wire or surface, the front surface and the back surface of the base material 301 are both provided with etched metal wires or surfaces with certain shapes, one surface of the base material 301 is adhered to the mounting plane 201 by using a heat-conducting adhesive, the temperature measurement label chip 302 is mounted on the front surface of the label antenna 303 on the other surface of the base material 301, specifically, the base material 301, the temperature measurement tag chip 302 and the tag antenna 303 may be formed into a temperature measurement tag 30 of pcb (printed circuit board), and then the temperature measurement tag is attached to the mounting plane 201 by using a heat conductive adhesive to measure the temperature of the plug and upload the temperature data under the control of an external read-write device. Since a small size is required to facilitate the attachment to the side of the core mounting platform 20, a high dielectric constant material such as ceramic is generally used for the base material 301.

In the specific embodiment of the utility model, the insulating shell conforms to general electrical requirements, flame-retardant materials such as epoxy resin are used to ensure the insulating resistance requirement and the safety requirement, and the outer surface of the insulating shell is a cylinder with equal or unequal diameters on the upper surface and the lower surface.

In another embodiment of the present invention, two milled inner core mounting planes 201 are disposed on the column body of the inner core mounting platform 20, the two inner core mounting planes 201 are symmetrically disposed on the column body of the inner core mounting platform 20, that is, one inner core mounting plane is disposed every 180 degrees, and one inner core mounting plane 20 milled along the axial parallel direction of the inner core mounting platform 20 is disposed every 180 degrees on the column body of the inner core mounting platform 20, and since the fixing manner of the temperature measurement tag 30 is the same as the above-mentioned case of disposing three inner core mounting planes 201, it is not described herein again.

Therefore, the omnidirectional intelligent temperature sensing plug is an integrated product, the temperature measuring tag can directly sense the temperature due to good heat conduction of metal, the omnidirectional intelligent temperature sensing plug not only can be used as an equipment mark, but also can be used as a temperature sensor for measuring the temperature, and the temperature measuring tag is arranged on two or even three surfaces of the inner core mounting platform 20, so that 360-degree dead-angle-free reading can be basically realized, and the reading success rate is improved.

In summary, the omnidirectional intelligent temperature sensing plug is characterized in that an inner core base (10) and an inner core mounting platform (20) are integrally formed to form a temperature measuring inner core assembly, a plurality of inner core mounting planes (201) which are milled in the axial parallel direction of the inner core mounting platform (20) are arranged on the column body of the inner core mounting platform (20), and a temperature measuring tag (30) is fixed on each inner core mounting plane (201), so that the omnidirectional intelligent temperature sensing plug not only can be used as an equipment identifier, but also can be used as a temperature sensor for measuring temperature, and the temperature measuring tags are arranged on two or even three surfaces of the inner core mounting platform (20), so that 360-degree dead-angle-free reading can be basically realized, and the reading success rate is improved.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the utility model. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Therefore, the scope of the utility model should be determined from the following claims.

Claims (10)

1. The utility model provides an intelligence temperature sensing end cap of qxcomm technology which characterized in that: the plug comprises an insulating shell and a temperature measurement inner core assembly arranged in the middle of the insulating shell, the temperature measurement inner core assembly comprises an inner core base (10) and an inner core mounting platform (20) fixed to the top surface of the inner core base (10), a plurality of inner core mounting planes (201) are arranged on a column body of the inner core mounting platform (20) and are milled in the axial parallel direction of the inner core mounting platform (20), and a temperature measurement label (30) is fixed on each inner core mounting plane (201).

2. The omnidirectional intelligent temperature-sensing plug according to claim 1, wherein: temperature measurement label (30) include substrate (301), temperature measurement label chip (302) and label antenna (303), the front and the back of substrate (301) all etch label antenna (303), substrate (301) one side is fixed in inner core mounting plane (201), temperature measurement label chip (302) are installed label antenna (303) of the another side of substrate (301) are openly gone up.

3. The omni-directional intelligent temperature-sensing plug according to claim 2, wherein: an inner core mounting plane (201) which is milled flat along the axial parallel direction of the inner core mounting platform (20) is arranged at every 120 degrees of the column body of the inner core mounting platform (20).

4. The omni-directional intelligent temperature-sensing plug according to claim 2, wherein: an inner core mounting plane (201) which is milled flat along the axial parallel direction of the inner core mounting platform (20) is arranged at every 180 degrees of the column body of the inner core mounting platform (20).

5. The omni-directional intelligent temperature-sensing plug according to claim 3 or 4, wherein: the inner core base (10) is cylindrical, the inner core mounting platform (20) is also approximately cylindrical in structure, the diameter of the inner core mounting platform (20) is smaller than that of the inner core base (10), and the inner core mounting platform (20) and the inner core base (10) are coaxially arranged.

6. The omnidirectional intelligent temperature-sensing plug according to claim 5, wherein: the inner core base (10) and the inner core mounting platform (20) are integrally formed to form a temperature measuring inner core assembly.

7. The omnidirectional intelligent temperature-sensing plug according to claim 6, wherein: the temperature measurement label (30) is adhered to the inner core mounting plane (201) by using heat-conducting glue.

8. The omni-directional intelligent temperature-sensing plug according to claim 7, wherein: the area of the inner core mounting plane (201) is slightly larger than that of the temperature measuring label (30).

9. The omnidirectional intelligent temperature-sensing plug according to claim 6, wherein: the base material (301) is made of a material with a high dielectric constant.

10. The omnidirectional intelligent temperature-sensing plug according to claim 6, wherein: the insulating shell is an epoxy insulating shell.

Images