CN210377516U - Insulation packaging RFID electronic tag suitable for live working tool - Google Patents
Insulation packaging RFID electronic tag suitable for live working tool Download PDFInfo
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- CN210377516U CN210377516U CN201921236291.9U CN201921236291U CN210377516U CN 210377516 U CN210377516 U CN 210377516U CN 201921236291 U CN201921236291 U CN 201921236291U CN 210377516 U CN210377516 U CN 210377516U
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Abstract
The utility model relates to an insulating encapsulation RFID label of detachable suitable for live working instrument, chip and antenna including interconnect, the chip is the planar distribution with the antenna, the top and the below of chip and antenna are provided with flexible upper insulation layer and flexible lower insulating layer respectively, it has insulating flexible filler to go up to fill between insulating layer and the lower insulating layer, the sealed setting in border of upper insulation layer and lower insulating layer, the below of lower insulating layer is equipped with the magic subsides, be equipped with first bond line between lower insulating layer and the magic subsides, the magic subsides below is equipped with the second bond line, second bond line below is equipped with the adhesive surface protective layer. The present embodiment completely isolates the contact between the metal part of the RFID tag and the live-wire tool; the supporting material of the RFID tag is a flexible material, so that the RFID tag is suitable for various hot-line work tools with irregular shapes, and the adaptability is improved; the RFID label is detached and installed through quick adhesion and separation of the magic tape, and special requirements of the live working industry are met.
Description
Technical Field
The utility model relates to a live working multiplexer utensil intelligent management application, concretely relates to insulation package RFID electronic tags suitable for live working instrument.
Background
The RFID is a non-contact automatic identification technology, which automatically identifies a target object and obtains related data through a radio frequency signal, does not need manual intervention in identification work, and can work in various severe environments. The RFID label consists of an antenna and a chip, is fixedly adhered to the surface of an article, and the larger the area of the antenna with metal property is, the better the remote identification performance of the label is. In the current state of the art, tool and appliance management based on RFID tag identification technology is a relatively common and mature management method, especially in the field of live work tool management applications. However, the antenna and the chip of the general RFID tag are made of metal, and the general packaging technology does not consider the insulation factor well, or the antenna and the chip are packaged into a waterproof tag by plastic, which is thick and heavy, and is not suitable for being adhered and fixed on the surface of the soft protective article of the live working tool and the appliance. Since the hot-line work tool is generally a soft shielding type or round or rod type article, the use is frequent, and the label is easy to fall off. Meanwhile, the RFID electronic tag is limited by the fact that protective tools cannot be damaged, organic material glue with higher viscosity cannot be used, even if the RFID electronic tag is reliably stuck to the surface of an article of the live-line work tool, the RFID electronic tag must be taken down when the tools are used for testing the electrical performance regularly, and the RFID electronic tag is very inconvenient to use.
SUMMERY OF THE UTILITY MODEL
The utility model discloses to the technical problem who exists among the prior art, provide a detachable insulation package RFID label suitable for live working instrument, it covers through ultra-thin insulating layer to through the hot melt sealing process, make the regional sealed setting of RFID label have no air gap, thoroughly isolated the contact between metal material in the RFID antenna and the live working instrument. In addition, the label is firmly and removably adhered by a nano double-sided adhesive tape; the shell is made of flexible materials, so that the tool is suitable for surfaces of tools in various shapes, and the adaptability is improved; the magic tape is adhered to the live working tool, so that the label can be easily detached when the label needs to be taken down, and the magic tape can be conveniently installed and removed after detachment, and is long in service life and convenient to operate. The field of charged working tool management is obviously improved.
The utility model provides an above-mentioned technical problem's technical scheme as follows:
the utility model provides a detachable insulation packaging RFID label suitable for live working instrument, includes interconnect's chip and antenna, the chip with the antenna is planar distribution, the chip the top and the below of antenna are provided with flexible upper insulation layer and flexible lower insulating layer respectively, upper insulation layer with it has insulating flexible filler to fill between the lower insulating layer, upper insulation layer with the sealed setting in border of lower insulating layer, the below of lower insulating layer is equipped with the magic subsides, lower insulating layer with be equipped with first bond line between the magic subsides, the magic subsides below is equipped with the second bond line, second bond line below is equipped with the face of gluing protective layer.
The chip and the antenna are sealed inside the RFID tag through the flexible upper insulating layer and the flexible lower insulating layer, and an internal gap is filled through the insulating flexible filling agent, so that the contact between a metal part of the RFID tag and a live working tool is completely isolated; the supporting material of the RFID tag is a flexible material, so that the RFID tag is suitable for various hot-line work tools with irregular shapes, and the adaptability is improved; the RFID label is pasted through setting up the magic that is in its below and is glued on live working instrument surface, and the RFID label is dismantled and is installed with the separation to the quick paste of accessible magic subsides, satisfies the special needs of live working trade.
On the basis of the technical scheme, the utility model discloses can also do following improvement.
Preferably, the insulating flexible filler is silicone grease. The silicone grease has stable structure, good sealing property and creepage resistance, no corrosion to metal and strong adaptability, and is a very suitable filler. Because the chip in the RFID label and antenna volume are little yielding, the silicone grease has certain thermoplastic properties, still can provide supporting role for chip and antenna, prevents that its deformation from influencing its performance.
Preferably, the upper insulating layer and the lower insulating layer are both made of ultrathin strong voltage-resistant flexible materials. The upper insulating layer and the lower insulating layer are made of ultrathin high-voltage-resistant flexible materials, and one of the flexible materials is that the whole RFID tag is in a flexible state and is beneficial to being attached to the surfaces of live-wire work tools in various shapes; and secondly, the anti-explosion anti-.
Preferably, the edges of the upper insulating layer and the lower insulating layer are provided with hot melt sealing pressure regions, and the hot melt sealing pressure regions are connected in a sealing manner. The upper insulating layer and the lower insulating layer are sealed in a hot melting and sealing mode, the insulating flexible filler in the upper insulating layer is prevented from flowing out, meanwhile, no air gap exists in the RFID tag area, and the use reliability and the service life of the RFID tag are improved.
Preferably, the magic tape comprises a hook surface layer and a rough surface layer, wherein the hook surface layer and the rough surface layer can be mutually bonded and separated. Magic subsides accessible it colludes bonding and separation of surface course and matte layer to this installs and dismantles between RFID label and the live working instrument surface, and is easy and simple to handle, long service life, and the security is high.
Preferably, the area of the layer of the magic tape connected with the second adhesive layer is larger than the area of the layer of the magic tape connected with the first adhesive layer. The magic is pasted and is close to the one deck on live working instrument surface as the fixed bed, and the magic is pasted and is close to the one deck of RFID label as the installation layer, and the fixed bed is greater than the installation layer, enables the RFID label and installs on live working instrument surface more reliably, thereby prevents that the fixed bed from stacking with the installation layer and adding the fastness that the area is not enough to influence the installation of RFID label.
Preferably, a printing layer is further disposed above the upper insulating layer. Through the bar code or the equipment information printed on the printing layer, an operator can better identify the RFID label information.
Preferably, the first adhesive layer and the second adhesive layer both adopt nanometer double-sided adhesive tapes. The nanometer double faced adhesive tape has the advantages of high inherent adhesive strength, no damage to articles, detachability without leaving traces, reusability and the like, and is very suitable for being used on the RFID label.
The utility model has the advantages that: the utility model provides a pair of detachable insulation package RFID label suitable for live working instrument, it covers through ultra-thin insulating layer to through the hot melt sealing process, make the regional sealed setting of RFID label have no air gap, thoroughly kept apart the contact between the metal material in the RFID label and the live working instrument. In addition, the label is firmly and removably adhered by a nano double-sided adhesive tape; the shell is made of flexible materials, so that the tool is suitable for surfaces of tools in various shapes, and the adaptability is improved; the magic tape is adhered to the live working tool, so that the label can be easily detached when the label needs to be taken down, and the magic tape can be conveniently installed and removed after detachment, and is long in service life and convenient to operate. The field of charged working tool management is obviously improved.
Drawings
FIG. 1 is a schematic view of the structure of the present invention;
fig. 2 is a schematic view of the depression of the present invention.
In the drawings, the components represented by the respective reference numerals are listed below:
1. the label comprises a label moving part 101, a printing layer 102, an upper insulating layer 103, a chip and antenna 104, an insulating flexible filler 105, a lower insulating layer 106, a first bonding layer 107, a hook surface layer 2, a label fixing part 201, a matte layer 202, a second bonding layer 203 and an adhesive surface protection layer.
Detailed Description
The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.
The detachable insulated packaged RFID tag suitable for the live working tool as shown in fig. 1 includes a chip and an antenna 106 connected to each other, the chip and the antenna are distributed in a planar manner, a flexible upper insulating layer 102 and a flexible lower insulating layer 105 are respectively disposed above and below the chip and the antenna, an insulating flexible filler 104 is filled between the upper insulating layer 102 and the lower insulating layer 105, the upper insulating layer 102 and the lower insulating layer 105 are arranged in a sealing manner at edges of the upper insulating layer 102 and the lower insulating layer 105, a magic tape is disposed below the lower insulating layer 105, a first adhesive layer 106 is disposed between the lower insulating layer 105 and the magic tape, a second adhesive layer 202 is disposed below the magic tape, and an adhesive surface protection layer 203 is disposed below the second adhesive layer 202.
The flexible upper insulating layer 102 and the flexible lower insulating layer 105 seal the chip and the antenna 106 inside the RFID tag, and the internal gap is filled with the insulating flexible filler 104, completely isolating the contact between the metal part of the RFID tag and the live working tool; the supporting material of the RFID tag is a flexible material, so that the RFID tag is suitable for various hot-line work tools with irregular shapes, and the adaptability is improved; the RFID label is pasted through setting up the magic that is in its below and is glued on live working instrument surface, and the RFID label is dismantled and is installed with the separation to the quick paste of accessible magic subsides, satisfies the special needs of live working trade.
On the basis of the technical scheme, the utility model discloses can also do following improvement.
In this embodiment, the insulating flexible filler 104 is silicone grease. The silicone grease has stable structure, good sealing property and creepage resistance, no corrosion to metal and strong adaptability, and is a very suitable filler. Because the chip in the RFID tag and the antenna 103 are small in size and easy to deform, the silicone grease has certain thermoplastic performance, and can also provide a supporting effect for the chip and the antenna 103 to prevent the deformation from affecting the performance of the chip and the antenna.
In this embodiment, the upper insulating layer 102 and the lower insulating layer 105 are both made of ultra-thin flexible materials with strong voltage resistance, and XK-F20 is preferably used, which can achieve the effect of voltage resistance of 3.5kV even with a thickness of only 0.25 mm. The upper insulating layer 102 and the lower insulating layer 105 are made of ultrathin flexible materials with strong pressure resistance, and one of the flexible materials is that the whole RFID tag is in a flexible state, so that the RFID tag can be attached to the surfaces of hot-line work tools in various shapes; and secondly, the anti-leakage.
In this embodiment, the edges of the upper insulating layer 102 and the lower insulating layer 105 are provided with a hot melt sealing area, and the hot melt sealing areas are hermetically connected. The upper insulating layer 102 and the lower insulating layer 105 are sealed in a hot melting and sealing mode, the insulating flexible filler 104 in the upper insulating layer is prevented from flowing out, meanwhile, no air gap exists in the RFID tag area, the metal part of the RFID tag is completely isolated from the outside, and the use reliability and the service life of the RFID tag are improved.
In this embodiment, the magic tape includes a hook surface layer 107 and a hair surface layer 201, the hook surface layer 107 and the hair surface layer 201 can be adhered to each other and can be separated from each other. Magic subsides accessible it colludes bonding and separation of surface course 107 and matte layer 201 to this installs and dismantles between RFID label and the live working instrument surface, and is easy and simple to handle, long service life, and the security is high.
In this embodiment, the area of the layer of the hook and loop fastener connected to the second adhesive layer 202, i.e., the rough surface layer 201, is larger than the area of the layer of the hook and loop fastener connected to the first adhesive layer 106, i.e., the area of the rough surface layer 201 needs to be larger than the area of the hook surface layer 107. The matte layer 201 of magic subsides is as the fixed bed, and the hook face layer 107 of magic subsides is as the installation layer, and the area on fixed bed is greater than the area on installation layer, enables the RFID label and installs more reliably on live working instrument surface, thereby prevents that fixed bed and installation layer from stacking the fastness that the area is not enough to influence the installation of RFID label.
In this embodiment, a printing layer 101 is further disposed above the upper insulating layer 102. The operator can better recognize the RFID tag information by the bar code or the device information printed on the printed layer 101.
In this embodiment, the first adhesive layer 106 and the second adhesive layer 202 both use a double-sided adhesive tape. The nanometer double faced adhesive tape has the advantages of high inherent adhesive strength, no damage to articles, detachability without leaving traces, reusability and the like, and is very suitable for being used on the RFID label. When partial components of the RFID label are damaged and need to be replaced, the components can be replaced by disassembling the nano double-sided adhesive tape, and the rest undamaged parts can be continuously used (for example, the magic tape can be continuously used).
As shown in fig. 2, which is a schematic view of a depression angle after the RFID tag is mounted, after the adhesive surface protection layer 203 is removed, the label fixing portion 2 formed by the loop layer 201 and the second adhesive layer 202 of the hook and loop fastener is attached to the surface of the hot-line work tool, the printing layer 101, the upper insulating layer 102, the chip and antenna 103, the insulating flexible filler 104, the lower insulating layer 105, the first adhesive layer 106, and the hook layer 107 of the hook and loop fastener cooperate with each other to form the label moving portion 1, and the RFID tag is integrally mounted on the surface of the hot-line work tool by adhesion between the hook layer 107 of the hook and loop layer 201 of the hook and loop fastener, so as to realize the normal use function of the RFID tag, and is good in; the area of the label fixing part 2 is larger than that of the label moving part 1, so that the area of the bonding part of the hook surface layer 107 and the rough surface layer 201 of the magic tape after the RFID label is installed is not smaller than that of the hook surface layer as much as possible, and the label moving part 1 is favorably and reliably installed on the label fixing part 2; when the live-wire work tool is used for testing the electrical performance regularly, the RFID label needs to be taken down, the adhesive surface between the hook surface layer 107 and the rough surface layer 201 of the magic tape is disassembled at the moment, the main body part of the RFID label can be conveniently disassembled, the interference of the main body part with the test is avoided, and the main body part can be easily installed back after the test is completed.
The detachable insulation packaging RFID tag suitable for the live working tool is covered by the ultrathin insulation layer, and the RFID tag area is sealed without an air gap through hot melting sealing treatment, so that the contact between a metal material in the RFID tag and the live working tool is thoroughly isolated. In addition, the RFID label is firmly and removably adhered by a nano double-sided adhesive tape; the shell is made of flexible materials, so that the shell can be suitable for the surfaces of electrified tools in various shapes, and the adaptability is improved; the magic tape is adhered to the live working tool, so that the RFID tag can be easily disassembled when the tag needs to be taken down, and the RFID tag can be conveniently installed and removed after being disassembled, and is long in service life and convenient to operate. The field of charged working tool management is obviously improved.
The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.
Claims (7)
1. The utility model provides an insulation package RFID electronic tags suitable for live working instrument, its characterized in that, includes interconnect's chip and antenna (103), the chip with the antenna is planar distribution, the chip the top and the below of antenna are provided with flexible upper insulation layer (102) and flexible lower insulating layer (105) respectively, upper insulation layer (102) with it has insulating flexible filler (104) to fill between lower insulating layer (105), upper insulation layer (102) with the border of lower insulating layer (105) seals the setting, the below of lower insulating layer (105) is equipped with the magic subsides, lower insulating layer (105) with be equipped with first bond line (106) between the magic subsides, the magic subsides below is equipped with second bond line (202), second bond line (202) below is equipped with gluey face protective layer (203).
2. The insulation package RFID tag for a live-wire tool according to claim 1, wherein the insulating flexible filler (104) is silicone grease.
3. The insulated packaged RFID tag of claim 1, wherein the edges of the upper insulating layer (102) and the lower insulating layer (105) are provided with a heat sealing nip, and the heat sealing nip is hermetically connected.
4. The insulation package RFID tag of claim 1, wherein the magic tape comprises a hook surface layer (107) and a matte surface layer (201), and the hook surface layer (107) and the matte surface layer (201) can be adhered to each other or separated from each other.
5. The insulated, encapsulated RFID tag of claim 4, wherein the area of the layer of the hook and loop fastener that is attached to the second adhesive layer (202) is greater than the area of the layer of the hook and loop fastener that is attached to the first adhesive layer (106).
6. The insulated packaged RFID tag for a hot-wire tool according to claim 1, wherein a printed layer (101) is further disposed above the upper insulating layer (102).
7. The insulated, encapsulated and RFID tag of claim 1, wherein the first adhesive layer (106) and the second adhesive layer (202) are both made of double-sided adhesive tape.
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CN201921236291.9U CN210377516U (en) | 2019-08-01 | 2019-08-01 | Insulation packaging RFID electronic tag suitable for live working tool |
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CN201921236291.9U CN210377516U (en) | 2019-08-01 | 2019-08-01 | Insulation packaging RFID electronic tag suitable for live working tool |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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SE2051497A1 (en) * | 2020-12-18 | 2022-06-19 | Husqvarna Ab | A wireless identification tag and method for assembling wireless identification tags in concrete processing tools |
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2019
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
SE2051497A1 (en) * | 2020-12-18 | 2022-06-19 | Husqvarna Ab | A wireless identification tag and method for assembling wireless identification tags in concrete processing tools |
SE544499C2 (en) * | 2020-12-18 | 2022-06-21 | Husqvarna Ab | A wireless identification tag and method for assembling wireless identification tags in concrete processing tools |
WO2022131997A1 (en) * | 2020-12-18 | 2022-06-23 | Husqvarna Ab | Method for assembling wireless identification tags in concrete processing tools |
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CB03 | Change of inventor or designer information |
Inventor after: Hu Rongqiang Inventor after: Wang Songfeng Inventor after: Zhou Yue Inventor after: Zhang Bao Inventor after: Huo Teng Inventor before: Hu Rongqiang Inventor before: Wang Songfeng Inventor before: Zhou Yue Inventor before: Zhang Cheng Inventor before: Huo Teng |
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CB03 | Change of inventor or designer information |