CN216435003U - Lock sealing device - Google Patents

Abstract

The utility model discloses a locking and sealing device which comprises a radio frequency antenna plate, a radio frequency IC chip, a barb conducting piece, a first lock body, a second lock body and a disposable locking seal, wherein a first circuit is arranged in the first lock body, the radio frequency antenna is electrically connected in the first circuit, two conducting connecting ends of the first barb conducting piece and the second barb conducting piece are connected in series with the first circuit to form electrical connection, the second lock body is provided with a second circuit, the radio frequency IC chip is electrically connected with the second circuit, the disposable locking seal is provided with a third circuit and a fourth circuit, after the disposable locking seal is inserted into a first preset position of the first lock body through the second lock body, the first barb conducting piece and the second barb conducting piece are connected in series between the third circuit and the fourth circuit, and the second circuit is connected in series between the third circuit and the fourth circuit. The first circuit, the second circuit and the disposable lock seal inner circuit are communicated through the barb conducting piece, so that the radio frequency IC chip is read by external read-write equipment matched with the radio frequency IC chip, and whether the lock seal device is in a lock seal state or not is further detected.

Description

Lock sealing device

Technical Field

The utility model relates to the technical field of locks, in particular to a locking device capable of sensing a locking state.

Background

With the development of scientific technology, the RFID technology has been widely applied, for example, to a locking device, when the existing bag, box, cabinet, etc. is required to be locked with confidential articles and cash, an upper padlock, an electronic coded lock, etc. are usually adopted. In addition, the radio frequency signal can not be received and transmitted, the lock sealing state of the lock can not be remotely checked, and only the padlock or the intelligent lock can be checked whether to be in the lock sealing state through macroscopic observation or manual inspection, so that the operation is troublesome. Therefore, batch bags, boxes, cabinets and the like cannot be simultaneously tested and sealed, the time for one-by-one test is long, and the operation cost is increased. Therefore, a lock seal device for checking the lock seal state by using a batch wireless detection method is urgently needed.

Disclosure of Invention

The utility model mainly aims to provide a locking device, which aims to verify whether the locking device is in a locking state or not by reading a radio frequency IC chip.

In order to achieve the purpose, the locking device provided by the utility model comprises a radio frequency antenna plate, a radio frequency IC chip, a barb conducting piece, a first lock body, a second lock body and a disposable locking seal, wherein a radio frequency antenna is laid on the radio frequency antenna plate; one end of the barb conducting piece is provided with a barb, the other end of the barb conducting piece is provided with a conducting connecting end, the surface of the barb is provided with a conducting contact, the conducting contact is electrically connected with the conducting connecting end through the barb conducting piece body, and one surface of the barb, which is far away from the hook clamping groove, is provided with a stress inclined surface; the radio frequency antenna board is installed on the first lock body, a first circuit is arranged in the first lock body, the radio frequency antenna is electrically connected in the first circuit, the number of the barb conducting pieces is at least two, the barb conducting pieces comprise a first barb conducting piece and a second barb conducting piece which are located on the first lock body, and two conducting connection ends of the first barb conducting piece and the second barb conducting piece are connected in series with the first circuit to form electric connection; the second lock body is detachably clamped and connected with the first lock body, a second circuit is arranged in the second lock body, and the radio frequency IC chip is electrically connected in the second circuit; the surface of the disposable lock facing slip is provided with at least four conductive parts, and the disposable lock facing slip comprises a third circuit and a fourth circuit, wherein the conductive parts are electrically connected with the circuits in the disposable lock facing slip, the disposable lock facing slip comprises a first conductive part, a second conductive part, a third conductive part and a fourth conductive part, the first conductive part and the second conductive part are connected in series with the third circuit to form electric connection, and the third conductive part and the fourth conductive part are connected in series with the fourth circuit to form electric connection;

after the second lock body is clamped and connected with the first lock body, when the disposable lock seal is inserted into a first preset position of the first lock body through the second lock body, the conductive contacts on the two barbs of the first barb conducting piece and the second barb conducting piece are respectively electrically connected with the first conductive part and the third conductive part, and the second conductive part and the fourth conductive part are contacted with the two access ends of the second circuit to form electrical connection, so that the first circuit, the second circuit, the third circuit and the fourth circuit form a complete closed radio frequency circuit, and the radio frequency IC chip can be read by an external reading device matched with the radio frequency IC chip.

Preferably, the disposable lock seal is provided with at least one retaining structure matched with the barb, and in the process of reversely withdrawing the first lock body from the disposable lock seal, the surface of the barb with the hook clamping groove and the retaining structure gradually approach to each other to be abutted against each other, so that the disposable lock seal is prevented from continuously moving backwards.

Preferably, each barb leads to piece and has the elasticity function, when the atress inclined plane received oblique effort, barb leads to piece and can bounce, when oblique effort withdraws barb lead to piece and rebound towards the normal position.

Preferably, the surface of the disposable lock facing slip is concavely provided with at least one sliding groove, each sliding groove can accommodate a barb of one barb conducting piece, the conducting part is laid on the inner wall of the sliding groove, and at least one sliding groove inner wall is constructed with at least one backstop structure.

Preferably, a limit groove is concavely arranged on the bottom wall of the sliding groove, and one conductive part is positioned in one limit groove;

the surface of one side wall of the limiting groove is superposed with the orthographic projection of the surface on the horizontal plane or forms an acute angle with the included angle to form the retaining structure, and the surface of the side wall is supported by the acting force in the horizontal direction, so that the barb is prevented from continuously moving in the reverse direction.

Preferably, the barb switch-on part further includes a third barb switch-on part and a fourth barb switch-on part, two switch-on connection ends of the third barb switch-on part and the fourth barb switch-on part are connected in series in the second circuit, and when the disposable lock tag is inserted into the first lock body to the first preset position, conductive contacts on two barbs of the third barb switch-on part and the fourth barb switch-on part are respectively electrically connected with the second conductive part and the fourth conductive part.

Preferably, the locking and sealing device further includes a fifth barb leading-through piece, the fifth barb leading-through piece and the first barb leading-through piece are connected in parallel to the first circuit and are adjacently arranged side by side, and after the disposable locking seal is inserted into the first preset position of the first lock body, the barb of the fifth barb leading-through piece is located in the sliding groove adjacent to the first barb leading-through piece;

and/or, the locking device still includes the sixth barb and switches on the piece, the sixth barb switches on the piece with the second barb switches on the piece parallel access first circuit, and adjacent setting side by side, after the disposable lock facing slip inserted the first preset position of first lock body, the barb that the sixth barb switched on the piece is located with the second barb switches on the adjacent sliding groove of piece.

Preferably, a first insertion hole penetrates through the first lock body, a barb part or all of the barb conducting piece positioned in the first lock body is positioned in the first insertion hole, a second insertion hole penetrates through the second lock body, and a barb part or all of the barb conducting piece positioned in the second lock body is positioned in the second insertion hole;

the length size of one end of the disposable lock facing slip with the limiting wing is larger than the size of the aperture of the second jack; when the second lock body is connected with the first lock body in a clamping mode, the first jack is transversely communicated with the second jack, and when the disposable lock facing slip penetrates through the second lock body and is inserted into the first preset position of the first lock body, one end, far away from the limiting wing, of the disposable lock facing slip penetrates through the second jack and is inserted into the first jack, until the limiting wing abuts against or is close to or abuts against the periphery of an opening of the second jack.

Preferably, the shape of the disposable lock seal is a plate shape, or a long strip shape, or a round shape, or a semicircular shape, or an oval shape, or a rectangular parallelepiped shape.

Preferably, the barb lead-through comprises a metal body, the barb is formed at one end of the metal body, the metal body is connected with the mounting piece in the lock body in an elastic connection mode, and a connection shaft is constructed at the connection position of the metal body.

Preferably, metal body is used for connecting the covering of installed part one end surface has plastics to finalize the design the layer, it has at least one spliced pole to construct on the plastics design layer, there is the connecting hole spliced pole inside through to outside cover is equipped with the torsional spring, has at least one the spliced pole cover is located the connecting axle, the connecting axle is installed in the installed part, the barb switches on the piece and passes through elastic movement is realized to the torsional spring.

Preferably, the locking and sealing device further comprises a circuit board, at least one circuit is arranged in the circuit board, one of the at least one circuit is named as a first circuit of the circuit board, and two access ends of the first circuit of the circuit board are naked and arranged on the surface of the circuit board;

when the first barb conducting piece and the second barb conducting piece are not in abutting contact with the disposable lock seal, the first barb conducting piece and the second barb conducting piece are in abutting contact with two access ends of the first circuit of the circuit board respectively, so that the first circuit is in abutting contact with the first circuit of the circuit board.

Preferably, the disposable lock tag is provided with a fifth circuit, and when the disposable lock tag is inserted into the first preset position of the first lock body through the second lock body, or before or at the time, the fifth circuit is conducted to the second lock body or the circuit in the first lock body.

In the technical scheme of the utility model, the locking device connects the first circuit, the second circuit and the third circuit and the fourth circuit in the disposable locking seal through the barb conducting piece, so that the radio frequency IC chip in the locking device can be identified and read by external reading and writing equipment matched with the radio frequency antenna circuit, and further the detection of whether the locking device is in a locking state is realized.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of a locking device according to the present invention in a locked state;

FIG. 2 is a schematic circuit diagram of an embodiment of the locking device in a locked state;

fig. 3 is a schematic structural view of an embodiment of the present invention in which a plurality of barb leading-through elements are connected together;

FIG. 4 is a schematic structural view of another embodiment of the locking device of the present invention, in which a plurality of barb pass-through elements are connected together;

FIG. 5 is an exploded view of the barb pass-through component of the locking device of the present invention;

FIG. 6 is a schematic circuit diagram of a circuit board of the locking device according to the present invention in a first circuit conducting state;

FIG. 7 is a schematic structural view of one embodiment of a disposable lock seal of the locking device of the present invention;

FIG. 8 is a schematic structural view of another embodiment of a disposable lock seal of the present invention;

fig. 9 is a schematic circuit diagram of a first circuit of the locking device of the present invention with at least two barb pass-through devices connected in parallel at one end;

FIG. 10 is an exploded view of the first lock body of the locking device of the present invention;

FIG. 11 is a schematic view of another embodiment of a disposable lock seal of the present invention;

FIG. 12 is a schematic structural view of a disposable lock seal of the present invention;

FIG. 13 is a schematic structural view of a disposable lock seal of the present invention;

FIG. 14 is a schematic view of an exploded view of the disposable lock seal and a plurality of barb pass-through members mounted to the mounting member of the lock seal of the present invention;

fig. 15 is a schematic perspective view of an rf antenna of the locking device according to an embodiment of the present invention;

fig. 16 is an exploded view of an embodiment of a boosting structure of the locking device of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. It should be understood, however, that elements, structures and features of one embodiment may be combined in other embodiments without further recitation.

It should be noted that all the directional indications (based on the upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative positional relationship between the components, the movement situation, etc. in a specific posture (based on the figure), and when the specific posture is changed, the directional indication is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention. In the present invention, the same structural components may be named differently in the embodiments, and may be the same member as long as the features and the functions are the same.

Referring to fig. 1 to 3, the present invention provides a locking device, which forms a locking state or an unlocking state by the cooperation of a disposable locking seal and a barb conducting piece with a barb, and a radio frequency IC chip is located in a second lock body, specifically, the locking device 100 includes a radio frequency antenna plate 10, a radio frequency IC chip 2, a barb conducting piece 3, a first lock body 41, a second lock body 42 and a disposable locking seal 5, and a radio frequency antenna 1 is laid on the radio frequency antenna plate 10; referring to fig. 4 and fig. 5, one end of the barb conducting piece 3 has a barb 30, and the other end has a conducting connection end 35, the surface of the barb 30 has a conductive contact, the conductive contact is electrically connected to the conducting connection end 35 through the barb conducting piece 3, and a stress inclined surface 31 is formed on the side of the barb 30 departing from the hook clamping groove 32; the radio frequency antenna board 10 is installed on the first lock body 41, a first circuit is arranged in the first lock body 41, the radio frequency antenna 1 is electrically connected in the first circuit, the number of the barb conducting pieces 3 is at least two, the barb conducting pieces include a first barb conducting piece 301 and a second barb conducting piece 302 which are located on the first lock body 41, and two conducting connection ends 35 of the first barb conducting piece 301 and the second barb conducting piece 302 are connected in series with the first circuit to form electrical connection;

the second lock body 42 is detachably connected with the first lock body 41 in a clamping manner, a second circuit is arranged in the second lock body 42, and the radio frequency IC chip 2 is electrically connected in the second circuit; the surface of the disposable lock seal 5 is provided with at least four conductive parts 52, and comprises a third circuit and a fourth circuit, the conductive parts 52 are electrically connected with the circuits in the disposable lock seal 5, wherein the conductive parts comprise a first conductive part 521, a second conductive part 522, a third conductive part 523 and a fourth conductive part 524, the first conductive part 521 and the second conductive part 522 are connected in series with the third circuit to form electrical connection, and the third conductive part 523 and the fourth conductive part 524 are connected in series with the fourth circuit to form electrical connection;

after the second lock body 42 is connected with the first lock body 41 in a clamping manner, when the disposable lock seal 5 is inserted into the first preset position of the first lock body 41 through the second lock body 42, the conductive contacts on the two barbs of the first barb conducting piece 301 and the second barb conducting piece 302 are respectively electrically connected with the first conductive part 521 and the third conductive part 523, and the second conductive part 522 and the fourth conductive part 524 are contacted with the two access ends of the second circuit to form electrical connection, so that a complete closed radio frequency circuit formed by the first circuit, the second circuit, the third circuit and the fourth circuit is formed, and the radio frequency IC chip 2 can be read by an external reading device matched with the radio frequency IC chip.

In other embodiments, the disposable lock tag 5 is provided with a fifth electrical circuit that conducts with the second lock body 42 or the electrical circuit inside the first lock body 41 after, before or when the disposable lock tag 5 is inserted through the second lock body 42 to the first preset position of the first lock body 41. If when disposable lock facing slip 5 slides to predetermineeing the distance, the barb switches on 3 one end tops and holds or touch the incoming end of locking facing slip fifth circuit for lock facing slip fifth circuit forms closed loop, and the predetermined distance can be the position when locking the state, also can be other positions. The number of the circuits in the disposable lock tag 5 may be one, two, or more than two, and two circuits may be conducted simultaneously, or one or more than two circuits may be conducted simultaneously. If the disposable lock seal 5 further comprises a sixth lock seal circuit and a seventh lock seal circuit, the utility model is not limited one by one, and the number and the types of the lock seal circuits, the conducting time and the conducting position are designed according to the use requirement.

Further, the disposable lock seal 5 has at least one retaining structure cooperating with the barb 30, and during the process of reversely withdrawing the disposable lock seal 5 from the first lock body 41, at least one surface of the barb 30 having the hook groove 32 gradually approaches to and abuts against one of the retaining structures, so as to prevent the disposable lock seal 5 from moving backwards.

Radio Frequency (RF) is an abbreviation for Radio Frequency, which refers to an electromagnetic Frequency that can radiate into space, ranging from 300KHz to 300 GHz. The short term Radio Frequency (RF) is radio frequency current, which is a short term for high frequency Alternating Current (AC) variable electromagnetic wave. Alternating current that changes less than 1000 times per second is called low frequency current, and alternating current that changes more than 10000 times per second is called high frequency current, and radio frequency is such a high frequency current. High frequency (greater than 10K); the radio frequency (300K-300G) is a higher frequency band of high frequency; the microwave band (300M-300G) is again the higher frequency band of radio frequencies. In the theory of electronics, current flows through a conductor, and a magnetic field is formed around the conductor; an alternating current passes through a conductor, around which an alternating electromagnetic field, called an electromagnetic wave, is formed. When the frequency of the electromagnetic waves is lower than 100kHz, the electromagnetic waves can be absorbed by the earth surface and cannot form effective transmission, but when the frequency of the electromagnetic waves is higher than 100kHz, the electromagnetic waves can be transmitted in the air and reflected by an ionosphere at the outer edge of the atmosphere to form long-distance transmission capability, and the high-frequency electromagnetic waves with the long-distance transmission capability are called radio frequency; radio frequency technology is widely used in the field of wireless communications.

The locking device adopts the RFID radio frequency technology, the RFID radio frequency technology comprises an active RFID radio frequency technology and a passive RFID radio frequency technology, the passive RFID radio frequency technology can be adopted in the embodiment, the electricity is saved, and the passive RFID radio frequency technology is adopted for preventing fire particularly for some places where electricity is strictly controlled, such as bank storage, warehouse and the like. Of course, in some embodiments, active RFID radio frequency technology may also be used, which can increase signal transmission distance, etc. In the present invention, the rf IC chip or the circuit board rf IC chip electrically connected to the rf antenna circuit are matched with each other, and the following description is omitted.

In this embodiment, the disposable lock facing slip 5 is connected with the first lock body 41 and the second lock body 42 in a matching manner, so that the locking device is in a locking state, the disposable lock facing slip 5 is separated from the first lock body 41 and the second lock body 42, so that the locking device is in an unlocking state, the barb conducting piece 3 has an elastic function, and is in contact with or disconnected from a circuit access end in the disposable lock facing slip 5, so that the locking circuit or other circuits are switched on and off, and the other circuits can be radio frequency circuits or non-radio frequency circuits. Referring to fig. 3 and 4, the barb leading-through member 3 has an elastic function, because one end of the barb leading-through member 3, which is used for being connected with an external connecting member, is connected with the mounting member through an elastic structure, which may be a spring, such as a compression spring 8. It can be understood that the barb leading-through 3 may have an elastic function, such as a spring sheet. In the process that the locking device forms the locking state, one end of the disposable locking seal 5 slides forwards along and presses the stressed inclined surface 31 of the at least two barb conducting pieces 3 or the other two ends of the two barb conducting pieces 3 to a position where the circuit in the disposable locking seal 5 is electrically connected with the first circuit. In the process, the barb conducting piece 3 is bounced under the oblique acting force applied by the disposable locking seal 5, so that the barb conducting piece 3 has elastic potential energy or the elastic potential energy is increased; when disposable lock facing slip 5 and barb lead to piece 3 separation, the slant effort is removed and is made barb lead to piece 3 rebound normal position under the effect of elastic potential energy or rebound to holding to block the object that rebounds towards the normal position, like disposable lock facing slip 5 appears sunken recess with barb lead to 3 relative sliding's position, barb lead to piece 3 and the one end that this part slided and further kick-backs, if the recess is the through-hole, this end then can pass through the through-hole under the effect of elasticity to the normal position. The relative movement between the disposable lock seal 5 and the barb leading-through part 3 can be a linear movement, and can also be a curvilinear movement, such as an S-shaped curvilinear movement.

The oblique acting force is a force that acts on the force-receiving inclined surface 31 of the barb leading piece 3 and makes it possible to bounce up from the original position. After the barb leads to piece 3 and bounces, disposable lock facing slip 5 can slide forward along atress inclined plane 31, and after sliding atress inclined plane 31, barb leads to 3 one end or the surface that the one end above the holding disposable lock facing slip 5 of piece. The front of the insertion end of the disposable lock facing slip 5 is also an inclined surface, so that the disposable lock facing slip 5 can conveniently slide into the insertion space of the locking device, and the resistance is reduced.

The disposable locking seal 5 is connected with the concave-convex clamping positions of the at least two barb conducting pieces 3 in a locking mode, the two barb conducting pieces can be locked in the concave-convex clamping positions in a separable mode, the convex part automatically extends into the concave part through the elastic function of the barb conducting pieces 3, the convex end of the barb conducting piece 3 can extend into the concave end of the disposable locking seal 5 to form the clamping position for locking connection, and the concave end of the barb conducting piece 3 and the convex end of the disposable locking seal 5 can form the clamping position for locking connection. When the circuit in each barb conducting piece 3 and the disposable lock facing slip 5 is in a conducting and stable state, the disposable lock facing slip 5 is locked in place, and the disposable lock facing slip 5 is locked after being clamped by the barb conducting piece 3. When the barb 30 of the barb conducting piece 3 is detachably connected with the conducting part 52 corresponding to the disposable lock seal 5 in a concave-convex clamping manner, the radio frequency circuit can be switched on and off, namely, the barb 30 of the barb conducting piece 3 is disconnected with the conducting part 52, namely, the barb 30 of the barb conducting piece 3 is separated from the conducting part 52 in a concave-convex structure of a clamping position, the radio frequency circuit is switched off, and when the barb 30 of the barb conducting piece 3 is connected with the conducting part 52, namely, the barb 30 of the clamping position is connected with the conducting part 52 in a concave-convex structure of the clamping position, the radio frequency circuit is switched on. Separable unsmooth block is connected and is guaranteed the barb to switch on 3 and the circuit connection and the disconnection in the disposable lock facing slip 5, realize locking device lock state and the conversion of unblock state, facilitate the use, unsmooth block makes the barb switch on 3 and is connected stably with disposable lock facing slip 5, inject the two relative motion and lock, further guarantee that the lock seals the state stable, also can feel the vibrations when perception unsmooth joint simultaneously, promote the user and feel, the user of being convenient for uses. The barb switches on 3 and plays electrically conductive effect and connecting circuit's effect, and the barb switches on 3 transmission that can carry out the signal of telecommunication when reading radio frequency IC chip 2 simultaneously, and the barb switches on 3 in addition and has elastic function and supports to hold to make disposable lock facing slip 5 be connected closely with the lock body to disposable lock facing slip 5, and then realizes the locking state of locking device.

In the utility model, at least one barb conducting piece 3 is adopted to control the connection between different circuits, so that the radio frequency antenna 1 and the radio frequency IC chip 2 form multiple combined conduction, and the functions of different circuits are realized. The structure of the locking device is simplified.

In the technical scheme of the utility model, one end of a disposable lock seal 5 slides forwards along a stress inclined plane 31 which presses and holds at least two barb conducting pieces 3 until a radio frequency circuit is in a conducting state, so that a radio frequency IC chip 2 is read by external reading equipment matched with the radio frequency IC chip through wireless transmission, the lock seal device is known to be in a lock seal state, and when the external reading equipment cannot read the radio frequency IC chip 2, the lock seal device can be judged not to be in the lock seal state. Whether the bag, the box, the cabinet and the like provided with the locking device are provided with confidential objects can be judged by detecting whether the locking device is in the locking state, the locking state can be detected by adopting a batch wireless detection method, namely, the sealing can be simultaneously detected, the batch checking is convenient, the operation is simple, and the application is wide.

In the utility model, the circuit is a conductive loop consisting of a metal wire and electric and electronic components. When the circuit is connected, the circuit can work by generating current, the circuit can work by an external power supply, and the circuit can work by generating current by an RFID technology. Different circuit functions can be realized according to different electronic elements communicated by the circuit.

Electrically connecting means that the segmented circuits are directly connected through a mechanical structure so as to communicate among the circuits. The mechanical structure may be a metal wire, a conductive sheet, a conductive block, a conductive plate, or the like. The access end of the circuit is an end capable of being communicated with the circuit, the access end is attached to a physical mechanical part, the mechanical part can be a conducting strip, a conducting block or a conducting plate, the conducting strip, the conducting block and the exposed part of the conducting plate form a conducting region (also called a conducting pool), the conducting region is internally provided with a plurality of conducting contacts, any conducting contact connected with the conducting region can be communicated with the corresponding circuit, and when current exists in the circuit, the circuit can work correspondingly. In the utility model, the conduction of the radio frequency antenna circuit and the circuit in the disposable lock seal 5 is realized through the barb conducting piece 3.

In this embodiment, the first circuit, the second circuit, the third circuit, and the fourth circuit include other electronic components to form a radio frequency antenna circuit, and the electronic components include resistors, capacitors, amplifiers, and the like. The radio frequency IC chip is internally integrated with product information such as the type, the quantity, the specification and the like of the product to be locked and sealed and other related information, such as geographical position information. Because the barb switches on piece 3 and has the elasticity function, the barb switches on 3 atresss and can bounce, and the effort can bounce automatically after withdrawing, and then realizes that the barb switches on 3 automatic and circuit incoming end and supports and hold the electricity and connect, and the two is connected closely stably.

Further, each barb leads to piece 3 and has the elasticity function, and when atress inclined plane 31 received oblique effort, barb leads to piece 3 and can bounce, and barb leads to piece 3 and rebounds towards the normal position when oblique effort was withdrawn.

The barb 30 comprises a stress inclined surface 31 and a hook groove 32, one surface of the barb facing away from the hook groove 32 is configured into the stress inclined surface 31, the surface of the disposable lock seal 5 is configured with at least one anti-return structure 56 matched with the barb, so that in the process of reversely withdrawing the first lock body and/or the second lock body after the disposable lock seal 5 is inserted into the first lock body and/or the second lock body, one side of at least one barb with the hook groove 32 is gradually close to one anti-return structure 56 to be mutually supported, and the disposable lock seal 5 is prevented from continuously moving backwards.

In this embodiment, please refer to fig. 4 in detail, the force-bearing inclined plane 31 of the barb conducting piece 3 is disposed away from the barb conducting piece body, and a surface away from the force-bearing inclined plane 31 and the barb conducting piece body adjacent thereto form a hook-engaging groove 32; or please refer to fig. 3 in specific combination, the force-bearing inclined plane 31 of the barb conducting part 3 is disposed toward the barb conducting part body, and the surface deviating from the force-bearing inclined plane 31 is recessed to form the hook-engaging groove 32.

Referring to fig. 6, the locking device 100 further includes a circuit board 6, at least one circuit is disposed in the circuit board 6, one of the at least one circuit is named as a first circuit of the circuit board, and two access ends of the first circuit of the circuit board are disposed on the surface of the circuit board 6;

when the first barb conducting piece 301 and the second barb conducting piece 302 are not in abutting contact with the disposable lock seal 5, the two barbs 30 of the first barb conducting piece 301 and the second barb conducting piece 302 are in abutting contact with the two access ends of the first circuit of the circuit board, so that the first circuit is in abutting contact with the first circuit of the circuit board.

In this embodiment, when the locking and sealing device 100 is in an unlocked state, the at least first barb conducting element 301 and the second barb conducting element 302 are pressed against the circuit board 6 under the action of the elastic force of the first barb conducting element and are electrically connected to two access ends of a first circuit of the circuit board, where the first circuit of the circuit board includes at least one circuit board rf IC chip. Therefore, when the circuit board radio frequency IC chip in the first circuit of the circuit board is read, it can be determined that the locking device 100 is in the locking state and the unlocking state or the unlocking state;

when the locking device 100 is in the locking state, the disposable locking seal 5 is located between the circuit board 6 and at least the first barb conducting piece 301 and the second barb conducting piece 302, the disposable locking seal 5 prevents the first barb conducting piece 301 and the second barb conducting piece 302 from contacting with two access ends of a first circuit of the circuit board, and the two barbs 30 of the first barb conducting piece 301 and the second barb conducting piece 302 respectively abut against the first conducting portion 521 and the second conducting portion 522 to touch, so that the radio frequency circuit is conducted, therefore, according to the radio frequency IC chip 2 read to be located in the radio frequency circuit formed by the disposable locking seal first circuit and the radio frequency antenna 1 completely, the locking device 100 can be judged to be in the locking state, and at this time, the first circuit of the circuit board is disconnected. The checking is convenient when the locking device is used in batch, the number of the locking devices 100 and the locking state of the locking devices are obtained, the first circuit of the circuit board can be used for obtaining product information, and the like, and the switching between the circuits obtained by the method is within the protection scope of the utility model, for example, if the first circuit of the circuit board is provided with the radio frequency IC chip 62 of the circuit board, the corresponding information can be read.

It is understood that the circuit board 6 may further include other circuit board circuits (not shown), for example, the circuit board 6 includes a second circuit board, the second circuit board is connected to or disconnected from the rf antenna 1 when the locking device is in the locked state, and the second circuit board is connected to the rf antenna 1 when the locking device is in the unlocked state. In the utility model, at least one barb conducting piece 3 is adopted to control different circuit board circuits to be combined and connected with the radio frequency antenna 1, so that the radio frequency antenna 1, the circuit board radio frequency IC chip 62 and the radio frequency IC chip 2 are combined and used for multiple times, and the functions of different circuits are realized.

With further reference to fig. 7, the surface of the disposable locking seal 5 is concavely provided with at least one sliding groove 51, each sliding groove 51 can accommodate at least one barb 30 of the barb conducting part 3, the conducting part 52 is laid on the inner wall of the sliding groove 51, and at least one backstop structure is configured on the inner wall of at least one sliding groove 51.

At least one surface of the disposable lock seal 5 is concavely provided with a sliding groove 51, the conductive parts 52 are positioned on the surface of the disposable lock seal 5, at least one conductive part 52 is paved on the inner wall of at least one sliding groove 51, the length dimension of the conductive part 52 is a, the a is more than 0mm and less than or equal to 200mm, for example, two conductive parts 52 or three conductive parts 52 or more than three conductive parts 52 are paved on the inner wall of one sliding groove 51;

the two conductive parts 52 corresponding to the first barb conductive part 301 and the second barb conductive part 302 are named as a first conductive part 521 and a second conductive part 522, the first conductive part 521 and/or the second conductive part 522 are/is laid on the inner wall of one sliding groove 51, and the first barb conductive part 301 and the second barb conductive part 302 respectively contact with the first conductive part 521 and the second conductive part 522 in a propping manner to realize the conduction of the first circuit of the lock seal so as to realize the electrical connection with the radio frequency antenna 1.

The conductive portion 52 is electrically conductive and is used for electrical connection with the circuit inside the disposable lock seal 5, the conductive portion 52 occupies a certain surface area on the disposable lock seal 5, and the surface of the conductive portion 52 is preferably a flat surface or a curved surface, and may be designed according to the use requirement. The conductive part 52 has a certain length, which can ensure that the circuit is still in a conducting state and transmits different signals in the process of inserting or withdrawing the disposable lock tag 5 into or from the lock body 4 to slide. While facilitating control of all conductive portions 52 in a conductive state. It should be noted that the conductive portions 52 connected to different access terminals of different circuits are different conductive portions 52, the exposed surface of the conductive portion 52 is a conductive contact surface (not labeled), and the conductive contact of the conductive portion 52 is in contact with the barb conductive member 3 to connect and communicate the two circuits. The length dimension of the conductive portion 52 is 1mm, 2mm, 3mm, 4mm, 5mm, 6mm, 7mm, 8mm, 9mm, 10mm, 11mm, 12mm, 13mm, 14mm, 15mm, 16mm, 17mm, 18mm, 19mm, 20mm, 21mm, 30mm, 40mm, 50mm, 60mm, 70mm, 80mm, 90mm, 150mm, 160mm, 190mm, or the like.

The sliding groove 51 plays a limiting role in the barb conducting piece 3, the sliding groove 51 enables the barb conducting piece 3 to slide along the sliding groove 51, namely, a sliding path of the barb conducting piece 3 on the disposable lock seal 5 is limited, the accuracy and the stability of the electrical connection of the barb conducting piece 3 and the conductive portion 52 are improved, meanwhile, the phenomenon that the barb conducting piece 3 slides relative to the disposable lock seal 5 due to external impact or vibration of a locking and sealing device is avoided, the barb conducting piece 3 is separated from the conductive portion 52 to influence the use effect, the relative position stability of the barb conducting piece 3 and the disposable lock seal 5 is enhanced, the state that the disposable lock seal 5 is locked in place can be kept, the use performance is improved, and the service life of the locking and sealing device is prolonged.

The disposable lock seal 5 may have a sliding groove 51 on one surface, or may have sliding grooves 51 (not shown) on both surfaces (not shown) or more than two surfaces, at least two ribs 53 are arranged on the surface of the disposable lock seal 5 at intervals, and the sliding groove 51 is formed by the adjacent ribs 53 and the disposable lock seal 5 therebetween. At least one conductive part 52 is arranged on the bottom wall or the side wall of the sliding groove 51, the length direction of the conductive part 52 is arranged in parallel with the length direction of the convex rib 53, or the width direction of the conductive part 52 is arranged in parallel with the length direction of the convex rib, the sliding groove 51 can transversely accommodate a barb 30, or the length direction of the conductive part 52 is arranged between the length direction and the width direction of the convex rib 53. The rib 53 and the disposable lock facing slip 5 can be integrally formed or arranged in a split mode, and the rib 53 arranged in the split mode is connected to the surface of the disposable lock facing slip 5 in a welding mode, a gluing mode, a clamping mode and the like. When the disposable lock seal 5 is provided with a plurality of sliding grooves 51, the plurality of sliding grooves 51 are arranged in parallel, the sliding grooves 51 can be arranged along a straight line or a curve, for example, the groove walls of the sliding grooves 51 form concentric circles, some sliding grooves 51 are not provided with the conductive parts 52, and some sliding grooves 51 are provided with one, two or more conductive parts 52. In other embodiments, referring to fig. 8 in combination, the surface of the disposable lock tag 5 may not have the sliding groove 51.

Furthermore, the bottom wall of the sliding groove 51 is concavely provided with a limit groove 511, and a conductive part 52 is positioned in the limit groove 511;

the surface of one side wall of the limiting groove 511 is overlapped with the orthographic projection of the surface on the horizontal plane or forms an acute angle with the included angle to form a retaining structure, and the surface of the side wall is supported by the acting force in the horizontal direction, so that the barb is prevented from continuously moving in the reverse direction.

In this embodiment, during the process of inserting the disposable lock seal 5 into the first lock body and the second lock body, the disposable lock seal 5 interacts with the two stressed slopes 31 of the first barb conducting piece 301 and the second barb conducting piece 302, so that the first barb conducting piece 301 and the second barb conducting piece 302 bounce, and when the disposable lock seal 5 is inserted between the circuit board 6 and the first barb conducting piece 301 and the second barb conducting piece 302 and slides forward to the locking position, the two barbs 30 of the first barb conducting piece 301 and the second barb conducting piece 302 bounce from the bottom wall of the sliding groove 51 into the bottom wall of the limiting groove 511 to connect with the conducting portion 52 of the bottom wall thereof to form the locking state. The limiting groove 511 and the barb conducting piece 3 are used for forming a concave-convex clamping position at one end connected with the limiting groove 511, the inner wall of the limiting groove 511 forms a backstop structure 56, the disposable lock seal 5 inserted into the first lock body 41 and/or the second lock body 42 is guaranteed to be reversely drawn out or withdrawn from the first lock body 41 and/or the second lock body 42, unlocking is avoided, meanwhile, the first barb conducting piece and the second barb conducting piece slide into the bottom wall of the limiting groove 511 from the bottom wall of the sliding groove 51, a user can receive a perception due to vibration, the disposable lock seal 5 is connected with a radio frequency circuit, and the locking device 100 is guaranteed to be locked.

Further, at least one sliding groove 51 is laid with at least two conductive portions 52.

Referring to fig. 1 again, the sealing device 100 further includes a third barb conductive element 303 and a fourth barb conductive element 3304, two conductive connection ends 35 of the third barb conductive element 303 and the fourth barb conductive element 304 are connected in series in the second circuit, and after the disposable locking seal 5 is inserted into the first lock body 41 to the first preset position, the conductive contacts on the two barbs 30 of the third barb conductive element 303 and the fourth barb conductive element 304 are electrically connected to the second conductive portion 522 and the fourth conductive portion 524, respectively.

Further, please refer to fig. 9 in combination, in order to enhance the supporting strength and the propping strength of the barb switch-on component 3, the barb switch-on component 3 is prevented from deforming due to insufficient supporting strength, so that the barb switch-on component 3 is not tightly or separately connected with the circuit board 6 and the disposable locking seal 5, and the locking effect is further affected. The locking device further comprises another first barb conducting piece 301, the two first barb conducting pieces 301 are connected in parallel to an access end of the first circuit to increase compressive strength, the disposable locking seal 5 corresponding to the first barb conducting piece 301 is provided with two first conductive parts 521 connected in parallel, when the locking device is in a locking state, the two first barb conducting pieces 3 are respectively abutted against the two first conductive parts 521, and at least one first barb conducting piece 301 is electrically connected with the corresponding first conductive part 521 to conduct the radio frequency circuit.

When the locking device is in the locking state, the two first barb conducting pieces 301 only need one to be electrically connected with one first conductive part 521 to satisfy the function of communicating the circuit, and when the locking device is in the locking state, the two first barb conducting pieces 301 are both electrically connected with the two first conductive parts 521, as known by those skilled in the art, an access end of the first circuit may be provided with two barb conducting pieces 3, or more than two barb conducting pieces 3, such as three, four, five, and the like. The disposable lock tag 5 may be provided with only one first conductive part 521, and one of the two first barb conduction parts 301 is used for conducting with the first conductive part 521. First barb lead-through 301 also can be used for increasing support intensity promptly, do not carry out with circuit connection, if lead-through 3 with first barb and a reinforcement barb that 301 set up in parallel, this reinforcement barb lead-through 3 not with circuit connection, or two first barbs lead-through 301 connect same circuit incoming end, the two pressure that bears disposable lock facing slip 5 of sharing, and then increased the intensity that supports disposable lock facing slip 5, also avoid first barb lead-through 301 to receive wearing and tearing because of the live time is long simultaneously.

Or, the locking and sealing device 100 further includes a fifth barb leading-through piece, the fifth barb leading-through piece and the first barb leading-through piece 301 are connected in parallel to the first circuit and are adjacently arranged side by side, and after the disposable locking seal 5 is inserted into the first preset position of the first lock body 41, the barb of the fifth barb leading-through piece is located in the sliding groove 51 adjacent to the first barb leading-through piece 301;

and/or, the locking and sealing device 100 further includes a sixth barb leading-through piece, the sixth barb leading-through piece and the second barb leading-through piece 302 are connected in parallel to the first circuit and are adjacently arranged side by side, and after the disposable locking seal 5 is inserted into the first preset position of the first lock body 41, the barb of the sixth barb leading-through piece is located in the sliding groove 51 adjacent to the second barb leading-through piece 302.

Further, the first lock body 41 further includes a seventh barb conducting piece, an eighth barb conducting piece and a fifth circuit, two conducting connection ends of the seventh barb conducting piece and the eighth barb conducting piece are connected in series with two connection ends of the fifth circuit and form an electrical connection, a second circuit of the circuit board is arranged in the circuit board, two connection ends of the second circuit of the circuit board are naked on the surface of the circuit board, please refer to fig. 7 again, and the disposable lock seal further has two through holes 59;

when the seventh barb conducting piece and the eighth barb conducting piece are not in abutting contact with the disposable lock seal 5, two barbs of the seventh barb conducting piece and the eighth barb conducting piece are in abutting contact with two access ends of a second circuit of the circuit board, so that a fifth circuit and the second circuit of the circuit board form a conducting closed loop;

when the disposable lock facing slip 5 is inserted into the first preset position of the first lock body 41, the two barbs of the seventh barb conducting piece and the eighth barb conducting piece pass through the two through holes 59 to abut against the two access ends of the second circuit of the circuit board.

In this embodiment, when the locking device 100 is not in the locking state, the external reading device matched with the locking device can detect the second circuit of the circuit board and the first circuit of the circuit board, and when the disposable locking seal 5 abuts against and slides against the first barb conducting piece 301 and the second barb conducting piece 302, the first circuit of the circuit board and the first circuit are disconnected;

when the disposable lock seal 5 and the seventh barb conducting piece and the eighth barb conducting piece are pushed and slid, the second circuit of the circuit board is disconnected from the fifth circuit, when the disposable lock seal 5 is inserted into the first preset position of the first lock body 41, the two barbs of the seventh barb conducting piece and the eighth barb conducting piece penetrate through the two through holes 59 to push and touch the two access ends of the second circuit of the circuit board, so that the fifth circuit and the second circuit of the circuit board form a conducted closed loop, the first circuit is conducted with the seal checking circuit, the seal checking circuit can be judged to be locked in place according to the detected second circuit of the circuit board, a hand can feel the dynamic state that the two barbs 30 of the seventh barb conducting piece and the eighth barb conducting piece penetrate through the two through holes 59, the seal checking circuit can be judged to be locked in place in feel, and the problem that the seal checking circuit cannot be detected due to the fact that the disposable lock seal 5 is not accurately inserted in place is avoided.

Further, referring to fig. 10, a first insertion hole penetrates through the first lock body 41, the barb part or all of the barb conducting piece 3 located in the first lock body 41 is located in the first insertion hole, a second insertion hole penetrates through the second lock body 42, and the barb part or all of the barb conducting piece 3 located in the second lock body 42 is located in the second insertion hole;

the length dimension of the end of the disposable lock tag 5 where the retainer wing 54 is formed is larger than the dimension of the second receptacle aperture; when the second lock body 42 is connected with the first lock body 41 in a clamping manner, the first insertion hole is transversely communicated with the second insertion hole, and when the disposable lock facing slip 5 passes through the second lock body 42 and is inserted into the first preset position of the first lock body 41, one end, far away from the limiting wing 54, of the disposable lock facing slip 5 passes through the second insertion hole and is inserted into the first insertion hole until the limiting wing 54 abuts against or is close to or abuts against the periphery of the opening of the second insertion hole.

The limiting wing 54 is limited at the periphery of the opening of the second jack, the barb conducting piece 3 and the retaining structure 56 are connected in a clamping manner to form a lock seal on the mechanical structure of the lock seal device 100, the disposable lock seal 5 further prevents the first lock body 41 and the second lock body 42 from being separated, and the disposable lock seal 5 cannot be pushed into the first lock body 41 or withdrawn from the first lock body 41 and the second lock body 42 without damaging the structure of the lock seal device 100.

Referring to fig. 7 and 8 again, a limiting wing 54 for preventing the disposable lock seal 5 from being inserted further into the first insertion hole is formed at one end of the disposable lock seal 5, the limiting wing 54 is located at the end opposite to the end inserted into the lock body 4, a limiting wing 54 is formed at one end of the lock seal body, the length of the end of the lock seal body having the limiting wing 54 is greater than the aperture of the opening of the second insertion hole, when the second lock body 42 and the first lock body 41 are connected in a snap-fit manner, the first insertion hole and the second insertion hole are through, one end of the disposable lock seal 5 inserted into the lock body passes through the second insertion hole to the first insertion hole locking position, so that the locking device 100 is in a locking state, the limiting wing 54 is located at the periphery of the opening of the second insertion hole, the part of the lock seal body inserted into the first insertion hole and the second insertion hole is in a clearance fit connection with the first insertion hole and the second insertion hole, and the gap is greater than zero. It will be appreciated that the shape of the socket matches the shape of the part of the lock seal that is inserted, and the circumferential cross-section of the socket may be in the shape of a bar, circle, semi-circle, square, polygon or other regular and irregular shapes.

In the utility model, the first lock body comprises a plastic outer shell 411 and a metal inner shell 412, a first accommodating groove is formed in the plastic outer shell 411, a second accommodating groove is formed in the metal inner shell 412, the metal inner shell 412 is accommodated in the first accommodating groove, a limiting structure matched with the metal inner shell 412 is arranged on the inner wall of the first accommodating groove, so that an accommodating space is formed between the top wall of the first accommodating groove and the top wall of the second accommodating groove, the radio frequency antenna 1 is arranged in the accommodating space, and one surface of the circuit board antenna, on which a metal layer is laid, faces to the top wall of the second accommodating groove;

the second lock body 42 is detachably engaged with the first lock body 41, a first insertion hole is formed through the metal inner shell 412, the first insertion hole is communicated with the second accommodating groove, the circuit board 6 is located in the second accommodating groove, one end of the barb leading-through member 3, which is provided with the stress inclined plane 31, is located in the first insertion hole (not labeled), a second insertion hole (not labeled) is formed through the second lock body 42, and when the second lock body 42 is engaged with the first lock body 41, the first insertion hole is communicated with the second insertion hole.

The plastic outer shell 411 reduces signal interference or no interference to the radio frequency antenna 1 board, the metal inner shell 412 shields interference to the radio frequency antenna 1 from the outside, electromagnetic waves emitted by the radio frequency antenna 1 hit the metal inner shell 412, and the metal inner shell 412 can reflect partial electromagnetic waves, so that the electromagnetic wave strength of the antenna is enhanced, and the capability of the radio frequency antenna 1 for emitting wireless signals is improved. The surface of the radio frequency antenna board 10, on which the metal layer is laid, faces the top wall of the second accommodating groove, so that the intensity of the electromagnetic wave transmitted by the radio frequency antenna 1 is further enhanced. Limiting structure plays support and clamping action to 1 board of radio frequency antenna, and radio frequency antenna board 10 is located accommodation space now to radio frequency antenna board 10 rocks, and then influences the effect that radio frequency antenna 1 received and transmitted the electromagnetic wave. The second lock body 42 is connected with the first lock body 41 in a clamping manner, the relative position of the second lock body 42 and the first lock body 41 is firstly fixed to prevent relative movement or separation, and the second lock body 42 and the first lock body 41 are connected into a whole to facilitate further locking. The disposable lock facing slip 5 is inserted into the first jack and the second jack to realize the physical lock seal and the radio frequency circuit conduction of the lock seal device 100. The limiting wings 54 are convenient to hold by hand on one hand, and are convenient to accurately find the position where the second lock body 42 and the first lock body 41 are inserted to realize locking on the other hand.

The metal inner shell 412 can effectively prevent the structure of the internal locking device from burning and extending to the outside of the metal inner shell 412, so as to avoid causing fire in the environment where the locking device is located, and meanwhile, the metal inner shell 412 has the functions of shock resistance and explosion resistance.

The second lock body 42 further comprises at least one barb conducting piece 3, and the barb conducting piece 3 is used for conducting with a circuit in the disposable lock tag 5;

when the locking device 100 is in the locked state or the unlocked state, at least one barb lead-through 3 is conducted with the circuit in the disposable lock tag 5, and the barb lead-through 3 in the second lock body 42 may be connected with one circuit in the disposable lock tag 5, or two or more, and is set according to the required functions of the locking device 100.

Further, the shape of the disposable lock tag 5 is a plate shape, or a long strip shape, or a circular shape, or a semicircular shape, or an oval shape, or a rectangular parallelepiped shape.

A cylindrical disposable lock seal 5 as shown in fig. 11 and 12. The disposable lock seal 5 presses one end of the barb lead-through 3 with the force-bearing inclined surface 31. The shaft of the cylindrical disposable lock seal 5 is provided with a conductive part 52, and/or the periphery is provided with a conductive part 52, and/or both ends of the cylindrical disposable lock seal 5 are provided with conductive parts 52.

Wherein, the surface of the circuit in the disposable lock facing slip 5 is covered with a shaping layer to form a lock facing slip body, the shaping layer is made of insulating materials, and the insulating materials comprise plastic materials;

referring to fig. 7 again, the lock seal body further has at least one receiving hole (not labeled), the hole wall of the receiving hole is fixedly connected with an elastic spine 57, the elastic spine 57 has elasticity and is disposed in a curved manner, the elastic spine 57 protrudes from the surface of the lock seal body, one elastic spine 57 is received in one receiving hole, or two elastic spines 57 are received in one receiving hole, or a plurality of elastic spines 57 are received in one receiving hole. The number of the elastic spines 57 may be one, two, or more. When the lock seal body is accommodated in or inserted into the first lock body 41 and/or the second lock body 42, the elastic spine 57 partially supports against the first lock body 41 and/or the second lock body 42 to further play a role in fixing the lock seal body, so that the relative position relationship between the lock seal body and the first lock body 41 and/or the second lock body 42 is stable, and the elasticity of the elastic spine 57 is favorable for the relative movement of the lock seal body and the first lock body 41 and/or the second lock body 42 under the external force.

Referring to fig. 13, the surface of the shaping layer made of plastic material is provided with a plurality of reinforcing blind holes 58, and the reinforcing blind holes 58 play a role in shaping and reinforcing the strength of the disposable lock facing slip 5 body.

Or, the surface of the circuit in the disposable lock facing slip 5 body is covered with an insulating layer, the outer surface of the insulating layer is covered with a shell, and the shell is made of metal materials.

Referring to fig. 3 and 4 again, the barb leading-through part 3 includes a metal body, the barb 30 is formed at one end of the metal body, the metal body is connected with the mounting part 7 in the lock body by an elastic connection manner, and a connection shaft 34 is formed at the connection position.

In this embodiment, the barb leading-through is made of a conductive material, and the metal body is conductive, preferably copper, and may be made of other metals, such as iron, alloy, gold, silver, aluminum, and their products. Of course, the barb pass-through piece may be made of other conductive materials as long as the corresponding conductive function can be achieved.

In the utility model, the barb conducting piece 3 can be elastically connected through elastic pieces such as a pressure spring 8, if one end of the barb conducting piece 3 is provided with an elastic connection structure which is used for being elastically connected with an external connecting part, the elastic connection structure further comprises a torsion arm groove used for clamping a torsion arm, one torsion arm of the torsion spring is clamped in the torsion arm groove, the other torsion arm is clamped in the external connecting part, so that one surface of the barb conducting piece 3, which is far away from the torsion arm groove, supports the external connecting part, when the barb conducting piece 3 is pressed, the barb conducting piece 3 is compressed and moves circumferentially around a connecting shaft, when the barb conducting piece 3 is removed with force, the elastic potential energy of the torsion spring is converted into kinetic energy, and the barb conducting piece 3 can rebound to the original position or return to the original position to support the circuit board 6 or the disposable locking seal 5.

In the present invention, the number of the barb lead-through 3 is set as required. The number of barb leads 3 may be 3, 4, 5, 6, 7, 8, 9, 10, etc. Referring to fig. 14 specifically, two or more barb leading-through parts 3 are located on the mounting part 7, and the mounting part 7 may be in a plate shape as shown in fig. 14, or may be in other shapes, such as a column shape, a square shape, other regular or irregular shapes, and the like.

Referring to fig. 5 again, the surface of one end of the metal body, which is used for connecting the mounting member, is covered with the plastic shaping layer 33, at least one connecting column 331 is constructed on the plastic shaping layer 33, a connecting hole is penetrated through the connecting column 331, a torsion spring 8 is sleeved outside the connecting column 331, at least one connecting column 331 is sleeved on the connecting shaft 34, the connecting shaft 34 is installed on the mounting member 7, and the barb conducting member 3 realizes elastic movement through the torsion spring 8.

Specifically, the barb of the barb conducting piece is connected with any angle position of the metal body, and if the barb is located at the position of the metal body, the position of the barb located on the metal body comprises a left side, a right side, an upper portion, a lower portion, a front end, a rear end, a left rear side and a front side and a rear side. The metal body is arranged horizontally or approximately horizontally, and the barb is higher than the metal body; alternatively, the metal body is disposed in a substantially vertical orientation with the barb located at the upper or lower end of the metal body. The metal body has a conducting connection end 35, the conducting connection end 35 is used for being directly connected with a circuit, and the conducting connection end 35 can be convexly arranged or concavely arranged on the metal body. The barb surface is a conductive contact surface, and the conductive contact is electrically connected to the conductive connection terminal 35 through the metal body. Or switch on the structure surface that link 35 and conductive contact electricity are connected and are formed and laid insulating design layer, and conductive contact with switch on link 35 and switch on a body electricity through the barb and be connected, the barb switches on the surface part of a body or all covers the design layer that has the plastics material, promptly the barb switches on 3 including the metallic structure who is used for switching on the circuit, metallic structure surface part or whole cladding plastic layer, metallic structure are wire, or metal strip, or metal block, or sheetmetal, or other irregularly shaped metallic structure. The metal is a conductive metal, and the metal includes silver, copper, aluminum, iron, tungsten, alloy and the like. The conductive connection terminal 35 is made of a conductive material such as metal. The conducting connection end can be formed by plating metal on the surface of the hook part, or can be embedded or convexly arranged on the barb conducting piece body by a metal sheet or a metal block, and the metal is conductive metal.

An antenna is a transducer that converts a guided wave propagating on a transmission line into an electromagnetic wave propagating in an unbounded medium (usually free space) or vice versa. A component for transmitting or receiving electromagnetic waves in a radio device. Engineering systems such as radio communication, broadcasting, television, radar, navigation, electronic countermeasure, remote sensing, radio astronomy and the like all use electromagnetic waves to transmit information and work by depending on antennas. In addition, in transferring energy with electromagnetic waves, non-signal energy radiation also requires antennas. The antennas are generally reciprocal in that the same pair of antennas can be used as both transmit and receive antennas. The same antenna is the same as the basic characteristic parameter for transmission or reception. At present, the antenna is more and more widely applied, the anti-interference requirement is more and more strict, and the design types are diversified. Such as a radio frequency antenna used in an RFID electronic tag or label, to be widely used in the field of logistics. It can store data related to merchandise, credit cards, access cards, and vehicle control in RF. The radio frequency antenna circuit is matched with a radio frequency IC chip in the RFID electronic seal, and an RFID reader matched with the radio frequency antenna is used for reading information in the radio frequency IC chip. The RFID electronic seal can also be applied to the locking device, and when the locking device is in a locking state, the radio frequency IC chip can be read. The ideal antenna does not consider the feeding part, but in order to extract signals, the extracted point is called the feeding part, the english is expressed by feedpoint, the field distribution of the antenna is generally influenced by the addition of the feeding part, and the selection of the point is also exquisite.

When manufacturing the RFID tag used in the market, a plastic sheet is prepared, an antenna and a circuit for receiving and transmitting signals are manufactured on the plastic sheet, and then a radio frequency IC chip is attached to the circuit of the plastic sheet, and a pin of the radio frequency IC chip is electrically connected to the antenna. When the RFID electronic tag is manufactured, the surface with the antenna and the radio frequency IC chip is directly coated with the adhesive, so that the RFID electronic tag can be attached to commodities, objects or parts for use. When the RFID reader transmits a signal to the RFID electronic tag for receiving, the radio frequency IC chip is started, the data stored in the radio frequency IC chip is transmitted to the RFID reader through the antenna for receiving, and the RFID reader can read the return signal of the RFID electronic tag. Since the application of the conventional typical RFID tag is limited by the influence of external environmental factors, for example, signals read by the RFID reader are easily interfered and diffracted in water, liquid or high humidity air, which results in a high error rate of reading signals, and if the RFID tag is attached to an object with a metal surface, the data reading error rate is high or the RFID tag cannot be read.

Specifically, the radio frequency antenna 1 is a ceramic antenna, or a loop antenna, or a circuit board antenna, or a wire antenna.

The ceramic antenna adopts a ceramic shell and has the capacity of resisting interference, thunder and water and dust. The loop antenna is a structure in which a metal wire is wound into a certain shape, such as a circle, a square, a triangle, and the like, and two ends of a conductor are used as output ends. A multi-turn (e.g., helical or lap wound) wound loop antenna is known as a multi-turn loop antenna. The main forms of the line antenna include dipole antenna, half-wave dipole antenna, cage antenna, monopole antenna, whip antenna, iron tower antenna, spherical antenna, magnetic antenna, V-shaped antenna, diamond antenna, fishbone antenna, yagi antenna, log periodic antenna, antenna array, etc. (non-directional antenna, weak directional antenna, strong directional antenna). Referring to fig. 14, one surface of the rf antenna plate 10 is laid with a metal layer (not shown), and the other surface is laid with an antenna 12, wherein the thickness of the rf antenna plate 10 is any value between 0.1mm and 100mm, such as 2.3mm, 2.4mm, 2.5mm, 2.6mm, 2.7mm, 2.8mm, and 2.9 mm. On one hand, the metal layer shields the influence of external signals on the circuit board antenna 10, on the other hand, electromagnetic waves emitted by the antenna hit the metal layer, and the metal layer can reflect part of the electromagnetic waves, so that the electromagnetic wave strength of the antenna is enhanced, and the capability of the antenna for emitting wireless signals is improved, namely, the gain is improved. The thickness of the radio frequency antenna plate 10 of any value between 0.1mm and 100mm can ensure that the ultrahigh frequency RFID antenna and the high frequency RFID antenna can read, for example, in a 2.6mm design, the interference between the ultrahigh frequency RFID antenna and the high frequency RFID antenna is small. The radio frequency circuit is connected with an ultrahigh frequency RFID antenna, and when the locking device is in a locking state, the high frequency RFID antenna can work or not work and is controlled according to specific design.

In some embodiments, the retaining structure may also be another structure, for example, the retaining structure (not shown) is protruded into the sliding groove 51, the retaining structure includes a sliding inclined surface and a blocking surface, one end of the sliding inclined surface and one end of the blocking surface, which are far away from the body seal, are connected through a connecting portion, an included angle between the sliding inclined surface and an orthographic projection of the sliding inclined surface on a horizontal plane is an acute angle, and when the sliding inclined surface is subjected to an acting force in a horizontal direction, the force-applying object slides upwards along the sliding inclined surface; the blocking surface is superposed with the orthographic projection of the blocking surface on the horizontal plane or forms an acute angle with the orthographic projection, and when the blocking surface is acted by the acting force in the horizontal direction, the force application object is abutted against the blocking surface and is prevented from continuously moving forwards; the surface of connecting portion is smooth curved surface, and the curved surface includes round curved surface, arc curved surface, oval curved surface.

Referring to fig. 16, further, the sealing device 100 further includes at least one boosting structure 8 for pushing out the disposable lock seal 5, the boosting structure 8 includes an elastic connector 81, a base 82 and a hand push rod 83, a boosting inclined plane 831 is formed at one end of the hand push rod 83, one end of the elastic connector 81 is connected to the base 82, and an accommodating space is formed between the hand push rod 83 and the base 82;

wherein, the first lock body 41 is configured with at least one substantially strip-shaped boosting groove (not marked), one end of the boosting groove (not marked) along the length direction is provided with an opening, the other end of the elastic connecting piece 81 is connected with the inner wall of the boosting groove, two sides of the base 82 are limited in the boosting groove, and the bottom wall of the boosting groove is inserted into the accommodating space formed between the hand push rod 83 and the base 82; when the locking device 100 is in the locking state, the push rod 83 is pushed, so that the boosting inclined surface faces and supports the guiding inclined surface of the disposable lock facing slip 5, when the limiting wing 54 is separated from the lock facing slip body, the boosting inclined surface pushes the lock facing slip body to move forwards, and when the pushing force is removed from the push rod 83, the elastic connecting piece 81 pulls back the push rod 83 to enable the push rod 83 to return to the initial position.

Specifically, when the boosting slope abuts against the guide slope (not shown), the boosting slope 1 abuts against the guide slope.

Specifically, the included angle of the boosting slope in the orthographic projection of the vertical surface along the moving direction of the disposable lock seal 5 is an acute angle, and the included angle of the guiding slope in the orthographic projection of the vertical surface along the moving direction of the disposable lock seal 5 is an acute angle.

Specifically, the base 82 is configured with a fixing receiving groove (not labeled) in which the elastic connection member 81 is received.

Specifically, a fixing post (not shown) is convexly disposed on a bottom wall of the boosting groove (not shown), and one end of the elastic connecting member 81 is sleeved on the fixing post.

Specifically, one end of the hand push rod 83, which is far away from the boosting inclined plane, is provided with a hand push portion 830, a boosting inclined plane 831 is formed on the hand push portion 830, and the boosting inclined plane 831 is disposed away from the hand push rod 83.

Specifically, the boosting inclined plane 831 is provided with a friction structure, and the friction structure may be one or a combination of a plurality of circular protrusions, elongated protrusions, irregular protrusions, and the like.

Specifically, the elastic connection member 81 may be a spring, an elastic rubber band, or the like.

Specifically, the push rod 83 and the base 82 are disposed in a U shape, and the boosting slope is disposed away from the U-shaped opening.

In the present invention, the second lock body 42 and the first lock body 41 are connected in a snap-fit manner through a limit snap-fit 43 structure arranged in the middle, and a structure of the limit snap-fit structure 43 is described below, the limit snap-fit structure 43 may be arranged between the first lock body 41 and the second lock body 42, the limit snap-fit structure 43 may enable the first lock body 41 and the second lock body 42 to be combined and separated, the limit snap-fit structure 43 includes a first limit plate (not labeled), a second limit plate (not labeled), a first blocking member (not labeled) and a second blocking member (not labeled), the first blocking member and the second blocking member are respectively located at two sides of the second limit plate, and the first blocking member, the second blocking member and the second limit plate enclose a limit groove (not labeled), and the first limit plate can be accommodated in the limit groove; the limiting clamping structure further comprises a third blocking piece, the third blocking piece is located on one side of the first limiting plate, a convex edge is convexly arranged on one side, away from the first limiting plate, of the third blocking piece, and the convex edge, the first limiting plate and the third blocking piece enclose a first fixing groove (not marked). When the first limiting plate is inserted into the limiting groove, the first blocking piece is gradually inserted into the first fixing groove, and the first blocking piece and the third blocking piece are stacked up and down.

Further, the limit engaging structure 43 further includes a fourth blocking member (not labeled), the fourth blocking member is located on one side of the first limiting plate away from the third blocking member, the protruding edge (not labeled), the first limiting plate and the fourth blocking member enclose a second fixing groove (not labeled), an accommodating space is formed between the third blocking member and the fourth blocking member, and the third blocking member and the first limiting plate enclose a third fixing groove (not labeled);

wherein, when first limiting plate holds and inserts the spacing groove, the in-process that first stopper inserted first fixed slot, the second stops the piece and inserts the second fixed slot gradually, and the third fixed slot is inserted gradually to the second limiting plate, and the second stops and stops the piece range upon range of setting from top to bottom with the fourth.

In summary, in the technical solution of this embodiment, the first circuit is connected to the circuit in the disposable lock tag 5 through the barb conducting element, so that the radio frequency IC chip 2 can be read by the external read/write device matched with the radio frequency IC chip, and further, whether the lock device 100 is in the lock state is detected. In the present invention, in the circuit diagram, the circuit is represented by a solid line or a dotted line, and the chip is represented by a block, which does not represent a real structure.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (11)

1. A seal assembly, comprising:

the radio frequency antenna plate is paved with a radio frequency antenna;

a radio frequency IC chip;

the barb conducting piece is provided with a barb at one end and a conducting connecting end at the other end, a conducting contact is arranged on the surface of the barb, the conducting contact is electrically connected with the conducting connecting end through the barb conducting piece body, and a stress inclined surface is constructed on one surface of the barb, which deviates from the hook clamping groove;

the radio frequency antenna plate is mounted on the first lock body, a first circuit is arranged in the first lock body, the radio frequency antenna is electrically connected in the first circuit, the number of the barb conducting pieces is at least two, the first lock body comprises a first barb conducting piece and a second barb conducting piece which are positioned on the first lock body, and two conducting connecting ends of the first barb conducting piece and the second barb conducting piece are connected in series with the first circuit to form electric connection;

the second lock body is detachably clamped and connected with the first lock body, a second circuit is arranged in the second lock body, and the radio frequency IC chip is electrically connected in the second circuit; and

the disposable lock facing slip comprises a third circuit and a fourth circuit, wherein the surface of the disposable lock facing slip is provided with at least four conductive parts, the conductive parts are electrically connected with the circuits in the disposable lock facing slip, the disposable lock facing slip comprises a first conductive part, a second conductive part, a third conductive part and a fourth conductive part, the first conductive part and the second conductive part are connected in series with the third circuit to form electric connection, and the third conductive part and the fourth conductive part are connected in series with the fourth circuit to form electric connection;

after the second lock body is clamped and connected with the first lock body, when the disposable lock seal is inserted into a first preset position of the first lock body through the second lock body, the conductive contacts on the two barbs of the first barb conducting piece and the second barb conducting piece are respectively electrically connected with the first conductive part and the third conductive part, and the second conductive part and the fourth conductive part are contacted with the two access ends of the second circuit to form electrical connection, so that the first circuit, the second circuit, the third circuit and the fourth circuit form a complete closed radio frequency circuit, and the radio frequency IC chip can be read by an external reading device matched with the radio frequency IC chip.

2. The seal of claim 1,

the disposable lock facing slip is provided with at least one retaining structure matched with the barb, and in the process of reversely withdrawing the first lock body from the disposable lock facing slip, the surface, provided with the hook clamping groove, of the barb and the retaining structure gradually approach to each other and are abutted against each other, so that the disposable lock facing slip is prevented from continuously moving backwards.

3. The seal of claim 2,

each barb switches on a piece and has the elasticity function, when the atress inclined plane received slant effort, barb switches on a piece and can bounce, when slant effort was removed barb switches on a piece and rebounds towards the normal position.

4. The seal of claim 3,

the disposable lock facing slip is characterized in that at least one sliding groove is concavely arranged on the surface of the disposable lock facing slip, each sliding groove can accommodate a barb of a barb conducting piece, the conducting part is laid on the inner wall of the sliding groove, and at least one backstop structure is constructed on the inner wall of the sliding groove.

5. The seal of claim 4,

a limit groove is concavely arranged on the bottom wall of the sliding groove, and one conductive part is positioned in one limit groove;

the surface of one side wall of the limiting groove is superposed with the orthographic projection of the surface on the horizontal plane or forms an acute angle with the included angle to form the retaining structure, and the surface of the side wall is supported by the acting force in the horizontal direction, so that the barb is prevented from continuously moving in the reverse direction.

6. The seal of any one of claims 2 to 5,

the lock sealing device further comprises a third barb conducting piece and a fourth barb conducting piece, two conducting connecting ends of the third barb conducting piece and the fourth barb conducting piece are connected in series in the second circuit, and when the disposable lock seal is inserted into the first lock body to a first preset position, the conducting contacts on the two barbs of the third barb conducting piece and the fourth barb conducting piece are respectively electrically connected with the second conducting part and the fourth conducting part.

7. The seal of claim 4,

the locking device further comprises a fifth barb conducting piece, the fifth barb conducting piece and the first barb conducting piece are connected into the first circuit in parallel and are arranged adjacently side by side, and after the disposable locking seal is inserted into the first preset position of the first lock body, the barb of the fifth barb conducting piece is positioned in the sliding groove adjacent to the first barb conducting piece;

and/or, the locking device still includes the sixth barb and switches on the piece, the sixth barb switches on the piece with the second barb switches on the piece parallel access first circuit, and adjacent setting side by side, after the disposable lock facing slip inserted the first preset position of first lock body, the barb that the sixth barb switched on the piece is located with the second barb switches on the adjacent sliding groove of piece.

8. The seal of claim 6,

the first lock body is provided with a first jack in a penetrating way, the barb part or all of the barb conducting piece positioned in the first lock body is positioned in the first jack, the second lock body is provided with a second jack in a penetrating way, and the barb part or all of the barb conducting piece positioned in the second lock body is positioned in the second jack;

the length size of one end of the disposable lock facing slip with the limiting wing is larger than the size of the aperture of the second jack; when the second lock body is connected with the first lock body in a clamping mode, the first jack is transversely communicated with the second jack, when the disposable lock facing slip penetrates through the second lock body and is inserted into the first preset position of the first lock body, one end, far away from the limiting wing, of the disposable lock facing slip penetrates through the second jack and is inserted into the first jack to the limit wing in an abutting mode or close to the periphery of an opening of the second jack.

9. The seal of claim 1,

the barb conducting piece comprises a metal body, the barb is formed at one end of the metal body, the metal body is connected with the mounting piece in the lock body in an elastic connection mode, and a connecting shaft is constructed at the connection position of the metal body;

the metal body is used for connecting the cladding of installed part one end surface has plastics to finalize the design the layer, it has at least one spliced pole to construct on the plastics design layer, the inside connecting hole that has link up of spliced pole to outside cover is equipped with the torsional spring, has one at least the spliced pole cover is located the connecting axle, the connecting axle is installed in the installed part, the barb switches on the piece and passes through the elastic movement is realized to the torsional spring.

10. The seal of claim 3, further comprising:

the circuit board is internally provided with at least one circuit, wherein one circuit is named as a first circuit of the circuit board, and two access ends of the first circuit of the circuit board are naked and arranged on the surface of the circuit board;

when the first barb conducting piece and the second barb conducting piece are not in abutting contact with the disposable lock seal, the first barb conducting piece and the second barb conducting piece are in abutting contact with two access ends of the first circuit of the circuit board respectively, so that the first circuit is in abutting contact with the first circuit of the circuit board.

11. The seal of claim 10,

the disposable lock facing slip is in a strip shape, or a round shape, or a semicircular shape, or an oval shape;

and/or, the disposable lock facing slip is provided with a fifth circuit, and after the disposable lock facing slip passes through the second lock body and is inserted into the first preset position of the first lock body, the fifth circuit is conducted with the second lock body or a circuit in the first lock body.

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