阅读说明：本技术 一种靴子防盗智能标签 (Boot theftproof smart label ) 是由 胡铭骏 陈家骙 大卫·迈克尔·桑多瓦尔 于 2020-12-07 设计创作，主要内容包括：本发明涉及一种商品防盗装置。目的是提供一种靴子防盗智能标签,该标签应能有效应用于靴子的防盗,并具有性能可靠、结构精巧以及使用方便的特点。技术方案是：一种靴子防盗智能标签,其特征在于：该标签包括：带有线路板、发声部件、线圈与电池的标签座、可活动地安装在标签座上以便与靴子后跟卡扎连接的圈箍组件、可移动地定位在标签座中以对所述圈箍组件的运动进行单向控制的锁条组件以及可移动地定位在标签座中且对所述锁条组件的运动状态进行锁定的锁定组件。(The invention relates to a commodity anti-theft device. The purpose is to provide a boot theftproof intelligent label, and this label should be able to effectively be applied to the theftproof of boot to have the characteristics of dependable performance, exquisite structure and convenient to use. The technical scheme is as follows: the utility model provides a boot theftproof smart label which characterized in that: the label includes: the boot strap locking device comprises a tag base with a circuit board, a sound-producing component, a coil and a battery, a hoop component movably mounted on the tag base so as to be connected with a boot heel in a clamping manner, a locking bar component movably positioned in the tag base and used for carrying out unidirectional control on the movement of the hoop component, and a locking component movably positioned in the tag base and used for locking the movement state of the locking bar component.)

1. The utility model provides a boot theftproof smart label which characterized in that: the label includes: the boot strap assembly comprises a tag base with a circuit board (15), a sound component, a coil (14) and a battery (17), a strap assembly movably mounted on the tag base for snap-fit connection with the heel of the boot, a locking bar assembly movably positioned in the tag base for one-way control of movement of the strap assembly, and a locking assembly movably positioned in the tag base and locking the state of movement of the locking bar assembly.

2. The boot anti-theft smart tag of claim 1, wherein: the hoop component comprises a high rack (21) and a low rack (20) which are correspondingly configured and respectively provided with racks, a square steel cable (24) which is matched with the outline of the heel of the boot and is connected with the two racks through two connectors (22), and a tensioning gear (12) which is rotatably positioned in the tag seat and is meshed and matched with the two racks.

3. The boot anti-theft smart tag of claim 2, wherein: the tensioning gear is a duplicate gear which can be rotatably positioned in the label seat around an axis and is connected with the knob; the toothed ends of the high rack and the low rack extend into the label seat from the openings formed in the two sides of the label seat respectively and are meshed with the duplicate gear simultaneously.

4. The boot anti-theft smart tag of claim 3, wherein: the locking bar assembly comprises a locking tooth (11) which is movably positioned in the label seat and the bottom end of the locking tooth is meshed with a larger gear (12-1) in the duplicate gear, and a locking bar (8) which is movably positioned in the label seat and is applied with force to the locking tooth through a locking tooth spring (10); the moving direction of the lock teeth is parallel to the moving direction of the lock bar.

5. The boot anti-theft smart tag of claim 4, wherein: the locking assembly comprises a lock cylinder seat positioned on the label seat, a lock head (4) movably positioned in the lock cylinder seat and a lock cylinder spring (3) positioned in the lock cylinder seat and applying force to the lock head to enable the lock head to be matched with the lock bar; the moving direction of the lock head is perpendicular to the moving direction of the lock bar.

6. The boot anti-theft smart tag of claim 5, wherein: the label seat consists of a base (16) and a face seat (6) which are connected with each other and form a cavity; the side of the base facing the boot is a concave surface (16-1) which is matched with the rear upper of the boot.

7. The boot anti-theft smart tag of claim 6, wherein: a detection element for detecting whether the label is separated from the boot is also arranged in the label seat; the concave surface is provided with a detection hole to facilitate the passing of detection light or detection rays of the detection element.

8. The boot anti-theft smart tag of claim 7, wherein: the circuit board is provided with a contact switch (15-1) which can be contacted and matched with the locking bar.

Technical Field

The invention relates to a commodity anti-theft device, in particular to a boot anti-theft intelligent tag.

Background

Boots are high-grade shoes, and are very popular among young consumers due to unique style. Because the current mode of sale is mostly the sale of opening the shelf, and the boot is worth very much usually, and the department of sale needs to invest great energy to manage, prevents to damage or steal. Although the existing commodity anti-theft label is generally applied to a market, no anti-theft label special for boots exists at present; the existing commodity anti-theft label is used for preventing the boots from being stolen, and the expected effect is often not achieved. Therefore, it is desired by those skilled in the art to design a special anti-theft tag for boots.

Disclosure of Invention

The invention aims to overcome the defects of the background technology and provide the boot anti-theft intelligent tag which can be effectively applied to the boot anti-theft and has the characteristics of reliable performance, exquisite structure and convenience in use.

The technical scheme provided by the invention is as follows:

the utility model provides a boot theftproof smart label which characterized in that: the label includes: the boot strap locking device comprises a tag base with a circuit board, a sound-producing component, a coil and a battery, a hoop component movably mounted on the tag base so as to be connected with a boot heel in a clamping manner, a locking bar component movably positioned in the tag base and used for carrying out unidirectional control on the movement of the hoop component, and a locking component movably positioned in the tag base and used for locking the movement state of the locking bar component.

The hoop component comprises a high rack and a low rack which are correspondingly configured and respectively provided with a rack, a square steel cable which is matched with the outline of the heel of the boot and is connected with the two racks through two connectors, and a tensioning gear which can be rotatably positioned in the tag seat and is meshed and matched with the two racks.

The tensioning gear is a duplicate gear which can be rotatably positioned in the label seat around an axis and is connected with the knob; the toothed ends of the high rack and the low rack extend into the label seat from the openings formed in the two sides of the label seat respectively and are meshed with the duplicate gear simultaneously.

The locking bar assembly comprises a locking tooth which is movably positioned in the label seat and the bottom end of the locking tooth is meshed with the larger gear in the dual gear, and a locking bar which is movably positioned in the label seat and is applied with force to the locking tooth through a locking tooth spring; the moving direction of the lock teeth is parallel to the moving direction of the lock bar.

The locking assembly comprises a lock cylinder seat positioned on the label seat, a lock head movably positioned in the lock cylinder seat and a lock cylinder spring positioned in the lock cylinder seat and applying force to the lock head to enable the lock head to be matched with the lock bar; the moving direction of the lock head is perpendicular to the moving direction of the lock bar.

The label seat comprises a base and a face seat which are connected with each other and form a cavity; one side of the base facing the boot is a concave surface which is matched with the rear upper of the boot.

A detection element for detecting whether the label is separated from the boot is also arranged in the label seat; the concave surface is provided with a detection hole to facilitate the passing of detection light or detection rays of the detection element.

And the circuit board is provided with a contact switch which can be in contact fit with the locking bar.

The working principle of the invention is as follows: unlocking the tag, sleeving the square steel cable on the tag seat on the heel of the boot, and screwing the knob to enable the two racks to tighten the square steel cable; then the locking bar is pushed downwards, the detection element on the circuit board is started while the lock head locks the locking bar, and the label is installed on the boot. If someone takes the boots without permission, the coil in the tag can trigger an access control system at the door of a shopping mall, so that an alarm sound is given; if someone removes the label from the boot with strong force, the detection element can detect that the label is separated from the boot immediately, and the sounding component in the label immediately gives out alarm sound to prompt the manager to pay attention. When unlocking, the lock head is only required to be aligned to a common magnetic unlocking device.

The invention has the beneficial effects that: by adopting the invention, the commodity safety is reliably ensured; the appearance of the label is exquisite, and the attractive appearance of the boot cannot be influenced; in addition, the steps are simple when the lock is used, and the locking and unlocking are also very convenient.

Drawings

Fig. 1 is a schematic front view of an embodiment of the present invention.

Fig. 2 is a schematic cross-sectional structure of fig. 2.

Fig. 3 is a schematic top view of the embodiment of the invention.

Fig. 4 is a schematic right-view structural diagram according to an embodiment of the present invention.

Fig. 5 is a left side view structural diagram of the embodiment of the invention.

Fig. 6 is an enlarged schematic structural view of the tag holder in fig. 1.

Fig. 7 is a schematic diagram of an explosive structure according to an embodiment of the present invention.

Fig. 8 is a schematic view of the internal structure in the direction of fig. 5 (with the base removed).

Fig. 9 is an enlarged schematic view of the engagement relationship between the tension gear and the knob in fig. 6.

FIG. 10 is a diagram illustrating a usage status of the embodiment of the present invention.

The figure shows that: the lock cylinder comprises a lock cylinder cover 1, a fireproof steel bowl 2, a lock cylinder spring 3, a lock head 4, a knob 5, a face seat 6, an anti-lock buckle 7, a lock strip 8, a lock strip spring 9, a lock tooth spring 10, a lock tooth 11, a tensioning gear 12, a gear cover 13, a coil 14, a circuit board 15, a base 16, a battery 17, a battery cover 18, a short tooth strip 20, a high rack 21, a connector 22, a connector cover 23 and a square steel cable 24.

Detailed Description

The following further description is made with reference to the embodiments shown in the drawings.

In the boot theftproof smart label shown in the attached drawings: the label seat is formed by mutually connecting a base 16 and a face seat 6, a cavity in the label seat is provided with a circuit board 15, and a battery 17 (used for supplying power to various electric appliances), a sound component (recommended buzzer; omitted in the figure) and a coil 14 are arranged on the circuit board; the hoop component is movably arranged on the label seat (shown in the figure to be arranged at the lower part of the label seat) and can be connected with the heel of the boot in a clamping way; a locking bar assembly movably positioned in the tag holder for uni-directionally controlling movement of the hoop assembly; a locking assembly is movably positioned in the tag holder for locking the state of motion of the locking bar assembly.

In the hoop component, a high rack 21 and a low rack 20 are correspondingly configured and respectively provided with a rack; the shape of the square steel cable is matched with the outline of the boot heel, and is connected with the two racks through two connectors 22 (as can be seen from the figure, the end parts of the connecting ends of the high racks and the low racks and the two ends of the square steel cable are respectively provided with a groove 25 around the circumferential direction, the two sides of the connectors are respectively provided with a convex edge which can be embedded into the groove, and the connector cover 23 is adhered with the connectors through an adhesive and covers the cavity in the middle of the connectors). The tensioning gear 12 is rotatably positioned in the tag holder and is in meshing engagement with the two racks; the axis of the tension gear is horizontally arranged, the right side of the tension gear is fixed with a knob 5, and the rotating shaft of the tension gear is inserted into a rotating shaft hole of a label base (as can be known from figure 9, the tension gear is positioned in the inner cavity of the label base, a convex ring 12-2 of which the outer end surface protrudes outwards passes through the rotating shaft hole on the face base to overhang to the outside, the knob is positioned outside the label base, a clamping ring 5-1 protruding towards the convex ring is correspondingly manufactured on the end surface of the knob facing towards the convex ring, the convex ring and the clamping ring are mutually embedded through proper step surfaces and are connected into a whole through ultrasonic welding, and the connecting part is also used as the rotating shaft of the knob and the tension gear to be positioned in the rotating shaft hole; so as to ensure that the knob and the gear do not generate radial and axial displacement when rotating.

The tensioning gear is a duplicate gear, wherein the larger gear 12-1 is provided with unidirectional teeth. The toothed ends of the high rack and the low rack respectively extend into the tag holder from the openings arranged at the two sides of the tag holder and are meshed and matched with the smaller gear in the dual gear at the same time (as can be seen in fig. 8, the toothed ends of the high rack and the low rack are meshed with the smaller gear at the upper side and the lower side of the smaller gear at the same time). Four supporting columns 13-1 of the gear cover 13 are inserted into four holes of the face seat and are fixed with the face seat through ultrasonic welding; the gap between the gear cover and the inner side end face of the larger gear is used as a channel for moving the high rack and the low rack (see figure 6).

In the locking bar assembly: the lock gear 11 is movably positioned in the label holder, and the bottom end of the lock gear is meshed with the larger gear of the dual gears; the locking bar 8 is also movably positioned in the tag holder and is forced against the locking teeth by a locking teeth spring 9 so that the one-way teeth at the bottom end of the locking teeth abut against the tooth surface of the larger gear. The moving direction of the locking teeth and the moving direction of the locking bar are parallel to each other (both vertical directions in fig. 2).

In the locking assembly: the lock head can be movably positioned in the lock cylinder seat of the label seat (as can be known from figure 2, the moving direction of the lock head is perpendicular to the moving direction of the lock strip), and the lock cylinder spring 3 applies force to the lock head to enable the lock head to be matched with the lock strip (the lock strip can be locked by inserting a convex head at the end part of the lock head into a concave hole of the lock strip).

Furthermore, one side of the base facing the boots is provided with a concave surface 16-1 matched with the back uppers of the boots; the concave surface is matched with the surface contour of the rear upper of the boot, so that the label can be tightly attached to the rear upper of the boot to improve the anti-theft performance (the surface of the groove can be paved with a layer of soft material such as cloth to protect the surface layer of the boot).

A detection element for detecting whether the label is separated from the boot is also arranged in the label seat; the concave surface is provided with a detection hole to facilitate the passing of detection light or detection rays of the detection element. As can be seen from fig. 2 and 5: the concave surface is provided with an emitting hole 16-2 and a receiving hole 16-3, and an emitting element and a receiving element (such as an infrared photoelectric switch) which are connected with a circuit board are respectively arranged in the holes; after the power is on, the transmitting element transmits signals immediately, and the signals are transmitted to the boots and reflected back. The receiving element operates normally upon receiving the signal. When the distance between the boot and the detection element exceeds the protection range, the receiving element immediately starts the sound production component to alarm due to signal interruption.

The circuit board is provided with a switch which can be in contact fit with the locking bar. As can be seen from fig. 2: the circuit board is provided with a contact switch 15-1; when the lock is started, the anti-lock catch 7 is taken down firstly (the anti-lock catch is clamped on the lock bar, the lock bar can be prevented from being pressed and mistakenly acting in the transportation process), the lock bar is pressed down to enable the lock head to lock the lock bar, and meanwhile, the lock bar also triggers the contact switch, so that a circuit of the detection element is started to start working.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.