Wearable devices and wearable barcode scanning devices

By designing a wearable barcode scanner, the scanner is worn on the user's hand and can be started with one hand using the thumb operation key. This solves the problem of traditional barcode scanners requiring frequent adjustments to the item's position, reduces labor intensity, and improves scanning efficiency.

CN224436901UActive Publication Date: 2026-06-30SHENZHEN LEMU COMM CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN LEMU COMM CO LTD
Filing Date
2025-09-08
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Traditional barcode scanners require frequent adjustments to the position of items or goods to align with the scanner, resulting in high labor intensity and low efficiency for users.

Method used

A wearable barcode scanner was designed. The scanner is worn on the user's hand through a flexible fitting and fixing components. The scanner can be started with one hand using the thumb operation key. The scanning end of the scanner faces forward, reducing the need to adjust the position of the item or product and pick up and put down the scanner.

Benefits of technology

It significantly reduces the labor intensity of users and improves scanning efficiency, and is especially suitable for scanning express parcels during the packaging process in the logistics and warehousing industry.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application discloses a wearable device and a wearable barcode scanner. The wearable barcode scanner includes a flexible wearing component, a fixing component, an operating component, and a scanner. The flexible wearing component has a palm portion, a back of the hand, a thumb hole, and a thumb operating position. The fixing component includes a locking component and a fixing frame. The operating component includes an operating key and an electrical connector, with the operating key electrically connected to the electrical connector. The scanner is detachably connected to the fixing frame. The operating key is operated by the thumb, which extends from the back of the flexible wearing component through the thumb hole, to trigger the scanner. This device allows the scanner to be worn on the back of the user's hand, and the scanner can be activated by operating the operating key with one hand. When scanning barcodes on items or goods, the user only needs to align the scanning end of the scanner with the barcode, eliminating the need to frequently adjust the position of the barcode on the item or goods or frequently pick up or put down the scanner, significantly reducing the user's workload and improving scanning efficiency.
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Description

Technical Field

[0001] This application relates to the field of barcode scanning device technology, specifically to a wearable device and a wearable barcode scanning device. Background Technology

[0002] With the advancement of technology, more and more fields will use barcodes, QR codes and other identification information as identification codes for goods or items. They have good stability and storage capacity. For example, they are used in logistics warehousing, warehouse management and other fields. Users can identify them with barcode scanners, which is convenient for management.

[0003] Traditional barcode scanners are mostly fixed or handheld. When users are moving or packing items or goods, they need to operate them with both hands. Handheld barcode scanners inevitably require frequent picking up and putting down. Fixed barcode scanners require users to frequently adjust the position of the items or goods to align the labels with the scanner. Both methods require users to exert more effort, which is not only inconvenient to use, but also inefficient. Utility Model Content

[0004] This application aims to provide a wearable device and a wearable barcode scanner, which can be worn on the user's hand for operation, reducing labor intensity and improving scanning efficiency.

[0005] According to a first aspect of this application, this application provides a wearable barcode scanning device, comprising:

[0006] A flexible wearable device is provided with a palm portion, a back of the hand, a thumb perforation, and a thumb operating position. The thumb perforation is located between the palm portion and the back of the hand, and the thumb operating position is located on the front side of the flexible wearable device. The flexible wearable device is used to wrap around the hand and connect the palm portion and the back of the hand. The thumb perforation is used to allow the thumb of the hand to extend from the back side of the flexible wearable device to the front side.

[0007] A fixing component includes a locking component and a fixing bracket, wherein the locking component is locked to the back of the hand, the fixing bracket is detachably connected to the locking component, and the fixing bracket is provided with an electrical connection hole through it;

[0008] An operating component includes an operating key and an electrical connector. The operating key is electrically connected to the electrical connector and is located at the thumb operating position. The electrical connector is located between the locking component and the fixing frame and is exposed in the electrical connection hole.

[0009] A barcode scanner, wherein the barcode scanner is provided with a trigger position, the barcode scanner is detachably connected to the side of the fixing frame facing away from the locking assembly, and the trigger position is electrically connected to the electrical connector;

[0010] The barcode scanner is electrically connected to the operation key via the trigger bit and the electrical connector. The operation key is used to trigger the operation of the barcode scanner by the thumb, which extends from the back of the flexible wearable through the thumb piercing towards the front.

[0011] In some embodiments, the flexible wearable device further includes an index finger connector, which is disposed on the back of the flexible wearable device and opposite to the thumb operating position. The index finger connector is used to connect to the index finger of the hand.

[0012] In some embodiments, the index finger connector is an elastic ring disposed on the back of the thumb operating position of the flexible wearer.

[0013] In some embodiments, the flexible wearable device is further provided with a plurality of ventilation holes, which are disposed on the palm and / or the back of the hand.

[0014] In some embodiments, the flexible wearable device has a first adhesive portion on its front side and a second adhesive portion on its back side. The first adhesive portion is disposed on a portion of the palm, and the second adhesive portion is disposed on a portion of the back of the hand. The first adhesive portion and the second adhesive portion are bonded together when the flexible wearable device is wrapped around the hand.

[0015] In some embodiments, the length of the first adhesive portion is different from the length of the second adhesive portion along the direction from the palm to the back of the hand.

[0016] In some embodiments, the operating component further includes a conductive cable and a covering component, the conductive cable being electrically connected between the operating key and the electrical connector, both the operating key and the conductive cable being covered inside the covering component, the electrical connector extending to the outside of the covering component, and a portion of the covering component containing the electrical connector being disposed between the locking component and the fixing frame.

[0017] In some embodiments, the locking assembly includes a locking member and a connector. The connector has a protruding connecting portion. The flexible wearable also has a connecting hole on the back of the hand. The connector is disposed on the front side of the flexible wearable and the connecting portion extends from the connecting hole to the outside of the back side of the flexible wearable. The locking member is detachably connected to the connecting portion to clamp the flexible wearable between the locking member and the connector.

[0018] In some embodiments, the connector has at least two positioning posts protruding from the side facing the flexible wearable member, and the flexible wearable member has at least two positioning holes through it. The at least two positioning posts correspond one-to-one with the at least two positioning holes, and the positioning posts are positioned and inserted into the positioning holes.

[0019] According to a second aspect of this application, this application provides a wearable device, comprising:

[0020] A flexible wearable device is provided with a palm portion, a back of the hand, a thumb perforation, and a thumb operating position. The thumb perforation is located between the palm portion and the back of the hand, and the thumb operating position is located on the front side of the flexible wearable device. The flexible wearable device is used to wrap around the hand and connect the palm portion and the back of the hand. The thumb perforation is used to allow the thumb of the hand to extend from the back side of the flexible wearable device to the front side.

[0021] A fixing component includes a locking component and a fixing bracket. The locking component is locked to the back of the hand, and the fixing bracket is detachably connected to the locking component. The fixing bracket has a through electrical connection hole, and the side of the fixing bracket facing away from the locking component is used to connect a barcode scanner.

[0022] An operating component includes an operating key and an electrical connector. The operating key is electrically connected to the electrical connector and is located at the thumb operation position. The electrical connector is located between the locking component and the fixing frame and is exposed in the electrical connection hole. The electrical connector is used to electrically connect to the trigger position of the barcode scanner.

[0023] According to the wearable device and wearable barcode scanner of the above embodiments, the user's hand extends from the thumb hole to the front of the flexible wearable part along the back to the front of the flexible wearable part, and the flexible wearable part is wrapped around the user's hand while connecting the palm and the back of the hand to complete the wearing of the flexible wearable part. Then, the barcode scanner is installed on the side of the fixing frame facing away from the locking component. After the barcode scanner is installed on the fixing frame, the user's hand is in a fist shape, and the scanning end of the barcode scanner faces the user's front for easy use. The thumb, extending to the front, can operate the operation key located on the thumb operation position. The user can trigger the operation of the barcode scanner by operating the operation key with one hand. When scanning the identification code on an item or commodity, the user only needs to align the scanning end of the barcode scanner with the identification code, without frequently adjusting the position of the identification code on the item or commodity or frequently picking up or putting down the barcode scanner, which significantly reduces the user's labor intensity and improves scanning efficiency. Attached Figure Description

[0024] Figure 1 The three-dimensional wearable barcode scanning device provided in this application Figure 1 ;

[0025] Figure 2 The three-dimensional wearable barcode scanning device provided in this application Figure 2 ;

[0026] Figure 3 An exploded view of the wearable barcode scanning device provided in this application;

[0027] Figure 4 A perspective view of the flexible wearable component in the wearable barcode scanning device provided in this application;

[0028] Figure 5 An exploded view of the flexible wearable component in the wearable barcode scanning device provided in this application;

[0029] Figure 6 The three-dimensional structure of the operating components in the wearable barcode scanning device provided in this application Figure 1 ;

[0030] Figure 7 The three-dimensional structure of the operating components in the wearable barcode scanning device provided in this application Figure 2 ;

[0031] Figure 8 An exploded view of the operating components in the wearable barcode scanning device provided in this application;

[0032] Figure 9 The three-dimensional fixture in the fixing assembly of the wearable barcode scanning device provided in this application Figure 1 ;

[0033] Figure 10 The three-dimensional fixture in the fixing assembly of the wearable barcode scanning device provided in this application Figure 2 ;

[0034] Figure 11 The three-dimensional barcode scanner in the wearable barcode scanning device provided in this application Figure 1 ;

[0035] Figure 12 The three-dimensional barcode scanner in the wearable barcode scanning device provided in this application Figure 2 ;

[0036] Figure 13 The three-dimensional connection of the locking assembly of the wearable barcode scanner provided in this application Figure 1 ;

[0037] Figure 14 The three-dimensional connection of the locking assembly of the wearable barcode scanner provided in this application Figure 2 ;

[0038] Figure 15 The three-dimensional locking element in the locking assembly of the wearable barcode scanner provided in this application Figure 1 ;

[0039] Figure 16 The three-dimensional locking element in the locking assembly of the wearable barcode scanner provided in this application Figure 2 .

[0040] Figure label:

[0041] Flexible wearable component 10, front 101, back 102, connecting hole 103, positioning hole 104, first connecting piece 105, first connecting hole 1051, first positioning hole 1052, first through hole 1053, first hollow part 1054, second connecting piece 106, second connecting hole 1061, second positioning hole 1062, second through hole 1063, second hollow part 1064, mesh piece 107, third connecting hole 1071, third positioning hole 1072, third through hole 1073, palm part 11, back of hand 12, thumb through hole 13, thumb operating position 14, index finger connector 15, ventilation hole 16, first adhesive part 17, second adhesive part 18, fourth adhesive part 19;

[0042] Fixed component 20, locking component 21, locking element 211, receiving cavity 2111, locking block 2112, rotation mark 2113, anti-slip part 2114, connecting part 212, slot 2121, through hole 2122, positioning protrusion 2123, connecting part 2124, slot 2125, slot 2126, positioning post 2127, fixing bracket 22, electrical connection hole 221, first buckle 222, second buckle 223, positioning boss 224, locking block 225, screw hole 226;

[0043] Operating component 30, operating key 31, electrical connector 32, conductive cable 33, covering component 34, first covering component 341, second covering component 342, plug hole 35, keycap 36, third adhesive part 37.

[0044] The scanner is 40, the trigger position is 41, the scanning end is 42, the first latch is 43, the second latch is 44, the positioning groove is 45, and the power supply unit is 46. Detailed Implementation

[0045] The present application will now be described in further detail with reference to the accompanying drawings and specific embodiments. Similar elements in different embodiments are referred to by related similar element reference numerals. In the following embodiments, many details are described to facilitate a better understanding of the present application. However, those skilled in the art will readily recognize that some features may be omitted in different situations, or may be replaced by other elements, materials, or methods. In some cases, certain operations related to the present application are not shown or described in the specification. This is to avoid obscuring the core parts of the present application with excessive description. For those skilled in the art, detailed description of these related operations is not necessary; they can fully understand the related operations based on the description in the specification and general technical knowledge in the art.

[0046] Furthermore, the features, operations, or characteristics described in the specification can be combined in any suitable manner to form various embodiments, and the operational steps involved in each embodiment can also be rearranged or adjusted in a manner that is obvious to those skilled in the art. Therefore, the specification and drawings are only for clearly describing a particular embodiment and do not imply that they represent the necessary components and / or order.

[0047] The serial numbers assigned to components in this document, such as "first" and "second," are used only to distinguish the described objects and have no sequential or technical meaning. The terms "connection" and "linkage" used in this application, unless otherwise specified, include both direct and indirect connections (linkages).

[0048] Taking the packing of express parcels by packers in the logistics and warehousing industry as an example, the parcels are usually labeled or printed with identification codes (barcodes or QR codes). Packers use a barcode scanner to scan and identify the identification codes, and then send the data to the backend wirelessly (e.g., via Bluetooth, WiFi) to count the number of parcels. After scanning the barcodes on the express parcels, the packers also need to scan the identification codes on the packaging and affix the express barcode label to the packaging to complete the packing process.

[0049] However, due to the varying sizes of packages, the placement of the identification codes affixed to them differs. If a fixed scanner is used, packers need to frequently adjust the package's position to align the identification code with the scanner. If a handheld scanner is used, packers need to frequently pick it up and put it down. These repetitive actions during packing require significantly more effort from packers, resulting in a substantial decrease in packing efficiency.

[0050] In related technologies, a wearable barcode scanner is fixed to a wearable device to form a wearable barcode scanner. It can be worn on the user's wrist, middle finger, and index finger. This type of wearable barcode scanner is small and easy to wear, but due to the limitation of the wearing position, it cannot be operated with one hand. The user still has to frequently operate with both hands to start the barcode scanner.

[0051] To address the aforementioned issues, this application provides a wearable device and a wearable barcode scanner. Users can wear the scanner on the back of their hand and operate it with one hand. During use, users do not need to frequently adjust the position of the barcode on the item or product or frequently pick up and put down the scanner, significantly reducing the user's workload and improving scanning efficiency.

[0052] Example 1

[0053] See Figures 1-3 As shown, the wearable barcode scanning device provided in this application includes: a flexible wearable component 10, a fixing component 20, an operating component 30, and a barcode scanner 40.

[0054] The flexible wearable part 10 is made of flexible material and can be sewn with matte black microfiber fabric. For example, it can be sewn with two pieces of matte black microfiber fabric and a black mesh fabric sandwiched between the two pieces of matte black microfiber fabric (see the following embodiments). The stitching can play an aesthetic role, is easy to mass-produce, and is beautiful and elegant.

[0055] The flexible wearable device 10 has a palm portion 11, a back of the hand 12, a thumb perforation 13, and a thumb operating position 14, such as Figure 4 As shown, the dashed boxes at different locations roughly define the areas of the palm 11, the back of the hand 12, and the thumb operating position 14. The palm 11 and the back of the hand 12 are located on opposite sides of the flexible wearable device 10 along its length (e.g., ...). Figure 4 (In the X-axis direction), the thumb perforation 13 is located between the palm part 11 and the back of the hand 12, see [reference]. Figures 1-4 As shown, the flexible wearable device 10 has a front side 101 and a back side 102. The flexible wearable device 10 is similar to a sheet structure. The front side 101 and the back side 102 are the opposite sides of the sheet structure flexible wearable device 10. In use, the front side 101 is the side facing the user, and the back side 102 is the side facing away from the user. The thumb operation position 14 is provided on the front side of the flexible wearable device 10.

[0056] The flexible wearable 10 is used to wrap around the user's hand and connect the palm portion 11 to the back of the hand 12. Specifically, when the flexible wearable 10 wraps around the user's hand, the back side 102 faces the user's hand, the front side 101 faces the user, the palm portion 11 is located at the palm of the user's hand, and the back of the hand 11 is located at the back of the user's hand. At the same time, by connecting the palm portion 11 to the back of the hand 12, the flexible wearable 10 can be fixed to the user's hand.

[0057] The thumb perforation 13 allows the thumb of the hand to extend from the back 102 of the flexible wearable 10 to the front 101. Before wrapping the flexible wearable 10 around the user's hand, the user's thumb passes through the thumb perforation 13 along the direction from the back 102 to the front 101 of the flexible wearable 10, so that the thumb extends to the front 101. Then, the flexible wearable 10 is wrapped around the user's hand, connecting the palm portion 11 to the back of the hand 12, thus putting the flexible wearable 10 on the user's hand. The thumb extending to the front 101 can extend to the thumb operation position 14 for subsequent operation of the operation key 31 located at the thumb operation position 14.

[0058] The fixing component 20 includes a locking component 21 and a fixing frame 22. The locking component 21 is locked to the back of the hand 12 of the flexible wearable 10. The fixing frame 22 is detachably connected to the locking component 21. The fixing frame 22 is provided with an electrical connection hole 221 through it. The fixing frame 22 can be indirectly connected to the flexible wearable 10 through the locking component 21.

[0059] See Figures 6-8 As shown, the operation component 30 includes an operation key 31 and an electrical connector 32. The operation key 31 is electrically connected to the electrical connector 32. The operation key 31 is located at the thumb operation position 14 and can be operated by the thumb extending from the thumb hole 13 to the front of the flexible wearable 10. The electrical connector 32 is located between the locking component 21 and the fixing frame 22 and is exposed in the electrical connection hole 221.

[0060] In some embodiments, the electrical connector 32 passes through the electrical connection hole 221, and at least a portion of the electrical connector 32 may extend to the outside of the electrical connection hole 221.

[0061] like Figure 12 As shown, the barcode scanner 40 has a trigger position 41. The barcode scanner 40 is detachably connected to the mounting bracket 22 on the side facing away from the locking assembly 21, and the trigger position 41 is electrically connected to the electrical connector 32. The detachable connection between the barcode scanner 40 and the mounting bracket 22 allows the barcode scanner 40 to be removed from the mounting bracket 22 when not in use, facilitating product storage and transportation. The barcode scanner 40 only needs to be installed on the mounting bracket 22 when in use.

[0062] Preferably, the electrical connector 32 is a spring-loaded pin, which elastically contacts the trigger position 41 to achieve electrical connection. Alternatively, the trigger position 41 can be a spring-loaded pin structure, with the electrical connector 32 and trigger position 41 making elastic contact and electrical connection. In this application, after the electrical connector 32 and trigger position 41 are electrically connected, the operation key 31 can be indirectly electrically connected to the barcode scanner 40. Thus, the barcode scanner 40 is electrically connected to the operation key 31 via the electrically connected trigger position 41 and electrical connector 32. The operation key 31 is operated by the thumb, which extends from the thumb hole 13 from the back 102 of the flexible wearable 10 to the front 101, to trigger and start the barcode scanner 40. The operation key 31 can be operated by the thumb through touching, pressing, flicking, etc. After the operation key 31 is operated, a start signal is sent to the barcode scanner 40 via the electrical connector 32 and trigger position 41 to start the barcode scanner 40. In a preferred embodiment, the operation key 31 is operated by pressing.

[0063] In this embodiment, the user's hand extends from the thumb hole 13 to the front 101 of the flexible wearer 10 along the direction from the back 102 to the front 101 of the flexible wearer 10. While wrapping the flexible wearer 10 around the user's hand, the palm 11 is connected to the back of the hand 12, thus completing the wearing of the flexible wearer 10. Afterwards, the barcode scanner 40 is installed on the side of the fixing frame 22 facing away from the locking assembly 21. Figure 1 , Figure 3 and Figure 11 As shown, the barcode scanner 40 has a scanning end 42. After the barcode scanner 40 is installed on the mounting bracket 22, the user's hand is clenched into a fist, with the scanning end 42 facing forward for easy use. The thumb, extending towards the front 101, extends to the thumb operation position 14 and can operate the operation key 31 located on the thumb operation position 14. The user can trigger the operation of the barcode scanner 40 by operating the operation key 31 with one hand. When scanning the identification code on an item or commodity, the user only needs to align the scanning end 42 of the barcode scanner 40 with the identification code, without frequently adjusting the position of the identification code on the item or commodity or frequently picking up or putting down the barcode scanner, significantly reducing the user's labor intensity and improving scanning efficiency.

[0064] The scanning terminal 42 emits a light source, which illuminates the identification code (barcode or QR code) on the item or commodity. The light is reflected and received by the scanning module in the scanner 40, generating a light signal. The scanning module transmits the received light signal to the photoelectric element in the scanner 40. The photoelectric element converts the light signal into an electrical signal, which is then converted into a digital signal by the analog-to-digital converter in the scanner 40. Finally, the processor in the scanner 40 processes the information of the identification code to parse it. The information of the identification code may include the type of item or commodity, production information, etc. Of course, when packaging packages, the processor can also process it into the quantity information of the packages for counting.

[0065] Two trigger positions 41 are provided on the barcode scanner 40. The barcode scanner 40 also has a power supply unit 46, which is electrically connected to the scanning terminal 42 through the two trigger positions 41. The power supply unit 46 is also connected to electronic devices such as the scanning module, photoelectric components, and processor in the barcode scanner 40. The operation key 31 is an operation switch. Pressing the operation key 31 once will activate the two trigger positions 41, so that power is supplied to the scanning terminal 42 through the power supply unit 46, thereby starting the operation of the barcode scanner 40. Pressing the operation key 31 again will deactivate the two trigger positions 41, thereby cutting off the power supply to the power supply unit 46.

[0066] See Figure 3 , Figure 9 and Figure 10As shown, the fixing frame 22 is provided with a first buckle 222 and a second buckle 223. The first buckle 222 and the second buckle 223 are respectively located at both ends of the fixing frame 22, and two first buckles 222 are provided at one end of the fixing frame 22. See also Figure 11 and Figure 12 As shown, the barcode scanner 40 is provided with a first buckle 43 and a second buckle 44. The first buckle 43 and the second buckle 44 are respectively located at both ends of the barcode scanner 40. Two first buckles 43 are provided at one end of the barcode scanner 40. During the process of installing the barcode scanner 40 onto the fixing frame 22, two first buckles 222 respectively engage with the two first buckles 43, and a second buckle 223 engages with the second buckle 44, so as to detachably connect the barcode scanner 40 to the fixing frame 22.

[0067] The shape of the side of the mounting bracket 22 facing away from the locking assembly 21 is adapted to the shape of the side of the barcode scanner 40 that is mounted on the mounting bracket 22. For example, the shape of the side of the barcode scanner 40 that is mounted on the mounting bracket 22 is arc-shaped or approximately arc-shaped, and the shape of the side of the mounting bracket 22 facing away from the locking assembly 21 is an adapted arc-shaped or approximately arc-shaped shape.

[0068] See Figure 9 As shown, the fixing bracket 22 has a positioning boss 224 protruding from it, and the electrical connection hole 221 passes through the positioning boss 224. (See Figure 224) Figure 12 As shown, the barcode scanner 40 is recessed with a positioning groove 45, and the trigger position 41 is located at the bottom of the positioning groove 45. When the barcode scanner 40 is installed on the mounting bracket 22, the positioning boss 224 is positioned and inserted into the positioning groove 45, which can quickly assemble the barcode scanner 40 onto the mounting bracket 22 and ensure that the trigger position 41 can be accurately connected to the electrical connector 32. At the same time, the positioning boss 224 and the positioning groove 45 can also form a foolproof structure, so that the barcode scanner 40 can be accurately assembled onto the mounting bracket 22.

[0069] In a specific embodiment, to facilitate operation of the operation key 31 located on the thumb operation position 14 by the thumb extending towards the front 101 of the flexible wearable device 10, the thumb operation position 14 (i.e., the operation key 31 located on the thumb operation position 14) needs to be positioned on the side of the index finger closer to the thumb. However, due to the flexible nature of the flexible wearable device 10, the thumb operation position 14 needs to be positioned. Therefore, see... Figures 1-3 As shown, the flexible wearable device 10 is also provided with an index finger connector 15. The index finger connector 15 is disposed on the back 102 of the flexible wearable device 10 and is opposite to the thumb operation position 14. The index finger connector 15 is used to connect to the index finger of the hand. The index finger connected to the index finger connector 15 supports the thumb operation position 14, which makes it convenient to press the operation key 31.

[0070] In this embodiment, the index finger connector 15 is an elastic ring disposed on the back of the thumb operation position 14 of the flexible wearable device 10. During wear, the user's index finger is first threaded through the elastic ring, which is then securely fastened to the index finger by its elasticity. Next, the thumb passes through the thumb hole 13 and extends to the front 101 of the flexible wearable device 10, wrapping the flexible wearable device 10 around the user's hand and connecting the palm 11 and the back of the hand 12, thus completing the wearing process. After extending through the thumb hole 13 to the front 101 of the flexible wearable device 10, the thumb extends to the operation button 31 located on the thumb operation position 14.

[0071] When the flexible wearable device 10 is worn on a user's hand, prolonged use may cause discomfort due to sweaty hands. For this, please refer to [link / reference needed]. Figures 1-4 As shown, the flexible wearable device 10 is also provided with multiple ventilation holes 16, which are located on the palm 11 and / or the back of the hand 12 to maintain air circulation in the user's palm and back of the hand, to wick away sweat generated in the palm and back of the hand, and to improve the user's wearing comfort.

[0072] To facilitate the connection between the palm portion 11 and the back of the hand 12 after the flexible wearable device 10 is worn on the user's hand, in this embodiment, the front side 101 of the flexible wearable device 10 is provided with a first adhesive portion 17, and the back side 102 of the flexible wearable device 10 is provided with a second adhesive portion 18. The first adhesive portion 17 is disposed on a portion of the palm portion 11, and the second adhesive portion 18 is disposed on a portion of the back of the hand 12. The first adhesive portion 17 and the second adhesive portion 18 are bonded together when the flexible wearable device 10 is wrapped around the hand. In other words, the palm portion 11 and the back of the hand 12 of the flexible wearable device 10 wrapped around the hand are connected by the bonding connection of the first adhesive portion 17 and the second adhesive portion 18.

[0073] To increase the number of cycles of use of the first adhesive part 17 and the second adhesive part 18, the first adhesive part 17 may be a hook and loop fastener, and the second adhesive part 18 may be a loop fastener, and the hook and loop fasteners may be bonded together.

[0074] like Figure 2 and Figure 4 As shown, along the direction from the palm 11 to the back of the hand 12 ( Figure 2 and Figure 4 In the X-axis direction, the length L1 of the first adhesive part 17 is different from the length L2 of the second adhesive part 18. In a preferred embodiment, the length L1 of the first adhesive part 17 is at least twice the length L2 of the second adhesive part 18. In this way, the overlapping length of the first adhesive part 17 and the second adhesive part 18 can be adjusted according to the different hand sizes of different users, so as to meet the usage needs of different users with different hand sizes.

[0075] like Figure 3and Figure 13 As shown, the locking assembly 21 is provided with a slot 2121, such as Figure 10 As shown, the fixing frame 22 is provided with a locking block 225, and the locking component 21 is positioned by locking the fixing frame 22 into the locking slot 2121 through the locking block 224.

[0076] like Figure 13 As shown, the locking assembly 21 is also provided with multiple through holes 2122, such as... Figure 9 and Figure 10 As shown, the fixing frame 22 is provided with multiple screw holes 226, and multiple through holes 2122 correspond one-to-one with the multiple screw holes 226. The locking component 21 can be connected to the fixing frame 22 by passing a bolt through the through hole 2122 and screwing it into the screw hole 226. In a preferred embodiment, the through hole 2122 provided on the locking component 21 can be a countersunk hole to ensure that the top cap of the bolt is sunk into the countersunk hole, thus ensuring flatness and aesthetics.

[0077] See Figures 6-8 As shown, the operating assembly 30 also includes a conductive cable 33 and a covering assembly 34. The conductive cable 33 is electrically connected between the operating key 31 and the electrical connector 32. Both the operating key 31 and the conductive cable 33 are covered inside the covering assembly 34. The covering assembly 34 is preferably made of insulating material to protect the operating key 31 and the conductive cable 33. The electrical connector 32 extends to the outside of the covering assembly 34, and the portion of the covering assembly 34 where the electrical connector 32 is located is between the locking assembly 21 and the fixing bracket 22.

[0078] like Figure 13 As shown, the locking assembly 21 is also provided with at least two positioning protrusions 2123, such as Figure 6 and Figure 7 As shown, the covering component 34 is also provided with at least two insertion holes 35. When the covering component 34 is installed between the locking component 21 and the fixing frame 22, the positioning protrusion 2123 is inserted into the insertion hole 35 to position the covering component 34. The at least two insertion holes 35 are located on both sides of the electrical connector 32, further ensuring that the electrical connector 32 can be inserted into the electrical connection hole 221 of the fixing frame 22.

[0079] In this embodiment, a keycap 36 is also provided on the covering component 34. The keycap 36 is located above the operation key 32 so that the user can press the operation key 32 through the keycap 36.

[0080] A third adhesive portion 37 is also provided on the covering component 34. The third adhesive portion 37 is located on the side of the covering component 34 facing away from the keycap 36 and is opposite to the position of the keycap 36, such as... Figure 3 and Figure 4As shown, the flexible wearable component 10 also has a fourth adhesive portion 19, which is located at the thumb operation position 14. The third adhesive portion 37 and the fourth adhesive portion 19 are bonded together to connect the side of the covering component 34 where the keycap 36 is located to the portion of the flexible wearable component 10 where the thumb operation position 14 is located. In a preferred embodiment, the third adhesive portion 37 and the fourth adhesive portion 19 can also be connected by using a hook-and-loop fastener and a loop fastener respectively.

[0081] like Figure 8 As shown, the covering component 34 includes a first covering member 341 and a second covering member 342. The periphery of the first covering member 341 and the second covering member 342 are joined to form a covering space. The operation key 31 and the conductive cable 33 are disposed within the covering space. The keycap 36 is disposed on the first covering member 341. The third adhesive part 37 is disposed on the side of the second covering member 342 facing away from the first covering member 341. The first covering member 341 is provided with at least two first insertion holes 343, and the second covering member 342 is provided with at least two second insertion holes 344. The at least two first insertion holes 343 and the at least two second insertion holes 344 correspond one-to-one, and the one-to-one correspondence of the first insertion holes 343 and the second insertion holes 344 forms an insertion hole 35.

[0082] See Figure 2 , Figure 3 , Figures 13-16 As shown, the locking assembly 21 includes a locking member 211 and a connecting member 212. The connecting member 212 has a protruding connecting portion 2124, such as... Figure 4 As shown, the flexible wearable 10 also has a connecting hole 103 on the back of the hand 12. The connector 212 is disposed on the front 101 of the flexible wearable 10, and the connecting part 2124 extends from the connecting hole 103 to the outside of the back 102 of the flexible wearable 10. The locking member 211 is detachably connected to the connecting part 2124 to clamp the flexible wearable 10 between the locking member 211 and the connector 212.

[0083] like Figure 14 As shown, the connector 212 has at least two positioning posts 2127 protruding on the side facing the flexible wearable 10, and the flexible wearable 10 has at least two positioning holes 104 through it. The at least two positioning posts 2127 correspond one-to-one with the at least two positioning holes 104. The positioning posts 2127 are positioned and inserted into the positioning holes 104, which can position the installation of the connector 212 and the flexible wearable 10.

[0084] like Figure 14As shown, the connecting portion 2124 has at least two slots 2125 and at least two recesses 2126 circumferentially. Each slot 2125 corresponds to one of the recesses 2126, and the recesses 2126 penetrate the slots 2125. The slots 2125 extend circumferentially along the connecting portion 2124, and the openings of the recesses 2126 penetrate the side of the connecting portion 2124 facing the locking member 211. Figure 15 As shown, the locking member 211 is recessed to form a receiving cavity 2111, and the cavity wall of the receiving cavity 211 is provided with at least two locking blocks 2112. The locking blocks 2112 can be inserted into the slot 2126 and are locked into the slot 2125 when the locking member 211 rotates relative to the connecting member 212.

[0085] like Figure 16 As shown, a rotation mark 2113 is provided on the side of the locking member 211 facing away from the connector 212. The rotation mark 2113 is used to indicate the locking direction (clockwise) and unlocking direction (counterclockwise) of the locking member 211. When rotating in the locking direction, the locking block 2112 can be inserted into the slot 2125. When rotating in the unlocking direction, the locking block 2112 can be disengaged from the slot 2125.

[0086] An anti-slip part 2114 is provided on the side of the locking member 211 facing away from the connector 212, which can generate friction between the user's hand (the other hand not wearing the flexible wearer 10) and the locking member 211, making it convenient to rotate the locking member 211 in the unlocking or locking direction.

[0087] See Figure 5 As shown, the flexible wearable component 10 includes a first connecting piece 105, a second connecting piece 106, and a mesh piece 107. The mesh piece 107 is connected between the first connecting piece 105 and the second connecting piece 106. The first connecting piece 105 and the second connecting piece 106 are made of black microfiber fabric and are connected to each other by sewing at their circumferential edges. The mesh on the mesh piece 107 has multiple ventilation holes 16.

[0088] The first connecting piece 105 is provided with a first connecting hole 1051, a first positioning hole 1052 and a first through hole 1053. The second connecting piece 106 is provided with a second connecting hole 1061, a second positioning hole 1062 and a second through hole 1063. The mesh piece 107 is provided with a third connecting hole 1071, a third positioning hole 1072 and a third through hole 1073. The first connecting hole 1051, the second connecting hole 1061 and the third connecting hole 1071 form a connecting hole 103. The first positioning hole 1052, the second positioning hole 1062 and the third positioning hole 1072 form a positioning hole 104. The first through hole 1053, the second through hole 1063 and the third through hole 1073 form a thumb through hole 13.

[0089] The first connecting piece 105 is also provided with two first hollow parts 1054, and the two first hollow parts 1053 are located on the palm part 11 and the back of the hand 12 respectively. The second connecting piece 106 is also provided with two second hollow parts 1064, and the two second hollow parts 1064 are located on the palm part 11 and the back of the hand 12 respectively. The two first hollow parts 1054 and the two second hollow parts 1064 correspond one-to-one. The shapes of the one-to-one corresponding first hollow parts 1054 and second hollow parts 1064 are the same, but the shapes of the two sets of corresponding first hollow parts 1054 and second hollow parts 1064 are different. The first hollow parts 1054 and the second hollow parts 1064 can expose the ventilation holes 16 formed on the mesh sheet 107.

[0090] Example 2

[0091] This embodiment provides a wearable device, which includes a flexible wearing component 10, a fixing component 20, and an operating component 30.

[0092] The flexible wearable device 10 has a palm portion 11, a back of the hand 12, a thumb perforation 13, and a thumb operating position 14, such as Figure 4 As shown, the dashed boxes at different locations roughly define the areas of the palm 11, the back of the hand 12, and the thumb operating position 14. The palm 11 and the back of the hand 12 are located on opposite sides of the flexible wearable device 10 along its length (e.g., ...). Figure 4 (In the X-axis direction), the thumb perforation 13 is located between the palm part 11 and the back of the hand 12, see [reference]. Figures 1-4 As shown, the flexible wearable device 10 has a front side 101 and a back side 102. The flexible wearable device 10 is similar to a sheet structure. The front side 101 and the back side 102 are the opposite sides of the sheet structure flexible wearable device 10. In use, the front side 101 is the side facing the user, and the back side 102 is the side facing away from the user. The thumb operation position 14 is provided on the front side of the flexible wearable device 10.

[0093] The flexible wearable 10 is used to wrap around the user's hand and connect the palm portion 11 to the back of the hand 12. Specifically, when the flexible wearable 10 wraps around the user's hand, the back side 102 faces the user's hand and the front side 101 faces the user. The palm portion 11 is located at the palm of the user's hand after wrapping around it, while the back of the hand 11 is located at the back of the user's hand. At the same time, by connecting the palm portion 11 and the back of the hand 11, the flexible wearable 10 can be fixed to the user's hand.

[0094] The thumb perforation 13 allows the thumb of the hand to extend from the back 102 of the flexible wearable 10 to the front 101. Before wrapping the flexible wearable 10 around the user's hand, the user's thumb passes through the thumb perforation 13 along the direction from the back 102 to the front 101 of the flexible wearable 10, so that the thumb extends to the front 101. Then, the flexible wearable 10 is wrapped around the user's hand, connecting the palm portion 11 to the back of the hand 12, thus putting the flexible wearable 10 on the user's hand. The thumb extending to the front 101 can extend to the thumb operation position 14 for subsequent operation of the operation key 31 located at the thumb operation position 14.

[0095] The fixing component 20 includes a locking component 21 and a fixing bracket 22. The locking component 21 is locked to the back of the hand 12 of the flexible wearable device 10. The fixing bracket 22 is detachably connected to the locking component 21 and has a through electrical connection hole 221. The fixing bracket 22 can be indirectly connected to the flexible wearable device 10 through the locking component 21. The side of the fixing bracket 22 facing away from the locking component 21 is used to connect a barcode scanner 40.

[0096] The operating component 30 includes an operating key 31 and an electrical connector 32. The operating key 31 is electrically connected to the electrical connector 32. The operating key 31 is located at the thumb operating position 14 and can be operated by the thumb extending from the thumb hole 13 to the front of the flexible wearable 10. The electrical connector 32 is located between the locking component 21 and the fixing frame 22 and is exposed in the electrical connection hole 221. The electrical connector 32 is used for electrical connection to the trigger position 41 of the barcode scanner 40.

[0097] For other structural features of the wearable device, please refer to Embodiment 1, which will not be repeated here.

[0098] In summary, in the wearable device and wearable barcode scanner provided by this utility model, the user's hand extends from the thumb hole to the front of the flexible wearable part along the back to the front of the flexible wearable part, wrapping the flexible wearable part around the user's hand while connecting the palm to the back of the hand, thus completing the wearing of the flexible wearable part. Then, the barcode scanner is installed on the side of the fixing frame facing away from the locking component. After installing the barcode scanner on the fixing frame, the user's hand is in a fist shape, with the scanning end of the barcode scanner facing forward for easy use. The thumb, extending forward, can operate the operation key located on the thumb operation position. The user can trigger the barcode scanner to work by operating the operation key with one hand. When scanning the identification code on an item or commodity, the user only needs to align the scanning end of the barcode scanner with the identification code, eliminating the need to frequently adjust the position of the identification code on the item or commodity or frequently pick up or put down the barcode scanner, significantly reducing the user's labor intensity and improving scanning efficiency.

[0099] The above-described specific examples are for illustrative purposes only and are not intended to limit the scope of this invention. Those skilled in the art to which this invention pertains can make various simple deductions, modifications, or substitutions based on the concept of this invention.

Claims

1. A wearable barcode scanning device, characterized in that, include: A flexible wearable device is provided with a palm portion, a back of the hand, a thumb perforation, and a thumb operating position. The thumb perforation is located between the palm portion and the back of the hand, and the thumb operating position is located on the front side of the flexible wearable device. The flexible wearable device is used to wrap around the hand and connect the palm portion and the back of the hand. The thumb perforation is used to allow the thumb of the hand to extend from the back side of the flexible wearable device to the front side. A fixing component includes a locking component and a fixing bracket, wherein the locking component is locked to the back of the hand, the fixing bracket is detachably connected to the locking component, and the fixing bracket is provided with an electrical connection hole through it; An operating component includes an operating key and an electrical connector. The operating key is electrically connected to the electrical connector and is located at the thumb operating position. The electrical connector is located between the locking component and the fixing frame and is exposed in the electrical connection hole. A barcode scanner, wherein the barcode scanner is provided with a trigger position, the barcode scanner is detachably connected to the side of the fixing frame facing away from the locking assembly, and the trigger position is electrically connected to the electrical connector; The barcode scanner is electrically connected to the operation key via the trigger bit and the electrical connector. The operation key is used to trigger the operation of the barcode scanner by the thumb, which extends from the back of the flexible wearable through the thumb piercing towards the front.

2. The wearable barcode scanning device as described in claim 1, characterized in that, The flexible wearable device also includes an index finger connector, which is located on the back of the flexible wearable device and is opposite to the thumb operating position. The index finger connector is used to connect to the index finger of the hand.

3. The wearable barcode scanning device as described in claim 2, characterized in that, The index finger connector is an elastic ring disposed on the back of the thumb operating position of the flexible wearable device.

4. The wearable barcode scanning device as described in claim 1, characterized in that, The flexible wearable device is also provided with multiple ventilation holes, which are located on the palm and / or the back of the hand.

5. The wearable barcode scanning device as described in claim 1, characterized in that, The flexible wearable device has a first adhesive portion on its front side and a second adhesive portion on its back side. The first adhesive portion is located on a portion of the palm, and the second adhesive portion is located on a portion of the back of the hand. The first adhesive portion and the second adhesive portion are bonded together when the flexible wearable device is wrapped around the hand.

6. The wearable barcode scanning device as described in claim 5, characterized in that, Along the direction from the palm to the back of the hand, the length of the first adhesive portion is different from the length of the second adhesive portion.

7. The wearable barcode scanning device as described in claim 1, characterized in that, The operating component further includes a conductive cable and a covering component. The conductive cable is electrically connected between the operating key and the electrical connector. Both the operating key and the conductive cable are covered inside the covering component. The electrical connector extends to the outside of the covering component. The portion of the covering component containing the electrical connector is located between the locking component and the fixing frame.

8. The wearable barcode scanning device as described in claim 1, characterized in that, The locking assembly includes a locking member and a connecting member. The connecting member has a protruding connecting portion. The flexible wearable also has a connecting hole on the back of the hand. The connecting member is disposed on the front of the flexible wearable and the connecting portion extends from the connecting hole to the outside of the back of the flexible wearable. The locking member is detachably connected to the connecting portion to clamp the flexible wearable between the locking member and the connecting member.

9. The wearable barcode scanning device as described in claim 8, characterized in that, The connector has at least two positioning posts protruding on the side facing the flexible wearable component, and the flexible wearable component has at least two positioning holes through it. The at least two positioning posts correspond one-to-one with the at least two positioning holes, and the positioning posts are positioned and inserted into the positioning holes.

10. A wearable device, characterized in that, include: A flexible wearable device is provided with a palm portion, a back of the hand, a thumb perforation, and a thumb operating position. The thumb perforation is located between the palm portion and the back of the hand, and the thumb operating position is located on the front side of the flexible wearable device. The flexible wearable device is used to wrap around the hand and connect the palm portion and the back of the hand. The thumb perforation is used to allow the thumb of the hand to extend from the back side of the flexible wearable device to the front side. A fixing component includes a locking component and a fixing bracket. The locking component is locked to the back of the hand, and the fixing bracket is detachably connected to the locking component. The fixing bracket has a through electrical connection hole, and the side of the fixing bracket facing away from the locking component is used to connect a barcode scanner. An operating component includes an operating key and an electrical connector. The operating key is electrically connected to the electrical connector and is located at the thumb operation position. The electrical connector is located between the locking component and the fixing frame and is exposed in the electrical connection hole. The electrical connector is used to electrically connect to the trigger position of the barcode scanner.