CN114209450A - Handheld scanning equipment for counting medical surgical instruments - Google Patents

Abstract

The invention provides a handheld scanning device for medical surgical instrument inventory, comprising: the equipment comprises an equipment body, a first die cavity and a second die cavity, wherein the equipment body comprises a main shell with the first die cavity, and a communication assembly is arranged in the main shell; the scanning body is used for induction scanning of the medical instrument and comprises an auxiliary shell with a second cavity, and the auxiliary shell is connected with the main shell; and the packaging colloid is sealed and filled in the main shell and the auxiliary shell so as to exclude air in the handheld scanning equipment. The handheld scanning equipment has the advantages that the air in the handheld scanning equipment is completely exhausted by adopting a tight closed structural design and sealing and encapsulating the packaging colloid in the main shell and the auxiliary shell, so that the handheld scanning equipment can support the sterilization of a low-temperature sterilizer, and after the equipment is sterilized, the equipment and sterile instruments can coexist in the same working space range, so that the problem that the scanning and counting of the surgical instruments with the RFID tags cannot be realized currently in the four counting processes in the operation process is effectively solved.

Description

Handheld scanning equipment for counting medical surgical instruments

Technical Field

The invention relates to the technical field of medical surgical instrument tracking management, in particular to a handheld scanning device for counting medical surgical instruments with RFID labels.

Background

With the continuous improvement of medical treatment level, the demand for medical surgical instruments is increased year by year, and the medical instruments are necessary to be tracked and managed, so that the tracing management precision of medical instruments by each hospital main body is more detailed for further ensuring the use safety and effectiveness of the medical instruments and the health and life safety of patients. The original method for tracking the sterilization instrument bag has too coarse granularity and can not meet the fine management requirement of the modern hospital. There have been many hospitals and scientific institutions exploring and managing single surgical instruments using RFID technology and issuing related patents.

The surgical instruments need to be counted four times during the entire procedure: counting for the first time, namely before the operation begins; counting for the second time, namely before closing the body cavity; counting for the third time, namely after closing the body cavity; the fourth check, after suturing the skin (cited from "guide to practice for operating Room Care", proceedings of the institute of nursing operating Room, China society of Care, ed by the professional Committee of nursing operating Room, Ministry of public health, 2019 edition, page 165). At present, the manual counting is adopted for recognizing and counting surgical instruments in an operating room environment, errors can occur in the manual counting, the safety is not guaranteed, the mode needs to check the counting process for multiple times and confirm counting results, the labor cost is high, and the working efficiency is low. In addition, all the clean surgical instruments used by the patients in the operation need to be in a sterile state, and the currently published patent counting equipment is not designed for the operating room environment and is fixed reading equipment, so if the sterile instruments are moved to the equipment for reading, the sterile state is lost, and the sterile instruments cannot be used for the operation.

If the application number is: chinese patent CN 111603248A discloses an electronic surgical instrument counting table, which comprises: the RFID counting platform comprises a counting platform body, and an RFID reader, a communication module and a power supply module which are arranged on the counting platform body; the power supply module is electrically connected with the RFID reader and the communication module, and the communication module is in communication connection with the RFID reader; the counting table body comprises at least one instrument storage plate, and a plurality of RFID readers are arranged on the instrument storage plate. The electronic surgical instrument counting table has the following problems:

firstly, the counting table is only suitable for being placed in a disinfection supply room, is large in size and large in occupied space, cannot be moved freely, when an operator needs to count the instruments, all the instruments need to be moved onto the instrument counting table manually for reading, and the scanning counting of the instruments which cannot be taken down in the operation is difficult to achieve, such as: the tissue clamp is used for fixing a sterile tissue around a surgical operation area or counting instruments such as a hemostat which is still used, and the equipment cannot be used.

Secondly, the counting table cannot be used in a sterilized state, so that sterilized surgical instruments are polluted and cannot be used continuously in subsequent operations.

If the application number is as follows: the european union patent of EP 3207491B 1 discloses an electronic surgical instrument counter. This european union patent uses multiple readers and more antennas to scan and read surgical instruments in an instrument basket or an instrument basket from different angles, in contrast to the chinese patent (CN 111603248A). In addition, in order to avoid shielding or reflection of radio frequency signals when reading from a fixed angle, a transmission mechanism is arranged below the instrument basket, and the instrument basket can move back and forth on a fixed track. In addition, the transmission mechanism can also rotate, incline and rock the net basket, and aims to change the relative positions of the instrument tags and the antenna, so that the query signal of the antenna can better cover each tag. Therefore, the electronic surgical instrument counting table can improve the reading capability of the reader-writer device by using the transmission device, and has better reading performance compared with the Chinese patent equipment. However, the problem is the same as the above-mentioned chinese patent device, and only the read of the cleaned instrument or the contaminated instrument can be performed, the read of the sterile instrument cannot be performed, and the use in the sterilization state cannot be realized, and the sterilized surgical instrument is contaminated, and the surgical instrument cannot be used continuously in the subsequent operation.

Disclosure of Invention

In view of the above, the present invention provides a handheld scanning device for medical surgical instrument inventory, so as to solve a series of problems in the prior art for instrument identification and inventory in an operating room environment.

To achieve the above object, one aspect of the present invention provides a handheld scanning device for medical surgical instrument inventory, comprising:

the equipment comprises an equipment body, a first die cavity and a second die cavity, wherein the equipment body comprises a main shell with the first die cavity, and a communication assembly is arranged in the main shell;

the scanning body is used for induction scanning of the medical instrument and comprises an auxiliary shell with a second cavity, and the auxiliary shell is connected with the main shell;

and the packaging colloid is hermetically filled in the main shell and the auxiliary shell so as to exclude air in the scanning equipment.

Furthermore, one end of the auxiliary shell, which is far away from the main shell, is connected with a front plugging piece, and a glue injection exhaust part is arranged on the front plugging piece.

Furthermore, a first buckle structure is arranged at one end, close to the main shell, of the auxiliary shell, and a first clamping groove structure matched with the first buckle structure is arranged at one end, close to the auxiliary shell, of the main shell.

Furthermore, the first buckle structure is connected in the first clamping groove structure in a clamped mode, the packaging colloid is filled in a first clamping position of the first buckle structure and the first clamping groove structure, and a first sealing rubber ring is arranged at the first clamping position.

Further, the main casing body is kept away from the one end of attaching the casing body is connected with back jam piece, be provided with second buckle structure on the back jam piece, the main casing body is kept away from be provided with in the one end of attaching the casing body with the second draw-in groove structure of second buckle structure looks adaptation.

Furthermore, the second buckle structure is clamped in the second clamping groove structure, the packaging colloid is filled in a second clamping position of the second buckle structure and the second clamping groove structure, and a second sealing rubber ring is arranged at the second clamping position.

Furthermore, a receiving antenna is installed in the auxiliary shell and electrically connected with the communication component.

Furthermore, the communication assembly comprises a mainboard body, and a communication module, a power module, a temperature sensing module, a buzzing module and a radio frequency reading and writing module which are arranged on the mainboard body, wherein the power module further comprises a rechargeable lithium battery, and the radio frequency reading and writing module is in wired connection with the receiving antenna.

Further, be connected with the connector of being connected with external power source on the power module, be provided with the metal stitch on the connector, be provided with in the back plug member with the spliced eye of metal stitch looks adaptation and the magnetism stone of inhaling that is used for adsorbing outside charging wire, the stone of inhaling is used for avoiding the charging wire to drop.

Further, be connected with the operation panel on the main casing body, be provided with touch key and pilot lamp on the operation panel, the pilot lamp is including being used for showing whether sufficient power indicator, communication connection pilot lamp and the scanning work pilot lamp of electric quantity.

Further, the handheld scanning device can simultaneously read the RFID tags of multiple instruments.

Furthermore, the label information read by the handheld scanning equipment can be sent to the upper computer through the communication module, and after a set of instruments are checked, if the instruments are lost, the upper computer software warns the operation user of relevant information.

The invention has the beneficial effects that:

1. the handheld scanning equipment has the advantages that the packaging colloid is sealed and filled in the main shell and the auxiliary shell, air in the first cavity and the second cavity is emptied, no gap air exists in the handheld scanning equipment, the handheld scanning equipment is further vacuum-resistant, the sterilization of a low-temperature sterilization plasma sterilizer can be supported, the sterilized handheld scanning equipment and sterile instruments can coexist in the same working space range, the problem that the scanning and counting of surgical instruments with RFID labels are difficult to realize in the four counting processes in the surgical process is effectively solved, the labor cost is saved, the working efficiency is improved, errors possibly caused by manual counting of the surgical instruments are avoided, a more accurate checking mode of the surgical instruments is provided, the safe operation of the whole operation is ensured, and the problem that the scanning and counting of the instruments which cannot be taken down in the operation are difficult to realize can be solved.

Moreover, the handheld scanning equipment is convenient to move, can be cleaned like a surgical instrument, can further ensure the cleanness of the handheld scanning equipment, and is convenient for implementation of an aseptic state.

2. Through the injecting glue exhaust part that sets up on the preceding shutoff piece, preferably but not limited to injecting glue exhaust hole, and the spliced eye on the back shutoff piece, the two all can be used to release the assembly and cover the air that the in-process produced, has further ensured the whole evacuation of air in the cavity, guarantees its fail safe nature when low temperature sterilization handles, and the feasibility of sterile condition. When the equipment is assembled, glue is injected into the shell through the glue injection exhaust hole, then the whole machine is placed in a space sucked by a vacuum pump, and fine air bubbles in the glue are sucked out through the hole. The glue injection and vacuum pumping operations need to be repeated for a plurality of times until the whole shell is filled with the glue.

3. The two ends of the main shell are respectively connected with the auxiliary shell and the rear blocking piece in a clamping manner, the connection part of the main shell is connected with the auxiliary shell and the rear blocking piece in a clamping manner, and meanwhile, the sealing rubber ring is added, and the packaging colloid is filled in the clamping position, so that the integral sealing connectivity of the handheld scanning equipment is guaranteed, and the safety reliability and the feasibility of the sterile state during the low-temperature sterilization treatment are further guaranteed.

4. The invention carries out communication connection with an upper computer through a communication module (such as a Bluetooth module and a WIFI module) arranged on a main board body, and sends data; the handheld scanning equipment is supplied with power through the power supply module, and moreover, wired charging can be carried out through the connector, so that the wired charging speed is higher compared with wireless charging, the requirement of a high-rhythm working mode of an operating room is met, and the feasibility of the invention applied to the operating room environment is ensured.

5. The radio frequency read-write module on the main board body can be high frequency (HF, 13.56MHz) or ultrahigh frequency (UHF,860-960 MHz). The receiving antenna in the front-end attached shell is correspondingly matched with the radio frequency read-write module, namely the high-frequency module is matched with the high-frequency receiving antenna, and the ultrahigh-frequency module is matched with the ultrahigh-frequency receiving antenna. Because the RFID label of the current surgical instrument has both high frequency and ultrahigh frequency. This feature further ensures that the present invention can be implemented in an operating room environment.

Drawings

The following drawings are included to provide a further understanding of the invention, are incorporated in and constitute a part of this application, and are provided for illustrative purposes only and are not intended to limit the scope of the invention.

In the drawings:

FIG. 1 is a schematic structural diagram of a handheld scanning device for medical surgical instruments in an embodiment of the present application;

FIG. 2 is an exploded view of a handheld scanning device for medical instruments in another embodiment of the present application;

fig. 3 is a schematic structural view of a front plug in another embodiment of the present application.

Reference numerals:

1. a main housing; 2. a radio frequency read-write module; 3. a work indicator light; 4. a temperature indicator light; 5. bluetooth pairing lamps; 6. a vibration module; 7. a buzzer module; 8. a temperature sensing module; 9. a Bluetooth pairing module; 10. an apparatus body; 11. a control panel; 12. a second card slot structure; 20. scanning the body; 201. an auxiliary housing; 2011. a first clamping structure; 21. a front obturating member; 210. a receiving antenna fixing groove; 211. an exhaust section; 212. elastic buckle; 22. a receiving antenna; 30. a rear plug; 31. a second clamping structure; 40. a connector assembly.

Detailed Description

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

It should be noted that unless a direction is separately defined, all directions referred to herein as front, back, middle, etc. are based on the directions shown in fig. 1 of the present application, and if the specific posture is changed, the directional indication is changed accordingly. The use of "first," "second," and the like, does not denote any order, quantity, or importance, but rather the terms first, second, and the like are used to distinguish one element from another. Further, in the various embodiments of the present disclosure, the same or similar reference numerals denote the same or similar components.

In the present invention, unless otherwise expressly specified or limited, the terms "electrically connected," "fixed," and the like are to be construed broadly, e.g., "electrically connected" may be a wireless connection or a wired connection, unless otherwise expressly limited. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the technical solutions in the embodiments of the present invention may be combined with each other, but must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the scope of the present invention as claimed.

Example one

Referring to fig. 1 and fig. 2, the handheld scanning device in the embodiment specifically includes: the equipment comprises an equipment body 10, wherein the equipment body 10 comprises a main shell 1 with a first cavity, a communication component is arranged in the main shell 1 and is used for receiving data information transmitted by a scanning body 20 for scanning medical instruments, uploading the corresponding data information to an upper computer through wireless communication, and automatically displaying and recording related information of the medical instruments on the upper computer; the scanning body 20 is used for induction scanning of medical instruments, the scanning body 20 comprises an attached shell 201 with a second cavity, the attached shell 201 is connected with a main shell 1, the main shell 1 and the attached shell 201 are filled with glue in a sealing mode through packaging glue, air in the handheld scanning device is removed, the handheld scanning device is enabled to be vacuum-resistant, low-temperature sterilization can be supported, the handheld scanning device and sterile instruments can coexist in the same working range, and the problem that scanning and counting of surgical instruments with RFID labels are difficult to achieve in the four times counting process in the surgical process is effectively solved.

It should be noted that, the encapsulation colloid in this embodiment is preferably, but not limited to, an organosilicon potting adhesive, and after the potting adhesive is performed, the adhesive solution gradually penetrates into each gap in the handheld scanning device, so that not only can the communication component be protected by potting, but also most importantly, all air in the device can be removed, so that the scanning device can be placed in a sterilizer for vacuum sterilization. In addition, the main shell and the auxiliary shell in the embodiment adopt medical ABS shells, and have the advantages of small size, light weight, convenient movement, complete machine disinfection and cleaning, compatibility with various disinfection modes, convenient flexible use by operators and the like.

By using the technical scheme of the embodiment, the communication component installed in the device body in the embodiment can be used for receiving data information transmitted by the scanning body 20 for scanning the medical instrument, uploading the corresponding data information to the upper computer through wireless communication, and automatically displaying and recording the relevant information of the medical instrument read with the label on the upper computer; furthermore, the packaging colloid is sealed and filled in the main shell and the auxiliary shell, air in the first cavity and the second cavity is emptied, no air in the handheld scanning equipment exists, the handheld scanning equipment is enabled to be vacuum-resistant, low-temperature sterilization can be supported, the handheld scanning equipment and sterile instruments can coexist in the same working range, the problem that the surgical instruments with RFID labels are difficult to achieve in the four-time counting process in the operation process is effectively solved, the labor cost is saved, the working efficiency is improved, errors which may occur when the surgical instruments are manually counted are avoided, a more accurate surgical instrument checking mode is provided, the safe operation of the whole operation is guaranteed, the problem that the scanning counting of the instruments which cannot be taken down in the operation is difficult to achieve can be solved, the blank of the market is filled, and the packaging colloid has a strong market prospect.

Example two

In this embodiment, as a preferred embodiment, on the basis of the first embodiment, as shown in fig. 2, a front blocking member 21 is connected to one end of the auxiliary casing 201 away from the main casing 1, and as shown in fig. 3, the front blocking member 21 is provided with an exhaust part 211.

It should be noted that, as shown in fig. 3, the air exhaust part 211 in this embodiment is a U-shaped groove formed between an elastic buckle 212 arranged on the front plugging member 21 and the opened receiving antenna fixing groove 210, and the arrangement of this structure is favorable to release air generated in the covering process, further ensuring that the air in the cavity is completely evacuated, and ensuring the safety, reliability and feasibility of the sterile state during the low-temperature sterilization process.

As a preferred embodiment, as shown in fig. 2, in this embodiment, a first buckle structure 2011 is disposed at an end of the auxiliary housing 201 close to the main housing 1, a first card slot structure adapted to the first buckle structure 2011 is disposed at an end of the main housing 1, the first buckle structure 2011 is connected in the first card slot structure, and the encapsulant is filled in a first connection position between the first buckle structure 2011 and the first card slot structure.

Similarly, the one end of the main casing body 1 far away from the accessory casing 201 in this embodiment is connected with the rear blocking piece 30, the rear blocking piece 30 is provided with the second fastening structure 31, the other end of the main casing body 1 is provided with the second clamping groove structure matched with the second fastening structure 31, the second fastening structure 31 is fastened in the second clamping groove structure, and the encapsulating colloid is filled in the second fastening joint between the second fastening structure 31 and the second clamping groove structure.

It should be noted that, in this embodiment, two ends of the main housing are respectively connected to the auxiliary housing and the rear blocking member in a clamping manner, and the connection points are connected through the buckle clamping grooves, and the encapsulation colloid is filled at the clamping points, so that the complete discharge of air in the handheld scanning device is ensured, the safety and reliability of the handheld scanning device during low-temperature sterilization treatment and the feasibility of an aseptic state are further ensured, and further, the handheld scanning device is vacuum-resistant and can support low-temperature sterilization, so that the handheld scanning device and aseptic instruments can coexist in the same working range, and the problem that the surgical instruments with RFID tags are difficult to realize in the four times of counting in the surgical procedure is effectively solved.

As shown in fig. 2, as a preferred embodiment, the attached housing 201 in this embodiment is installed with a receiving antenna 22, and the receiving antenna 22 is preferably, but not limited to, connected to the communication component through a dupont line.

Specifically, this embodiment is inserted on the radio frequency read-write module 2 on the mainboard body through the dupont line (not shown), because under the fixed protection of encapsulation colloid, can keep data transmission's stability through the connection of dupont line, has further ensured handheld scanning device's feasibility of implementing under the aseptic state in vacuum.

As a preferred implementation manner, the communication assembly in this embodiment includes a main board body, and a communication module, a power module, a temperature sensing module, and a buzzer module that are disposed on the main board body, where these modules are respectively connected with an indicator light.

Specifically, as shown in fig. 2, first, the communication module in this embodiment is preferably but not limited to a bluetooth pairing module 9, and is paired with the computer upper computer through bluetooth for use, and the Wifi communication module can also be extended on the motherboard to realize communication connection through wireless Wifi, and when the connection is normal, the work indicator light 3 will light up. Secondly, when the temperature of the scanning equipment exceeds 40 ℃, the temperature indicator lamp 4 of the temperature sensing module is lightened; moreover, the vibration module 6 and the buzzer module 7 in this embodiment are used for feedback and prompt functions, and since the handheld scanning device has multiple working modes, for example, in a cumbersome (verbose) mode, the vibration module will send out a vibration prompt as long as an external tag is read; in a simple (single) mode, when a new label is read, the buzzing module can send out a buzzing prompt tone. Finally, the power module built in this embodiment can ensure continuous operation of each module, so that the handheld scanning device can continuously operate, and the power module is preferably, but not limited to, a lithium iron phosphate high-temperature resistant battery. Further, the power module in this embodiment is connected with a connector 40 connected with an external power supply, the connector is installed in the rear plugging member 30, the rear plugging member 30 is provided with an external power supply jack, further, a magnet (not shown) is installed on the inner side of the rear plugging member 30 to prevent a charging wire from falling off, wired charging can be performed through the connector, the wired charging can be used as quick charging supplement of wireless charging, the requirement of a high-rhythm working mode of an operating room is met, and the feasibility of the invention applied to the operating room environment is further ensured.

As a preferred embodiment, the operation panel 11 is connected to the main casing 1 in the present embodiment, and the operation panel 11 is provided with a touch key, so that the on/off operation can be performed and the operation mode can be switched by using the touch key. Because the inside has been glued, the inconvenient micro-gap switch that adopts, the touch switching mode of preferred intelligence. In addition, according to the actual conditions in the operating room, a plurality of handheld scanning equipment of wireless connection can be simultaneously held to a host computer, and a plurality of equipment simultaneous workings of many people, everyone take a handheld scanning equipment, and the apparatus of different positions is checked, improves work efficiency, and convenient nimble operation is used.

In conclusion, the sealing glue is filled in the main shell and the auxiliary shell in a sealing way through the packaging glue, the air in the first cavity and the second cavity is evacuated, no gap air exists in the handheld scanning equipment, the handheld scanning equipment is further resistant to vacuum, low-temperature sterilization can be supported, the handheld scanning equipment and sterile instruments can coexist in the same working range, the problem that scanning and counting of surgical instruments with RFID labels are difficult to achieve in four counting processes in the surgical process is effectively solved, the labor cost is saved, the working efficiency is improved, errors which may occur in manual counting of the surgical instruments are avoided, a more accurate checking mode of the surgical instruments is provided, the safety operation of the whole surgery is guaranteed, and meanwhile the problem that scanning and counting of the instruments which cannot be taken down in the surgery can be difficult to achieve is fully solved.

Finally, it should be noted that the structural design of the whole handheld scanning device in the above embodiments, preferably but not limited to the counting scanning surface for medical surgical instruments, of the handheld scanning device of the present invention uses a screw-free design (all use a snap structure and a card slot structure adapted thereto), so as to avoid the possibility that a screw may fall off and fall into a body cavity of a patient during use, and further ensure the safe operation of the whole operation. In addition, after the assembly of the handheld scanning device is completed, the whole machine supports water washing and surface washing by using alcohol, various enzyme lotions or alkaline lotions. The method is potentially applicable to other enterprises with greasy working environments, such as the petroleum industry.

While the above description shows and describes the preferred embodiments of the application, it is to be understood, as noted above, that the application is not limited to the forms disclosed herein, but is not intended to be exhaustive of other embodiments, and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the subject matter disclosed above, as determined by the teachings or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the application, which is to be protected by the claims appended hereto.

Claims (10)

1. A handheld scanning device for medical surgical instrument inventory, comprising:

the equipment comprises an equipment body, a first die cavity and a second die cavity, wherein the equipment body comprises a main shell with the first die cavity, and a communication assembly is arranged in the main shell;

the scanning body is used for induction scanning of the medical instrument and comprises an auxiliary shell with a second cavity, and the auxiliary shell is connected with the main shell;

and the packaging colloid is sealed and filled in the main shell and the auxiliary shell so as to exclude air in the handheld scanning equipment.

2. The handheld scanning device for medical surgical instrument inventory as claimed in claim 1, wherein a front blocking member is connected to an end of the auxiliary housing remote from the main housing, and a glue injection exhaust portion is provided on the front blocking member.

3. The handheld scanning device for medical instrument inventory as claimed in claim 1, wherein a first snap structure is disposed at an end of the auxiliary housing close to the main housing, and a first slot structure adapted to the first snap structure is disposed at an end of the main housing close to the auxiliary housing.

4. The handheld scanning device for medical surgical instrument inventory of claim 3, wherein the first snap structure is snapped into the first slot structure, and the potting adhesive is poured into the first snap structure at a first snap connection with the first slot structure.

5. The handheld scanning device for medical surgical instrument inventory as claimed in claim 1, wherein a rear blocking member is connected to an end of the main housing remote from the auxiliary housing, the rear blocking member is provided with a second snap structure, and a second slot structure adapted to the second snap structure is provided in an end of the main housing remote from the auxiliary housing.

6. The handheld scanning device for medical surgical instrument inventory of claim 5, wherein the second snap structure is snapped into the second slot structure, and the potting adhesive is poured into the second snap structure at a second snap connection with the second slot structure.

7. The handheld scanning device for medical surgical instrument inventory as claimed in claim 5, wherein the communication assembly includes a main board body, and a communication module, a power supply module, a temperature sensing module, a buzzer module, a vibrator module, and a radio frequency read-write module disposed on the main board body.

8. The handheld scanning device for medical surgical instrument inventory as claimed in claim 7, wherein a receiving antenna is mounted in the accessory housing, the receiving antenna being connected to the rf read-write module.

9. The handheld scanning device for medical surgical instrument inventory of claim 7, wherein the power module is connected with a connector connected with an external power source, the connector is provided with a metal pin, and the rear blocking piece is provided with a plug hole matched with the metal pin and a magnetic stone for adsorbing an external charging wire.

10. The handheld scanning device for medical instrument inventorying as claimed in claim 1, wherein an operation panel is connected to said main housing, and touch keys and indicator lights are provided on said operation panel.

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