CN211750120U - Surgical dressing detection management system - Google Patents

Abstract

The application discloses a surgical dressing detection management system, which comprises a recovery barrel, a human body detection device and a hand-held machine assembly, wherein the recovery barrel comprises a barrel shell, an inner barrel and a weighing module, the inner barrel is detachably arranged in the barrel shell, and a combined antenna arranged around the inner barrel is arranged in the barrel shell; the barrel shell is internally provided with a fixing device used for limiting the movement of the inner barrel, the weighing module is connected below the inner barrel and used for measuring the weight of the surgical dressing falling into the inner barrel; the human body detection equipment is used for detecting whether surgical dressings are left in the body of the patient; handheld quick-witted subassembly includes handheld machine, handheld machine respectively with recovery bucket and human detection equipment signal connection, and handheld machine is used for the quantity and the weight of operation dressing before the input, receives the quantity and the weight of the operation dressing that show recovery bucket and send, calculates the analysis and shows patient's hemorrhage volume information in view of the above. This application can detect the quantity and the weight of operation dressing accurately, improves the managerial efficiency that management system was surveyed to operation dressing.

Description

Surgical dressing detection management system

Technical Field

The application relates to the technical field of medical equipment, in particular to a surgical dressing detection management system.

Background

The effect of operation dressing has a lot of in the surgery operation, and operation dressing can be used to stanch and clean the bloodstain for the patient on the one hand, but because the operation time is urgent, the phenomenon that operation dressing remains in the human body after the operation all appears at home and abroad, and it is extremely serious medical accident of consequence to remain in the human body to operate dressing. On the other hand, in order to overcome the phenomenon that the bleeding volume estimation in the operation is inaccurate and the bleeding volume is frequently transfused more or less, the bleeding volume of the patient can be estimated through the operation dressing.

The existing surgical dressing management system is characterized in that a rotating mechanism is arranged at the bottom of a recovery barrel, and the rotating mechanism drives the inner barrel of the recovery barrel to rotate, so that a detection antenna can better detect the number of surgical dressings which fall into the inner barrel and are provided with RFID (Radio Frequency Identification) labels. Be equipped with gravity sensor in the rotary mechanism, medical personnel throw into the recycling bin with the surgical dressing that is stained with blood stain, blood, and gravity sensor measures the weight of surgical dressing, through with surgical dressing weight contrast before the use and relevant algorithm, calculates the hemorrhage volume that analyzes out the patient. The above management system has the following problems:

1) the RFID label has directionality, and when the inner barrel is driven by the rotating structure to rotate, if the inner barrel just encounters the situation that the RFID label is far away from the antenna in the direction of a strong magnetic field and is close to the antenna in the direction of a weak magnetic field, the phenomenon of label missing reading can occur, so that the quantity detection of surgical dressings is wrong;

2) when the surgical dressing of interior bucket increases, because the inertia that the rotation brought or other collision reasons, the bucket shell of retrieving the bucket is touched easily to interior bucket, and the surgical dressing weight of measuring is inaccurate, can influence the computational analysis of follow-up hemorrhage volume.

Disclosure of Invention

The application provides a management system is surveyed to operation dressing can solve present operation dressing management system and survey the problem accurate inadequately to the quantity and the weight of operation dressing.

In order to achieve the purpose, the following technical scheme is adopted in the application:

a surgical dressing detection management system comprising:

the recovery barrel comprises a barrel shell, an inner barrel and a weighing module, wherein the inner barrel is detachably arranged in the barrel shell, a combined antenna arranged around the inner barrel is arranged in the barrel shell, and the combined antenna is used for detecting surgical dressings with RFID labels falling to the inner barrel; the barrel shell is internally provided with a fixing device used for limiting the movement of the inner barrel, the weighing module is connected below the inner barrel and used for measuring the weight of the surgical dressing falling into the inner barrel;

the human body detection device is used for detecting whether surgical dressings are left in the body of the patient;

and the handheld machine assembly comprises a handheld machine, the handheld machine is respectively in signal connection with the recovery barrel and the human body detection equipment, the handheld machine is used for inputting the number and the weight of surgical dressings before an operation, receiving and displaying the number and the weight of the surgical dressings sent by the recovery barrel, and calculating, analyzing and displaying the bleeding volume information of a patient according to the number and the weight.

Further, fixing device is the solid fixed bucket, and interior bucket embedding solid fixed bucket is interior, separates between the inside wall of solid fixed bucket and bucket shell to have the clearance, and the bottom of solid fixed bucket is passed through weighing module and is connected with the bottom of bucket shell, has gravity sensor in the weighing module.

Furthermore, a first control module, a first information acquisition module and a first wireless signal transmitting device are installed in the recycling bin, the first control module is electrically connected with the first information acquisition module and the first wireless signal transmitting device respectively, the first information acquisition module is in signal connection with the combined antenna and the weighing module respectively, and the first control module is used for recording and calculating the number and weight of surgical dressings; the first wireless signal transmitting device is used for transmitting signals to the handset.

Further, human detection equipment includes host computer and detection portion, and detection portion has connective bar and human detection antenna, and human detection antenna is used for scanning patient's health, and the connective bar passes through the wire and connects the host computer, and the front end of host computer is equipped with accepts the notch, and the connective bar of detection portion can place in accepting the notch with inserting.

Furthermore, the bottom end of the accommodating notch is connected with a handheld part, a handheld part cavity is arranged in the handheld part and communicated with the accommodating notch, and the handheld part cavity is used for accommodating the connecting rod of the detection part.

Furthermore, a second control module, a second information acquisition module and a second wireless signal transmitting device are further arranged in the host, the second control module is electrically connected with the second information acquisition module and the second wireless signal transmitting device respectively, the second information acquisition module is electrically connected with the human body detection antenna, and the second wireless signal transmitting device is used for transmitting signals to the handset.

Further, the handset assembly further comprises a handset base for mounting and charging the handset.

Further, the handheld machine base is character cut in bas-relief, and the mid portion of handheld machine base is equipped with the notch groove, and the bottom in notch groove has the contact that charges, and the contact that charges is used for charging for the handheld machine.

Further, the side end of the notch groove is provided with an inclined leaning surface, and the leaning surface is used for leaning of the hand-held set after being placed in the notch groove.

Furthermore, the handset comprises an input module, a third control module and a touch display screen, wherein the third control module is respectively electrically connected with the input module and the touch display screen, the input module comprises a wireless signal receiving device and an identification component, and the wireless signal receiving device is used for receiving information sent by the recycling bin and the human body detection equipment.

The beneficial effect of this application is:

1) the combined antenna in the recovery barrel is arranged around the inner barrel, so that the operation dressing detection with the RFID tag can be covered in all directions, and the statistical accuracy of the number of the operation dressings falling into the recovery barrel is ensured;

2) a fixing device is arranged in a barrel shell of the recycling barrel and limits the movement of the inner barrel. After the surgical dressing falls to the bottom of the inner barrel, the weighing module weighs the surgical dressing and the inner barrel, and the weight of the inner barrel is fixed, so that the accurate weight of the surgical dressing can be obtained, and a guarantee is provided for the calculation and analysis of the subsequent bleeding amount;

3) the quantity and the weight are detected more accurately, and the management efficiency of the whole surgical dressing detection management system is obviously improved;

4) be equipped with on human detection equipment's the host computer and accept the notch, the detection portion can be placed in accepting the notch with inserting, is convenient for accomodate and arrange in order, avoids the detection portion to put at will and damages human detection antenna, influences the detection precision.

Drawings

FIG. 1 is a perspective view of a recovery tank in one embodiment;

FIG. 2 is a perspective view of a recovery tank in one embodiment;

FIG. 3 is a partial cross-sectional view of the recovery tank;

FIG. 4 is a schematic view of the structure of the inner barrel embedded in the fixed barrel;

FIG. 5 is a perspective view of the inner barrel;

FIG. 6 is a perspective view of the stationary barrel;

fig. 7 is a schematic structural view of a combined antenna wound on an antenna support;

fig. 8 is a schematic diagram of a combined antenna winding method.

FIG. 9 is a perspective view of a body detection device in one embodiment;

FIG. 10 is a perspective view of the body probe antenna;

FIG. 11 is a perspective view of the host;

FIG. 12 is a perspective view of a handset assembly in one embodiment;

FIG. 13 is a perspective view of the handset;

FIG. 14 is a perspective view of the handset;

FIG. 15 is a perspective view of the base;

fig. 16 is a top view of the base.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments.

A surgical dressing detection management system comprises a recycling bin 1, a body detection device 2 and a hand-held machine assembly 3.

As shown in fig. 1 to 8, the recycling bin 1 includes a bin shell 11, an inner bin 12, a weighing module 13, a first information collecting module and a first control module. The inner barrel 12 is detachably mounted inside the barrel casing 11, and both the barrel casing 11 and the inner barrel 12 have a structure with an opening at the top and a cavity inside. As shown in fig. 7, the barrel case 11 has a combined antenna 14 disposed around the inner barrel 12, and the combined antenna 14 is an RFID tag detection antenna. Inner barrel 12 is made by non-metallic material, has sewed up the RFID label on the operation dressing, and when medical personnel thrown into inner barrel 12 of recycling bin 1 with the operation dressing that has wiped patient's blood, combination antenna 14 erects the horse and can detect the operation dressing that has the RFID label. Since the combined antenna 14 is arranged around the inner barrel 12, the operation dressing RFID label detection can be covered in all directions without rotating the inner barrel 12.

Still have fixing device in barrel shell 11, fixing device is used for restricting interior bucket 12 and removes, and weighing module 13 is connected in the below of bucket 12, and integrated gravity sensor has in weighing module 13, and gravity sensor measurable quantity drops to the weight of the surgical dressing of bucket 12 in.

In this embodiment, the fixing device is a fixing barrel 111, as shown in fig. 3 to 6, a gap is formed between the fixing barrel 111 and the inner sidewall of the barrel casing 11 to prevent the fixing barrel 111 from contacting the barrel casing 11, the bottom end of the fixing barrel 111 is connected to the bottom of the barrel casing 11 through a weighing module 13, and the inner barrel 12 is detachably embedded in the fixing barrel 111. The above structure makes the fixed barrel 111 not contact with the inner side wall of the barrel shell 11, the bottom of the fixed barrel 111 not directly contact with the barrel shell 11, but connects the bottom of the barrel shell 11 through the weighing module 13, so when the surgical dressing is thrown into the inner barrel 12, the weighing module 13 weighs the total weight of the surgical dressing, the inner barrel 12 and the fixed barrel 111, and the weight of the inner barrel 12 and the fixed barrel 111 is fixed, so as long as the weight of the inner barrel 12 and the fixed barrel 111 is subtracted from the total weight, the accurate weight of the surgical dressing can be obtained.

In other embodiments, the fixing device can be other types of fixing parts, for example, a clamping part for limiting the side wall of the inner barrel, a plurality of clamping parts clamp the inner barrel around the outer side wall of the inner barrel, the purpose of limiting the movement of the inner barrel is achieved, at this time, the weighing module weighs the total weight of the surgical dressing and the inner barrel, the weight of the inner barrel is unchanged, and the accurate weight of the surgical dressing can be obtained in the same way. Of course the fixing means may also be parts of other types of construction.

The first control module and the first information acquisition module are both installed on a bottom plate of the bottom of the barrel shell 11, and the first information acquisition module is in signal connection with the first control module. In addition, the first information acquisition module is in signal connection with the combined antenna 14, the combined antenna 14 transmits the measured signals of the surgical dressings to the first information acquisition module, and after the signals are read by the RFID reader in the first information acquisition module and then transmitted to the first control module, the first control module carries out accumulative calculation on the number of the surgical dressings. The first information acquisition module is also in signal connection with the gravity sensor, the gravity sensor transmits a measured weight related signal to the first information acquisition module, the weight of the surgical dressing is subjected to single calculation and accumulated calculation by the first control module after the weight of the surgical dressing is transmitted to the first control module, the information is transmitted to the handheld machine, and the handheld machine analyzes the weight of the surgical dressing and converts the weight of the surgical dressing into the bleeding volume of a patient.

As shown in fig. 3, the weighing module 13 includes a weighing tray 131, the bottom of the fixing tub 111 is mounted on the weighing tray 131 by screws, and a gravity sensor is disposed inside the weighing tray 131. Recycling bin 1 still includes weighing module fixed block 15, and whole weighing module 13 is installed in the bottom of barrel shell 11 through weighing module fixed block 15.

As shown in fig. 4 and 5, the top edge of the inner barrel 12 is provided with a handheld portion 121 disposed around the inner barrel 12, so that the medical staff can lift and replace the inner barrel 12 more conveniently through the handheld portion 121. The handle 121 has a smooth curved surface 121a curved toward the inner sidewall of the inner barrel 12, and if the surgical dressing is thrown onto the top of the inner barrel 12, the surgical dressing can slide into the cavity of the inner barrel 12 along the smooth curved surface 121 a.

As shown in fig. 1 and 2, a display assembly 112 and a control panel 113 are disposed on an outer side wall of the tub shell 11, and both the display assembly 112 and the control panel 113 are electrically connected to the first control module. Display element 112 can show medical personnel with information such as the quantity, the weight of the operation dressing that control module calculated and recycling bin 1 electric quantity, and display element 112 still has reputation warning function, if reminds medical personnel recycling bin 1 to fill up etc. through alarm sound or warning light. Control panel 113 facilitates medical personnel to perform relevant operations on recycling bin 1.

In order to facilitate the recycling bin 1 to move freely in the operating room, a built-in power supply and a first wireless signal transmitting device are installed in the recycling bin 1. The built-in power supply provides working power supply for the recycling bin 1, and the recycling bin 1 is prevented from being limited by inconvenient movement of a wired charging mode. The first wireless signal transmitting device is arranged on a bottom plate at the bottom in the barrel shell 11 and electrically connected with the control module, and the first wireless signal transmitting device transmits information such as the number and the weight of surgical dressings recorded by the first control module to the hand-held machine.

The bottom end of the barrel shell 11 is provided with a plurality of rotating wheels 16, so that the recycling barrel 1 can be moved more conveniently. Each rotating wheel 16 is provided with a locking device 161, and when the recovery barrel 1 needs to be limited at a certain position, the medical staff can step down the locking device 161 on the rotating wheel 16.

As shown in fig. 3 and 7, an antenna bracket 114 is further provided in the tub shell 11, and the antenna bracket 114 is disposed around the inner tub 12. As shown in fig. 7, the combined antenna 14 is wound on the antenna bracket 114, and the RFID tag detection range of the combined antenna 14 can cover the whole inner barrel 12. As shown in fig. 3, the fixing barrel 111 is located inside the antenna bracket and spaced from the antenna bracket 114 by a gap, and there is no contact between the fixing barrel 111 and the antenna bracket 114, so as to avoid the gravity measured by the gravity sensor from deviating.

The combined antenna 14 is formed by cross-overlapping and combining a plurality of single antennas, each single antenna is a detection antenna in a closed shape from the beginning to the end, and specifically may be a loop antenna, a square antenna or a triangular antenna, in this embodiment, the single antenna is a loop antenna, and the winding manner of the combined antenna 14 on the antenna support 114 is a simplified winding manner structure shown in fig. 8. Each individual antenna has its own antenna switch 141, and the control module and information acquisition module can control one or more individual antennas or the entire combined antenna 14.

The combined antenna formed by the cross overlapping combination of the plurality of single antennas has transverse and longitudinal antenna layout, can detect the RFID label at a plurality of positions in the three-dimensional direction, can ensure that other antennas can be used for detecting under the condition that one or more antennas are damaged by multiple times of detection, and can accurately record surgical dressings falling into the barrel shell. In addition, according to the monomer antenna of different positions, can judge that current RFID label removes which region, the system can judge the movement track of RFID label according to the detection time of different antennas, also can realize from this the regional location to RFID label to this judges whether operation dressing normally falls into interior bucket.

Before or after the surgical suture, the human body is scanned by using the human body detection device 2, so as to detect whether the surgical dressing is left in the body of the patient.

As shown in fig. 9-11, the human body detecting device 2 includes a main machine 21 and a detecting part 22, the detecting part 22 has a connecting rod 221 and a human body detecting antenna 222, the human body detecting antenna 222 in this embodiment is a ring structure, the connecting rod 221 is connected below the human body detecting antenna 222, and the cross section of the connecting rod 221 is oval, so as to facilitate the holding by the medical staff. The host 21 has an interface 211, and the connection rod 221 is connected to the interface 211 of the host 21 through a wire (not shown), so as to electrically connect the detection part 22 to the host 21.

The front end of the main machine 21 is provided with an accommodating notch 212, and the connecting rod 221 of the detection part 22 can be inserted and placed in the accommodating notch 212, so that the detection part 22 is greatly convenient to accommodate, and the risk of damaging the human detection antenna 222 due to random arrangement is avoided. Further, the bottom end of the accommodating notch 212 is connected with a handheld portion 213, a handheld portion cavity 213a is formed in the handheld portion 213, the handheld portion cavity 213a is communicated with the accommodating notch 212, and after the connecting rod 221 is placed in the accommodating notch 212, the handheld portion cavity 213a can accommodate the connecting rod 221, so that the shaking of the detecting portion 22 is limited. In use, the connecting rod 221 is pulled out from the handle cavity 213a and the receiving notch 212.

A second control module, a second information acquisition module and a second wireless signal transmitting device are further installed in the shell of the host 21. The second control module is respectively in signal connection with the second information acquisition module and the second wireless signal transmitting device. The second information acquisition module is electrically connected with the human body detection antenna 222 through a lead, the second information acquisition module internally contains an RFID reader, if the human body detection antenna 222 detects the surgical dressing with the RFI tag in the patient body, the human body detection antenna 222 transmits the information to the second information acquisition module, the RFID reader reads and records the number of the surgical dressings, and then the information is transmitted to the second control module. Still be equipped with audible-visual annunciator on the host computer 21, detect the operation dressing after, audible-visual annunciator is reported to the police on the one hand to the second control module, and suggestion medical personnel, on the other hand send the detection information for handheld machine 3 through instructing second wireless signal transmitting device, and medical personnel's accessible is held handheld machine 3 and is looked over relevant information.

As shown in fig. 12 to 16, the handset assembly 3 includes a handset 31 and a handset base 32, and the handset 31 is signal-connected to the recovery bucket 1 and the human body detecting device 2, respectively. The hand-held device 31 is used for inputting the number and weight of the surgical dressings before operation, receiving and displaying the number and weight of the surgical dressings sent by the recovery barrel 1, and calculating, analyzing and displaying the bleeding amount information of the patient according to the number and weight. Specifically, the handset 31 includes an input module, a third control module and a touch display screen 311, the third control module is electrically connected to the input module and the touch display screen 311, and the touch display screen 311 is installed at the front end of the housing of the handset 31 and has a display function and a touch screen operation function.

The input module includes a wireless signal receiving device and an identification assembly including an RFID reader and a camera lens 312, the camera lens 312 being mounted at the rear end of the handset housing. Before the operation, medical personnel enters the operation dressing with the RFID label through the camera lens 312 of the handset 31, the RFID reader records and transmits the operation dressing to the third control module, and the third control module calculates the number and the weight of the operation dressing and displays the operation dressing through the touch display screen 312. The wireless signal receiving device is used for receiving the quantity or weight information of surgical dressings of the first wireless signal transmitting device (arranged in the recycling bin 1) and the second wireless signal transmitting device (arranged in the human body detection device 2), and transmitting related information to the third control module, the third control module calculates and analyzes the bleeding volume of a patient according to the types and related algorithms of the surgical dressings, and then the bleeding volume is displayed through the touch display screen 312 of the surgical machine 31, so that a doctor is timely reminded to inject proper blood volume for the patient, and the waste of blood is avoided. Of course, the wireless network sharing device is also provided in the handset 31, and the handset 31 can transmit the relevant data to the network server, display the data through other devices, or perform relevant operations.

The handset mount 32 is used to mount the handset 31 and charge the handset 31. As shown in fig. 15 and 16, the handset base 32 has a generally concave shape, and a concave groove 321 is formed in a middle portion thereof, in which a lower end of the handset 31 is placed, and a plurality of charging contacts 322 are formed at a bottom of the concave groove 321. The side end of the notch groove 321 has an inclined leaning surface 321a, when the handset 31 is placed in the notch groove 321, the back end of the casing of the handset 31 rests on the leaning surface 321a to avoid sliding out of the base 32 of the handset, and then the charging contact 322 can charge the handset.

The utility model provides a management system is surveyed to operation dressing, is provided with the combination antenna around the interior bucket of recycling bin, and the combination antenna is used for surveying the operation dressing that has the RFID label that drops to interior bucket, effectively prevents operation dressing leak hunting, improves operation dressing and surveys the precision. Meanwhile, a fixed barrel used for limiting the inner barrel is arranged in the barrel shell, the fixed barrel is not in direct contact with the barrel shell or the antenna bracket, and the bottom end of the fixed barrel is installed in the barrel shell through a weighing module. Therefore, after the surgical dressing drops into the inner barrel in the embodiment, the weight of the surgical dressing is obtained by subtracting the weight of the inner barrel and the weight of the fixing barrel from the total weight weighed by the weighing module, so that the interference of the barrel shell and the antenna bracket is eliminated, and accurate surgical dressing weight data is obtained.

The recycling bin transmits accurate surgical dressing quantity and weight information to the hand-held machine, the hand-held machine compares the surgical dressing quantity recorded before the operation with the quantity transmitted by the recycling bin, if the sum of the waste surgical dressing quantity in the recycling bin and the residual surgical dressing quantity is equal to the surgical dressing quantity recorded before the operation, the fact that the surgical dressing is not left in the body of the patient can be judged, and the hand-held machine informs medical staff through touching a display screen or making a sound; if the sum of the number of the waste surgical dressings and the number of the residual surgical dressings is smaller than the number of the surgical dressings recorded before the operation, the human body detection equipment is used for detecting the body of a patient, the surgical dressings are found after the scanning of the human body detection antenna, the main machine gives out sound alarm and transmits the detected number to the handheld machine, so that medical personnel can timely make rescue measures and ensure the life safety of the patient.

On the other hand, after the handheld machine receives the weight information of the surgical dressing transmitted by the recovery barrel, the third control module calculates and analyzes the blood volume of the patient absorbed by the surgical dressing through the type of the surgical dressing recorded before the operation, the weight before the operation and a related algorithm, and the information is displayed in time through the touch display screen, so that medical personnel can input a proper amount of blood for the patient, and the blood bag is prevented from being used excessively.

The foregoing is a more detailed description of the present application in connection with specific embodiments thereof, and it is not intended that the present application be limited to the specific embodiments thereof. It will be apparent to those skilled in the art from this disclosure that many more simple derivations or substitutions can be made without departing from the inventive concepts herein.

Claims (10)

1. A surgical dressing detection management system, comprising: the method comprises the following steps:

a recovery bucket including a bucket shell, an inner bucket and a weighing module, wherein the inner bucket is detachably loaded into the bucket shell, a combined antenna is arranged around the inner bucket in the bucket shell, and the combined antenna is used for detecting surgical dressings with RFID labels falling to the inner bucket; the barrel shell is internally provided with a fixing device which is used for limiting the movement of the inner barrel, the weighing module is connected below the inner barrel and used for measuring the weight of surgical dressing falling into the inner barrel;

the human body detection device is used for detecting whether surgical dressings are left in the body of the patient;

and the handheld machine assembly comprises a handheld machine, the handheld machine is respectively in signal connection with the recovery barrel and the human body detection equipment, and the handheld machine is used for inputting the number and the weight of surgical dressings before an operation, receiving and displaying the number and the weight of the surgical dressings sent by the recovery barrel, and calculating and analyzing the bleeding amount information of a patient according to the number and the weight.

2. The surgical dressing detection management system of claim 1, wherein: the fixing device is a fixed barrel, the inner barrel is embedded into the fixed barrel, a gap is formed between the fixed barrel and the inner side wall of the barrel shell, the bottom end of the fixed barrel is connected with the bottom of the barrel shell through the weighing module, and a gravity sensor is arranged in the weighing module.

3. The surgical dressing detection management system of claim 2, wherein: a first control module, a first information acquisition module and a first wireless signal transmitting device are installed in the recycling bin, the first control module is respectively and electrically connected with the first information acquisition module and the first wireless signal transmitting device, the first information acquisition module is respectively and signal-connected with the combined antenna and the weighing module, and the first control module is used for recording and calculating the number and weight of surgical dressings; the first wireless signal transmitting means is for sending a signal to the handset.

4. The surgical dressing detection management system of claim 1, wherein: the human body detection equipment comprises a host and a detection part, wherein the detection part is provided with a connecting rod and a human body detection antenna, the human body detection antenna is used for scanning the body of a patient, the connecting rod is connected with the host through a wire, the front end of the host is provided with an accommodating groove opening, and the connecting rod of the detection part can be placed in the accommodating groove opening in a pluggable manner.

5. The surgical dressing detection management system of claim 4, wherein: the bottom of accommodating notch is connected with handheld portion, the inside handheld portion cavity that has of handheld portion, handheld portion cavity with accommodate the notch and link up, handheld portion cavity is used for holding the connective bar of detection portion.

6. The surgical dressing detection management system of claim 4, wherein: still be equipped with second control module, second information acquisition module and second wireless signal transmitting device in the host computer, second control module respectively with second information acquisition module and second wireless signal transmitting device electricity are connected, second information acquisition module with the human detection antenna electricity is connected, second wireless signal transmitting device be used for to handheld machine send signal.

7. The surgical dressing detection management system of any one of claims 1-6, wherein: the handset assembly further includes a handset base for mounting the handset and charging the handset.

8. The surgical dressing detection management system of claim 7, wherein: the whole character cut in bas-relief that is of handheld machine base, the mid portion of handheld machine base is equipped with the notch groove, the bottom in notch groove has the contact of charging, the contact of charging is used for doing handheld machine charges.

9. The surgical dressing detection management system of claim 8, wherein: the side end of the notch groove is provided with an inclined leaning surface, and the leaning surface is used for leaning after the hand held machine is placed into the notch groove.

10. The surgical dressing detection management system of any one of claims 1-6, wherein: the handheld machine comprises an input module, a third control module and a touch display screen, wherein the third control module is respectively electrically connected with the input module and the touch display screen, the input module comprises a wireless signal receiving device and an identification component, and the wireless signal receiving device is used for receiving information sent by the recycling bin and the human body detection equipment.

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