CN211654322U - Multifunctional medical waste temporary storage device and system - Google Patents

Abstract

The utility model discloses a multi-functional medical waste temporary storage device and system, include: the medical waste storage device comprises a shell, an identity card identification module, a medical waste identification module, a relay, at least two medical waste barrels for temporarily storing medical waste, a display screen and a controller, wherein the identity card identification module, the medical waste identification module, the relay, the at least two medical waste barrels for temporarily storing the medical waste, the display screen and the controller are arranged in the shell; the controller is electrically connected with the display screen; the controller is connected with the identity card identification module, the medical waste identification module and the relay communication interface through an RS485 bus; the medical waste barrels are positioned at two sides of the controller; the identity card identification module comprises a binocular camera for face identification and an IC card swiping module for verifying medical personnel, the binocular camera is arranged above the display screen, and the IC card swiping module is arranged below the display screen; the medical waste identification module comprises an RFID identification module or a two-dimensional code scanning module for medical waste ID identification, and the medical waste identification module is arranged below the display screen. The utility model discloses can be based on the useless classification of current expert's doctor, set up a doctor's useless bucket alone and be used for depositing the useless type of corresponding doctor.

Description

Multifunctional medical waste temporary storage device and system

Technical Field

The utility model relates to the technical field of medical equipment, specifically relate to a multi-functional medical waste temporary storage device and system.

Background

The medical waste is also called medical waste, and refers to the pollution waste produced by hospitals when contacting blood, flesh and the like of patients, such as used cotton balls, gauze, wastes after operations, overdue medicines and the like, the medical waste has the characteristics of space pollution, acute infection, latent pollution and the like, and different from household waste, the medical waste contains a large amount of bacteria, viruses and chemical agents, has extremely strong infectivity, biotoxicity and corrosivity, and the medical waste which is not treated or not treated completely is randomly stacked, so that the pollution to water, soil and air is easily caused, direct or indirect harm is generated to human bodies, and the medical waste can also become the source of epidemic disease_。However, with the development of society, medical wastes are gradually increased, and the phenomena of random discarding, mixing of the medical wastes into domestic wastes and overstock stacking of the medical wastes are endless, so that secondary infection risks caused by improper treatment may occur, the medical waste tracing difficulty is large, and medical waste treatment information cannot be traced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the not enough of prior art, provide a multi-functional medical waste temporary storage device and system, can be based on the useless classification of current expert's doctor, each type can set up a doctor's waste bin alone and be used for depositing corresponding doctor's useless type.

In a first aspect, the utility model provides a multi-functional medical waste temporary storage device, include: the medical waste storage device comprises a shell, an identity card identification module, a medical waste identification module, a relay, at least two medical waste barrels for temporarily storing medical waste, a display screen and a controller, wherein the identity card identification module, the medical waste identification module, the relay, the at least two medical waste barrels, the display screen and the controller are arranged in the shell; the controller is electrically connected with the display screen; the controller is connected with the identity card identification module, the medical waste identification module and the relay communication interface through an RS485 bus; wherein the content of the first and second substances,

the medical waste barrels are positioned on two sides of the controller;

the relay is configured at the rear side of the controller;

the identity card identification module comprises a binocular camera for face identification and an IC card swiping module for verifying medical personnel, the binocular camera is arranged above the display screen, and the IC card swiping module is arranged below the display screen;

the medical waste identification module is arranged below the display screen; wherein the medical waste identification module comprises an RFID identification module or a two-dimensional code scanning module for medical waste ID identification.

Further, the medical waste barrel automatic control system comprises a weighing sensor which is positioned right below each medical waste barrel and is connected with the controller through an RS485 bus.

Further, the medical waste barrel system comprises a button arranged beside a delivery port of each medical waste barrel, and the relay input IO port is connected with the button through a wire.

Further, the medical waste bin overflow device comprises distance detection sensors for detecting the overflow degree of medical waste in the medical waste bins, wherein the distance detection sensors are arranged right above each medical waste bin and connected with the controller through an RS485 bus.

Furthermore, the medical waste bin overflow indicator comprises overflow indicator lamps arranged at the delivery port side of each medical waste bin, and the relay output control IO port is connected with the overflow indicator lamps through electric wires and used for indicating the overflow degree of medical waste in the medical waste bins.

Further, the temperature and humidity sensor is arranged at the top of the inside of the shell and connected with the controller through an RS485 bus.

Further, the smoke detection device comprises a smoke sensor for smoke detection, wherein the smoke sensor is arranged at the top inside the shell and is connected with the controller through an RS485 bus.

Further, the device comprises a heat dissipation module for cooling and removing smoke; the heat dissipation module is arranged at the position of the opening at the back of the shell, and the relay output control IO port is connected with the heat dissipation module through an electric wire.

Further, the device comprises a photoelectric sensor for detecting an obstacle in front of the delivery throwing port, wherein the photoelectric sensor is arranged above the throwing port and is inclined outwards by 30 degrees, and the relay input control IO port is connected with the photoelectric sensor through an electric wire.

In a second aspect, the present invention provides a multifunctional medical waste temporary storage system, which comprises a medical platform and the multifunctional medical waste temporary storage device according to the first aspect; the medical platform is communicated with the multifunctional medical waste temporary storage device through a communication module.

Implement the embodiment of the utility model provides a, following beneficial technological effect has:

1. the utility model provides a multi-functional medical waste temporary storage device can be based on the useless classification of current expert's doctor, and each type can set up a doctor's waste bin alone and be used for depositing corresponding doctor's useless type. After primary classification, medical wastes are uniformly collected, weighed and packaged, and registered and input into primary equipment by a responsible person and uploaded to a medical platform; unique identification codes (RFID labels/two-dimensional codes) are pasted on the medical waste bags which are packed uniformly. Then the identification code on the medical waste bag is scanned to acquire which type the medical waste belongs to, so that the medical waste is assigned to the corresponding medical waste bucket.

2. The utility model provides a multi-functional medical waste temporary storage device passes through data acquisition, the record of one-level, second grade sorting equipment, binds between doctor's useless information, time point, the useless weight of doctor, the person of responsibility, forms the data chain, for the doctor is useless to trace to the source, categorised providing data support, and the managers removes to transport the clearance after receiving the case overflow warning again and is useless to improve clearance efficiency.

Drawings

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

Fig. 1 is a first structural schematic view of a multifunctional medical waste temporary storage device according to a first embodiment of the present invention.

Fig. 2 is a second view of the multifunctional medical waste temporary storage device according to the first embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The utility model discloses a first embodiment:

referring to fig. 1 to 2, a first embodiment of the present invention provides a multifunctional medical waste temporary storage device, including: the medical waste collecting device comprises a shell, an identity card identification module, a medical waste identification module, a relay 10, at least two medical waste barrels 12 for temporarily storing medical waste, a display screen and a controller 1, wherein the identity card identification module, the medical waste identification module and the relay are arranged in the shell; the controller 1 is electrically connected with the display screen 18; the controller 1 is connected with the identity card identification module, the medical waste identification module and the relay 10 communication interface through an RS485 bus; wherein the content of the first and second substances,

the medical waste barrel 12 is positioned at two sides of the controller 1;

the relay 10 is disposed on the rear side of the controller 1;

the identity card identification module comprises a binocular camera 2 for face identification and an IC card swiping module 17 for verifying medical personnel, wherein the binocular camera 2 is arranged above a display screen 18, and the IC card swiping module 17 is arranged below the display screen 18; the medical waste identification module is mounted below the display screen 18; wherein the medical waste identification module comprises an RFID identification module 19 for medical waste ID identification or a two-dimensional code scanning module 14. The display screen 18 is mainly used for displaying background pictures, prompting information and the like.

In this embodiment, a weighing sensor 13 is further included, which is located directly below each medical waste bucket 12, and the weighing sensor 13 is connected to the controller 1 through an RS485 bus.

In the present embodiment, the relay 10 input IO port including the push button 15 disposed beside the delivery port 11 of each medical waste bin 12 is connected to the push button 15 by a wire. The delivery port 11 is located right in front of the upper portion of each medical waste barrel 12 and used for delivering medical waste, the delivery port 11 is controlled by a push rod motor 5, the push rod motor 5 of the delivery port 11 is used for opening the delivery port 11 and is connected to an output IO port of the relay 10 through an electric wire, and a communication interface of the relay 10 is connected with the controller 1 through an RS485 bus mode. The reverse-pushing electromagnetic lock 16 is installed on each delivery port 11, and is used for preventing human factors from forcibly pushing the delivery ports 11 open and is connected with the output IO port of the relay 10 through an electric wire. Specifically, the controller 1 analyzes the delivery port 11 returned by the medical platform, then controls the output IO port of the relay 10 corresponding to the delivery port, the output IO port is bound with the reverse-thrust electromagnetic lock 16, after the reverse-thrust electromagnetic lock 16 is opened, the controller 1 controls the IO port of the relay 10 corresponding to the output IO port through the RS485 bus again, the delivery port 11 push rod motor 5 is bound with the IO port, and the delivery port 11 push rod motor 5 is started to open the corresponding delivery port 11.

The medical waste overflow device comprises a distance detection sensor 9 for detecting the overflow degree of medical waste in medical waste barrels 12, wherein the distance detection sensor 9 is arranged right above each medical waste barrel 12 and connected with the controller 1 through an RS485 bus, and comprises overflow indicator lamps 3 arranged on the delivery port 11 side of each medical waste barrel 12, and the overflow indicator lamps 3 are connected with output IO ports of the relays 10 through electric wires and used for indicating the overflow degree of medical waste in the medical waste barrels 12.

The temperature and humidity sensor 7 is arranged at the top inside the shell and is connected with the controller 1 through an RS485 bus. And the smoke detection device comprises a smoke sensor 6 for smoke detection, wherein the smoke sensor 6 is arranged at the top inside the shell and is connected with the controller 1 through an RS485 bus. And a heat dissipation module 8 for cooling and removing smoke; the heat dissipation module 8 is disposed at an opening position on the back of the housing and connected to the output IO port of the relay 10 through a wire. Wherein, the heat dissipation module 8 is a fan.

Specifically, the controller 1 reads the temperature and humidity of the temperature and humidity sensor 7 in an RS485 polling manner, and displays the temperature and humidity of the medical waste barrel 12 in real time. The controller 1 verifies that the currently read temperature is compared with an alarm value set by a configuration file in real time, if the currently read temperature exceeds the alarm value, the controller 1 reports the comparison result to the medical platform in a network mode, and simultaneously controls a relay corresponding to heat dissipation in an RS485 polling mode, and opens the heat dissipation module 8 to achieve a cooling effect; and when the temperature in the medical waste barrel 12 is reduced to be lower than the early warning value, the heat dissipation module 8 is closed. Similarly, controller 1 reads the distance data in the distance detection sensor 9 through RS485 polling mode, controller 1 verifies the contrast of the distance of the medical waste in the medical waste bucket 12 that reads distance detection sensor 9 at present and the alarm value that the configuration file set up in real time, exceed the early warning value, controller 1 reports to medical platform through the network mode, medical platform managers notifies the transportation personnel to transport, relay 10 that controller 1 controls overflow indicator 3 through RS485 polling mode and corresponds simultaneously, open the red overflow lamp in medical waste bucket 12 the place ahead, it is full to show medical waste in the bucket of current type, play warning effect. Similarly, the controller 1 reads the smoke sensor 6 through RS485 polling, the controller 1 reads a smoke alarm value, the controller 1 reports the smoke alarm value to the medical platform through a network mode, and meanwhile, the controller controls the relay 10 corresponding to the heat dissipation module 8 through the 485 polling mode, and the heat dissipation module 8 is turned on; when the controller 1 detects that the smoke sensor 6 returns to a non-alarm value, the heat dissipation module 8 is turned off.

In this embodiment, still include light 4, relay 10 output IO mouth and photoelectric sensor 20 are received through the electric wire to light 4 being located the casing top dead ahead, photoelectric sensor 20 constitutes prevents tong module, installs in the 11 tops of delivery port and leans out 30 degrees, is convenient for detect the 11 the place ahead barriers of delivery port, connects relay 10 through the line. Specifically, when the controller 1 detects a delivery behavior, the relay 10 corresponding to the lighting is controlled in an RS485 polling manner, and the lighting lamp 4 is controlled to be turned on. When the controller 1 detects that delivery is completed or clearing is completed, the illuminating lamp 4 is controlled to be turned off in the same way, and the illuminating lamp 4 is an LED lamp.

The model of the controller 1 is an RK3288 Cortex-A17 quad-core processor, and the model of the temperature and humidity sensor 7 is as follows: SM 7820B; the model of the photoelectric sensing sensor 20 is E3F-DS50C 4; the smoke sensor 6 is RS 8082; the model of the distance detection sensor 9 is DYP-A01 CNYUB-V2.0; the model of the two-dimensional code scanning module 14 is EM 50; the model number of the RFID identification module 19 is M550; the type of the IC card swiping module 17 is LTXHFMK-02; the model of the relay 10 is ZKD-8I8RO-RS, and the model of the heat dissipation module 8 is AFB1224 VHE.

In the present embodiment, the controller 1 comprises a processor and a memory, the memory having stored therein executable code configured to be executable by the processor to implement the following delivery/diversion function operation method:

the first step is as follows: when the controller 1 recognizes that the medical staff (user) is triggered by face authentication or IC card swiping. If the face recognition mode is adopted, the controller 1 captures face information from the binocular camera 2, then obtains a face characteristic value through a face algorithm technology, compares the face characteristic value with a local equipment face library characteristic value, and extracts a user ID successfully verified in a face library; if the card is swiped through the IC, the controller 1 reads the IC card module 17 through the 485 bus polling method to directly obtain the user ID value. The final controller 1 sends a user ID to the medical platform via a network to request verification as to whether it is a department person or a transit person. If the personnel is the personnel in the department, the second step is carried out; entering a third step if the transport personnel are transshipped; none of them, the controller 1 is always in the state of recognizing the user.

The second step is that: and (4) delivery state. The controller 1 starts a delivery program, and reminds department personnel to scan a two-dimensional code or an RFID label on a medical waste collection bag to be delivered through a voice module and a display mode of a display screen 18 (the two-dimensional code or the RFID label is a string of unique identification codes, called medical waste ID for short, and the two-dimensional code on the medical waste collection bag is input into a medical platform to be generated after medical waste is packed in a department, and comprises a person responsible at present, a medical waste type and medical waste weight). After the controller 1 reads the two-dimensional code module value or the RFID identification module value through RS485 polling, medical waste ID can be extracted; the controller 1 requests the medical waste type from the medical platform through a network mode, at the moment, the medical platform returns to a delivery port 11 corresponding to the medical waste bag (the delivery port 11 corresponds to the medical waste type) and the weight of the medical waste bag (represented by w1, the weight returned by the medical platform is the weight of the medical platform recorded when the department is packed), the controller 1 analyzes the delivery port 11 returned by the medical platform, then controls an IO port of a relay 10 corresponding to the delivery port, a reverse-thrust electromagnetic lock 16 is bound to the IO port, after the reverse-thrust electromagnetic lock 16 is opened, the controller 1 controls the IO port of the relay 10 corresponding to the IO port again through an RS485 bus, a push rod motor 5 of the delivery port 11 is bound to the IO port, and the corresponding delivery port 11 is opened when the push rod motor 5 of the delivery port 11 is started. For example, the department personnel throw medical wastes into this temporary storage device through this delivery port 11, and controller 1 reads photoelectric sensor 20's state value through the mode of RS485 polling this moment, if department personnel's hand is in delivery port 11 edge all the time, controller 1 can not close delivery port 11, prevents to close delivery port 11 and presss from both sides the hand.

After the medical doctor is abandoned and the controller 1 detects that no obstacle exists in front of the delivery opening 11 through the photoelectric sensing sensor 20, the controller 1 starts the motor to close the delivery opening 11. After the delivery port 11 is completely closed, the controller 1 reads the value of the weighing sensor 13 in an RS485 bus mode, and compares the value with the weight before delivery, so that the weight of the medical wastes delivered currently (represented by w 0) can be obtained, the controller 1 verifies the values of w0 and w1, information is displayed on a screen, and a delivery person (department personnel) is informed whether the registered weight of the medical wastes delivered currently on a medical platform is consistent with the delivered weight. If medical wastes are left after the delivery, the second step is circulated.

If the delivery is not continued, the controller 1 reports the ID of the current delivery person (user), the ID of the medical waste after delivery, the corresponding weight and the corresponding delivery port 11 number to the medical platform in a network mode, and writes the information into a local database at the same time, so that the data loss caused by network abnormality is prevented. And then circulating the first step.

The third step: the controller 1 starts a transfer program and reminds transfer personnel to press a button 15 above the barrel to be transferred for a long time in a display mode of a voice module and a display screen 18; after the transfer personnel presses the button 15 for a long time, the controller 1 recognizes that the button 15 is pressed, records the barrel number of the current medical waste barrel 12, and reads the weight in the corresponding medical waste barrel 12 before transfer; then, prompting a transfer person to open the box door corresponding to the button 15 to start transferring, and prompting that the transfer is completed by pressing the button 15 for a long time again after transferring; the controller 1 detects that the button 15 is pressed again, reads the weight in the corresponding medical waste barrel 12 after transportation again, and the controller 1 obtains the barrel number and the transported weight of the currently transported medical waste barrel 12, reports the information to the medical platform in a network mode, and writes the information into a local database to prevent data loss due to network abnormality. And then circulating the first step.

To sum up, the utility model provides a multi-functional medical waste temporary storage device can be based on the useless classification of current expert's doctor, and each type can set up a doctor's waste bucket alone and be used for depositing corresponding doctor's useless type. After primary classification, medical wastes are uniformly collected, weighed and packaged, and registered and input into primary equipment by a responsible person and uploaded to a medical platform; unique identification codes (RFID labels/two-dimensional codes) are pasted on the medical waste bags which are packed uniformly. Then, the identification code on the medical waste bag is scanned to acquire which type the medical waste belongs to, so that the medical waste is assigned to the corresponding medical waste bucket. Just the utility model provides a multi-functional medical waste temporary storage device binds between information, time point, the medical waste weight, the person of responsibility through one-level, second grade classification's data acquisition, record to medical waste, forms the data chain, traces to the source, the classification provides data support for medical waste. The manager receives the overflow alarm of the temporary storage box and then transfers and cleans medical wastes, thereby improving the cleaning and transporting efficiency.

The second embodiment of the utility model also provides a multifunctional medical waste temporary storage system, which comprises a medical platform and the multifunctional medical waste temporary storage device as described in the first embodiment; the medical platform is communicated with the multifunctional medical waste temporary storage device in a network mode.

It should be noted that the above-described device embodiments are merely illustrative, where the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. In addition, in the drawings of the embodiment of the apparatus provided by the present invention, the connection relationship between the modules indicates that there is communication connection between them, and specifically, the connection relationship can be implemented as one or more communication buses or signal lines. One of ordinary skill in the art can understand and implement it without inventive effort.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (10)

1. A multi-functional medical waste temporary storage device, its characterized in that includes: the medical waste storage device comprises a shell, an identity card identification module, a medical waste identification module, a relay, at least two medical waste barrels for temporarily storing medical waste, a display screen and a controller, wherein the identity card identification module, the medical waste identification module, the relay, the at least two medical waste barrels, the display screen and the controller are arranged in the shell; the controller is electrically connected with the display screen; the controller is connected with the identity card identification module, the medical waste identification module and the relay communication interface through an RS485 bus; wherein the content of the first and second substances,

the medical waste barrels are arranged on two sides of the controller;

the relay is configured at the rear side of the controller;

the identity card identification module comprises a binocular camera for face identification and an IC card swiping module for verifying medical personnel, the binocular camera is arranged above the display screen, and the IC card swiping module is arranged below the display screen;

the medical waste identification module is configured below the display screen; wherein the medical waste identification module comprises an RFID identification module or a two-dimensional code scanning module for medical waste ID identification.

2. The multifunctional medical waste temporary storage device of claim 1, which comprises a weighing sensor located right below each medical waste barrel, wherein the weighing sensor is connected with the controller through an RS485 bus.

3. The multifunctional medical waste temporary storage device of claim 2, comprising a button disposed beside the delivery port of each medical waste barrel, wherein the relay input IO port is connected with the button through a wire.

4. The multifunctional medical waste temporary storage device of claim 3, comprising a distance detection sensor for detecting the degree of overflow of medical waste in the medical waste barrels, wherein the distance detection sensor is disposed right above each medical waste barrel and connected to the controller through an RS485 bus.

5. The multifunctional medical waste temporary storage device of claim 4, comprising an overflow indicator light disposed at the delivery port side of each medical waste bin, wherein the relay output control IO port is connected to the overflow indicator light through an electric wire for indicating the degree of overflow of medical waste in the medical waste bin.

6. The multifunctional medical waste temporary storage device according to claim 1, comprising a temperature and humidity sensor for temperature and humidity detection, wherein the temperature and humidity sensor is disposed at the top of the inside of the casing and connected with the controller through an RS485 bus.

7. The multifunctional medical waste temporary storage device of claim 1, which comprises a smoke sensor for smoke detection, wherein the smoke sensor is arranged at the top of the inside of the shell and is connected with the controller through an RS485 bus.

8. The multifunctional medical waste temporary storage device of claim 6, which comprises a heat dissipation module for cooling and removing smoke; the heat dissipation module is arranged at the position of the opening at the back of the shell, and the relay output control IO port is connected with the heat dissipation module through an electric wire.

9. The multifunctional medical waste temporary storage device of claim 8, which comprises a photoelectric sensor for detecting obstacles in front of the delivery port, wherein the photoelectric sensor is arranged above the delivery port and is inclined outwards by 30 degrees, and the relay input IO port is connected with the photoelectric sensor through a wire.

10. A multifunctional medical waste temporary storage system, which comprises a medical platform and the multifunctional medical waste temporary storage device as claimed in any one of claims 1 to 9; the medical platform is communicated with the multifunctional medical waste temporary storage device through a communication module.

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