CN215912317U - Medical storage cabinet - Google Patents

Abstract

The utility model relates to a medical storage cabinet which comprises a cabinet body, a circuit board, at least one RFID label and at least one RFID sensor. The RFID label is arranged on the AED device and records the information of the AED device; the RFID sensor is arranged in the cabinet body and electrically connected with the circuit board, and is used for reading the content of the RFID label and managing the AED device and the emergency medicine placed in the cabinet body by utilizing the RFID technology. The utility model also arranges the alarm display panel on the cabinet body, when any alarm emitter in the area range is started, the circuit board receives the alarm signal and enables the warning lamp corresponding to the alarm emitter on the alarm display panel to emit light based on the alarm signal, therefore, when an accident needing emergency treatment occurs, personnel adjacent to the medical storage cabinet can quickly know the accident site according to the light-emitting warning lamp on the alarm display panel and immediately carry the AED device to go, and the time for inquiring the position of the alarm emitter is saved.

Description

Medical storage cabinet

Technical Field

The utility model relates to the field of storage cabinets, in particular to a medical storage cabinet.

Background

An AED (Automated External Defibrillator) is a portable emergency device that is specially provided for general non-medical personnel to use when the heart is suddenly stopped. When the heartbeat is stopped due to sudden arrhythmia, if an electric shock can be given within one minute, the success rate of emergency treatment can reach 90 percent, and the success rate is gradually reduced after one minute of delay. Therefore, the survival rate of the injured and sick persons is racing with time, and if the AED is arranged in a public place with a large number of climbs for people to use for rescue, the death rate of the injured and sick persons before arriving at a hospital can be reduced.

However, the contents of the AED device have a rate of wear, e.g., the electrode patches need to be replaced periodically, and the battery of the AED device also has a useful life. Without the control of the AED, there is a high likelihood that the AED will be unpowered or otherwise disabled when it is needed. In addition, the battery of the AED device is removable and should be replaced with a new battery after a certain period or number of uses to ensure that the AED device can be used properly without the possibility of momentary power drain.

When an emergency occurs, someone presses an emergency button at the accident site, and the signal of the emergency button is generally sent to a machine room, a guard room or other monitoring units. However, at this point the travel to the emergency location by personnel in the machine room, guard room or other monitoring facility has delayed the gold time for using the AED device. If the location of the activated emergency button needs to be inquired, for example, the guard room finds that the emergency button 1 is lighted, and the emergency button 1 needs to be inquired in which zone of several buildings, the rescue time is wasted.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide a medical storage cabinet capable of monitoring and managing first-aid articles.

A medical storage cabinet comprising: a cabinet in which an AED device is placed; the circuit board is arranged in the cabinet body; at least one RFID label arranged on the AED device and used for recording the information of the AED device; and at least one RFID sensor, set up in the cabinet body to with circuit board electric connection, the content of RFID label is read respectively to the RFID sensor.

In one embodiment of the utility model, the AED device is further provided with a state sensor and a light signal indicating device, the state sensor is arranged outside the indicator of the AED device and is used for detecting the display state of the indicator of the AED device and generating a detection result, the detection result is converted into a control signal through a circuit board and is transmitted to the light signal indicating device arranged outside the cabinet body so as to control the light signal indicating device to display a light signal corresponding to the indicator.

In an embodiment of the present invention, the cabinet body is provided with a first electrical contact electrically connected to the circuit board, the status sensor is connected to a second electrical contact through a transmission line, the second electrical contact is electrically connected to the first electrical contact so as to transmit a detection result of the status sensor to the circuit board through the second electrical contact and the first electrical contact, and the circuit board converts the detection result into a control signal and transmits the control signal to the light signal indicating device.

In one embodiment of the present invention, the first electrical contact and the second electrical contact are magnetically connected to each other, so that the second electrical contact on the status sensor can be easily separated from the first electrical contact when the AED is taken away.

In an embodiment of the utility model, the cabinet further includes a wireless signal transceiver connected to the circuit board, and the wireless signal transceiver is in signal connection with the back-end monitoring server.

In an embodiment of the utility model, the cabinet body is further provided with a wireless signal transmission area, and when the wireless signal transceiver is arranged in the cabinet body, at least one signal transmitted and received by the wireless signal transceiver penetrates through the cabinet body through the wireless signal transmission area to be transmitted.

In one embodiment of the utility model, a door opening and closing sensor is arranged on the inner side of the door sheet of the cabinet body and is connected with the circuit board, and when the door opening and closing sensor detects that the door sheet is opened, notification information is sent to the rear-end monitoring server.

In one embodiment of the utility model, at least one emergency medicine is further placed in the cabinet, an RFID tag is respectively arranged on the emergency medicine, and an RFID sensor is arranged at the position of the emergency medicine to read the content of the RFID tag.

In an embodiment of the utility model, the circuit board is further connected with a temperature and humidity sensor to detect the temperature and humidity in the cabinet body, and the detected temperature and humidity are transmitted to the rear-end monitoring server through the wireless signal transceiver.

In an embodiment of the utility model, the circuit board is further connected with a sound sensor to detect sound in the cabinet body, and transmit a signal of the detected sound to the back-end monitoring server through the wireless signal transceiver.

In one embodiment of the utility model, a carbon monoxide sensor is arranged outside the cabinet body, and when the carbon monoxide concentration is detected to be over-standard, a warning sound is sent out, and the warning sound is detected by the sound sensor to send out a signal to notify the rear-end monitoring server.

In an embodiment of the present invention, the cabinet further includes a power module electrically connected to the commercial power and the circuit board, the commercial power supplies power to the circuit board through the power module, and when the commercial power is cut off, the power module directly supplies power to the circuit board.

The utility model also provides a medical storage cabinet, comprising: a cabinet body; the circuit board is arranged in the cabinet body; the wireless signal receiving and transmitting device is arranged in the cabinet body and is electrically connected with the circuit board; and the alarm display panel is used for displaying an area plan and a plurality of warning lamps, the positions of the warning lamps on the area plan correspond to the actual positions of the plurality of alarm transmitters, when any one of the alarm transmitters is started, an alarm signal can be sent out, the circuit board receives the alarm signal through a network cable or a wireless signal receiving and sending device, judges the alarm transmitter which sends out the alarm signal, and enables the corresponding warning lamp in the warning lamps on the alarm display panel to emit light according to the judgment.

The main object of the present invention is to provide a medical storage cabinet in which a plurality of RFID sensors are installed and RFID tags are installed on emergency articles such as AED devices and emergency medicines in a cabinet to monitor and manage the emergency articles.

Another objective of the present invention is to provide a medical storage cabinet, wherein an alarm display panel is disposed on a cabinet body, and a region plan and warning lights corresponding to the alarm transmitters are drawn on the alarm display panel, when any one of the alarm transmitters is activated, the corresponding warning light on the alarm display panel will illuminate, so that neighboring persons can intuitively know the location of the incident and immediately carry an AED apparatus to go, thereby saving the time for inquiring the location of the alarm transmitter.

It is still another object of the present invention to provide a medical storage cabinet, which uses a status sensor to detect the status of an indicator on an AED device, and transmits the status to a light signal indicating device outside the cabinet through a line, so that the light signal indicating device displays a light signal corresponding to the indicator, and a person can clearly see the status of the AED device inside the cabinet based on the light signal indicating device, and can be found and handled in real time when the AED device is not powered or needs to replace an internal object.

Drawings

Fig. 1 is a schematic view of a medical storage cabinet according to a first embodiment of the present invention.

Fig. 2 is an exploded view of a second embodiment of the medical cabinet of the present invention.

FIG. 3 is a diagram illustrating the locations of the RFID tag and the RFID sensor in the first embodiment.

Fig. 4 is a circuit block diagram of a medical storage cabinet according to a first embodiment of the utility model.

Fig. 5 is a schematic view of a medical storage cabinet according to a second embodiment of the utility model.

Fig. 6 is an exploded view of a second embodiment of the medical cabinet of the present invention.

Figure 7 is a schematic illustration of a second embodiment of the AED device when it is removed.

Fig. 8 is a circuit block diagram of a medical storage cabinet according to a second embodiment of the present invention.

Fig. 9 shows another embodiment of the medical storage cabinet of the present invention, in which the alarm display panel is a display screen.

The labels in the figure are:

10: medical storage cabinet

12: cabinet body

122: door sheet

124: wireless signal transmission area

14: AED device

142: battery with a battery cell

144: indicator device

16: circuit board

162: wireless signal transceiver

164: temperature and humidity sensor

165: carbon monoxide sensor

166: sound sensor

168: power supply module

169: door opening and closing sensor

182. 182a, 182b, 182c, 182 d: RFID sensor

184. 184a, 184b, 184c, 184 d: RFID tag

20: state sensor

202: transmission line

204: the second electrical contact

22: light signal indicating device

222: a first electrical contact

24: medicine and food additive

25: display panel of alarm

252: warning lamp

26: alarm emitter

28: commercial power

30: back-end monitoring server

Detailed Description

The utility model provides a medical storage cabinet which is used for storing an AED (Radio Frequency Identification) device and emergency articles, records various information of the AED device by utilizing an RFID (Radio Frequency Identification) technology, such as factory date, batch number, use times, battery life and the like, and also can transmit the information to a rear-end monitoring server for recording so as to control the AED device and replace the battery or the content of the AED device in real time, thereby avoiding the problem that the AED device cannot be used when the AED device is used urgently.

Referring to fig. 1 to 4, which are a schematic diagram, an exploded view, a schematic diagram when the AED device is taken out, and a circuit block diagram of the medical storage cabinet according to the embodiment of the utility model, respectively, it includes a cabinet 12, an AED device 14, a circuit board 16, at least one RFID sensor 182, and at least one RFID tag 184. The AED device 14 is housed within the case 12. in this embodiment, the case 12 includes three layers, an upper layer, a middle layer, and a lower layer, the AED device 14 is housed in the middle layer of the case 12, and the circuit board 16 is housed in the upper layer of the case 12.

The present invention utilizes RFID technology to record data for various first-aid items in the cabinet 12. At least one RFID sensor 182 is attached to the circuit board 16 and an RFID tag 184 is applied to the item to be recorded. Taking fig. 3 as an example, an RFID tag 184a is provided on the AED device 14, and another RFID tag 184b is provided on the battery 142 of the AED device 14, and RFID sensors 182a, 182b are placed within the case 12 proximate to the RFID tags 184a and 184b, respectively. The connections between the RFID tags 184a and 184b and the circuit board 16 are omitted from the figure for clarity of illustration. The RFID sensors 182a, 182b read the contents of the RFID tags 184a, 184b, respectively, such as the date of replacement of the battery 142, the number of uses of the AED device 14, the date of delivery, the model number, the lot number, and so forth.

The cabinet 12 may also contain at least one emergency medication 24, such as dichloflunine (diphterine), hexafluoroethane (hexafluorrine), and bailing. Taking dichlofluanid as an example, when corrosive or irritant chemicals are sprayed on the skin, the dichlofluanid can be applied to the affected part. Because the application of such first-aid drugs is faster and faster, for example, if corrosive or irritant chemicals are sprayed on the eyes, the first-aid drugs must be used within 10-60 seconds, and the first-aid drugs can be quickly taken out by being arranged in the AED device 14. However, such drugs are expensive, and the price of 100ml of dichlofluanid is higher than 3000 new taiwan currencies, so in order to prevent these first-aid drugs from being lost, the present invention further provides an RFID tag 184c, 184d on each first-aid drug 24, and an RFID sensor 182c, 182d at the position of the first-aid drug 24, i.e., at the lower layer of the cabinet 12. The contents of the RFID tags 184c and 184d are read by the RFID sensors 182c and 182d, and information such as the name, the use, and the shelf life of each first-aid medicine is known.

Further, when the AED device 14 or the emergency medicine 24 is removed, the RFID sensor 182 may also send a signal to the circuit board 16 to transmit a notification message to the back-end monitoring server 30 via the wireless signal transceiver 162, or directly from the wired network to the back-end monitoring server 30 to notify the monitoring personnel that the same or a plurality of emergency items 14 or 24 have been removed. In addition, when the emergency medicine 24 is exhausted, the back-end monitoring server 30 may also be notified based on the signals sent by the RFID sensors 182c, 182d to replenish the medicine in real time.

The present invention is also based on the light signaling device 22 presenting the status of the AED device 14 outside of the case 12, including whether there is power remaining, whether the contents need to be replaced, etc., so that a person can know what the light signaling is currently being presented by the indicator on the AED device 14 without opening the storage case. The light signal indicating device 22 is disposed outside the cabinet 12, and in the embodiment of fig. 1 to 3, the cabinet 12 includes a door 122, and the light signal indicating device 22 is disposed outside the door 122. The present invention also includes a condition sensor 20. The AED device 14 is provided with an indicator 144 that displays status, and the indicator 144 may be a color or graphic indicator or a color or graphic indicator light. The status sensor 20 is disposed outside the indicator 144 and electrically connected to the circuit board 16 via the transmission line 202. The status sensor 20 may be a color sensor or a graphic sensor for detecting the display status of the indicator 144, such as color, graphic, etc., generating a detection result, and transmitting the detection result to the circuit board 16 based on the transmission line 202, converting the detection result into a control signal through the circuit board 16, and transmitting the control signal to the light signal indicating device 22, so that the light signal indicating device 22 synchronously displays the same or corresponding light signal as the indicator 144. For example, when the indicator 144 displays green, o, or other colors or patterns representing normal status, the control signal sent by the circuit board 16 will cause the light signal indicating device 22 to display the corresponding light signal, e.g., the light signal indicating device 22 will turn on green; when the indicator 144 displays red, gamma, or other colors or patterns representing abnormal conditions, the control signal sent out after conversion by the circuit board 16 will cause the light signal indicating device 22 to display a corresponding light signal, such as a red light. In this way, the status of the AED device 14 is readily apparent to a person from outside the case 12.

In one embodiment, the status sensor 20 is further provided with a light emitting component (not shown) for continuously emitting weak light to illuminate the indicator 144, and when the color or pattern displayed by the indicator 144 changes, an image is captured in real time and calculation is performed. For example, if the indicator 144 indicates a normal or abnormal status of the AED device 14 by displaying a color change of red or green, black or white, the chip 206 in the status sensor 20 may be configured to analyze what color the indicator 144 currently displays using different color spectral bands. If the indicator 144 represents a normal or abnormal condition of the AED with "O", "gamma", or other graphic changes, the chip 206 in the condition sensor 20 may be loaded with image recognition algorithms, such as edge arithmetic or other means to calculate what graphic the indicator 144 shows.

The status sensor 20 may be attached, affixed, adhered, etc. to the indicator 144 of the AED device 14, such as by a hook and loop fastener or tape that secures the status sensor 20 to the indicator 144. However, because the transmission line 202 is connected to the status sensor 20 at one end and to the circuit board 16 at the other end, there is a possibility that the status sensor 20 will not be removed first due to an emergency when the AED device 14 is taken out, and the status sensor 20 or the transmission line 202 will be damaged by hard pulling. Therefore, in the present invention, the first electrical contact 222 is first disposed in the cabinet 12, and is fixed on the inner surface of the cabinet 12 and connected to the circuit board 16, and the second electrical contact 204 is disposed at the other end of the transmission line 202 connected to the status sensor 20, and the second electrical contact 204 is connected to the first electrical contact 222. In particular, the first electrical contact 222 and the second electrical contact 204 are magnetically connected, so that the first electrical contact 222 and the second electrical contact 204 can be easily separated by only slightly pulling the AED device 14 when the AED device 14 is taken out, so that the AED device 14 can be taken out together with the status sensor 20 when the AED device 14 is taken out. Therefore, the detection result of the status sensor 20 detecting the indicator 144 is transmitted to the second electrical contact 204 through the transmission line 202, and then transmitted to the circuit board 16 from the first electrical contact 222, and the circuit board 16 generates the control signal according to the detection result, and then transmits the control signal to the light signal indicating device 22.

The circuit board 16 and the back-end monitoring server 30 are in signal connection in a wired or wireless mode. When transmitting signals wirelessly, the present invention further includes a wireless signal transceiver 162, which may be Wi-Fi or radio, and may be disposed inside the cabinet 12 or outside the cabinet 12. The wireless signal transceiver 162 is connected to the back-end monitoring server 30 for transmitting various detection signals received by the circuit board 16 to the back-end monitoring server 30. For example, the detection result detected by the status sensor 20, the information read by the RFID sensor 182, etc. can be transmitted to the back-end monitoring server 30 through the wireless signal transceiver 162 for control and management. Since the cabinet body 12 is a metal cabinet, which can block the transmission of wireless signals, if the wireless signal transceiver 162 is disposed inside the cabinet body 12, the cabinet body 12 is provided with the wireless signal transmission region 124, which is made of non-metal material, such as acrylic or plastic board, so that the wireless signal transceiver 162 can transmit and receive wireless signals. In the embodiment of fig. 1-3, the wireless signal transmission region 124 is disposed directly above the cabinet 12.

The present invention may include a variety of sensors such as a temperature and humidity sensor 164, a carbon monoxide sensor 165, an acoustic sensor 166, and a door open/close sensor 169. The temperature and humidity sensor 164 is disposed in the cabinet 12 and electrically connected to the circuit board 16, and is configured to detect the temperature and humidity inside the cabinet 12, and transmit the detected temperature and humidity to the rear-end monitoring server 30 through the wireless signal transceiver 162 or the network cable for recording. The carbon monoxide sensor 165 is arranged outside the cabinet body 12, the sound sensor 166 is arranged in the cabinet body 12 and electrically connected with the circuit board 16, when the carbon monoxide sensor 165 detects that the concentration of the carbon monoxide exceeds the standard, a warning sound is emitted, the sound sensor 166 detects the carbon monoxide concentration, and a signal of the detected sound is transmitted to the rear-end monitoring server 30 through the wireless signal transceiving device 162 or a network cable so as to inform monitoring personnel of the attention. An on/off door sensor 169 is positioned inside door blade 122, such as adjacent the door handle, and is connected to circuit board 16. When the door opening and closing sensor 169 detects that the door piece 122 is opened, a signal is sent to the circuit board 16 to transmit a notification message to the rear-end monitoring server 30 through the wireless signal transceiver 162 or a network cable, so as to inform a monitoring person that someone opens the cabinet. The detection signals of the temperature and humidity sensor 164, the carbon monoxide sensor 165, the sound sensor 166 and the door opening and closing sensor 169 can be displayed on the light signal indicating device 22, for example, when someone opens the door piece 122, the light signal indicating device 22 will light up red; when the temperature and humidity exceed the standard ranges, the light signal indicating device 22 will light up red; the sound sensor 166 also sends a signal through the circuit board 16 to turn the light signal indicating device 22 on to red when it detects the warning sound of the carbon monoxide sensor 165.

In the present invention, the circuit board 16 and the sensors connected thereto are connected to the power module 168 for power supply, and the power module 168 is connected to the commercial power 28. Typically, the circuit board 16 is powered by the utility power 28 through the power module 168, but when the utility power 28 is off, the power is directly supplied by the power module 168.

Fig. 5 to 8 are a schematic view, an exploded view, a schematic view when the AED is taken out, and a circuit block diagram of the medical storage cabinet according to the second embodiment of the present invention, which respectively include a cabinet 12, an AED 14, a circuit board 16, a wireless transceiver 162, and an alarm display panel 25. The AED device 14 is housed within the case 12. in this embodiment, the case 12 includes upper and lower layers, and the AED device 14 is housed in the lower layer of the case 12.

The alarm display panel 25 is disposed outside the cabinet 12, and in the embodiment, above the cabinet 12, and is quite conspicuous. The alarm display panel 25 is a plastic plate, acrylic plate, or other plate material. An area plan is printed, drawn or otherwise presented on the alarm display panel 25, for example, if one AED device 14 is provided on each floor of the building, the area plan is a plan of that floor, and the locations of the medical storage cabinet 10 and the alarm transmitters 26 are also indicated on the area plan, with remote alarm functionality. Corresponding to the actual position of the alarm emitter 26, a plurality of warning lamps 252 are disposed on the area plan view, and the warning lamps 252 are electrically connected to the circuit board 16. When any one of the alarm transmitters 26 is activated, the alarm transmitter 26 transmits an alarm signal, which is a wireless signal, and the alarm signal is received by the wireless signal transceiver 162 in the medical storage cabinet 10 having a remote alarm function, and then the corresponding warning lamp 252 on the alarm display panel 25 is turned on through the circuit board 16. The alarm signal may also be a wired signal, wired directly to the circuit board 16 of the medical storage cabinet 10. In this way, when an accident that requires first aid occurs in a certain place, the alarm emitter 26 is pressed by a person at the accident site, and the alarm lamp 252 corresponding to the end of the medical storage cabinet 10 is turned on. Personnel around the medical storage cabinet 10 can easily see the location of the accident site from the alarm display panel 25 and immediately take the AED device 14 to go to rescue, saving gold rescue time.

The alarm display panel 25 may be a display screen, and as shown in fig. 9, may directly display a plan view of the areas, the position of the medical storage cabinet 10, and the positions of the plurality of alarm transmitters 26. When any one of the alarm transmitters 26 is activated, the alarm signal from the alarm transmitter 26 is received by the wireless transceiver 162 or the circuit board 16, and the alarm display panel 25 is driven to illuminate the warning light 252 corresponding to the alarm transmitter 26.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application.

Claims (23)

1. A medical storage cabinet comprising:

a cabinet in which an AED device is placed;

the circuit board is arranged in the cabinet body;

at least one RFID tag provided on the AED device, recording information of the AED device; and

at least one RFID sensor, set up in the cabinet body, and with circuit board electric connection, at least one RFID sensor reads respectively the content of at least one RFID label.

2. The medical storage cabinet according to claim 1, further comprising a status sensor and a light signal indicating device, wherein an indicator is disposed on the AED, the status sensor is disposed outside the indicator of the AED for detecting a display status of the indicator of the AED and generating a detection result, and the detection result is converted into a control signal by the circuit board and transmitted to the light signal indicating device disposed outside the cabinet to control the light signal indicating device to display a light signal corresponding to the indicator.

3. The medical storage cabinet according to claim 2, wherein a first electrical contact is disposed in the cabinet body, the first electrical contact is electrically connected to the circuit board, the status sensor is connected to a second electrical contact through a transmission line, the second electrical contact is electrically connected to the first electrical contact, the detection result of the status sensor is transmitted to the circuit board through the second electrical contact and the first electrical contact, and the circuit board converts the detection result into the control signal and transmits the control signal to the light signal indicating device.

4. The medical storage cabinet of claim 3, wherein the first electrical contact and the second electrical contact are magnetically connected.

5. The medical storage cabinet of claim 1, wherein the cabinet body further comprises a wireless signal transceiver connected to the circuit board, and the wireless signal transceiver is in signal connection with a back-end monitoring server.

6. The medical storage cabinet according to claim 5, wherein the cabinet body further comprises a wireless signal transmission area, and when the wireless signal transceiver is disposed in the cabinet body, at least one signal transmitted and received by the wireless signal transceiver penetrates through the cabinet body through the wireless signal transmission area and is transmitted out.

7. The medical storage cabinet according to claim 5, wherein a door opening and closing sensor is arranged on the inner side of the door sheet of the cabinet body, the door opening and closing sensor is connected with the circuit board, and when the door opening and closing sensor detects that the door sheet is opened, notification information is sent to the rear-end monitoring server.

8. The medical storage cabinet of claim 1, wherein the cabinet further contains at least one emergency drug, the RFID tag is disposed on the at least one emergency drug, and the RFID sensor is disposed at a location of the at least one emergency drug, and the RFID sensor reads the contents of the RFID tag.

9. The medical storage cabinet of claim 5, wherein the circuit board is further connected to a temperature and humidity sensor, the temperature and humidity sensor detects temperature and humidity in the cabinet body, and transmits the detected temperature and humidity to the back-end monitoring server through the wireless signal transceiver.

10. The medical storage cabinet of claim 5, wherein the circuit board is further connected to a sound sensor, the sound sensor detects sound in the cabinet body, and transmits a signal of the detected sound to the back-end monitoring server through the wireless signal transceiver.

11. The medical storage cabinet of claim 10, wherein a carbon monoxide sensor is further provided outside the cabinet, and when the carbon monoxide sensor detects that the concentration of carbon monoxide exceeds a predetermined value, a warning sound is generated and the sound sensor detects that the carbon monoxide sensor detects that the concentration of carbon monoxide exceeds the predetermined value, and the rear-end monitoring server is notified of the signal.

12. The medical storage cabinet according to claim 1, wherein the cabinet body further comprises a power module, the power module is electrically connected to a mains supply and the circuit board, the mains supply supplies power to the circuit board through the power module, and the power module supplies power to the circuit board when power fails.

13. A medical storage cabinet comprising:

a cabinet body;

the circuit board is arranged in the cabinet body;

the wireless signal receiving and transmitting device is arranged in the cabinet body and is electrically connected with the circuit board; and

the alarm display panel is characterized in that an area plan view and a plurality of warning lamps are displayed on the alarm display panel, the positions of the warning lamps on the area plan view correspond to the actual positions of the alarm transmitters, when any one of the alarm transmitters is started, an alarm signal is sent out, the circuit board receives the alarm signal through a network cable or the wireless signal transceiver, the alarm transmitter which sends out the alarm signal in the alarm transmitters is judged, and the corresponding warning lamp in the warning lamps on the alarm display panel is made to emit light according to the judgment.

14. The medical storage cabinet as claimed in claim 13, further comprising a status sensor and a light signal indicating device, wherein an AED device is disposed in the cabinet, an indicator is disposed on the AED device, the status sensor is disposed outside the indicator of the AED device and is configured to detect a display status of the indicator of the AED device and generate a detection result, and the detection result is converted into a control signal by the circuit board and transmitted to the light signal indicating device disposed outside the cabinet to control the light signal indicating device to display a light signal corresponding to the indicator.

15. The medical storage cabinet according to claim 14, wherein a first electrical contact is disposed in the cabinet body, the first electrical contact is electrically connected to the circuit board, the status sensor is connected to a second electrical contact through a transmission line, the second electrical contact is electrically connected to the first electrical contact, the detection result of the status sensor is transmitted to the circuit board through the second electrical contact and the first electrical contact, and the circuit board converts the detection result into the control signal and transmits the control signal to the light signal indicating device.

16. The medical storage cabinet of claim 15, wherein the first electrical contact and the second electrical contact are magnetically connected.

17. The medical storage cabinet of claim 13, wherein the wireless signal transceiver is in signal connection with a back-end monitoring server.

18. The medical storage cabinet according to claim 13, wherein the cabinet body further comprises a wireless signal transmission area, and when the wireless signal transceiver is disposed in the cabinet body, at least one signal transmitted and received by the wireless signal transceiver penetrates through the cabinet body through the wireless signal transmission area and is transmitted out.

19. The medical storage cabinet of claim 17, wherein a door opening and closing sensor is disposed on an inner side of the door leaf of the cabinet body, the door opening and closing sensor is connected to the circuit board, and when the door opening and closing sensor detects that the door leaf is opened, a notification message is sent to the rear end monitoring server.

20. The medical storage cabinet of claim 17, wherein the circuit board is further connected to a temperature and humidity sensor, the temperature and humidity sensor detects temperature and humidity in the cabinet body, and transmits the detected temperature and humidity to the back-end monitoring server through the wireless signal transceiver.

21. The medical storage cabinet of claim 17, wherein the circuit board is further connected to a sound sensor, the sound sensor detects sound in the cabinet body and transmits a signal of the detected sound to the back-end monitoring server through the wireless signal transceiver.

22. The medical storage cabinet of claim 21, wherein a carbon monoxide sensor is further provided outside the cabinet, and when a warning sound is generated when a carbon monoxide concentration is detected to be over-standard, and the sound sensor generates the signal to notify the back-end monitoring server when the warning sound is detected by the sound sensor.

23. The medical storage cabinet of claim 13, wherein the cabinet body further comprises a power module electrically connected to a mains supply and the circuit board, wherein the mains supply supplies power to the circuit board through the power module, and the power module supplies power when power fails.

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