WO2022095115A1 - Integrated system for wound treatment - Google Patents

Abstract

An integrated system for a wound treatment, comprising a wound sealing device, a negative pressure adjustment device, a temperature adjustment device, a humidity adjustment device, a flushing flow adjustment device, an oxygen concentration adjustment device, and a controller. The negative pressure adjustment device, the temperature adjustment device, the humidity adjustment device, the flushing flow adjustment device, and the oxygen concentration adjustment device are all connected to the wound sealing device by means of pipelines, and are also electrically connected to the controller.

Description

An integrated system for wound treatment technical field

The invention relates to the technical field of medical devices, in particular to an integrated system for wound treatment.

Background technique

The external microenvironment involved in wound healing mainly includes: microorganisms, humidity, pressure, temperature, oxygen and pH. The impact of microorganisms on wound healing is the first to be recognized, and it is also the biggest enemy of wound healing. Therefore, almost all external wound medicines are antibacterial drugs so far. Earlier, people used exposure therapy to heal wound scabs, the main purpose of which was that microorganisms were not easy to colonize and multiply in a dry environment. In 1960, Winter subverted the theory of dry wound healing. By covering the wound with a dressing that moisturizes and prevents the invasion of microorganisms, the wound heals significantly earlier than the exposure method. Thus established the theory of wet healing. In practice, people gradually realize that debridement and drainage through wound surface is also a good method to control microbial infection. In 1980, the negative pressure sealing and drainage device was invented. It seals the outside world through the outer membrane to prevent the invasion of exogenous microorganisms, reduces the possibility of microbial infection on the wound through negative pressure drainage, and promotes the healing of wound tissue through negative pressure. However, since the negative pressure is applied to an almost vacuum state, the supply of local oxygen in the air to the wound surface is also reduced. So simple negative pressure therapy, although the effect is better, but the recovery period of the wound is still long.

Therefore, the existing technology still needs to be improved and improved.

SUMMARY OF THE INVENTION

In view of the above-mentioned shortcomings of the prior art, the purpose of the present invention is to provide an integrated system for wound surface treatment, which can perform oxygen supply, fluid delivery, temperature adjustment and humidity adjustment to the wound surface on the basis of negative pressure drainage. Combined action to maximize wound healing.

In order to achieve the above object, the present invention has adopted the following technical solutions:

An integrated system for wound surface treatment, comprising a wound surface sealing device, a negative pressure regulating device, a temperature regulating device, a humidity regulating device, an irrigation flow regulating device, an oxygen concentration regulating device and a controller, wherein,

The wound surface sealing device is used for sealing the wound surface;

The negative pressure regulating device is connected to the wound surface sealing device, and is used to adjust and collect the real-time pressure in the wound surface sealing device;

The temperature adjustment device is connected with the wound surface sealing device, and is used to adjust and collect the real-time temperature in the wound surface sealing device;

The humidity adjustment device is connected to the wound surface sealing device, and is used to adjust and collect real-time humidity in the wound surface sealing device;

The flushing flow regulating device is connected with the wound surface sealing device, and is used to adjust and collect the real-time flushing flow in the wound surface sealing device;

The oxygen concentration adjustment device is connected to the wound surface sealing device, and is used to adjust and collect the real-time oxygen concentration in the wound surface sealing device;

The controller is electrically connected with the negative pressure regulating device, the temperature regulating device, the humidity regulating device, the flushing flow regulating device and the oxygen concentration regulating device, and the controller is used for controlling the negative pressure regulating device to perform negative pressure regulation and control The oxygen concentration adjustment device performs oxygen concentration adjustment, and the controller is also used to control the action of the temperature adjustment device and the humidity adjustment device when the negative pressure adjustment is completed, so that the humidity and temperature in the wound surface sealing device reach The controller is further configured to control the action of the irrigation flow regulating device, so that the irrigation flow in the wound surface sealing device reaches the target.

Compared with the prior art, the integrated system for wound treatment provided by the present invention also introduces the adjustment of temperature, humidity, flushing flow and oxygen concentration in the process of negative pressure treatment. On the basis of negative pressure drainage, The comprehensive effect of oxygen supply, fluid delivery, temperature adjustment and humidity adjustment to the wound surface maximizes the healing of the wound surface, and is comprehensively controlled by the controller to avoid the mutual interference and restriction of the adjustment of various parameters, and further promote the healing of the wound surface.

Description of drawings

1 is a structural block diagram of a preferred embodiment of an integrated system for wound treatment provided by the present invention;

Fig. 2 is a schematic diagram of a preferred embodiment of the wound sealing device in the integrated system for wound treatment provided by the present invention

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Detailed ways

The present invention provides an integrated system for wound surface treatment. In order to make the purpose, technical solutions and effects of the present invention clearer and clearer, the present invention will be further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are only used to explain the present invention, but not to limit the present invention.

Referring to FIGS. 1 and 2 , an integrated system for wound treatment provided by an embodiment of the present invention includes a wound sealing device 1, a negative pressure regulating device 2, a temperature regulating device 3, a humidity regulating device 4, an irrigation flow regulating device 5, The oxygen concentration adjustment device 6 and the controller 7, the negative pressure adjustment device 2, the temperature adjustment device 3, the humidity adjustment device 4, the irrigation flow adjustment device 5 and the oxygen concentration adjustment device 6 are all connected with the wound surface sealing device 1 through pipelines connected, the negative pressure regulating device 2, temperature regulating device 3, humidity regulating device 4, flushing flow regulating device 5 and oxygen concentration regulating device 6 are also electrically connected with the controller 7 (the double horizontal line in Fig. 1 is the pipe Road connection, single horizontal line is electrical connection).

Specifically, the wound surface sealing device 1 is used for sealing the wound surface, preventing the wound surface from being infected, and also facilitating actions such as negative pressure therapy, temperature and humidity adjustment, wound surface flushing, and wound surface oxygen concentration adjustment. In this embodiment, please refer to Fig. 2, the wound surface sealing device 1 includes a sealing film 11 and a wound dressing 12, the wound dressing 12 is applied on the wound surface, and the sealing film 11 covers the wound dressing to avoid wound infection, the wound dressing There are voids in 12, so that negative pressure can be formed with the outside world. The wound dressing 12 is used as a transmission medium for negative pressure, and its structure is a porous intercommunication structure. The exudate can be drained out of the wound through the wound dressing 12 under negative pressure suction. The negative pressure regulating device 2, temperature regulating device 3, humidity regulating device 4, flushing flow regulating device 5 and oxygen concentration regulating device 6 all pass through pipelines (in Figure 2, the pipelines include pipeline a and pipeline b). , pipeline c, pipeline d, pipeline e and pipeline f) are connected to the wound surface sealing device 1, wherein, the pipeline is embedded in the interior of the wound dressing to achieve negative pressure regulation on the wound surface, temperature Actions such as humidity adjustment, flushing and oxygen concentration adjustment.

The negative pressure regulating device 2 is used to adjust and collect the real-time pressure in the wound surface sealing device, so as to realize the negative pressure treatment of the wound surface. For details, please continue to refer to FIG. 1 , the negative pressure regulating device 2 includes drainage fluid. A liquid storage tank 21, a vacuum pump 22 and a negative pressure sensor 23, the drainage liquid storage tank 21 is connected to the vacuum pump 22 (in FIG. 1, connected through the first pipeline 27), and the negative pressure sensor 23 is provided in the On the pipeline connected between the drainage liquid storage tank 21 and the vacuum pump 22, the negative pressure sensor 23 is also connected to the wound surface sealing device 1, specifically connected to the wound dressing 12. During specific implementation, the negative pressure sensor 26 It can be directly integrated on the wound dressing 12 . The vacuum pump 22 and the negative pressure sensor 23 are both electrically connected to the controller 7 (in specific implementation, the negative pressure sensor 23 can be connected to the controller 7 through wires, or can be connected to the controller 7 ). 7 wireless connection). The vacuum pump 22 is used to provide negative pressure, so as to suck the drainage fluid on the wound surface to the drainage fluid storage tank 21 through the negative pressure. The negative pressure sensor 23 can collect the real-time pressure applied to the wound through a pipeline connected to the wound, and the controller 7 adjusts the power output of the vacuum pump 22 through the collected real-time pressure to perform negative pressure correction. In a preferred embodiment, the drainage liquid storage tank 21 is further provided with a sampling port, and the integrated system for wound treatment further includes a pH value detection device, and the pH value detection device can drain the drainage through the sampling port. The pH value of the solution was detected as a reference for wound healing assessment.

The temperature adjustment device 3 is used to adjust and collect the real-time temperature in the wound surface sealing device. Please refer to FIG. 1. In this embodiment, the temperature adjustment device 3 includes a temperature regulator 31, a first liquid pump 32, The first sterile liquid storage tank 33 and the temperature sensor 34, the temperature regulator 31, the first suction pump 32 and the first sterile liquid storage tank 33 are connected in turn (in FIG. 1, through the second pipeline 35), the temperature regulator 31 is also connected to the wound sealing device 1 (specifically connected to the suction cup assembly 13), and the temperature sensor 34 is connected to the wound sealing device 1 (specifically connected to the suction cup assembly 13) , during specific implementation, the temperature sensor 34 can be directly integrated on the suction cup assembly 13 ), the temperature regulator 31 , the first liquid pump 32 and the temperature sensor 34 are all connected with the controller 7 Electrical connection (in a specific implementation, the temperature sensor 34 can be connected to the controller 7 through a wire, or can be wirelessly connected to the controller 7). The temperature adjustment device 1 changes the temperature in the wound surface by passing the temperature-adjusted liquid into the wound surface sealing device 1 to achieve the purpose of temperature adjustment. The liquid in the bacterial liquid storage tank 33 is pumped into the temperature regulator 31, and then the temperature of the liquid is adjusted by the temperature regulator 31, and then input into the wound surface sealing device 1, thereby realizing temperature adjustment. The temperature sensor 34 collects the temperature in the wound surface sealing device 1 and inputs it to the controller 7, so that the controller 7 can adjust the power of the first pump 32 and the temperature regulator 31 according to the real-time temperature, to bring the wound to the proper temperature.

The humidity adjustment device 4 is used to adjust and collect the real-time humidity in the wound surface sealing device. Please refer to FIG. 1. In this embodiment, the humidity adjustment device 4 includes a second pump 41, a second sterile liquid The liquid storage tank 42 and the humidity sensor 43 are connected with the second liquid suction pump 41 and the second sterile liquid liquid storage tank 42 (in FIG. The liquid pump 41 is also connected to the wound surface sealing device 1 (specifically connected to the suction cup assembly 13 ), and the humidity sensor 43 is connected to the wound surface sealing device 1 . During specific implementation, the humidity sensor 43 can be connected to the The suction cup assembly 13 may be directly integrated on the suction cup assembly 13, and the second liquid suction pump 41 and the humidity sensor 43 are both electrically connected to the controller 7 (in specific implementation, the humidity sensor 43 can be connected to the controller 7 through wires. The controller 7 is connected, and can also be wirelessly connected with the controller 7). The humidity adjustment device 4 adjusts the humidity of the wound surface by injecting sterile liquid into the wound surface sealing device 1 . The sterile liquid is pumped into the wound surface sealing device 1, so as to realize the humidity adjustment of the wound surface. The humidity sensor 43 collects the real-time humidity in the wound surface sealing device 1 and sends it to the controller 7, so that the controller 7 will Real-time humidity to adjust the humidity, so that the wound is in a suitable humidity environment.

It should be noted that the first liquid pumping pump 32 and the second liquid pumping pump 41 can be the same water pump, that is, in order to save costs, the temperature adjustment device 3 can be directly used to adjust the humidity. At this time, The first sterile liquid storage tank 33 and the second sterile liquid storage tank 42 may also be the same liquid storage tank.

The flushing flow regulating device 5 is used to regulate and collect the real-time flushing flow in the wound surface sealing device. Please refer to FIG. 1. In this embodiment, the flushing flow regulating device 5 includes a third pump 51, a flushing fluid The liquid storage tank 52 and the flow sensor 53, the third liquid suction pump 51 is connected to the flushing liquid storage tank 52 (in FIG. 1, connected through the fourth pipeline 54), and the third liquid suction pump 51 is connected to the The wound sealing device 1 (specifically connected to the suction cup assembly 13), the flow sensor 53 is arranged on the pipeline connecting the third suction pump 51 and the wound sealing device 1, the flow sensor 53 and the The third liquid suction pumps 51 are all electrically connected to the controller 7 (in a specific implementation, the flow sensor 53 can be connected to the controller 7 through a wire, or can be wirelessly connected to the controller 7 ). The flushing flow regulating device 5 realizes the cleaning of the wound by injecting flushing flow into the wound, so as to speed up the recovery of the wound. Specifically, the third pump 51 pumps the irrigation liquid in the irrigation liquid storage tank 52 into the wound surface sealing device 1, thereby realizing the irrigation of the wound surface, and the flow sensor 53 collects the first The real-time flushing flow of the flushing liquid output by the three-pump 51 is sent to the controller 7, so that the controller 7 can adjust the flow according to the real-time flushing flow, so as to achieve the best flushing effect.

The oxygen concentration adjustment device 6 is used to adjust and collect the real-time oxygen concentration in the wound surface sealing device 1. In this embodiment, please refer to FIG. 1, the oxygen concentration adjustment device 6 includes an oxygen generator 61, an oxygen concentration sensor 62 and a pressure sensor 63, the oxygen generator 61 is connected to the wound surface sealing device 1 (in FIG. 1, connected through the fifth pipeline, the oxygen generator 61 is specifically connected to the suction cup assembly 13), the Both the pressure sensor 63 and the oxygen concentration sensor 62 are connected to the wound surface sealing device 1 (specifically connected to the suction cup assembly 13 , of course, in a specific implementation, the oxygen concentration sensor 62 and the pressure sensor 63 can be directly integrated into the on the suction cup assembly 13), the oxygen generator 61, the oxygen concentration sensor 62 and the pressure sensor 63 are all electrically connected to the controller 7 (in specific implementation, the oxygen concentration sensor 62 and the pressure sensor 63 can both be connected by wires It is connected to the controller 7, and can also be wirelessly connected to the controller 7). The oxygen generator 61 can generate oxygen by electrolyzing water, or generate oxygen by chemical reaction, or directly rely on an oxygen container to provide oxygen, which is not limited in the present invention. The oxygen generator 61 realizes the oxygen concentration adjustment of the wound surface by injecting oxygen into the wound surface sealing device 1 , and the oxygen concentration sensor 62 is used to collect the oxygen concentration of the wound surface sealing device and send it to the controller 7 , the pressure sensor 63 is used to collect the oxygen pressure in the wound sealing device 1 and send it to the controller 7, and the controller 7 adjusts the power of the oxygen generator 61 according to the real-time oxygen concentration to correct the oxygen concentration .

Please continue to refer to FIG. 1 , the controller 7 is used to control the negative pressure regulating device 2 to perform negative pressure regulation and control the oxygen concentration regulating device 6 to perform oxygen concentration regulation, and the controller 7 is also used to control the negative pressure When the adjustment is completed, the temperature adjustment device 3 and the humidity adjustment device 4 are controlled to act so that the humidity and temperature in the wound surface sealing device 1 reach the target. The irrigation flow regulating device 5 is actuated, so that the irrigation flow in the wound surface sealing device 1 reaches the target.

Specifically, the controller 7 is specifically used for:

When the wound treatment starts, the action of the oxygen concentration adjustment device is controlled, the real-time oxygen concentration value collected by the oxygen concentration adjustment device is acquired, and the oxygen concentration adjustment is controlled according to the real-time oxygen concentration value and the preset oxygen concentration value the oxygen output of the device;

When the negative pressure treatment starts, the negative pressure regulating device is controlled to perform negative pressure regulation, so as to realize the negative pressure treatment of the wound surface;

When the negative pressure treatment ends, control the temperature adjustment device and the humidity adjustment device to adjust the temperature and humidity respectively, and obtain the real-time temperature value and real-time humidity value collected by the temperature adjustment device and the humidity adjustment device, and according to the real-time temperature value, real-time humidity value, preset temperature value and preset humidity value to control the output power of the temperature adjustment device, the humidity adjustment device and the negative pressure adjustment device, so that the temperature and humidity in the wound surface sealing device reach the target;

When the temperature and humidity adjustment is completed, the flushing flow regulating device is controlled to adjust the flushing flow, and the real-time flushing flow value collected by the flushing flow regulating device is acquired, and the flushing flow value is calculated according to the real-time flushing flow value and the preset flushing flow value. The output power of the flushing flow regulating device and the negative pressure regulating device is controlled, so that the flushing flow in the wound surface sealing device reaches the target.

Specifically, when performing comprehensive adjustment, first the wound treatment starts, then the oxygen concentration adjustment device 6 starts to adjust the oxygen concentration, and the controller 7 obtains the collected real-time oxygen concentration. When the real-time oxygen concentration exceeds the preset range, the The controller 7 controls the oxygen generator 7 to perform power regulation, and controls the vacuum pump 24 to perform suction to adjust the oxygen concentration, until after the oxygen concentration is normal, the power of the oxygen generator 7 is maintained until the wound surface treatment ends; second, After the wound treatment starts, the negative pressure treatment starts, the negative pressure regulating device 2 is activated to perform negative pressure therapy, and the controller 7 controls the output power of the negative pressure regulating device 2 to achieve a perfect negative pressure treatment effect; After the end, start the temperature and humidity adjustment, start the temperature adjustment device 3 and the humidity adjustment device 4, and obtain the real-time temperature and real-time humidity, when the real-time temperature or real-time humidity exceeds the preset range, the first liquid pump or the second liquid pump. The suction pump adjusts the output of sterile liquid, and the vacuum pump 24 sucks out the sterile liquid in the wound surface, so that the temperature and humidity reach the preset range, and when the temperature and humidity are normal, the temperature adjustment device 3 is controlled. After the temperature and humidity adjustment device 4 is maintained at the current power for a period of time, the adjustment of temperature and humidity is completed; when the adjustment of temperature and humidity is completed, the irrigation flow adjustment device 5 is activated to perform wound surface irrigation, and the controller 7 obtains the real-time irrigation flow rate. When the real-time irrigation flow rate exceeds In the preset range, the third suction pump 71 adjusts the output of the irrigation liquid, and the vacuum pump 24 sucks the irrigation liquid in the wound surface, so that the irrigation flow rate reaches the preset range, and when the irrigation flow rate is normal, the irrigation liquid is pumped out. The flow regulating device keeps running at the current power for a period of time and ends the flushing to complete the entire wound treatment.

In the present invention, in the process of negative pressure therapy, the adjustment of temperature, humidity, flushing flow rate and oxygen concentration is also introduced. On the basis of negative pressure drainage, oxygen supply, fluid delivery, temperature adjustment and humidity adjustment are performed on the wound surface. The comprehensive effect maximizes the healing of the wound surface, and is comprehensively controlled by the controller 7 to avoid mutual interference and restriction of the adjustment of various parameters, and further promote the healing of the wound surface.

It should be noted that the various adjustment devices in the present invention may not work together. In actual treatment, only one or more of the devices can be selected for wound treatment in combination to meet the actual needs. The specific combination method depends on the specific situation. , which is not limited in the present invention.

Preferably, the integrated system for wound treatment further includes equipment such as a power supply, a buzzer, a display, etc., the power supply is used for power supply, and the buzzer is used for when the power supply is too low, the negative pressure value of the wound, the wound surface, etc. The terminal oxygen concentration, wound surface temperature, humidity exceed the threshold value or the flushing liquid and the flushing liquid are consumed, and the alarm is issued. The display is used to display the corresponding image alarm information, wherein the power supply, the buzzer and the display are all connected with the controller. 7 Connections.

Preferably, the integrated system for wound treatment further comprises: a wireless communication device, a mobile terminal and a cloud server, the controller is wirelessly connected to the cloud server through the wireless communication device, and the mobile terminal is connected to the cloud server. Cloud server connection, where,

The controller is used for sending the wound treatment parameters to the cloud server, the cloud server is used for encrypting the received wound treatment parameters through the blockchain technology, and the mobile terminal is used for taking pictures of the wound, and recording the pictures. The image of the device is sent to the cloud server, so that the cloud server generates a wound treatment plan according to the image and encrypts the generated wound treatment plan through blockchain technology.

Specifically, the controller 7 is connected with an Internet wireless transmission port, and is connected with a wireless communication device, and the wireless communication device is connected with a cloud server, and the integrated system for wound treatment performs data transmission with a mobile terminal through the Internet, and the mobile terminal can Using mobile phones, laptops or tablet computers, doctors can remotely monitor the integrated system of wound treatment through mobile terminal equipment to obtain the patient's wound treatment parameters. Among them, the wound treatment parameters generally include equipment number, patient ID, treatment unit, department, treatment duration, etc., and the wound treatment parameters are encrypted and protected by blockchain technology, and external users must obtain the patient's attending doctor when accessing. Authorization to increase the confidentiality of patient information.

In addition, considering the currently widely used mobile Internet systems based on smart phones, various PAD computers, and notebooks, we can connect the wound treatment integrated system with the portable mobile terminals of patients or their family members (patient mobile terminals), and connect to the The cloud connects patients or their family members, medical staff, equipment maintenance personnel, and manufacturers through the cloud. The wound photos are uploaded to the cloud through the patient's mobile terminal, and the most suitable wound treatment plan is calculated through the cloud. The medical staff can view and modify the treatment plan, and finally send the treatment plan to the integrated wound treatment system for clinical treatment. When an alarm event occurs during the treatment, such as equipment dumping, bottle full, pipe blockage, air leakage, power shortage, overvoltage, wound temperature, insufficient humidity and other alarm information, the equipment will timely deliver these information to an external device through the cloud. terminal, so that medical staff can keep abreast of the operating status of the equipment and respond to alarm events.

Among them, in the present invention, the intelligent output of the treatment plan is realized through big data analysis and artificial intelligence, and the preferred method is based on the attribute analysis of the same type of wound to obtain the recommended treatment plan for each wound, and the patient treating physician revises the treatment plan output by the system Adjust and form the final treatment plan to treat the patient. Once the final treatment plan is formed, the system encrypts and saves the treatment plan through blockchain technology, and external users need to obtain the authorization of the patient's attending doctor to call the treatment plan. By analyzing and comparing the differences between the proposed wound treatment plan and the final treatment plan, the system continuously optimizes the database, so that the given recommended treatment plan is the optimal plan that constantly tends to meet the actual treatment requirements.

In addition, during the treatment, according to the recovery of the wound treatment, at any treatment time point, the patient's mobile terminal can obtain the wound image data by taking pictures again and upload the wound image data to the cloud server, and then obtain the data according to the above method. The new wound treatment plan is used for treatment, so as to realize the dynamic treatment management of the wound.

To sum up, in the integrated system for wound treatment provided by the present invention, in the process of negative pressure treatment, the adjustment of temperature, humidity, flushing flow and oxygen concentration is also introduced. The comprehensive effect of oxygen supply, fluid delivery, temperature adjustment and humidity adjustment is carried out to maximize the healing of wounds, and comprehensive control is carried out through the controller 7 to avoid mutual interference and restriction of the adjustment of various parameters, and further promote the healing of wounds.

It can be understood that for those of ordinary skill in the art, equivalent replacements or changes can be made according to the technical solutions of the present invention and the inventive concept thereof, and all these changes or replacements should belong to the protection scope of the appended claims of the present invention.

Claims (9)

1. An integrated system for wound treatment, characterized by comprising a wound sealing device, a negative pressure regulating device, a temperature regulating device, a humidity regulating device, a flushing flow regulating device, an oxygen concentration regulating device and a controller, wherein,

   The wound surface sealing device is used for sealing the wound surface;

   The negative pressure regulating device is connected to the wound surface sealing device, and is used to adjust and collect the real-time pressure in the wound surface sealing device;

   The temperature adjustment device is connected with the wound surface sealing device, and is used to adjust and collect the real-time temperature in the wound surface sealing device;

   The humidity adjustment device is connected to the wound surface sealing device, and is used to adjust and collect real-time humidity in the wound surface sealing device;

   The flushing flow regulating device is connected with the wound surface sealing device, and is used to adjust and collect the real-time flushing flow in the wound surface sealing device;

   The oxygen concentration adjustment device is connected to the wound surface sealing device, and is used to adjust and collect the real-time oxygen concentration in the wound surface sealing device;

   The controller is electrically connected with the negative pressure regulating device, the temperature regulating device, the humidity regulating device, the flushing flow regulating device and the oxygen concentration regulating device, and the controller is used for controlling the negative pressure regulating device to perform negative pressure regulation and control The oxygen concentration adjustment device performs oxygen concentration adjustment, and the controller is also used to control the action of the temperature adjustment device and the humidity adjustment device when the negative pressure adjustment is completed, so that the humidity and temperature in the wound surface sealing device reach The controller is further configured to control the action of the irrigation flow regulating device, so that the irrigation flow in the wound surface sealing device reaches the target.
2. The integrated system for wound surface treatment according to claim 1, wherein the wound surface sealing device comprises a sealing film and a wound dressing, the wound dressing is used for laying on the wound surface, and the sealing film covers the wound surface. On the wound dressing, there are gaps in the wound dressing, and the negative pressure adjusting device, the temperature adjusting device, the humidity adjusting device, the flushing flow adjusting device and the oxygen concentration adjusting device are all connected to the wound surface sealing device through pipelines. The pipeline is embedded inside the wound dressing.
3. The integrated system for wound treatment according to claim 1, wherein the negative pressure regulating device comprises a drainage liquid storage tank, a vacuum pump and a negative pressure sensor, and the drainage liquid storage tank is connected to the vacuum pump, The negative pressure sensor is arranged on the pipeline connected between the drainage liquid storage tank and the vacuum pump, the negative pressure sensor is also connected to the wound surface sealing device, and both the vacuum pump and the negative pressure sensor are connected with the control device. electrical connection.
4. The integrated system for wound treatment according to claim 1, wherein the temperature adjustment device comprises a temperature regulator, a first liquid pump, a first sterile liquid storage tank and a temperature sensor, and the temperature The regulator, the first liquid pump and the first sterile liquid storage tank are connected in sequence, the temperature regulator is also connected to the wound surface sealing device, the temperature sensor is connected to the wound surface sealing device, and the temperature regulator is connected to the wound surface sealing device. , the first liquid pump and the temperature sensor are all electrically connected to the controller.
5. The integrated system for wound treatment according to claim 1, wherein the humidity adjustment device comprises a second suction pump, a second sterile liquid storage tank and a humidity sensor, the second suction pump It is connected to the second sterile liquid storage tank, the second liquid pump is also connected to the wound surface sealing device, the humidity sensor is connected to the wound surface sealing device, and both the second liquid pump and the humidity sensor are connected. in electrical connection with the controller.
6. The integrated system for wound surface treatment according to claim 1, wherein the irrigation flow adjustment device comprises a third suction pump, an irrigation liquid storage tank and a flow sensor, and the third suction pump is connected to the The flushing liquid storage tank, the third liquid suction pump is connected to the wound surface sealing device, the flow sensor is arranged on the pipeline connecting the third liquid suction pump and the wound surface sealing device, the flow sensor and the wound surface sealing device are connected. The third liquid suction pumps are all electrically connected to the controller.
7. The integrated system for wound surface treatment according to claim 1, wherein the oxygen concentration adjustment device comprises an oxygen generator, an oxygen concentration sensor and a pressure sensor, and the oxygen generator is connected to the wound surface sealing device, The oxygen concentration sensor and the pressure sensor are arranged on the pipeline connecting the oxygen generator and the wound surface sealing device, and the oxygen generator, the oxygen concentration sensor and the pressure sensor are all electrically connected to the controller.
8. The integrated system for wound surface treatment according to claim 1, wherein the controller is specifically used for:

   When the wound treatment starts, the action of the oxygen concentration adjustment device is controlled, the real-time oxygen concentration value collected by the oxygen concentration adjustment device is acquired, and the oxygen concentration adjustment is controlled according to the real-time oxygen concentration value and the preset oxygen concentration value the oxygen output of the device;

   When the negative pressure treatment starts, the negative pressure regulating device is controlled to perform negative pressure regulation, so as to realize the negative pressure treatment of the wound surface;

   When the negative pressure treatment ends, control the temperature adjustment device and the humidity adjustment device to adjust the temperature and humidity respectively, and obtain the real-time temperature value and real-time humidity value collected by the temperature adjustment device and the humidity adjustment device, and according to the real-time temperature value, real-time humidity value, preset temperature value and preset humidity value to control the output power of the temperature adjustment device, the humidity adjustment device and the negative pressure adjustment device, so that the temperature and humidity in the wound surface sealing device reach the target;

   When the temperature and humidity adjustment is completed, the flushing flow regulating device is controlled to adjust the flushing flow, and the real-time flushing flow value collected by the flushing flow regulating device is acquired, and the flushing flow value is calculated according to the real-time flushing flow value and the preset flushing flow value. The output power of the flushing flow regulating device and the negative pressure regulating device is controlled, so that the flushing flow in the wound surface sealing device reaches the target.
9. The integrated system for wound treatment according to claim 1, further comprising a wireless communication device, a mobile terminal and a cloud server, the controller is wirelessly connected to the cloud server through the wireless communication device, and the The mobile terminal is connected to the cloud server, wherein,

   The controller is used for sending the wound treatment parameters to the cloud server, the cloud server is used for encrypting the received wound treatment parameters through the blockchain technology, and the mobile terminal is used for taking pictures of the wound, and recording the pictures. The image of the device is sent to the cloud server, so that the cloud server generates a wound treatment plan according to the image and encrypts the generated wound treatment plan through blockchain technology.

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