CN114366377A - Intelligent bandage - Google Patents

Abstract

The embodiment of the application provides an intelligent bandage, including bandage body, medicine portion, sensing portion and control part. The bandage body has a mounting surface. The medicine feeding part comprises a releasing ring, the releasing ring is arranged on the mounting surface and comprises a ring body, the ring body forms a wound healing area, the wound healing area is used for corresponding to a wound, a medicine storage cavity is formed in the ring body and used for storing medicines, one side, close to the wound healing area, of the medicine storage cavity is provided with a releasing through hole, and the releasing through hole is communicated with the wound healing area and the medicine storage cavity. The sensing part comprises a pressure sensor and a PH sensor, the pressure sensor and the PH sensor are arranged in the wound healing area, the pressure sensor is used for sensing the pressure of the wound, and the PH sensor is used for sensing the PH value of the wound. The control portion includes a processor capable of receiving measurement data communicated from the pressure sensor and the PH sensor. This intelligence bandage can be through bandage body protection wound area, and the release ring can add the medicine to the wound under the condition of not revealing the bandage body.

Description

Intelligent bandage

Technical Field

The application relates to a pet nursing field especially relates to an intelligent bandage.

Background

Traditional solutions for wound care involve the use of gauze and bandages applied to the skin with an adhesive, which need to be completely replaced when the wound is re-bandaged. Wound dressings of this type have a number of disadvantages, particularly for animals with fur. The adhesive bandage restricts the movement of the patient and is uncomfortable. Removing the adhesive from the skin can be painful and removing it from the fur is not only uncomfortable for the animal, but also time consuming and therefore highly impractical.

Disclosure of Invention

The application provides an intelligent bandage, the addition of the medicine of wound of being convenient for.

The embodiment of the application provides an intelligent bandage, including bandage body, medicine portion, sensing portion and control part. The bandage body has a mounting surface. The medicine feeding part comprises a release ring, the release ring is arranged on the mounting surface and comprises a ring body, the ring body forms a wound healing area, the wound healing area is used for corresponding to a wound, a medicine storage cavity is formed in the ring body and used for storing medicines, one side, close to the wound healing area, of the medicine storage cavity is provided with a release through hole, and the release through hole is communicated with the wound healing area and the medicine storage cavity. The sensing part comprises a pressure sensor and a PH sensor, the pressure sensor and the PH sensor are arranged in the wound healing area, the pressure sensor is used for sensing the pressure of the wound, and the PH sensor is used for sensing the PH value of the wound. The control part comprises a processor, and the processor can be in communication connection with the pressure sensor and the PH sensor to receive and process measurement data communicated by the pressure sensor and the PH sensor.

This intelligence bandage can be through bandage body protection wound region, and the release ring can add the medicine to the wound under the condition of not revealing the bandage body, and the longer wound of reply recovery period can avoid revealing the bandage body and cause secondary damage to the wound. When the treater is connected with pressure sensor and PH sensor communication, sensing part and control part cooperation can be implemented the detection to the wound to master the opportunity that the release ring added the medicine, carry out pressure monitoring and control when adding the medicine in addition, make the medicine can evenly spread to the wound region as far as possible.

In a possible implementation manner, the sensing portion includes a first connector electrically connected to the pressure sensor and the PH sensor, and the first connector is connected to the bandage body. The control part is provided with a second connector, the second connector with treater electric connection, the second connector be used for with first connector butt joint, in order to realize the treater with pressure sensor with the communication of PH sensor is connected.

In this possible implementation, the communication connection of control part and sensing part is realized to the form of first connector and the butt joint of second connector, can be so that control part and bandage body components of a whole that can function independently set up, and it can with first connector and the butt joint of second connector again when needing the control part.

In one possible implementation, the smart bandage further comprises an air bladder and an air pump. The bandage body still has the correspondence the installation cavity in callus on the sole district, the gasbag set up in the installation cavity. The air pump is detachably connected with the air bag and used for supplying air to the air bag to control the deformation of the air bag.

In this possible implementation, the air pump and the air bag can flexibly control the pressure of the intelligent bandage on the wound, and the air bag is filled with corresponding air to maintain the pressure. Under appropriate pressure, the medicament is easier to absorb on the wound, which is beneficial to the recovery of the wound.

In a possible implementation manner, the control portion is electrically connected to the air pump, and the control portion further includes a control panel including a control button for controlling the air pump.

In this possible implementation, the control part is provided with a control panel, so that an operator can control the pressure output of the air pump according to actual conditions.

In a possible implementation manner, the medicine feeding part further comprises a medicine feeding channel, the medicine feeding channel is communicated with the release ring, and a detachable end cover is arranged at one end, far away from the release ring, of the medicine feeding channel.

In this possible implementation, when the medicine in the medicine storage cavity is used up or a new kind of medicine needs to be added, the medicine can be added to the medicine storage cavity through the medicine feeding channel.

In one possible implementation, the drug delivery portion further includes a pusher. The pushing piece comprises a rod body and a deformation head, the deformation head is fixed at one end of the rod body, and the deformation head can be inserted into the medicine feeding channel to push the medicine. The medicine feeding channel is provided with a transparent window for observing the position of the deformation head, and volume scales are arranged at the transparent window.

In this possible implementation, the pushing member can push the medicine in the medicine storage cavity, so as to push the medicine in the medicine storage cavity into the callus region, and the quantity of the medicine pushed into the callus region by the medicine storage cavity can be grasped through the volume scale at the transparent window.

In a possible implementation, the release ring further comprises a valve, the valve and the ring body are fixed at the release through hole, and the valve is used for controlling the medicine to pass through the release through hole.

In this possible implementation, the valve can control the drug in the drug storage cavity as much as possible, and the valve deforms to open the release through hole only when sufficient external force is applied, so that the drug is squeezed into the wound healing area from the drug storage cavity.

In one possible implementation, the smart bandage further comprises a wireless communication element. The wireless communication piece is electrically connected with the sensing part and is used for being in communication connection with the alarm terminal.

In this possible implementation manner, when the wireless communication member is connected to the alarm terminal, the alarm terminal may monitor the related data of the sensing portion, and when an abnormal condition is monitored, the alarm terminal issues an alarm.

In one possible implementation, the smart bandage further comprises an electrostatic fabric patch. The static fiber paste is fixedly arranged on the mounting surface and comprises a plurality of fibers, and the fibers have an initial state and a static state. In the initial state, the fibers are in a hook shape and can be wound with hair. In the electrostatic state, the fibers are linear.

In the possible implementation mode, the electrostatic fiber can be wound with the new fluff of the pet when being attached to the initial state, so that the adhesive property of the intelligent bandage and the pet skin is improved, and the falling probability of the intelligent bandage is reduced. When the intelligent bandage needs to be taken down, static electricity can be applied to the static fiber patch, so that the fibers are linear, and the intelligent bandage is convenient to take down from the pet skin.

In one possible implementation, the bandage body further has an anti-licking surface opposite the mounting surface, the anti-licking surface being coated with an odorous substance.

In this possible implementation, the anti-licking surface is provided with an odorant corresponding to a type of a pet, for example, an odorant having a citrus odor can be added to a smart bandage for cats and dogs, and an odorant having a pepper odor can be added to a smart bandage for rabbits. Lick the intelligent bandage through avoiding the pet, can reduce the probability that the intelligent bandage drops, also can avoid the pet to make the friction of intelligent bandage and wound increase through licking the intelligent bandage, lead to the injury aggravate.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent bandage provided in an embodiment of the present application.

Fig. 2 is a schematic structural view of a release ring and a drug delivery channel provided in an embodiment of the present application.

Fig. 3 is a cross-sectional view of an intelligent bandage provided by an embodiment of the present application.

Fig. 4 is an enlarged view of the area IV in fig. 3.

FIG. 5 is a schematic diagram of a pusher member according to an embodiment of the present application.

Fig. 6 is a schematic system diagram of a sensing portion and a control portion in communication connection according to an embodiment of the present application.

Fig. 7 is a partial enlarged view of region VII in fig. 3.

Description of the main elements

Bandage body 100

Mounting surface 101

First layer 110

Second layer 130

Medicine applying part 200

Release ring 210

Callus region 211

Release via 213

Medicine feeding channel 230

End cap 231

Scale 233

Pusher member 250

Rod 251

Deforming head 253

Sensing part 300

Pressure sensor 310

PH sensor 330

First connector 350

Control part 400

Display panel 410

Second connector 430

Air bag 510

Wireless communication member 610

Electrostatic fabric 700

Fiber 710

The following detailed description will further illustrate the present application in conjunction with the above-described figures.

Detailed Description

The following description of the embodiments of the present application is provided by way of specific examples, and other advantages and effects of the present application will be readily apparent to those skilled in the art from the disclosure herein. While the description of the present application will be described in conjunction with the preferred embodiments, it is not intended that the features of the present application be limited to this embodiment. On the contrary, the application of the present disclosure with reference to the embodiments is intended to cover alternatives or modifications as may be extended based on the claims of the present disclosure. In the following description, numerous specific details are included to provide a thorough understanding of the present application. The present application may be practiced without these particulars. Moreover, some of the specific details have been omitted from the description in order to avoid obscuring or obscuring the focus of the present application. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

Hereinafter, the terms "first", "second", etc., if used, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless otherwise specified. "Upper," "lower," "left," "right," and like directional terms are defined relative to the schematically-disposed orientations of elements in the figures, and it is to be understood that the directional terms are relative terms, which are used for descriptive and clarity purposes and are intended to correspond to changes in the orientation in which the elements in the figures are disposed.

In the present application, the term "connected", if used, is to be understood broadly, unless otherwise explicitly stated or limited, for example "connected" may be a fixed connection, a detachable connection, or an integral part; may be directly connected or indirectly connected through an intermediate. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the following detailed description of the embodiments, which is to be read in connection with the accompanying drawings, the drawings showing the partial structure of the device are not necessarily to scale, and are merely exemplary, which should not limit the scope of the invention.

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

Fig. 1 shows a schematic structural diagram of an intelligent bandage according to an embodiment of the present application.

As shown in fig. 1, the intelligent bandage includes a bandage body 100, a medicine applying part 200, and a sensing part 300. The intelligent bandage is used for helping pet wounds to heal.

The bandage body 100 is made of fabric, and the bandage body 100 can change its shape by deformation. The bandage body 100 is in a long strip shape when unfolded, and when in use, the bandage body 100 can be wound around the affected limb or the trunk of the pet for a circle, and then knotted or fixed through a fixing piece, so that the bandage body 100 is fixed on the body of the pet. One surface of the bandage body 100 forms a mounting surface 101, and when the bandage body 100 is fixed on a pet body, the mounting surface 101 faces the body surface of the pet.

Fig. 2 shows a schematic view of the structure of the release ring 210 and the loading channel 230 in an embodiment of the present application.

Referring to fig. 1 and 2, the medicine applying part 200 includes a release ring 210, the release ring 210 is fixed to the bandage body 100, and the release ring 210 is located on the mounting surface 101. When the bandage body 100 is secured to the pet's body, the release ring 210 faces the wound site of the pet. The release ring 210 comprises a ring body, the ring body is annular, a callus region 211 with a circular cross section is formed in the middle area of the ring body, and the wound is located in the callus region 211, namely, when the release ring 210 is attached to the body surface of a pet, the ring body surrounds the wound. The ring body is hollow, a medicine storage cavity is formed in the ring body, and the pasty medicine can be stored in the medicine storage cavity. One side of the medicine storage cavity close to the callus region 211 is provided with a release through hole 213, and when the medicine in the medicine storage cavity is extruded, the medicine can enter the callus region 211 through the release through hole 213, so as to act on the wound.

Different medicines can be selected to act on the wound according to the actual condition of the wound. For example, when the wound needs anti-inflammatory treatment, the anti-inflammatory medicines such as erythromycin, mupirocin and the like can be stored in the medicine storage cavity, and for example, when the wound needs rapid healing, the tissue regeneration promoting ointment can be stored in the medicine storage cavity. The dosage of the medicine needs to be slowly released, but if the medicine is directly contacted with the skin, the skin can always absorb the plaster, and when the excessive plaster is absorbed at one time, on one hand, the medicine effect cannot be released, and on the other hand, the medicine allergy can be caused. Therefore, the release ring 210 releases the medicine as required, so that the medicine can be supplied to the wound according to the actual demand of the wound, on one hand, the utilization rate of the medicine can be improved, and on the other hand, the medicine can be supplied to the wound for a long time under the condition that the bandage body 100 is not disassembled.

The release ring 210 also includes a valve, three pieces of which are secured to the release through hole 213 with the ring body. Three flaps are evenly distributed on the inner wall of the release through hole 213 in the circumferential direction, and the flaps extend from the inner wall of the release through hole 213 to the direction of the callus area 211. The valve is made of elastic material and can deform when being pressed, and three pieces of valve close the release through hole 213 when the valve is not deformed. When the pressure in the medicine storage cavity is increased, the medicine in the medicine storage cavity presses the valve, so that the valve is deformed, after the three flaps are deformed, a gap is formed at one end of the three flaps, which faces the callus region 211, and the medicine is released into the callus region 211 from the gap. When the pressure of the drug storage cavity is restored, the three flaps restore to the shape, so that the three flaps approach each other, and the release through hole 213 is closed again. And because the valve extends from the inner wall of the release through hole 213 to the direction of the callus region 211, when the pressure of the callus region 211 is greater than that of the drug storage cavity, only the three pieces of valve are attached more closely, and gaps are difficult to form between the three pieces of valve. That is, the pressure of the callus region 211 is increased, so that the medicine in the callus region 211 is not easy to return to the medicine storage cavity through the release through hole 213.

FIG. 3 illustrates a cross-sectional view of an intelligent bandage in one embodiment of the present application. Fig. 4 shows a partial enlargement of the area IV in fig. 3.

Referring to fig. 3 and 4, the medicine applying part 200 further includes a medicine applying passage 230, and the medicine applying passage 230 communicates with the release ring 210. Medicine can be added to the medicine storage cavity through the medicine feeding channel 230, and the type of the medicine in the medicine storage cavity can be replaced through the medicine feeding channel 230. An end cap 231 is arranged at one end of the medicine feeding channel 230 far away from the release ring 210, and the end cap 231 is detachably matched with the medicine feeding channel 230. An end cap 231 seals the port of the medication feeding channel 230 to prevent medication leakage. When medicine needs to be added to the medicine storage cavity through the medicine feeding channel 230, the end cover 231 is taken down from the medicine feeding channel 230, then the medicine is added to the medicine feeding channel 230, and the medicine enters the medicine storage cavity through the medicine feeding channel 230. After the medicine is added to the medicine storage cavity through the medicine feeding channel 230, the end cover 231 is covered.

Fig. 5 shows a schematic view of a pusher member 250 in an embodiment of the present application.

Referring to fig. 4 and 5, the medicine applying part 200 further includes a pushing member 250. The pusher 250 comprises a rod 251 and a deforming head 253, the deforming head 253 is fixed at one end of the rod 251, and the deforming head 253 can be inserted into the medicine feeding channel 230. Deformation head 253 is made of rubber, and when deformation head 253 is inserted into medicine feeding channel 230, the periphery of deformation head 253 is attached to the inner wall of medicine feeding channel 230. The rod 251 pushes the deforming head 253 to move in the medicine feeding channel 230, so that the medicine in the medicine feeding channel 230 can be pressed towards the medicine storage cavity, and the medicine in the medicine storage cavity can be further extruded from the release through hole 213.

The medicine feeding channel 230 is made of a transparent material, so that the medicine feeding channel 230 is provided with a transparent window for observing the position of the deformation head 253, a volume scale 233 is arranged at the transparent window, and the volume of the medicine extruded from the release through hole 213 by the movement of the deformation head 253 can be judged according to the movement distance of the deformation head 253 along the volume scale 233.

Fig. 6 is a schematic diagram of a system when the sensing part 300 and the control part 400 are communicatively connected according to an embodiment of the present application.

Referring to fig. 1 and 6, the sensing portion 300 includes a pressure sensor 310, and the pressure sensor 310 is fixedly connected to the bandage body 100. A pressure sensor 310 is disposed within the callus region 211, the pressure sensor 310 being used to sense a pressure condition within the callus region 211. When adding a drug to the callus region 211 through the release ring 210, it is desirable to first reduce the pressure of the callus region 211 so that the drug can diffuse to the wound surface. After the drug has spread to the wound surface, pressure is applied to the wound area 211 to assist the absorption of the drug into the wound. In addition, the pressure sensor 310 senses the pressure of the callus region 211, so that when the condition of excessive pressure is monitored, whether the state of the intelligent bandage is abnormal or the pet behaves abnormally can be checked, and a pet doctor can make adjustments in time.

The sensing part 300 further includes a PH sensor 330, and the PH sensor 330 is fixedly connected to the bandage body 100. A pH sensor 330 is disposed in the callus region 211, and the pH sensor 330 is used for sensing the pH value of the callus region 211. The microorganisms in the wound produce alkaline substances, and the infection condition of the wound can be inferred by detecting the pH value of the wound. When the PH value is increased to above 6.5, the wound can be judged to need sterilization and inflammation diminishing, and the anti-inflammatory drug can be provided to the wound through the drug storage cavity. When the pH value is maintained in the normal range of the skin (certain difference can be generated according to different pet types), the condition that the anti-inflammatory drug is not required to be supplied to the wound temporarily can be judged, and the increase of the microbial drug resistance caused by the excessive dosage of the anti-inflammatory drug can be avoided.

The smart bandage further includes a control 400, the control 400 including a processor and a display panel 410. When electrically connected to the pressure sensor 310, the processor can receive and process the measurement data of the pressure sensor 310, convert the measurement data into pressure data, and display the pressure data on the display panel 410. The pressure sensor 310 may use a piezo-ceramic, and when the pressure applied to the piezo-ceramic is changed, the resistance value of the piezo-ceramic is changed, and the processor receives the resistance value data of the piezo-ceramic, and calculates and converts the resistance value data into pressure data, and finally displays the pressure data on the display panel 410. The operator can judge the pressure parameter of the callus region 211 according to the pressure data displayed by the display panel 410, and adjust the intelligent bandage according to the actual situation. If the pressure data displayed on the display panel 410 is large, the bandage body 100 can be loosened appropriately, so that the pressure data is decreased. If the pressure data displayed on the display panel 410 is too small, the release ring 210 may not be completely attached to the skin, and the bandage body 100 may be tightened appropriately, so that the pressure data is increased.

When the processor is connected to the PH sensor 330, the processor can receive the measurement data from the PH sensor 330, convert the measurement data into PH data, and display the PH data on the display panel 410. The PH sensor 330 may use a PH indicator that can be coated with a color-changeable optical fiber, and when the PH value at the position of the PH sensor 330 changes, the color of the PH indicator changes, and light passing through the optical fiber is selectively absorbed, and the processor receives light data of the PH sensor 330, compares the parameter of light entering the optical fiber with the parameter of light exiting the optical fiber, calculates and converts the PH data to obtain PH data, and finally displays the PH data on the display panel 410. The operator can judge the infection of the wound in the wound healing region 211 according to the PH data displayed on the display panel 410, and release the drug of the release ring 210 according to the actual situation. If the PH data displayed on the display panel 410 is large, and the vicinity of the wound is close to a neutral or alkaline environment, it indicates that infection is formed at the wound, and at this time, the anti-inflammatory drug is released to the wound through the release ring 210 to diminish the wound in time. If the PH data displayed on the display panel 410 is normal, it indicates that no obvious infection is formed on the wound, and at this time, the tissue regeneration promoting ointment can be released to the wound through the release ring 210, so as to accelerate the healing speed of the wound.

Alternatively, the control unit 400 and the sensing unit 300 may be detachably connected. The sensing part 300 includes a first connector 350, and the first connector 350 is fixedly connected to the bandage body 100. The first connector 350 is electrically connected to both the pressure sensor 310 and the PH sensor 330. The control portion 400 includes a second connector 430, and the second connector 430 is electrically connected to the processor through a flexible wire. The first connector 350 is a female USB connector, the second connector 430 is a male USB connector, and when the second connector 430 is inserted into the first connector 350, the communication connection between the control unit 400 and the sensing unit 300 is realized. When the control part 400 is required to monitor the parameters, the control part 400 is connected with the sensing part 300 in a communication way. When the parameters do not need to be monitored, the connection between the control part 400 and the sensing part 300 can be released, so that the control part 400 can be prevented from increasing the burden of the injured pet, and the injured pet can move more freely.

It can be understood that the control part 400 can be fixed on the bandage body 100, and the control part 400 and the sensing part 300 can be always in the communication connection state. Or the sensing part 300 and the control part 400 are communicatively connected through wireless communication.

FIG. 3 illustrates a cross-sectional view of an intelligent bandage in one embodiment of the present application. Fig. 7 shows a partial enlargement of the region VII in fig. 3.

Referring to fig. 3 and 7 in combination, the optional smart bandage further includes an air bladder 510. The bandage body 100 has a first layer 110 and a second layer 130, with the mounting surface 101 being the side of the first layer 110 remote from the second layer 130. An installation cavity is formed between the first layer 110 and the second layer 130, which corresponds to the callus region 211 formed by the release ring 210. The air bag 510 is installed in the installation cavity, and the bandage body 100 in the callus area 211 can be correspondingly deformed through the deformation of the air bag 510. When the smart bandage is fixed on the body of a pet, the part of the bandage body 100 corresponding to the callus area 211 can be close to or far away from the body of the pet through the deformation of the air bag 510. If it is desired that the bandage body 100 exert a certain pressure on the pet's body to apply the medication to the wound, the bladder 510 may be inflated such that the bladder 510 bulges to push the mounting surface 101 of the bandage body 100 toward the wound. When the medicine needs to be supplemented to the wound, the gas of the air bag 510 is discharged, so that the mounting surface 101 of the bandage body 100 is far away from the wound, a gap is formed between the wound and the mounting surface 101, and the medicine is filled in the gap.

Optionally, the intelligent bandage further comprises an air pump. The air pump is detachably matched with the air bag 510, and when air needs to be supplemented to the air bag 510, the air pump is communicated with the air bag 510 and pumps air into the air bag 510. The air pump is electrically connected to the control unit 400, and the control unit 400 further includes a memory in which preset data is stored. The processor retrieves preset data in the memory, and determines the amount of gas that needs to be pumped into the airbag 510 under the current condition, so as to control the air pump to supplement the corresponding amount of gas into the airbag 510.

Optionally, the smart bandage further comprises a wireless communication element 610. The wireless communication member 610 is electrically connected to the sensing portion 300, and the wireless communication member 610 is used for communicating with the alarm terminal. The alarm terminal can be a mobile phone or an alarm matched with the intelligent bandage. Under the condition that the alarm terminal is in communication connection with the wireless communication piece 610, the alarm terminal can monitor the data detected by the sensing part 300 through the invalid signal, and send an alarm when monitoring abnormality so that an operator can timely eliminate the abnormality.

Optionally, the smart bandage further comprises an electrostatic fabric patch 700. The electrostatic fiber patch 700 is also disposed on the mounting surface 101 of the bandage body 100. When the intelligent bandage is fixed on a pet body, the pet can remove hairs, and fluff can gradually grow around the wound in the wound healing process. Thereby static fibre subsides 700 can twine fine hair and strengthen the fixed of intelligent bandage and pet, reduce the probability that intelligent bandage drops. Particularly, in the wound healing process, the pet can feel itch around the wound, and when the pet rubs to the wound, the friction of the intelligent bandage relative to the wound can be reduced due to the good combination of the electrostatic fiber patch 700 and the fluff, so that the probability of the wound being damaged again is reduced. The electrostatic fiber patch 700 includes a plurality of fibers 710, the fibers 710 having an initial state and an electrostatic state. In the initial state, the fibers 710 are soft and hook-shaped, and can wrap hair, so that the electrostatic fibrous patch 700 can be well attached to the skin. After the electrostatic fiber patch 700 is replenished with static electricity, the fibers 710 enter an electrostatic state. In the electrostatic state, the fibers 710 are linear, and at this time, the hooking of the fibers 710 and the fluff is easily released, so that the electrostatic fibrous patch 700 is easily removed from the pet skin.

Optionally, bandage body 100 also has an anti-licking surface opposite mounting surface 101, which is coated with an odorous substance. The anti-licking face is provided with odor substances corresponding to the pet type, such as odor substances with citrus odor can be added to the intelligent bandage for cats and dogs, and odor substances with pepper odor can be added to the intelligent bandage for rabbits. Lick the intelligent bandage through avoiding the pet, can reduce the probability that the intelligent bandage drops, also can avoid the pet to make the friction of intelligent bandage and wound increase through licking the intelligent bandage, lead to the injury aggravate.

The intelligent bandage can protect a wound area through the bandage body 100, the release ring 210 can add medicines to the wound under the condition that the bandage body 100 is not uncovered, the wound with a long recovery period can be dealt with, and secondary damage to the wound caused by uncovering the bandage body 100 can be avoided. When the processor is in communication connection with the pressure sensor 310 and the PH sensor 330, the sensing part 300 and the control part 400 are matched to detect the wound so as to master the timing of adding the medicine into the release ring 210, and monitor and control the pressure when adding the medicine so as to uniformly diffuse the medicine into the wound area as much as possible. The frequency of replacing the bandage is reduced in the pet wound healing process, and the wound healing speed is accelerated.

The above description is only an embodiment of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions within the technical scope of the present disclosure should be covered by the disclosure of the present application.

Claims (10)

1. An intelligent bandage, comprising:

a bandage body having a mounting surface;

the medicine feeding part comprises a release ring, the release ring is arranged on the mounting surface and comprises a ring body, the ring body forms a wound healing area, the wound healing area is used for corresponding to a wound, a medicine storage cavity is formed in the ring body and used for storing medicines, one side of the medicine storage cavity, close to the wound healing area, is provided with a release through hole, and the release through hole is communicated with the wound healing area and the medicine storage cavity;

the pressure sensor and the PH sensor are arranged in the wound healing area, the pressure sensor is used for sensing the pressure of the wound, and the PH sensor is used for sensing the PH value of the wound;

and the control part comprises a processor, and the processor can be in communication connection with the pressure sensor and the PH sensor so as to receive and process the measurement data communicated by the pressure sensor and the PH sensor.

2. The smart bandage of claim 1 wherein said sensing portion includes a first connector, said first connector being electrically connected to said pressure sensor and said PH sensor, said first connector being connected to said bandage body;

the control part is provided with a second connector, the second connector with treater electric connection, the second connector be used for with first connector butt joint, in order to realize the treater with pressure sensor with the communication of PH sensor is connected.

3. The intelligent bandage of claim 1 wherein said intelligent bandage further comprises an air bladder and an air pump;

the bandage body is also provided with an installation cavity corresponding to the callus area, and the air bag is arranged in the installation cavity;

the air pump is detachably connected with the air bag and used for supplying air to the air bag to control the deformation of the air bag.

4. The intelligent bandage of claim 3 wherein said control portion is electrically connected to said air pump, said control portion further comprising a control panel comprising control buttons for controlling said air pump.

5. The intelligent bandage of claim 1 wherein said applicator portion further comprises an applicator channel, said applicator channel communicating with said release ring, an end of said applicator channel distal from said release ring being provided with a removable end cap.

6. The intelligent bandage of claim 5 wherein said applicator portion further comprises a pusher;

the pushing piece comprises a rod body and a deformation head, the deformation head is fixed at one end of the rod body, and the deformation head can be inserted into the medicine feeding channel to push the medicine;

the medicine feeding channel is provided with a transparent window for observing the position of the deformation head, and volume scales are arranged at the transparent window.

7. The smart bandage of claim 1 wherein said release ring further includes a valve secured to said release through hole with said ring body, said valve for controlling the passage of said medication through said release through hole.

8. The intelligent bandage of claim 1 further comprising a wireless communication element;

the wireless communication piece is electrically connected with the sensing part and is used for being in communication connection with the alarm terminal.

9. The smart bandage of claim 1 wherein said smart bandage further comprises an electrostatic fabric patch;

the electrostatic fiber paste is fixedly arranged on the mounting surface and comprises a plurality of fibers, and the fibers have an initial state and an electrostatic state;

in the initial state, the fibers are in a hook shape and can be wound with hair;

in the electrostatic state, the fibers are linear.

10. The smart bandage of claim 1 wherein said bandage body further has an anti-licking surface opposite said mounting surface, said anti-licking surface being coated with an odorous substance.

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