CN219250577U - Orthopedic device - Google Patents

Orthopedic device Download PDF

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Publication number
CN219250577U
CN219250577U CN202223239710.9U CN202223239710U CN219250577U CN 219250577 U CN219250577 U CN 219250577U CN 202223239710 U CN202223239710 U CN 202223239710U CN 219250577 U CN219250577 U CN 219250577U
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module
orthopedic
spine
low
layer
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CN202223239710.9U
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Inventor
张顺聪
廖楷濠
付艺
李永贤
莫国业
郭惠智
邓威
邵洋
覃秋力
李海山
林跃玮
詹晨光
刘腾
古国宁
唐永超
袁凯
李婧斓
马延怀
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Guangzhou University of Traditional Chinese Medicine
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Guangzhou University of Traditional Chinese Medicine
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A50/00TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE in human health protection, e.g. against extreme weather
    • Y02A50/30Against vector-borne diseases, e.g. mosquito-borne, fly-borne, tick-borne or waterborne diseases whose impact is exacerbated by climate change

Abstract

The present utility model relates to the technical field of medical devices, and more particularly to an orthopedic device. An orthopedic device, comprising a spinal orthopedic module: the spine orthopedic module is a spine orthopedic brace manufactured by 3D printing; and the intelligent detection module is: monitoring the pressure and temperature conditions of the patient wearing the spinal orthopedic brace; an infrared thermal therapy module: the far infrared ray is released to carry out magnetic therapy on the patient after the voltage is applied; an acupuncture point stimulation module: the acupoint stimulation module applies low-frequency current and low-frequency vibration stimulation to a specific acupoint; the intelligent detection module, the infrared thermal therapy module and the acupoint stimulation module are all arranged on the spine correction module; the spine orthopedic brace is convenient for patients to wear by adopting 3D printing; and through the comprehensive effect of the modules, the orthopedic device is convenient for detecting the pressure data and the temperature data of the patient wearing the spinal orthopedic brace, stimulating the acupoints and enhancing the treatment effect.

Description

Orthopedic device
Technical Field
The present utility model relates to the technical field of medical devices, and more particularly to an orthopedic device.
Background
Orthopedic braces, devices used in orthopedic surgery to prevent and correct deformities of the trunk or limbs. Most of the materials are made of leather, steel bars or plastics. Such as a lower limb support, a steel wire vest, a hand function support, an elastic traction support and the like. Is commonly used for sequelae of poliomyelitis, spinal deformity, nerve injury, and the like.
As disclosed in chinese utility model CN109758284a, the spinal correction brace comprises a left wrapping portion and a right wrapping portion, wherein a first slot is provided on a rear side edge of the left wrapping portion, a first plug is provided on a rear side edge of the right wrapping portion, the first slot is connected with the first plug in one-to-one correspondence, and the left wrapping portion and the right wrapping portion are both printed by a 3D printing process. The chinese utility model CN109758284a is only a fixed part, and the corrective effect is general.
Disclosure of Invention
Based on this, it is an object of the present utility model to provide an orthopedic device that can detect pressure data as well as temperature data of a patient wearing an orthopedic brace, enhancing the therapeutic effect.
The technical scheme of the utility model is as follows: an orthopedic device, comprising
Spinal column orthopedic module: the spine orthopedic module is a spine orthopedic brace manufactured by 3D printing;
and the intelligent detection module is: monitoring the pressure and temperature conditions of the patient wearing the spinal orthopedic brace;
an infrared thermal therapy module: the far infrared ray is released to carry out magnetic therapy on the patient after the voltage is applied;
an acupuncture point stimulation module: the acupoint stimulation module applies low-frequency current and low-frequency vibration stimulation to a specific acupoint;
the intelligent detection module, the infrared thermal therapy module and the acupoint stimulation module are all arranged on the spine correction module;
in the utility model, the spine orthopedic brace adopts 3D printing, is convenient to manufacture and is convenient for patients to wear; and through the comprehensive effect of the modules, the orthopedic device is convenient for detecting the pressure data and the temperature data of the patient wearing the spinal orthopedic brace, stimulating the acupoints and enhancing the treatment effect.
Further preferably, the spine orthopedic brace comprises a wrapping part, a left elastic lace and a right elastic lace, wherein a plurality of rectangular holes are formed in the rear side edge of the wrapping part, the left elastic lace and the right elastic lace are penetrated out of the rectangular holes, and the spine orthopedic brace further comprises a fixing piece, and the left elastic lace corresponds to the right elastic lace and is fixedly connected through the fixing piece.
Further preferably, the inner side of the wrapping part is provided with an air sac thoracic vertebra pad at a local part protruding from the lateral bend of the patient. The fitting degree of the brace and the back curve of the human body can be further improved, and pressure is applied to local parts.
Further preferably, the inner whole layer of the wrapping part is provided with an inner liner layer, and the inner liner layer can reduce friction and compression force of the wrapping part on the body.
Further preferably, the intelligent detection module comprises a pressure sensor, a temperature sensor, a Bluetooth transmitter, a display, a power supply and a reminding device;
the intelligent detection module further comprises a processor, the processor is used for collecting and processing data of the pressure sensor and the temperature sensor, recording wearing time, transmitting the data to the intelligent mobile phone through Bluetooth communication and completing logic processing and reminding, and meanwhile activating a reminding device to monitor the force application of the support in real time so as to ensure the correction effect of the support in a normal force application range;
the pressure sensor, the temperature sensor, the Bluetooth emitter, the display and the reminding device are all connected with a power supply;
at least one pressure sensor is arranged on the inner liner along the two sides of the spine and the two rib sides;
the lining layer is provided with at least one temperature sensor at a position where the back is tightly attached to the trunk of a patient;
the display, the Bluetooth transmitter, the reminding device and the power supply are all arranged on the wrapping part.
Further preferably, the display is a touch screen operated display, the reminding device is an LED lamp, and the power supply is a chargeable and detachable small lithium battery.
Further preferably, the infrared thermal therapy module is an infrared thermal magnetic assembly adhered to the inner liner, the infrared thermal magnetic assembly comprises a first antibacterial cloth, a first PE substrate layer, a nano graphene layer, a second PE substrate layer, a permanent magnet layer and a second antibacterial cloth which are sequentially connected, and the infrared thermal magnetic assembly further comprises a USB socket connected with a power supply.
The nano graphene layer can emit 8-15 micrometers far infrared waves after voltage is applied; the permanent magnetic layer comprises a plurality of small permanent magnetic sheets distributed in a matrix.
Further preferably, the acupoint stimulation module is arranged on the wrapping part, and the acupoint stimulation module comprises a low-frequency electric stimulator and a low-frequency vibrator, and the low-frequency electric stimulator and the low-frequency vibrator are in an integrated structure. The wrapping part is provided with a low-frequency electric stimulator and a small-sized low-frequency vibrator at specific acupoints (such as spleen acupoints and kidney acupoints), and the power of the low-frequency electric stimulator and the small-sized low-frequency vibrator is controlled by a circuit, and continuous low-frequency current and low-frequency vibration stimulation are applied to the specific acupoints, so that the treatment effect is enhanced.
Compared with the prior art, the beneficial effects are that: the spine orthopedic brace adopts 3D printing, is convenient to manufacture and is convenient for patients to wear; and through the comprehensive effect of the modules, the orthopedic device is convenient for detecting the pressure data and the temperature data of the patient wearing the spinal orthopedic brace, stimulating the acupoints and enhancing the treatment effect.
The main body of the spine orthopedic brace is manufactured by adopting a 3D printing technology, and is fully attached to the trunk of a patient, so that the orthopedic effect of the brace is exerted to the greatest extent; and the comfort level of the patient is further improved by improving the wrapping property of the body.
For a better understanding and implementation, the present utility model is described in detail below with reference to the drawings.
Drawings
Fig. 1 is a schematic diagram of the overall structure of the present utility model.
Fig. 2 is a schematic view of the structure of the inner liner of the present utility model.
FIG. 3 is a schematic diagram of the positions of the pressure sensor and the temperature sensor according to the present utility model.
Fig. 4 is a schematic view of an infrared hyperthermia module of the utility model.
Detailed Description
In order that the objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. Several embodiments of the utility model are presented in the figures. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.
In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances. The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature.
In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature. The terms "vertical," "horizontal," "left," "right," "up," "down," and the like are used for descriptive purposes only and are not to indicate or imply that the devices or elements being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model.
The present utility model will be described in detail below with reference to the accompanying drawings and examples.
1-4, an orthopedic device, comprising
Spinal column orthopedic module: the spine correction module externally applies pressure to the protruding position of the body by utilizing a three-point or four-point correction rule through a physical method, and transmits force to the spine through the leverage of ribs and the thoracic cage so as to correct scoliosis or vertebral body rotation and correct biomechanical unbalance on two sides of the spine; the spine orthopedic module is a spine orthopedic brace manufactured by 3D printing;
and the intelligent detection module is: the method comprises the steps of monitoring the pressure and temperature conditions of a patient wearing the spinal column orthopedic brace in real time, recording wearing time, analyzing data by a processor and reminding;
intelligent networking module: the data are transmitted to the mobile phone end in real time through Bluetooth connection, and the acquired data are analyzed, so that a patient or a guardian is reminded of adjusting the data, reminding and advice can be given to the incorrect posture of the patient, and meanwhile the wearing time is recorded;
an infrared thermal therapy module: the nanometer graphene technology is adopted, far infrared rays are released after voltage is applied by utilizing the thermoelectric effect, resonance is generated after the far infrared rays are contacted with a human body, and heat is generated through Brownian motion and absorbed by the human body; meanwhile, the built-in permanent magnetic layer locally forms a magnetic field to carry out magnetic therapy on a patient;
an acupuncture point stimulation module: the acupoint stimulation module applies low-frequency current and low-frequency vibration stimulation to a specific acupoint;
the intelligent detection module, the intelligent networking module, the infrared thermal therapy module and the acupoint stimulation module are all arranged on the spine orthopedic module.
In this embodiment, the spinal orthopedic module is specifically as follows:
the main body of the spine orthopedic brace is manufactured by adopting a 3D printing technology, and is fully attached to the trunk of a patient, so that the orthopedic effect of the brace is exerted to the greatest extent; and the comfort level of the patient is further improved by improving the wrapping property of the body. The main body of the spinal column orthopedic brace externally applies physical pressure to the protruding position of the body by utilizing the principle of three-point mechanics: the force applied by the brace is transferred to the spine through the leverage taking the rib and the thoracotomy as supporting points and the spine as a stress point, so that the stability of the whole shape of the spine is maintained, and the further aggravation of scoliosis is prevented.
Specifically, the spine orthopedic brace comprises a wrapping part 1, a left elastic lacing 5 and a right elastic lacing 8, wherein a plurality of rectangular holes 9 are formed in the rear side edge of the wrapping part 1, the left elastic lacing 5 and the right elastic lacing 8 penetrate out of the rectangular holes 9, and the spine orthopedic brace further comprises a fixing piece 10, wherein the left elastic lacing 5 corresponds to the right elastic lacing 8 and is fixedly connected through the fixing piece 10.
In this embodiment, parcel part 1 is printed by 3D printing technology and forms, guarantees that the orthopedic brace of back backbone can laminate the truck completely after dressed, and the position of applying correction power is accurate, and the patient dresses comfortablely, can not appear pressure gathering, correct that pressure is too big and lead to pressure point and pain point, also can not appear not become flexible and lead to correcting pressure too little and lead to correction effect reduction.
The air sac thoracic vertebra pad 12 is arranged at the part of the inner side of the wrapping part 1, which is protruded at the lateral bending of the patient, so that the fitting degree of the brace and the back curve of the human body can be further improved, and the pressure is applied to the part. The whole inner layer of the wrapping portion 1 is provided with an inner liner 11 which reduces friction and compression force of the wrapping portion to the body.
On the other hand, the air sac thoracic vertebra cushion 12 with larger elasticity and moderate thickness is added at the local position where the scoliosis occurs, so that the fitting degree of the brace and the back curve of the human body is further improved, pressure is applied to the local part, and the position where the scoliosis occurs is forced to not progress any more and gradually recover the normal curvature; the inner layer of the orthopedic brace is provided with the inner liner layer 11, which can play a role in transition and reduce the friction and the pressing force of the main body to the body. Therefore, scoliosis or vertebral body rotation can be corrected, biomechanical unbalance on two sides of the spine is corrected, the spine is prevented from being further bent sideways, and the degrees of the Cobb angle are forced to gradually return to the normal range.
In this embodiment, the intelligent detection module specifically includes:
the intelligent detection module comprises a pressure sensor 13, a temperature sensor 14, a Bluetooth transmitter 7, a display 2, a power supply 4 and a reminding device;
the intelligent detection module further comprises a processor, the processor is used for collecting and processing data of the pressure sensor 13 and the temperature sensor 14, recording wearing time, transmitting the data to the intelligent mobile phone through Bluetooth communication and completing logic processing and reminding, and activating a reminding device at the same time, monitoring the force application of the support in real time, and guaranteeing the correction effect of the support in a normal force application range;
the pressure sensor 13, the temperature sensor 14, the Bluetooth transmitter 7, the display 2 and the reminding device are all connected with the power supply 4;
at least one pressure sensor 13 is arranged on the inner liner 11 along the two sides of the spine and the two rib sides;
the inner liner 11 is provided with at least one temperature sensor 14 at a position where the back is tightly attached to the trunk of the patient;
the display 2, the Bluetooth transmitter 7, the reminding device and the power supply 4 are all arranged on the wrapping part 1.
In this embodiment, the pressure sensor 13, the temperature sensor 14, the processor, the bluetooth transmitter 7, the display 2, the power supply 4 and the reminding device are all integrally connected and are arranged on the oblique side of the elastic fixing belt of the spine orthopedic brace.
The lining layer is provided with at least one pressure sensor 13 along both sides of the spine and both rib sides (the specific number is determined according to the lateral bending degree of the patient, if the lateral bending degree is larger, a pressure sensor is needed to be additionally arranged on the lateral bending part), the pressure applied on the lining layer is detected in real time, and at least one temperature sensor 14 is arranged at a position where the back is tightly attached to the trunk of the patient so as to monitor the back temperature. As in fig. 3, the arrow indicates the force direction.
Specifically, the display 2 is a touch screen operation display, the reminding device is an LED lamp, and the power supply 4 is a chargeable and detachable small lithium battery.
In this embodiment, the display 2 can be operated by a touch screen, and the data information transmitted by the processor can be converted into display information, so as to display the pressure and temperature values, and adjust the low-frequency electrical stimulation and the output power of the vibrator.
The reminding device is an LED lamp, and can remind a patient and parents to adjust through flashing when the pressure is not proper.
The power supply 4 is a chargeable and detachable small lithium battery, has low self-discharge rate and smooth discharge voltage, can be charged for the second time, has high repeated utilization rate, is safe and stable, and provides energy for the device.
After the pressure sensor 13 collects pressure signals through the small signal amplifier, the contact pin connector converts the pressure signals into corresponding pressure analog electric signals and transmits the pressure analog electric signals;
the temperature sensor 14 is made of a thermosensitive composite material, and can acquire the temperature data from a temperature source and convert the temperature data into corresponding temperature analog electric signals;
the downloading port is used for receiving the pressure analog electric signal and the temperature analog electric signal by the pin connector assembly and then converting the pressure analog electric signal and the temperature analog electric signal into the pressure digital electric signal and the temperature digital electric signal; in addition, the LED lamp and the resistor connected at the download port determine whether the pressure analog electric signal and the temperature analog electric signal emit light according to the set current size range when the pressure analog electric signal and the temperature analog electric signal pass through, and the LED lamp tube emits light when the current reaches a certain value enough to break down the resistor, so that patients and family members of the patients are reminded that the pressure or the temperature exceeds the normal range.
The intelligent networking module is specifically as follows:
the intelligent networking module transmits data of the pressure sensor 13 and the temperature sensor 14 to the mobile phone end in real time through the Bluetooth transmitter 7.
In the embodiment, the intelligent networking module is based on a Bluetooth transmitter 7 and an online intelligent analysis system, and transmits data of baroreceptors and temperature receptors to a mobile phone end in real time through a Bluetooth connecting device and then uploads the data to a developed applet; after the data are uploaded, analyzing the pressure and temperature data through an intelligent system, judging whether the current wearing pressure of the user meets the standard or not, and reminding the user to adjust; the guardian and the doctor can know the wearing condition of the patient in real time through the network, so that the patient is prevented from loosening or removing the support, and meanwhile, the doctor can remotely give medical advice.
The pressure digital electric signal and the temperature digital electric signal generated by the intelligent detection module are transmitted to the mobile phone end by the Bluetooth transmitter 7 and then uploaded to the developed applet; after the data is uploaded, the intelligent system at the applet end analyzes the pressure and temperature data to judge whether the current wearing pressure of the user meets the standard or not, and then the user is reminded to adjust.
The infrared thermal therapy module is specifically as follows:
as shown in fig. 1-4, the infrared thermal therapy module is an infrared thermal magnetic assembly 15 adhered on the inner liner 11, the infrared thermal magnetic assembly 15 includes a first antibacterial cloth 101, a first PE substrate layer 102, a nano graphene layer 103, a second PE substrate layer 104, a permanent magnet layer 105, and a second antibacterial cloth 106, which are sequentially connected, the infrared thermal magnetic assembly 15 further includes a USB socket 107, and the USB socket 107 is connected with the power supply 4. The nano graphene layer 103 can emit 8-15 micrometers far infrared waves after voltage is applied; the permanent magnetic layer 105 comprises a plurality of small permanent magnetic sheets distributed in a matrix. The infrared thermo-magnetic assembly 15 is of a rectangular sheet-like structure.
In this embodiment, the infrared thermo-magnetic component 15 is disposed on the back side of the inner liner 11, and performs far infrared thermo-magnetic therapy on the back muscle;
the first antibacterial cloth 101 and the second antibacterial cloth 106 are non-woven fabrics layers, and the non-woven fabrics layers are used as skin contact layers, so that the skin-friendly antibacterial cloth has the advantages of ventilation, water resistance, environment friendliness, flexibility, no toxicity, no smell and the like, and can prevent skin allergy and other secondary injuries of skin allergy-prone patients during use.
The nano graphene layer 103 has extremely strong conductive and heat transfer capability, an electrode is added on the graphene film, and after voltage is applied to the graphene film, 8-15 micrometers far infrared waves can be emitted, stable heat is generated after the graphene film vibrates with human skin, and the temperature is maintained between 30 and 40 and is matched with the body temperature of a human body.
The upper layer and the lower layer of the nano graphene film are respectively stuck with an insulating layer, and a power supply is connected with the surface of the nano graphene film layer through a wire, so that heating can be stopped or started at any time; the thickness of the nano graphene film layer is very thin, and the nano graphene film layer must be pasted on the PE substrate layer to prevent uneven expansion of the nano graphene film layer, so that the heat is uniformly distributed.
The nano graphene layer 103 is connected with a USB socket 107, and connection, power supply and switch control can be realized through a USB wire and a battery;
the permanent magnetic layer 105 adopts a plurality of small-sized permanent magnetic sheets which are distributed on the heating cloth in a matrix form to form a local magnetic field to play a role in treatment; in addition, can also set up the magic and paste, the magic is pasted and is played and paste fixed action, above thermomagnetic layer is detachable device, pastes in the inner liner through the magic.
After the function is started through the switch, infrared thermal magnetic therapy is carried out on local channels and collaterals and acupoints, so that muscle spasm is relieved, swelling and pain are relieved, local blood supply is improved, discomfort of wearing the brace for a long time is reduced, and user experience is improved.
The acupoint stimulation module is specifically as follows:
as shown in fig. 1-2, an acupoint stimulating module 6 is disposed on the wrapping portion 1, and the acupoint stimulating module includes a low-frequency electric stimulator and a low-frequency vibrator, where 3 represents an electric wire.
In the embodiment, the main body of the support is provided with a low-frequency electric stimulator at specific acupoints (such as spleen acupoints and kidney acupoints), and a small low-frequency vibrator is arranged, the power of the low-frequency electric stimulator and the small low-frequency vibrator are controlled by a circuit, and continuous low-frequency current and low-frequency vibration stimulation are applied to the specific acupoints, so that the treatment effect is enhanced; the low-frequency electric stimulator (or the conductive cloth) and the vibrator are designed integrally, and current stimulation is applied while vibrating; the vibrator surface is designed to be a smooth curved surface, so that damage or discomfort to the skin is avoided; the frequency of the vibrator and the related parameters of the electric stimulation are regulated by the control circuit, so that the stimulation can be kept in a comfortable range, and the curative effect is improved.
The wrapping part 1 is provided with a low-frequency electric stimulator and a small-sized low-frequency vibrator at specific acupoints (such as spleen acupoints and kidney acupoints), and the power of the low-frequency electric stimulator and the small-sized low-frequency vibrator is controlled by a circuit, and continuous low-frequency current and low-frequency vibration stimulation are applied to the specific acupoints, so that the treatment effect is enhanced. The surface of the small vibrator is designed to be a smooth curved surface, so that damage or discomfort to the skin is avoided; the related parameters of the low-frequency electric stimulator and the small-sized low-frequency vibrator are regulated by the control circuit, so that the stimulation can be kept in a comfortable range, and the curative effect is improved.
On the other hand, in order to make the function of the orthopedic device wider, a temperature sensor, a humidity sensor, a voice acquisition module and an output control module (intelligent chip) can be added into the brace, and a touch display screen is arranged on the brace.
The intelligent temperature control function, the temperature will be displayed on the screen, is convenient for look over and has more actual need temperature regulation. The control module can realize timing function and temperature control function, and when the temperature exceeds a set value, the thermal magnetic therapy is automatically stopped, and a sound is emitted to light the lamp for vibration reminding;
after the humidity sensor is added in the same way, a prompt can be sent out after the humidity exceeds a set value, so that the warming and sweating are prevented;
the voice sensor control chip module is arranged and comprises a voice acquisition module, a voice recognition matching module, an output control module and a battery;
the modules are connected by adopting fpc flat cables, and the overall arrangement is miniaturized, so that the weight is light;
when in use, a wearer can execute the command by only speaking the specified password and controlling the chip module by the voice sensor;
the voice acquisition module comprises a microphone, and the microphone is arranged at a position close to the sounding part of the front chest, so that the collection of sound is facilitated;
the voice sensor control chip module is arranged in the mounting position of the support, the mounting position is provided with a shell which is connected through clamping, and the voice sensor control chip module is waterproof sealed in the mounting position through ip68 waterproof technology treatment, so that the interference of factors such as sweat and the like is prevented;
in the initial state, the voice sensor control chip module is in a closed state;
when the wearer speaks the fixed password, the voice acquisition module collects the voice password, the voice sensor control chip module is in an open state, after matching is successful, the output control module sends out an instruction to execute a task, and the voice sensor control chip module is in a closed state again.
The utility model has the following technical effects: the spine orthopedic brace adopts 3D printing, is convenient to manufacture and is convenient for patients to wear; through the comprehensive effect of the modules, the orthopedic device is convenient for detecting the pressure data and the temperature data of the spine orthopedic brace worn by a patient and reminding the patient through the reminding device, and is convenient for a guardian to remotely grasp the real-time detection data; the user experience can be improved, acupuncture points are stimulated, and the treatment effect is enhanced.
The main body of the spine orthopedic brace is manufactured by adopting a 3D printing technology, and is fully attached to the trunk of a patient, so that the orthopedic effect of the brace is exerted to the greatest extent; and the comfort level of the patient is further improved by improving the wrapping property of the body.
It is to be understood that the above examples of the present utility model are provided by way of illustration only and not by way of limitation of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (9)

1. An orthopedic device, comprising
Spinal column orthopedic module: the spine orthopedic module is a spine orthopedic brace manufactured by 3D printing;
and the intelligent detection module is: monitoring the pressure and temperature conditions of the patient wearing the spinal orthopedic brace;
an infrared thermal therapy module: the far infrared ray is released to carry out magnetic therapy on the patient after the voltage is applied;
an acupuncture point stimulation module: the acupoint stimulation module applies low-frequency current and low-frequency vibration stimulation to the acupoint;
the intelligent detection module, the infrared thermal therapy module and the acupoint stimulation module are all arranged on the spine correction module;
the spine orthopedic brace comprises a wrapping part (1), a left elastic lace (5) and a right elastic lace (8), wherein a plurality of rectangular holes (9) are formed in the rear side edge of the wrapping part (1), the left elastic lace (5) and the right elastic lace (8) penetrate out of the rectangular holes (9), the spine orthopedic brace further comprises a fixing piece (10), and the left elastic lace (5) corresponds to the right elastic lace (8) and is fixedly connected through the fixing piece (10).
2. An orthopedic device according to claim 1, characterized in that: the inner side of the wrapping part (1) is provided with an air sac thoracic vertebra pad (12) at a local part protruding from the lateral bend of the patient.
3. An orthopedic device according to claim 2, characterized in that: the whole inner layer of the wrapping part (1) is provided with an inner liner layer (11).
4. An orthopedic device according to claim 3, characterized in that: the intelligent detection module comprises a pressure sensor (13), a temperature sensor (14), a Bluetooth transmitter (7), a display (2), a power supply (4) and a reminding device;
the pressure sensor (13), the temperature sensor (14), the Bluetooth emitter (7), the display (2) and the reminding device are all connected with the power supply (4);
the lining layer (11) is provided with at least one pressure sensor (13) along the two sides of the spine and the two rib sides;
the lining layer (11) is provided with at least one temperature sensor (14) at a position where the back is tightly attached to the trunk of a patient;
the display (2), the Bluetooth transmitter (7), the reminding device and the power supply (4) are all arranged on the wrapping part (1).
5. The orthopedic device according to claim 4, wherein: the display (2) is a display capable of being operated by a touch screen, the reminding device is an LED lamp, and the power supply (4) is a chargeable and detachable small lithium battery.
6. An orthopedic device according to claim 5, characterized in that: the infrared thermal therapy module is an infrared thermal magnetic assembly (15) adhered to the inner liner layer (11), the infrared thermal magnetic assembly (15) comprises a first antibacterial cloth (101), a first PE base material layer (102), a nano graphene layer (103), a second PE base material layer (104), a permanent magnet layer (105) and a second antibacterial cloth (106) which are sequentially connected, the infrared thermal magnetic assembly (15) further comprises a USB socket (107), and the USB socket (107) is connected with a power supply (4).
7. The orthopedic device according to claim 6, wherein: the permanent magnet layer (105) comprises a plurality of small permanent magnet pieces distributed in a matrix.
8. The orthopedic device according to claim 7, wherein: the infrared thermo-magnetic assembly (15) is of a rectangular sheet structure.
9. An orthopedic device according to any one of claims 1 to 8, characterized in that: the acupoint stimulation module is arranged on the wrapping part (1), and comprises a low-frequency electric stimulator and a low-frequency vibrator, wherein the low-frequency electric stimulator and the low-frequency vibrator are of an integrated structure.
CN202223239710.9U 2022-11-30 2022-11-30 Orthopedic device Active CN219250577U (en)

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