CN209285861U - Dynamic scoliosis orthoses - Google Patents

Abstract

The utility model relates to medical instruments fields, provide a kind of dynamic scoliosis orthoses, output signal including multiple orthoses ontologies, connecting component, multiple pressure sensors, and for receiving each pressure sensor and adjust each orthoses ontology optical force regulator；When scoliosis patient wears above-mentioned dynamic scoliosis orthoses, start regulator, pressure sensor can acquire the pressure value of multiple positions between orthoses ontology and human body, and output signal is sent to regulator, to be converted in real time each pressure value after the above-mentioned output signal of regulator reception by preset algorithm, and result and the pressure-plotting model of the normal population of preset non-spinal lateral bending are compared, judge the measured scoliosis type and degree, and then adjust the optical force of orthoses ontology predetermined position, the structure realizes the automatic adjustment of optical force, with stronger specific aim, it is easy to operate.

Description

Dynamic scoliosis orthoses

Technical field

The utility model relates to medical instruments fields, specifically, being to be related to a kind of dynamic scoliosis orthoses.

Background technique

Scoliosis refers to that one or several segments of backbone are deviateed midline of body on coronal-plane and are bent to side, is formed One with cambered deformity of spine, usually also with it is spined rotation and sagittal plane on processus aboralis or it is preceding prominent increase or decrease, The exception of the ligament and muscle by flat, pelvis rotation inclination deformity and vertebra is not waited there are also rib cage or so height simultaneously；Backbone side Curved deformity can seriously affect patient's appearance, the function of internal organ, and patient with severe symptoms understands threat to life.

Existing scoliosis orthopedic device, be mostly it is mechanical simple orthopedic, on former and later two longitudinally fixed framves, even It is connected to the rigid plastic sheet almost the same with organization of human body, if orthopedic amount is too small, almost without orthopedic effect, if orthopedic amount mistake Greatly, patient can feel very uncomfortable, or even damage；Meanwhile existing orthoses do not have mostly during wearing according to Conditions of patients dynamic adjusts the function of correcting value, and can not carry out targetedly optical force tune according to the figure or the state of an illness of wearer Section, when wearing, need professional person's to manually adjust and accompany nurse mostly, and adaptive ability is poor, inconvenient for use.

Utility model content

The purpose of this utility model is to provide a kind of dynamic scoliosis orthoses, it is intended to solve backbone in the prior art Lateral bending orthoses because structural principle it is simple caused by correct specific aim it is poor, corrective force is unable to adjust automatically the technical issues of.

In order to achieve the above purposes, the technical solution adopted by the utility model is: provides a kind of dynamic scoliosis orthoses, Connecting component, setting including multiple orthoses ontologies, for connecting each orthoses ontology is in the orthoses ontology And multiple pressure sensors for being supported with human body, and output signal and basis for receiving each pressure sensor Each output signal adjusts the regulator of the optical force of each orthoses ontology.

Further, the regulator includes for receiving and handling the controller of each output signal, for controlling Make switch block, driving unit and the pressure being arranged in multiple orthoses inner body walls of the regulator switch Pad, the driving unit, the switch block, the pressure pad and multiple pressure sensors respectively with the control Device electrical connection.

Further, multiple orthoses ontologies are four, are divided into the orthopedic ontology in two regio pectoris and the area Liang Geyaofu is rectified Shape ontology, the periphery of two orthopedic ontologies in regio pectoris are each formed with chest evacuation notch；The connecting component includes that back connects Connection member, middle part connecting elements and the connection lock that human body front is set and is detachably connected.

Further, two orthopedic ontologies in regio pectoris are all provided with flexible protecting band in chest evacuation indentation, there.

Further, the pressure pad is divided into the upper pressure pad being arranged in the orthopedic inner body wall in the regio pectoris and setting exists Lower pressure pad in the orthopedic inner body wall in the area Yao Fu.

Further, the back connecting elements, the middle part connecting elements opposite end be rotatably connected to On the orthoses ontology；The connection lock includes bolt and lock ring corresponding with the bolt, one end of the bolt It is rotatably connected on the orthoses ontology, the other end is connect with the lock ring.

Further, anti-skid chequer is formed on the inner wall of multiple orthoses ontologies.

Further, it is anti-to be divided into the longitudinal direction for preventing the dynamic scoliosis orthoses from slipping up and down for the anti-skid chequer Sliding line and the lateral anti-skid chequer for preventing the dynamic scoliosis orthoses from circumferentially breakking away in human body surface.

Further, it is equipped on multiple orthoses ontologies for ventilative perforation.

Further, multiple orthoses ontologies are high molecular material orthoses ontology.

The beneficial effect of dynamic scoliosis orthoses provided by the utility model is: being compared with the prior art, this reality With a kind of dynamic scoliosis orthoses of novel proposition, including multiple orthoses ontologies, connecting component, multiple pressure sensings Device and regulator；The working principle of the structure are as follows: when the above-mentioned dynamic scoliosis of scoliosis patient completion wearing is orthopedic After device, starting regulator, multiple pressure sensors acquire the pressure value of multiple positions between orthoses ontology and human body simultaneously, Each output signal is then sent to regulator, regulator will be real-time by preset algorithm after receiving above-mentioned output signal Convert each pressure value, then compares result and the pressure-plotting model of the normal population of preset non-spinal lateral bending, sentences Disconnected the measured scoliosis type and degree, and then the optical force of orthoses ontology predetermined position is adjusted, it realizes orthopedic The automatic adjustment of power has stronger specific aim, and easy to operate.

Detailed description of the invention

It, below will be to embodiment or the prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing needed in description is briefly described, it should be apparent that, the accompanying drawings in the following description is only that this is practical new Some embodiments of type for those of ordinary skill in the art without any creative labor, can be with It obtains other drawings based on these drawings.

Fig. 1 is the schematic elevation view of dynamic scoliosis orthoses provided by the embodiment of the utility model；

Fig. 2 is the schematic rear view of dynamic scoliosis orthoses provided by the embodiment of the utility model；

Fig. 3 is the structural schematic diagram of regulator provided by the embodiment of the utility model.

Wherein, each appended drawing reference in figure:

1: orthoses ontology 2: connecting component

3: pressure sensor 4: regulator

45: pressure pad 41: controller

43: driving unit 42: switch block

The orthopedic ontology 11 in the area 12: Yao Fu: the orthopedic ontology in regio pectoris

21: back connecting elements 100: human body

23: connection lock 110: chest avoids notch

451: upper pressure pad 22: middle part connecting elements

452: lower pressure pad 111: flexible protecting band

231: bolt 232: lock ring

10: perforation

Specific embodiment

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model Limitation.

It is to be appreciated that term " length ", " width ", "upper", "lower", "front", "rear", "left", "right", "vertical", The orientation or positional relationship of the instructions such as "horizontal", "top", "bottom", "inner", "outside" is that orientation based on the figure or position are closed System, is merely for convenience of description of the present invention and simplification of the description, rather than the device or element of indication or suggestion meaning must have Specific orientation is constructed and operated in a specific orientation, therefore is not considered as limiting the invention.

It as shown in Figure 1 to Figure 3, is a preferred embodiment provided by the utility model.

A kind of dynamic scoliosis orthoses provided in this embodiment, including multiple orthoses ontologies 1, for connect it is each rectify The connecting component 2 of shape device ontology 1, the multiple pressure sensors 3 for being arranged on orthoses ontology 1 and being used to support with human body 100, And output signal for receiving each pressure sensor 3 and the optical force that each orthoses ontology 1 is adjusted according to each output signal Regulator 4, wherein multiple orthoses ontologies 1 are but are not limited to high molecular material orthoses ontology；In the present embodiment In, the working principle of the structure are as follows: firstly, scoliosis patient need to be worn the dynamic scoliosis orthoses by preset requirement, In the present embodiment, above-mentioned preset requirement be scoliosis patient need to adjust connecting component 2 to dynamic scoliosis orthoses with Human body 100 is substantially completely bonded and patient need to feel apparent tight feeling, at this point, starting regulator 4, multiple pressure sensings Device 3 acquires the pressure value of multiple positions between orthoses ontology 1 and human body 100 simultaneously, and sends it to as output signal Regulator 4, regulator 4 receive each pressure value that will convert in real time by preset algorithm after above-mentioned output signal and will then tie Fruit and the pressure-plotting model of the normal population of preset non-spinal lateral bending compare, and judge the measured scoliosis type And degree, and then the optical force of 1 predetermined position of orthoses ontology is adjusted, after adjusting, regulator 4 will be according to default journey Sequence work.

Specifically, the method that the pressure-plotting model in the present embodiment obtains is but is not limited to: to different building shape, difference The backbones normal population such as age, different sexes carries out big data sampling statistics.Firstly, wearing the dynamic scoliosis orthoses simultaneously Meet and be bonded completely with human body 100 and human body 100 need to feel the requirement of apparent tight feeling, starts the orthoses, pass through pressure Force snesor 3 measures the pressure value of multiple positions, by calculation methods such as genetic algorithms, excludes figure, age, gender etc. It is available to indicate the weighting parameters of normal population backbone radian after distracter, and then integrate each of the output of pressure sensor 3 Pressure value, obtains the pressure-plotting model that can indicate normal population backbone radian, which refers to and above-mentioned pressure The pressure distribution situation of the corresponding location point of 3 measurement point of force snesor；In this way, when scoliosis patient wears the dynamic spinal When lateral bending orthoses, the pressure value of above-mentioned multiple positions is exported to regulator 4 in pressure sensor 3, regulator 4 is It can judge where position pressure is higher, where position pressure is relatively low according to backbone normal population pressure-plotting model, and then judge The measured scoliosis type and degree, and the optical force of 1 predetermined position of orthoses ontology is adjusted according to this, predeterminated position needs It influences to learn according to actual spine and checks that prompt figure is set.

In conclusion the structure realizes the automatic adjustment of optical force, scoliosis patient is improved in spine correcting mistake Comfort in journey, meanwhile, there is relatively strong targetedly spine correcting structure the correction of dynamic scoliosis orthoses is imitated Fruit is more preferably, easy to operate, adapts to various age bracket patients and uses, the adjusting and nurse when wearing without professional person, adaptively Ability is stronger.

Further, as shown in figure 3, regulator 4 includes for receiving and handling the controller 41 of each output signal, use In switch block 42, driving unit 43 and the pressure being arranged on multiple 1 inner walls of orthoses ontology that control regulator 4 switchs Power pad 45, wherein driving unit 43, switch block 42, pressure pad 45 and multiple pressure sensors 3 respectively with controller 41 Electrical connection；It should be noted that the setting of pressure pad 45 should influence to learn according to actual spine checks that prompt figure is set, not It is limited to the position of the present embodiment attached drawing mark, it is preferable that pressure pad 45 is arranged in scoliosis most convex；Specifically, as in figure Shown in arrow, controller 41 is sent to after 3 output signal of pressure sensor, controller 41 receives and carries out calculation process, passes through Operation result and preset range are compared, to send corrective instruction to driving unit 43, driving unit 43 can control pressure pad 45 Pressure value, realize the automatic adjustment of the optical force of orthoses ontology 1, wherein the settable sensing device in the inside of pressure pad 45, when When the resistance value of sensor circuit or voltage value change in sensing device, it can accordingly change the pressure that pressure pad 45 is applied to human body 100 Force value, certainly, the working principle of pressure pad 45 can also be other modes, not limit uniquely herein.

In one embodiment of the utility model, also referring to Fig. 1 and Fig. 2, multiple orthoses ontologies 1 are four, It is divided into the orthopedic ontology 12 of the orthopedic ontology 11 in two regio pectoris and the area Liang Geyaofu, the periphery of the orthopedic ontology 11 in two regio pectoris is each formed with Chest avoids notch 110, and shape and 100 thoracic contours of human body are adapted；Connecting component 2 include back connecting elements 21, in Portion's connecting elements 22 and the connection lock 23 that 100 front of human body is arranged in and is detachably connected, which is convenient for scoliosis Patient wears off the orthoses.

Wherein, please continue to refer to Fig. 1 and Fig. 2, the orthopedic ontology 11 in two regio pectoris is equipped with soft at chest evacuation notch 110 Property protecting band 111, avoid orthopedic 11 edge of ontology in regio pectoris and chest contact position and generate biggish stress, cause chest periphery long-term It is extruded generation swelling, or interferes patient chest development, the material of the flexibility protecting band 111 does not limit uniquely herein.

In one embodiment of the utility model, pressure pad 45 divides upper on orthopedic 11 inner wall of ontology in regio pectoris to be arranged in Pressure pad 451 and the lower pressure pad 452 being arranged on orthopedic 12 inner wall of ontology in the area Yao Fu；Preferably, upper pressure pad 451, pushing Power pad 452 is in each side one of human body 100, as shown in Figures 1 and 2；According to " 3 mechanics " principle, control under two Pressure pad 452 applies opposite transverse pressure, after via controller 41 determines patient's lateral bending type, the upper pressure pad in control left and right two One of start-up operation in 451 realizes the correction of backbone to constitute 3 power supports；Certainly, it is pressed on another at this time Power pad 451 can back work, can not also work, not limit uniquely herein specifically.

Further, back connecting elements 21, middle part connecting elements 22 opposite end be rotatably connected to it is orthopedic On device ontology 1, enable the opposite of each orthoses ontology 1 of multiple orthoses ontologies 1 adjust automatically in patient's donning process Positional relationship, so that it be made to be bonded human body 100 as far as possible；Connection lock 23 includes bolt 231 and corresponding with bolt 231 Lock ring 232, one end of bolt 231 are rotatably connected on orthoses ontology 1, and the other end is connect with lock ring 232；By adjusting On the one hand the initial correction dynamics of orthoses ontology 1 is adjusted, so that patient is wearing in the relative position of bolt 231 and lock ring 232 Feel more comfortable after wearing orthoses；In addition, the structure makes orthoses can adapt to the patient of different building shape and the state of an illness, it is adaptive Should be able to power it is stronger.

In the present embodiment, it is formed with anti-skid chequer (not shown) on the inner wall of multiple orthoses ontologies 1, it is further, anti-skidding Line is divided into longitudinal anti-skid chequer (not shown) for preventing dynamic scoliosis orthoses from slipping up and down and is used for anti-dynamic ridge The lateral anti-skid chequer (not shown) that column lateral bending orthoses is circumferentially breakked away on 100 surface of human body；The structure not only ensure that orthopedic Device is more reliability and durability when using, meanwhile, need to only change orthoses ontology 1 interior wall construction can anti-skidding anti-rotation, avoid another Outer setting slip-proofing device, reduces processing cost, and structure is simple, it can be achieved that industrialized production.

Further, Fig. 1 and Fig. 2 is please referred to, is equipped on multiple orthoses ontologies 1 for ventilative perforation 10, preferably Ground, perforate 10 diameter be 1mm~2mm, setting position can be located at orthoses ontology 1 on, can also be in connecting component 2, specifically It does not limit uniquely herein.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (10)

1. a kind of dynamic scoliosis orthoses, it is characterised in that: including multiple orthoses ontologies, each described orthopedic for connecting The connecting component of device ontology, the multiple pressure sensors for being arranged on the orthoses ontology and being used to support with human body, and For receiving the output signal of each pressure sensor and adjusting each orthoses ontology according to each output signal The regulator of optical force.

2. dynamic scoliosis orthoses according to claim 1, it is characterised in that: the regulator includes for connecing Receive and handle the controller of each output signal, the switch block for controlling regulator switch, driving unit with And the pressure pad in multiple orthoses inner body walls, the driving unit, the switch block, the pressure pad are set And multiple pressure sensors are electrically connected with the controller respectively.

3. dynamic scoliosis orthoses according to claim 2, it is characterised in that: multiple orthoses ontologies are four It is a, it is divided into the orthopedic ontology in two regio pectoris and the orthopedic ontology in the area Liang Geyaofu, the periphery of two orthopedic ontologies in regio pectoris is respectively formed There is chest to avoid notch；The connecting component include back connecting elements, middle part connecting elements and setting human body front and The connection lock being detachably connected.

4. dynamic scoliosis orthoses according to claim 3, it is characterised in that: two orthopedic ontologies in regio pectoris in The chest evacuation indentation, there is all provided with flexible protecting band.

5. dynamic scoliosis orthoses according to claim 3, it is characterised in that: the pressure pad, which is divided into, to be arranged in institute The lower pressure pad stating the upper pressure pad in the orthopedic inner body wall in regio pectoris and being arranged in the orthopedic inner body wall in the area Yao Fu.

6. dynamic scoliosis orthoses according to claim 3, it is characterised in that: the back connecting elements, described The opposite end of middle part connecting elements is rotatably connected on the orthoses ontology；Connection lock include bolt and Lock ring corresponding with the bolt, one end of the bolt are rotatably connected on the orthoses ontology, the other end with The lock ring connection.

7. described in any item dynamic scoliosis orthoses according to claim 1~6, it is characterised in that: multiple described orthopedic Anti-skid chequer is formed on the inner wall of device ontology.

8. dynamic scoliosis orthoses according to claim 7, it is characterised in that: the anti-skid chequer is divided into for preventing The dynamic scoliosis orthoses up and down slip longitudinal anti-skid chequer and for preventing dynamic scoliosis orthoses edge The circumferential lateral anti-skid chequer to break away in human body surface.

9. dynamic scoliosis orthoses according to claim 8, it is characterised in that: on multiple orthoses ontologies Equipped with for ventilative perforation.

10. dynamic scoliosis orthoses according to claim 8, it is characterised in that: multiple orthoses ontologies are equal For high molecular material orthoses ontology.