CN113262142A - Foot protection walking boot for rehabilitation after bone surgery - Google Patents

Abstract

The invention belongs to the technical field of medical appliances, and particularly relates to a foot-protecting walking boot for rehabilitation after bone surgery, which comprises a first shell, a second shell, a buckle, a first binding belt, a second binding belt and a hinge; a hinge is arranged on one side of the first shell; the invention has the advantages that the feet of a patient after operation are placed between the first shell and the second shell, then the first shell and the second shell are closed, and the first shell and the second shell are closed through the arranged constraint belts and the inserted buckles; and then make shell and No. two shells form inclosed whole, and then encircle patient's shank, and then make the following part of patient's shank be in unsettled state, and then when the patient walked the activity, transmit the gravity on health upper portion to the shank through human thigh, No. two shells are transmitted to the rethread shank, and then make the part below patient's shank and the shell contact not atress, and then make the patient still can move about under the circumstances that the foot was not atress.

Description

Foot protection walking boot for rehabilitation after bone surgery

Technical Field

The invention belongs to the technical field of medical appliances, and particularly relates to a foot protection walking boot for rehabilitation after bone surgery.

Background

The bone surgery department is a diagnosis and treatment subject of medical institutions, is a general name of trauma and spine surgery department, is a professional department for diagnosis and treatment of various types of severed fingers, severed palms and severed fingers, replantation of various types of flap transplantation, nerve repair, congenital deformity of limbs, brachial plexus nerve injury and nerve block pressure, and is mainly used for treating limb fracture, serious multiple injuries, spine pelvis fracture, bone joint infection, tuberculosis, tumor, protrusion of cervical vertebra and lumbar vertebra shoulder plates, correction of bone joint deformity, knee and hip joint replacement and the like in the bone joint surgery department; various acute and chronic soft tissue injuries, acute and chronic neck and lumbar muscle injuries, joint soft tissue injuries, cervical spondylosis, lumbar spondylosis, scapulohumeral periarthritis, tennis elbow, fracture, dislocation and the like; replantation of injured severed finger (toe), reconstruction of mother finger (toe), reconstruction of multi-finger defect, extension of residual finger, old nerve of hand (limb), injury and functional disorder of blood vessel tendon, reconstruction of second stage function, etc.; after orthopedic surgery, attention is paid to observing blood circulation, nerve sensation and motor conditions of the foot; in case of fracture operation, severe excessive activities are prohibited within three months after injury, in daily life, nutrition is properly strengthened, calcium preparation is supplemented, the wound needs to be kept clean, dressing is replaced once in about three days generally, and the wound healing condition is observed.

After the orthopedic surgery is performed on the feet and the wrists of the patient, a general doctor can require the patient to lie in bed for rest, and the patient cannot walk freely, but needs to get out of bed for activities due to the daily life needs of the patient, and then needs to be matched with a proper amount of activities to accelerate the recovery of the affected part after the patient performs the orthopedic surgery for a long time; but at the in-process of activity, the affected part of patient can not bear great power, consequently the stress point when will walk through the walking boots in this scheme shifts the shank of patient by the foot, and then needs the activity after the solution bone surgery and can not make the problem of affected part atress again.

Disclosure of Invention

In order to make up the defects of the prior art, the invention provides a foot-protecting walking boot for rehabilitation after bone surgery. The invention is mainly used for solving the problem that the affected part can not be stressed when the affected part needs to move after the orthopedic operation.

The technical scheme adopted by the invention for solving the technical problems is as follows: a foot-protecting walking boot for rehabilitation after bone surgery comprises a first shell, a second shell, a plug buckle, a first binding belt, a second binding belt and a hinge; a hinge is arranged on one side of the first shell; one side of the hinge is fixedly connected with the first shell; the second shell is arranged on the other side of the hinge; one side of the second shell is fixedly connected with the hinge; the concave surfaces of the first shell and the second shell are opposite; the first binding belt is arranged outside the first shell at intervals; one end of the first binding belt is fixedly connected with the first shell; the other end of the first binding belt is provided with the inserting buckle; the other end of the first binding belt is connected with one end of the buckle; the other end of the inserting buckle is provided with a second binding belt; one end of the second binding belt is connected with the insert buckle; the other end of the second binding belt is fixedly connected with the outer wall of the second shell.

When the orthopedic operation bed is in work, after orthopedic operations are performed on the feet and the wrists of a patient, a general doctor can require the patient to lie in bed for rest, and the patient cannot walk freely, but needs to get out of bed for activities due to the daily life needs of the patient; secondly, after the orthopedic surgery is performed for a period of time, the patient needs to keep a certain amount of activity every day to accelerate the recovery of the affected part, but the affected part cannot bear large force, so that the foot of the patient after the orthopedic surgery is placed between the first shell and the second shell, the first shell and the second shell are closed, and the first shell and the second shell are closed through the arranged binding belt and the inserted buckle; the first shell and the second shell form a closed whole, so that the lower leg of a patient is surrounded, the part below the lower leg of the patient is in a suspended state, the gravity on the upper part of the body is transmitted to the lower leg through the thigh of the human body when the patient walks and moves, and then the gravity is transmitted to the first shell and the second shell through the lower leg, so that the part below the contact part of the lower leg of the patient and the shells is not stressed, and the patient can still move under the condition that the feet are not stressed; simultaneously through setting walking boots to shell and No. two shells two parts, and then when dressing, from the both sides block of patient foot on can, and then prevent the collision of patient's affected part and walking boots when dressing, and then make things convenient for the wearing of walking boots.

Preferably, the walking boot further comprises a supporting bag and an opening and closing mechanism; the supporting bags are arranged at the concave surfaces of the first shell and the second shell; the supporting bag is connected with the inner walls of the first shell and the second shell; the supporting bag is of a multilayer structure; at least four cavities are arranged in the supporting bag; the middle part of the supporting bag is provided with a switch mechanism; the switch mechanism is used for inflating the inside of the support bag; the switch mechanism is used for independently closing the internal cavity of the single supporting bag.

When the walking boot is in work, after the feet of a patient are clamped into the first shell and the second shell, a medium is flushed into the supporting bag through the arranged switch mechanism, so that the supporting bag is expanded, the supporting bag is tightly attached to the crus of the patient, the contact area between the walking boot and the crus of the patient is increased, the stress area of the patient is larger when the walking boot is used, and the patient feels more comfortable when the walking boot is used for walking; the supporting bag is arranged into a plurality of layers, so that a plurality of independent areas are formed inside the supporting bag, the media among a plurality of cavities inside the supporting bag are not communicated with each other after the supporting bag is filled with the media through the arranged switch mechanism, and further, when the supporting bag deforms due to the force of legs acting on the supporting bag in the walking process of a patient, the media amount inside each independent cavity is not changed, so that when a certain cavity is extruded and deformed, the pressure inside the cavity is increased more rapidly (compared with the case that the supporting bag is not provided with a component layer, because the volume of a single cavity is reduced after layering, when the single cavity is extruded and the media amount inside the cavity is not changed, the pressure inside the single cavity is increased more, so that the deformation of the cavity is reduced), and because the pressure inside the cavity is increased, under the condition that the acting force of the legs acting on the supporting bag is not increased, the pressure in the cavity enables the supporting bag not to deform continuously, so that the deformation of the supporting bag is small, the area enclosed by the supporting bag is small, the leg of the patient can be prevented from penetrating through the minimum enclosed area of the supporting bag, and the foot of the patient is prevented from being stressed due to grounding; meanwhile, due to the flexible characteristics of the supporting bag and the internal medium, when the patient walks, the vibration generated by contact in the walking process is absorbed through the deformation of the supporting bag, so that a better damping effect is achieved; meanwhile, in the process of rehabilitation of a patient, ointment and the like can be applied to an affected part, warm media are introduced into the supporting bag, the temperature inside the walking boot is increased, and the absorption of the drug effect is increased.

Preferably, the switch mechanism comprises an outer tube, an inner tube, a knob and a connector; one end of the supporting bag is provided with the outer pipe; one end of the outer tube is positioned inside the supporting bag; the outer tube is fixedly connected with the supporting bag; through holes are arranged on the outer pipe at intervals; the through holes are respectively positioned in the cavity inside the supporting bag; the inner pipe is arranged inside the outer pipe; the inner pipe is rotationally connected with the outer pipe; round holes are arranged on the inner pipe at intervals; the center of the circular hole and the center of the through hole are positioned on the same plane; one end of the inner tube is provided with the knob; the knob is fixedly connected with the inner tube; one end of the inner tube, which is close to the knob, is provided with the connector; the connector is fixedly connected with the inner pipe; one end of the connector is located inside the inner pipe.

When the medical support bag is in operation, before the medium is filled, the knob is rotated, so that the round hole in the inner tube is coincided with the center of the through hole in the outer tube, the inner tube is communicated with the inside of the support bag, a passage is provided for filling the medium into the inside of the support bag, then the medium is filled into the inner tube by connecting the external medium supply equipment with the connector, so that the medium is flushed into the inside of the inner tube, the cavity on the support bag is expanded, so that the support bag is completely fit with the leg contour of a patient, after the inside of each cavity on the support bag is filled with the medium, the knob is rotated, so that the inner tube is rotated, the round hole in the inner tube is staggered with the through hole in the outer tube, so that the single cavities are independently closed, the support bag forms a plurality of independent cavities, and the medium in the plurality of cavities in the support bag is not communicated with each other after the medium is filled in the support bag, when the supporting bag is deformed due to the force of the legs acting on the supporting bag in the walking process of a patient, the medium amount in each independent cavity is not changed, and further when a certain cavity is extruded and deformed, the pressure in the cavity is increased more when the single cavity is extruded and the medium amount in the cavity is not changed due to the reduction of the volume of the single cavity after layering (compared with the case that the supporting cavity is not layered), so that the deformation of the cavity is reduced due to the increase of the pressure in the cavity, and further under the condition that the acting force of the legs acting on the supporting bag is not increased, the supporting bag is not deformed, so that the deformation of the supporting bag is smaller, the area surrounded by the supporting bag is smaller, and further the legs of the patient can be prevented from passing through the surrounding of the supporting bag, thereby preventing the feet of the patient from landing on the ground and being stressed; in the process of using the inflatable support bag, the inflation and the independent closing of the cavity in the support bag can be realized by rotating the knob, so that a plurality of independent areas are formed in the support bag, and the inflatable support bag is convenient and simple to operate; meanwhile, the switch mechanism is simple in structure, so that the switch mechanism is convenient to produce and manufacture, and the maintenance and replacement cost is low.

Preferably, a gap is arranged between the supporting bag on the first shell and the supporting bag side wall on the second shell.

When the support bag is in work, after the support bag is filled with gas, the internal pressure is increased, so that the support bag has certain rigidity, if the side walls of the support bags on the two sides are mutually abutted, in the using process of a patient, the support bag is moved downwards by the acting force on the upper part of the body, so that the support bags on the two sides are outwards expanded, the area enclosed by the support bags on the two sides is increased, the contact pressure between the support bags and the legs of the patient is reduced, the friction force between the patient and the support bags is reduced, the legs of the patient slide downwards along the support bags under the action of the body weight, the legs of the patient can slide through the minimum area enclosed by the support bags on the two sides, the feet of the patient are directly stressed, and secondary injury to affected parts of the patient is caused; set up the clearance through supporting on the first outer shell and the second outer shell between the bag lateral wall, and then when the patient uses the walking boots walking, when patient's body weight power is used on the walking bag, the walking bag is compressed to be out of shape the back, contactless between the walking bag of both sides, and then can not produce the extrusion force in the lateral wall department that supports the bag, and then can not cause the outside expansion of the support bag of both sides, and then prevent the patient among the use, the shank slips the minimum cross-section that both sides support bag surrounded, and then prevent patient's foot and ground indirect contact, and then prevent patient's direct atress of foot, and then prevent the secondary injury in patient's affected part.

Preferably, the first shell is provided with adjustable supports at the positions close to the instep structure and the sole structure; the second shell is provided with the adjustable supports at the positions close to the instep structure and the sole structure; the adjustable supports are in threaded connection with the first shell and the second shell.

When the walking boot is in operation, after the feet of a patient are placed in the walking boot, the adjustable support is rotated to move towards the inside of the walking boot, so that the end part of the adjustable support is in contact with the feet of the patient, the feet of the patient are fixed, and the feet of the patient shake in the walking boot during the walking process of a homeowner patient, so that the feet of the patient are prevented from colliding with the shell of the walking boot when the patient uses the walking boot, and further secondary damage to the feet of the patient is prevented; meanwhile, after the orthopedic surgery, the feet of the patient are required to keep a proper posture, and the adjustable support at different positions is adjusted, so that when the walking boots are used by the patient, the feet keep a proper recovery posture inside the walking boots, and the recovery of the affected part is accelerated.

Preferably, the adjustable support comprises an adjustable part and a support part; adjustable parts are arranged in the first shell and the second shell; the adjustable part is in threaded connection with the first shell and the second shell; one end of the adjustable part is provided with a supporting part; the supporting part is in threaded connection with the adjustable part.

Preferably, the supporting parts of the first shell and the second shell near the sole structure can be flexible plates and buffer plates; massage bulges are uniformly arranged on the upper part of the buffer plate at intervals; the massage bulges are fixedly connected with the buffer plate.

When the orthopedic treatment device works, the patient is mostly in bed to rest after the orthopedic operation, and the blood flow is unsmooth, so that after the orthopedic treatment device recovers for a period of time, the patient needs to slightly massage the foot to increase the blood circulation of the foot, and further the recovery of an affected part is increased; consequently when the patient need massage the period of foot and use the walking boots, the supporting part on the adjustable support through locating the sole is changed for the buffer board by the flexbile plate, and then when the patient uses the walking boots, make the protruding massage patient's sole of massage, and then increase the blood circulation of foot, and then accelerate the recovery in patient affected part, simultaneously through rotatory adjustable portion, and then adjust the position of supporting part in walking boots inside, and then adjust the dynamics of the contact of supporting part and foot, and then adapt to different patients' demand.

Preferably, the first shell is adhered to one of the supporting bags through a magic tape; the second shell is bonded with the other supporting bag through a magic tape.

When the leg-shaped support is in work, due to the fact that the leg shapes of different patients are different, the difference of the smile pushed by the patient can be made up through the deformation of the support bag when the difference is small, and when the difference of the leg thickness is large, the support bag is required to be replaced by different support bags, so that the support bag is well attached to the leg of the patient; fixed connection between will supporting bag and the shell of walking boots is pasted through the magic that sets up, and then when needs change supporting bag, can dismantle original supporting bag through dragging, later pressing the supporting bag of replacement paste on the shell of walking boots can, and then the installation and the dismantlement of convenient supporting bag.

Preferably, the first shell and the second shell are provided with air holes near the heel structures.

The during operation, through the bleeder vent that sets up, and then make the inside and outside intercommunication of walking boots, and then the exchange of the inside and outside gas of being convenient for, and then prevent patient's foot because the foot that the inside and outside difference in temperature caused is perspired when walking boots are inside, and then the condition such as infection of the affected part that causes, the patient of being convenient for simultaneously observes the state of foot in walking boots inside through the bleeder vent, and the patient of being convenient for is to the adjustment of foot posture.

The invention has the following beneficial effects:

1. after orthopedic surgery is performed on the feet and the ankles of a patient, a general doctor can require the patient to lie in bed for rest, and the patient cannot walk freely, but needs to get out of bed for activities due to the daily life needs of the patient; secondly, after the orthopedic surgery is performed for a period of time, the patient needs to keep a certain amount of activity every day to accelerate the recovery of the affected part, but the affected part cannot bear large force, so that the foot of the patient after the orthopedic surgery is placed between the first shell and the second shell, the first shell and the second shell are closed, and the first shell and the second shell are closed through the arranged binding belt and the inserted buckle; the first shell and the second shell form a closed whole, so that the lower leg of a patient is surrounded, the part below the lower leg of the patient is in a suspended state, the gravity on the upper part of the body is transmitted to the lower leg through the thigh of the human body when the patient walks and moves, and then the gravity is transmitted to the first shell and the second shell through the lower leg, so that the part below the contact part of the lower leg of the patient and the shells is not stressed, and the patient can still move under the condition that the feet are not stressed; simultaneously through setting walking boots to shell and No. two shells two parts, and then when dressing, from the both sides block of patient foot on can, and then prevent the collision of patient's affected part and walking boots when dressing, and then make things convenient for the wearing of walking boots.

2. According to the invention, after the feet of a patient are clamped into the first shell and the second shell, a medium is flushed into the supporting bag through the arranged switch mechanism, so that the supporting bag is expanded, the supporting bag is tightly attached to the lower leg of the patient, the contact area between the walking boot and the lower leg of the patient is increased, the stress area of the patient is larger when the walking boot is used, and the patient is more comfortable when the walking boot is used for walking; the supporting bag is arranged into a plurality of layers, so that a plurality of independent areas are formed inside the supporting bag, the media among a plurality of cavities inside the supporting bag are not communicated with each other after the supporting bag is filled with the media through the arranged switch mechanism, and further, when the supporting bag deforms due to the force of legs acting on the supporting bag in the walking process of a patient, the media amount inside each independent cavity is not changed, so that when a certain cavity is extruded and deformed, the pressure inside the cavity is increased more rapidly (compared with the case that the supporting bag is not provided with a component layer, because the volume of a single cavity is reduced after layering, when the single cavity is extruded and the media amount inside the cavity is not changed, the pressure inside the single cavity is increased more, so that the deformation of the cavity is reduced), and because the pressure inside the cavity is increased, under the condition that the acting force of the legs acting on the supporting bag is not increased, the pressure in the cavity enables the supporting bag not to deform continuously, so that the deformation of the supporting bag is small, the area enclosed by the supporting bag is small, the leg of the patient can be prevented from penetrating through the minimum enclosed area of the supporting bag, and the foot of the patient is prevented from being stressed due to grounding; meanwhile, due to the flexible characteristics of the supporting bag and the internal medium, when the patient walks, the vibration generated by contact in the walking process is absorbed through the deformation of the supporting bag, so that a better damping effect is achieved; meanwhile, in the process of rehabilitation of a patient, ointment and the like can be applied to an affected part, warm media are introduced into the supporting bag, the temperature inside the walking boot is increased, and the absorption of the drug effect is increased.

3. In the invention, before the medium is filled, the knob is rotated, so that the round hole on the inner tube is superposed with the center of the through hole on the outer tube, the inner tube is communicated with the inside of the supporting bag, a passage is provided for filling the medium into the inside of the supporting bag, then the medium is filled into the inner tube by connecting the external medium providing equipment with the connector, so that the medium is flushed into the inside of the inner tube, so that the cavity on the supporting bag is expanded, so that the supporting bag is completely fit with the leg contour of a patient, after the inside of each cavity on the supporting bag is filled with the medium, the knob is rotated, so that the inner tube is rotated, so that the round hole on the inner tube is staggered with the through hole on the outer tube, so that the independent closing between the single cavities is realized, the supporting bag forms a plurality of independent cavities, and the medium among the plurality of cavities in the supporting bag is not communicated with each other after the medium is filled in the supporting bag, when the supporting bag is deformed due to the force of the legs acting on the supporting bag in the walking process of a patient, the medium amount in each independent cavity is not changed, and further when a certain cavity is extruded and deformed, the pressure in the cavity is increased more when the single cavity is extruded and the medium amount in the cavity is not changed due to the reduction of the volume of the single cavity after layering (compared with the case that the supporting cavity is not layered), so that the deformation of the cavity is reduced due to the increase of the pressure in the cavity, and further under the condition that the acting force of the legs acting on the supporting bag is not increased, the supporting bag is not deformed, so that the deformation of the supporting bag is smaller, the area surrounded by the supporting bag is smaller, and further the legs of the patient can be prevented from passing through the surrounding of the supporting bag, thereby preventing the feet of the patient from landing on the ground and being stressed; in the process of using the inflatable support bag, the inflation and the independent closing of the cavity in the support bag can be realized by rotating the knob, so that a plurality of independent areas are formed in the support bag, and the inflatable support bag is convenient and simple to operate; meanwhile, the switch mechanism is simple in structure, so that the switch mechanism is convenient to produce and manufacture, and the maintenance and replacement cost is low.

4. According to the invention, as the internal pressure of the supporting bag is increased after the supporting bag is filled with gas, the supporting bag has certain rigidity, if the side walls of the supporting bags on the two sides are mutually abutted, in the using process of a patient, the acting force on the upper part of the body enables the supporting bag to move downwards, so that the supporting bags on the two sides expand outwards, the area enclosed by the supporting bags on the two sides is increased, the contact pressure between the supporting bags and the legs of the patient is reduced, the friction force between the patient and the supporting bags is reduced, the legs of the patient slide downwards along the supporting bags under the action of the body weight, the legs of the patient can slide through the minimum area enclosed by the supporting bags on the two sides, the feet of the patient are directly stressed, and secondary injury to affected parts of the patient is further caused; set up the clearance through supporting on the first outer shell and the second outer shell between the bag lateral wall, and then when the patient uses the walking boots walking, when patient's body weight power is used on the walking bag, the walking bag is compressed to be out of shape the back, contactless between the walking bag of both sides, and then can not produce the extrusion force in the lateral wall department that supports the bag, and then can not cause the outside expansion of the support bag of both sides, and then prevent the patient among the use, the shank slips the minimum cross-section that both sides support bag surrounded, and then prevent patient's foot and ground indirect contact, and then prevent patient's direct atress of foot, and then prevent the secondary injury in patient's affected part.

5. According to the invention, after the feet of the patient are put into the walking boots, the adjustable supports are rotated to move towards the inside of the walking boots, so that the end parts of the adjustable supports are contacted with the feet of the patient, and the feet of the patient are fixed, so that the feet of the patient shake in the walking boots when the homeowner walks, and further the feet of the patient are prevented from colliding with the shell of the walking boots when the patient uses the walking boots, and further the secondary injury of the feet of the patient is prevented; meanwhile, after the orthopedic surgery, the feet of the patient are required to keep a proper posture, and the adjustable support at different positions is adjusted, so that when the walking boots are used by the patient, the feet keep a proper recovery posture inside the walking boots, and the recovery of the affected part is accelerated.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a first overall structural schematic view of the walking boot of the present invention;

FIG. 2 is a second overall structural schematic view of the walking boot of the present invention;

FIG. 3 is a schematic view showing the internal structure of the walking boot of the present invention;

FIG. 4 is a schematic view of the overall construction of the support cell of the present invention;

FIG. 5 is a schematic view of the internal structure of the support cell of the present invention;

FIG. 6 is a schematic diagram of the structure of the support bladders on the first shell and the second shell of the present invention;

FIG. 7 is a schematic view showing the overall construction of the switch mechanism of the present invention;

FIG. 8 is a schematic view showing the internal structure of the switch mechanism of the present invention;

FIG. 9 is a schematic view of the overall construction of the adjustable support of the present invention;

in the figure: the massage device comprises a first shell 1, a second shell 2, a plug-in buckle 3, a first binding belt 4, a second binding belt 5, a hinge 6, a support bag 7, a switch mechanism 8, an outer tube 81, an inner tube 82, a knob 83, a connector 84, a through hole 85, a round hole 89, an adjustable support 9, a support part 91, an adjustable part 92, a massage bulge 93, a flexible plate 94, a buffer plate 95 and an air vent 10.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 9, a walking boot for foot protection for rehabilitation after bone surgery, which comprises a first shell 1, a second shell 2, a buckle 3, a first binding belt 4, a second binding belt 5 and a hinge 6; the hinge 6 is arranged on one side of the first shell 1; one side of the hinge 6 is fixedly connected with the first shell 1; the second shell 2 is arranged on the other side of the hinge 6; one side of the second shell 2 is fixedly connected with the hinge 6; the concave surfaces of the first shell 1 and the second shell 2 are opposite; the first binding belt 4 is arranged outside the first shell 1 at intervals; one end of the first binding belt 4 is fixedly connected with the first shell 1; the other end of the first binding belt 4 is provided with the inserting buckle 3; the other end of the first binding belt 4 is connected with one end of the buckle 3; the second binding belt 5 is arranged at the other end of the inserting buckle 3; one end of the second binding belt 5 is connected with the insert buckle 3; the other end of the second binding belt 5 is fixedly connected with the outer wall of the second shell 2.

When the orthopedic operation bed is in work, after orthopedic operations are performed on the feet and the wrists of a patient, a general doctor can require the patient to lie in bed for rest, and the patient cannot walk freely, but needs to get out of bed for activities due to the daily life needs of the patient; secondly, after the orthopedic surgery is performed for a period of time, the patient needs to keep a certain amount of activity every day to accelerate the recovery of the affected part, but the affected part cannot bear large force, so that the foot of the patient after the orthopedic surgery is placed between the first shell 1 and the second shell 2, then the first shell 1 and the second shell 2 are closed, and the first shell 1 and the second shell 2 are closed through the arranged binding belt and the inserting buckle 3; the first shell 1 and the second shell 2 form a closed whole, so that the lower part of the lower leg of the patient is in a suspended state, the gravity on the upper part of the body is transmitted to the lower leg through the thigh of the human body when the patient walks and moves, and then the gravity is transmitted to the first shell 1 and the second shell 2 through the lower leg, so that the part of the lower leg of the patient, which is in contact with the shells, is not stressed, and the patient can still move under the condition that the feet are not stressed; simultaneously through setting walking boots to shell 1 and No. 2 two parts of shell, and then when dressing, from the both sides block of patient foot can, and then prevent the collision of patient's affected part and walking boots when dressing, and then make things convenient for the wearing of walking boots.

As shown in fig. 1 to 8, the walking boot further includes a support bladder 7 and an opening and closing mechanism 8; the supporting bags 7 are arranged at the concave surfaces of the first shell 1 and the second shell 2; the supporting bag 7 is connected with the inner walls of the first shell 1 and the second shell 2; the supporting bag 7 is of a multilayer structure; at least four cavities are arranged in the supporting bag 7; the switch mechanism 8 is arranged in the middle of the supporting bag 7; the switch mechanism 8 is used for filling media into the supporting bag 7; the switch mechanism 8 is used for individually closing the internal cavity of the single supporting capsule 7.

When the walking boot works, after the feet of a patient are clamped into the first shell 1 and the second shell 2, a medium is flushed into the supporting bag 7 through the arranged switch mechanism 8, so that the supporting bag 7 is expanded, the supporting bag 7 is tightly attached to the lower leg of the patient, the contact area between the walking boot and the lower leg of the patient is increased, the stress area of the patient is larger when the walking boot is used, and the patient feels more comfortable when the walking boot is used for walking; the supporting bag 7 is arranged into a plurality of layers, so that a plurality of independent areas are formed inside the supporting bag 7, the opening and closing mechanism 8 is arranged, the media among a plurality of cavities inside the supporting bag 7 are not communicated with each other after the supporting bag 7 is filled with the media, so that when the supporting bag 7 deforms due to the force of legs acting on the supporting bag 7 in the walking process of a patient, the media amount inside each independent cavity is not changed, and further when a certain cavity is extruded and deformed, the pressure inside the cavity is increased more rapidly (compared with the case that the supporting bag 7 is not provided with component layers), because the volume of a single cavity is reduced after layering, when the single cavity is extruded and the media amount inside the cavity is not changed, the pressure inside the single cavity is increased more, the deformation of the cavity is reduced), and because the pressure inside the cavity is increased, under the condition that the acting force of the legs on the supporting bag 7 is not increased, the supporting bag 7 is not deformed continuously due to the pressure in the cavity, so that the deformation of the supporting bag 7 is smaller, the area enclosed by the supporting bag 7 is smaller, the legs of the patient can be prevented from penetrating through the minimum enclosed area of the supporting bag 7, and the feet of the patient are prevented from being stressed due to grounding; meanwhile, due to the flexible characteristics of the supporting bag 7 and the internal medium, when the patient walks, the vibration generated by contact in the walking process is absorbed through the deformation of the supporting bag, so that a better damping effect is achieved; meanwhile, in the process of rehabilitation of a patient, ointment and the like can be applied to the affected part, warm media are introduced into the supporting bag 7, the temperature inside the walking boot is increased, and the absorption of the drug effect is increased.

As shown in fig. 1, 2, 3, 4, 5, 7 and 8, the switch mechanism 8 includes an outer tube 81, an inner tube 82, a knob 83 and a connector 84; one end of the supporting bag 7 is provided with the outer tube 81; one end of the outer tube 81 is positioned inside the supporting bag 7; the outer tube 81 is fixedly connected with the support bag 7; through holes 85 are arranged on the outer pipe 81 at intervals; the through holes 85 are respectively positioned in the cavity inside the supporting bag 7; the inner pipe 82 is arranged inside the outer pipe 81; the inner tube 82 is rotatably connected with the outer tube 81; round holes 89 are arranged on the inner pipe 82 at intervals; the center of the round hole 89 and the center of the through hole 85 are positioned on the same plane; one end of the inner tube 82 is provided with the knob 83; the knob 83 is fixedly connected with the inner tube 82; one end of the inner tube 82 close to the knob 83 is provided with the connector 84; the connector 84 is fixedly connected with the inner tube 82; one end of the connector 84 is located inside the inner tube 82.

During operation, before the medium is filled, the knob 83 is rotated, so that the round hole 89 on the inner tube 82 coincides with the center of the through hole 85 on the outer tube 81, so that the inner tube 82 is communicated with the inside of the supporting bag 7, so as to provide a passage for the medium filled in the supporting bag 7, then an external medium providing device is connected with the connector 84, so as to flush the medium into the inner tube 82, so that the cavity on the supporting bag 7 is expanded, so that the supporting bag 7 completely fits the leg contour of a patient, after the inside of each cavity on the supporting bag 7 is filled with the medium, the knob 83 is rotated, so that the inner tube 82 is rotated, so that the round hole 89 on the inner tube 82 is staggered with the through hole 85 on the outer tube 81, so as to realize independent closing between single cavities, so that the supporting bag 7 forms a plurality of independent cavities, and further ensure that the media among the plurality of cavities inside the supporting bag 7 are not communicated with each other after the medium is filled in the supporting bag 7, when the supporting bag 7 deforms due to the force of the legs acting on the supporting bag 7 in the walking process of the patient, the medium amount in each independent cavity does not change, and further when a certain cavity is extruded and deformed, the pressure in the cavity is increased more rapidly (compared with the case that the supporting cavity is not layered, because the volume of a single cavity is reduced after layering, when the single cavity is extruded and the medium amount in the cavity is not changed, the pressure in the single cavity is increased more, and further the deformation amount of the cavity is reduced), because the pressure in the cavity is increased, and further under the condition that the acting force of the legs acting on the supporting bag 7 is not increased, the supporting bag 7 is not deformed, the deformation amount of the supporting bag 7 is smaller, the area surrounded by the supporting bag 7 is smaller, and further the legs of the patient can be prevented from passing through the surrounding of the supporting bag 7, thereby preventing the feet of the patient from landing on the ground and being stressed; in the process of using, the air inflation and independent closing of the cavity in the supporting bag 7 can be realized by rotating the knob 83, and then a plurality of independent areas are formed in the supporting bag 7, so that the operation is convenient and simple; meanwhile, the switch mechanism 8 is simple in structure, so that the production and the manufacturing are convenient, and the maintenance and replacement costs are low.

As shown in fig. 1, 2, 3 and 6, a gap is provided between the supporting bag 7 on the first casing 1 and the side wall of the supporting bag 7 on the second casing 2.

When the medical device works, the internal pressure of the supporting bag 7 is increased after the supporting bag 7 is filled with gas, so that the supporting bag 7 has certain rigidity, if the side walls of the supporting bags 7 on the two sides are mutually abutted, in the using process of a patient, the supporting bag 7 moves downwards under the action of the acting force on the upper part of the body, the supporting bags 7 on the two sides are outwards expanded, the area enclosed by the supporting bags 7 on the two sides is increased, the contact pressure between the supporting bags 7 and the legs of the patient is reduced, the friction force between the patient and the supporting bags 7 is reduced, the legs of the patient slide downwards along the supporting bags 7 under the action of the body weight, the legs of the patient can slide over the minimum area enclosed by the supporting bags 7 on the two sides, the legs of the patient are directly stressed, and secondary injury to affected parts of the patient is caused; set up the clearance between 7 lateral walls of supporting bag through supporting bag 7 on will No. 1 shell of shell and No. 2 shell, and then when the patient uses the walking boots walking, when patient's body weight power is used on the walking bag, the walking bag is compressed to be out of shape the back, contactless between the walking bag of both sides, and then can not produce the extrusion force in the lateral wall department that supports bag 7, and then can not cause the outside expansion of supporting bag 7 of both sides, and then prevent that the patient is among the use, the shank slides the minimum cross-section that both sides support bag 7 surrounded, and then prevent patient's foot and ground indirect contact, and then prevent patient's foot direct atress, and then prevent the secondary injury in patient's affected part.

As shown in fig. 1, 2, 3 and 9, the first shell 1 is provided with adjustable supports 9 at the positions close to an instep structure and a sole structure; the second shell 2 is provided with the adjustable supports 9 at the positions close to the instep structure and the sole structure; the adjustable supports 9 are in threaded connection with the first shell 1 and the second shell 2.

When the walking boot is in operation, after the feet of a patient are placed in the walking boot, the adjustable support 9 is rotated, so that the adjustable support 9 moves towards the inside of the walking boot, the end part of the adjustable support 9 is contacted with the feet of the patient, the feet of the patient are fixed, and the feet of the patient shake in the walking boot when a homeowner walks, so that the feet of the patient are prevented from colliding with a shell of the walking boot when the patient uses the walking boot, and further secondary injury of the feet of the patient is prevented; meanwhile, after the orthopedic surgery, the feet of the patient are required to keep a proper posture, and the adjustable supports 9 at different positions are adjusted, so that when the walking boots are used by the patient, the feet keep a proper recovery posture inside the walking boots, and the recovery of the affected part is accelerated.

As shown in fig. 1, 2, 3 and 9, the adjustable support 9 includes an adjustable portion and a support portion 91; the first shell 1 and the second shell 2 are internally provided with adjustable parts 92; the adjustable part 92 is in threaded connection with the first shell 1 and the second shell 2; one end of the adjustable part 92 is provided with a supporting part 91; the support portion 91 is threadedly coupled to the adjustable portion 92.

As shown in fig. 1, 2, 3 and 9, the supporting portion 91 of the first and second housings 1 and 2 near the sole structure may be a flexible plate 94 and a buffer plate 95; massage bulges 93 are uniformly arranged at intervals on the upper part of the buffer plate 95; the massage protrusion 93 is fixedly connected with the buffer plate 95.

When the orthopedic treatment device works, the patient is mostly in bed to rest after the orthopedic operation, and the blood flow is unsmooth, so that after the orthopedic treatment device recovers for a period of time, the patient needs to slightly massage the foot to increase the blood circulation of the foot, and further the recovery of an affected part is increased; therefore when the patient needs to massage the foot to use the walking boots in the period, through with the supporting part 91 on the adjustable support 9 of sole department by the flexible sheet 94 change for buffer board 95, and then when the patient uses the walking boots, make the protruding 93 massage patient's sole of massage, and then increase the blood circulation of foot, and then accelerate the recovery in patient affected part, simultaneously through rotatory adjustable portion 92, and then adjust the inside position of walking boots of supporting part 91, and then adjust the dynamics of the contact of supporting part 91 and foot, and then adapt to different patients' demand.

The first shell 1 is bonded with one supporting bag 7 through a magic tape; the second shell 2 is bonded with the other supporting bag 7 through a magic tape.

When the patient leg shape difference compensating device works, due to the fact that the leg shapes of different patients are different, the difference of smiling pushed can be made up through the deformation of the supporting bag 7 when the difference is small, when the leg thickness difference is large, the different supporting bags 7 need to be replaced, and therefore the supporting bags 7 can be well attached to the legs of the patients; magic subsides through setting up will support fixed connection between 7 and the walking boots's shell, and then when needing to be changed and support 7, can dismantle original support 7 through dragging, later with the support 7 of replacement press paste on walking boots ' shell can, and then conveniently support 7's installation and dismantlement.

As shown in fig. 1, 2, 3 and 9, the first shell 1 and the second shell 2 are provided with air holes 10 near the heel structures.

During operation, through the bleeder vent 10 that sets up, and then make the inside and outside intercommunication of walking boots, and then the exchange of the inside and outside gas of being convenient for, and then prevent patient's foot because the foot that the inside and outside difference in temperature caused is perspired when walking boots is inside, and then the condition such as infection of the affected part that causes, the patient of being convenient for simultaneously observes the state of foot in walking boots inside through bleeder vent 10, the patient of being convenient for is to the adjustment of foot posture.

When the orthopedic operation bed is in work, after orthopedic operations are performed on the feet and the wrists of a patient, a general doctor can require the patient to lie in bed for rest, and the patient cannot walk freely, but needs to get out of bed for activities due to the daily life needs of the patient; secondly, after the orthopedic surgery is performed for a period of time, the patient needs to keep a certain amount of activity every day to accelerate the recovery of the affected part, but the affected part cannot bear large force, so that the foot of the patient after the orthopedic surgery is placed between the first shell 1 and the second shell 2, then the first shell 1 and the second shell 2 are closed, and the first shell 1 and the second shell 2 are closed through the arranged binding belt and the inserting buckle 3; the first shell 1 and the second shell 2 form a closed whole, so that the lower part of the lower leg of the patient is in a suspended state, the gravity on the upper part of the body is transmitted to the lower leg through the thigh of the human body when the patient walks and moves, and then the gravity is transmitted to the first shell 1 and the second shell 2 through the lower leg, so that the part of the lower leg of the patient, which is in contact with the shells, is not stressed, and the patient can still move under the condition that the feet are not stressed; meanwhile, the walking boots are arranged into the first shell 1 and the second shell 2, so that the walking boots can be clamped from two sides of the feet of a patient when being worn, the affected parts of the patient are prevented from colliding with the walking boots when being worn, and the walking boots are convenient to wear; after the feet of a patient are clamped into the first shell 1 and the second shell 2, a medium is flushed into the supporting bag 7 through the arranged switch mechanism 8, so that the supporting bag 7 is expanded, the supporting bag 7 is tightly attached to the lower leg of the patient, the contact area between the walking boot and the lower leg of the patient is increased, the stress area of the patient is larger when the walking boot is used, and the patient is more comfortable when the walking boot is used for walking; the supporting bag 7 is arranged into a plurality of layers, so that a plurality of independent areas are formed inside the supporting bag 7, the opening and closing mechanism 8 is arranged, the media among a plurality of cavities inside the supporting bag 7 are not communicated with each other after the supporting bag 7 is filled with the media, so that when the supporting bag 7 deforms due to the force of legs acting on the supporting bag 7 in the walking process of a patient, the media amount inside each independent cavity is not changed, and further when a certain cavity is extruded and deformed, the pressure inside the cavity is increased more rapidly (compared with the case that the supporting bag 7 is not provided with component layers), because the volume of a single cavity is reduced after layering, when the single cavity is extruded and the media amount inside the cavity is not changed, the pressure inside the single cavity is increased more, the deformation of the cavity is reduced), and because the pressure inside the cavity is increased, under the condition that the acting force of the legs on the supporting bag 7 is not increased, the supporting bag 7 is not deformed continuously due to the pressure in the cavity, so that the deformation of the supporting bag 7 is smaller, the area enclosed by the supporting bag 7 is smaller, the legs of the patient can be prevented from penetrating through the minimum enclosed area of the supporting bag 7, and the feet of the patient are prevented from being stressed due to grounding; meanwhile, due to the flexible characteristics of the supporting bag 7 and the internal medium, when the patient walks, the vibration generated by contact in the walking process is absorbed through the deformation of the supporting bag, so that a better damping effect is achieved; meanwhile, in the rehabilitation process of the patient, ointment and the like can be applied to the affected part, and warm media are introduced into the supporting bag 7, so that the temperature inside the walking boot is increased, and the absorption of the drug effect is increased; before filling the medium, the knob 83 is rotated, so that the round hole 89 on the inner tube 82 coincides with the center of the through hole 85 on the outer tube 81, so that the inner tube 82 is communicated with the inside of the support bag 7, so that a passage is provided for filling the medium into the support bag 7, then an external medium providing device is connected with the connector 84, so that the medium is flushed into the inner tube 82, so that the cavity on the support bag 7 is expanded, so that the support bag 7 completely fits the leg contour of a patient, after the inside of each cavity on the support bag 7 is filled with the medium, the knob 83 is rotated, so that the inner tube 82 is rotated, so that the round hole 89 on the inner tube 82 is dislocated with the through hole 85 on the outer tube 81, so that independent closing between single cavities is realized, so that the support bag 7 forms a plurality of independent cavities, and then the medium in the support bag 7 is not communicated with each other after the medium is filled in the support bag 7, when the supporting bag 7 deforms due to the force of the legs acting on the supporting bag 7 in the walking process of the patient, the medium amount in each independent cavity does not change, and further when a certain cavity is extruded and deformed, the pressure in the cavity is increased more rapidly (compared with the case that the supporting cavity is not layered, because the volume of a single cavity is reduced after layering, when the single cavity is extruded and the medium amount in the cavity is not changed, the pressure in the single cavity is increased more, and further the deformation amount of the cavity is reduced), because the pressure in the cavity is increased, and further under the condition that the acting force of the legs acting on the supporting bag 7 is not increased, the supporting bag 7 is not deformed, the deformation amount of the supporting bag 7 is smaller, the area surrounded by the supporting bag 7 is smaller, and further the legs of the patient can be prevented from passing through the surrounding of the supporting bag 7, thereby preventing the feet of the patient from landing on the ground and being stressed; in the process of using, the air inflation and independent closing of the cavity in the supporting bag 7 can be realized by rotating the knob 83, and then a plurality of independent areas are formed in the supporting bag 7, so that the operation is convenient and simple; meanwhile, the switch mechanism 8 has a simple structure, so that the production and the manufacture are convenient, and the maintenance and the replacement cost is low; because the internal pressure of the supporting bag 7 is increased after the supporting bag 7 is filled with gas, the supporting bag 7 has certain rigidity, if the side walls of the supporting bags 7 at the two sides are mutually abutted, in the using process of a patient, the acting force at the upper part of the body enables the supporting bag 7 to move downwards, the supporting bags 7 at the two sides are further outwards expanded, the area enclosed by the supporting bags 7 at the two sides is further increased, the contact pressure between the supporting bags 7 and the legs of the patient is further reduced, the friction force between the patient and the supporting bags 7 is further reduced, the legs of the patient slide downwards along the supporting bags 7 under the action of the body weight, the legs of the patient can slide through the minimum area enclosed by the supporting bags 7 at the two sides, the feet of the patient are further directly stressed, and further secondary injury on the affected parts of the patient is further caused; set up the clearance between 7 lateral walls of supporting bag through supporting bag 7 on will No. 1 shell of shell and No. 2 shell, and then when the patient uses the walking boots walking, when patient's body weight power is used on the walking bag, the walking bag is compressed to be out of shape the back, contactless between the walking bag of both sides, and then can not produce the extrusion force in the lateral wall department that supports bag 7, and then can not cause the outside expansion of supporting bag 7 of both sides, and then prevent that the patient is among the use, the shank slides the minimum cross-section that both sides support bag 7 surrounded, and then prevent patient's foot and ground indirect contact, and then prevent patient's foot direct atress, and then prevent the secondary injury in patient's affected part.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (9)

1. The utility model provides a rehabilitation is with banket walking boots after bone surgery operation which characterized in that: comprises a first shell (1), a second shell (2), a buckle (3), a first binding belt (4), a second binding belt (5) and a hinge (6); the hinge (6) is arranged on one side of the first shell (1); one side of the hinge (6) is fixedly connected with the first shell (1); the second shell (2) is arranged on the other side of the hinge (6); one side of the second shell (2) is fixedly connected with the hinge (6); the concave surfaces of the first shell (1) and the second shell (2) are opposite; the first binding belt (4) is arranged outside the first shell (1) at intervals; one end of the first binding belt (4) is fixedly connected with the first shell (1); the other end of the first binding belt (4) is provided with the insert buckle (3); the other end of the first binding belt (4) is connected with one end of the insert buckle (3); the second binding belt (5) is arranged at the other end of the inserting buckle (3); one end of the second binding belt (5) is connected with the insert buckle (3); the other end of the second binding belt (5) is fixedly connected with the outer wall of the second shell (2).

2. The walking foot protector boot for rehabilitation after bone surgery according to claim 1, wherein: also comprises a supporting bag (7) and a switch mechanism (8); the concave surfaces of the first shell (1) and the second shell (2) are respectively provided with the supporting bag (7); the supporting bag (7) is connected with the inner walls of the first shell (1) and the second shell (2); the supporting bag (7) is of a multilayer structure; at least four cavities are arranged in the supporting bag (7); the switch mechanism (8) is arranged in the middle of the supporting bag (7); the switch mechanism (8) is used for filling media into the supporting bag (7); the switch mechanism (8) is used for independently closing the internal cavity of the single supporting bag (7).

3. The walking foot protector boot for rehabilitation after bone surgery according to claim 2, wherein: the switch mechanism (8) comprises an outer tube (81), an inner tube (82), a knob (83) and a connector (84); one end of the supporting bag (7) is provided with the outer pipe (81); one end of the outer tube (81) is positioned inside the supporting bag (7); the outer tube (81) is fixedly connected with the supporting bag (7); through holes (85) are arranged on the outer pipe (81) at intervals; the through holes (85) are respectively positioned in the cavity inside the supporting bag (7); the inner pipe (82) is arranged in the outer pipe (81); the inner pipe (82) is rotationally connected with the outer pipe (81); round holes (89) are arranged on the inner pipe (82) at intervals; the center of the round hole (89) and the center of the through hole (85) are positioned on the same plane; one end of the inner tube (82) is provided with the knob (83); the knob (83) is fixedly connected with the inner tube (82); one end of the inner tube (82) close to the knob (83) is provided with the connector (84); the connector (84) is fixedly connected with the inner pipe (82); one end of the connecting head (84) is positioned inside the inner pipe (82).

4. The walking foot protector boot for rehabilitation after bone surgery according to claim 3, wherein: a gap is formed between the supporting bag (7) on the first shell (1) and the side wall of the supporting bag (7) on the second shell (2).

5. The walking foot protector boot for rehabilitation after bone surgery according to claim 4, wherein: the first shell (1) is provided with adjustable supports (9) at positions close to the instep structure and the sole structure; the second shell (2) is provided with the adjustable supports (9) at the positions close to the instep structure and the sole structure; the adjustable supports (9) are in threaded connection with the first shell (1) and the second shell (2).

6. The walking foot protector boot for rehabilitation after bone surgery according to claim 5, wherein: the adjustable support (9) comprises an adjustable part (92) and a support part (91); an adjustable part (92) is arranged in the first shell (1) and the second shell (2); the adjustable part (92) is in threaded connection with the first shell (1) and the second shell (2); one end of the adjustable part (92) is provided with a supporting part (91); the supporting part (91) is in threaded connection with the adjustable part (92).

7. The walking foot protector boot for rehabilitation after bone surgery according to claim 5, wherein: the supporting part (91) of the first shell (1) and the second shell (2) close to the sole structure can be a flexible plate (94) and a buffer plate (95); massage bulges (93) are uniformly arranged on the upper part of the buffer plate (95) at intervals; the massage bulges (93) are fixedly connected with the buffer plate (95).

8. The walking foot protector boot for rehabilitation after bone surgery according to claim 6, wherein: the first shell (1) is bonded with one supporting bag (7) through a magic tape; the second shell (2) is bonded with the other supporting bag (7) through a magic tape.

9. The walking foot protector boot for rehabilitation after bone surgery according to claim 6, wherein: the first shell (1) and the second shell (2) are provided with air holes (10) near heel structures.

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