A kind of wearable Intelligent pressing cabin
Technical field
It is a kind of for promoting the medical treatment of lower limb blood circulation the utility model relates to a kind of wearable Intelligent pressing cabin
Instrument.
Background technique
Because of organization of human body feature and physiology of exercise feature, lower limb especially ankle position blood and lymph are easy to appear back
Flow bad situation, show it is long-term stand or prolonged exercise after in leg and foot there is situations such as muscular fatigue is ached,
It is easy to appear oedema when serious, patient's such case furthermore with related diseases such as lower limb venous valvular diseases is especially tight
Weight.To improve such case, at present in addition to passive rest, lower limb vascular can also be promoted by massage apparatus or manual massage
Circulation is to reach the effect of discongesting, or uses conventional air pump treatment.But the common drawback of all these methods is patient
Receive to must be fixedly arranged at specific place when treatment, this significantly impacts the convenience and compliance for the treatment of time and treatment.
In addition, now widely used air wave pressure therapeutic device, is made of, one the host and air bag that are equipped with air pump
A air pump is that all air bags supply, and by longer piping connection between air pump and air bag, this structure type is multiple for having
For the air wave pressure therapeutic device of air bag, the connecting line needed is more, it appears and it is cumbersome in disorder, using traction difficulty, especially
It is for opposite narrow space, and the installation of instrument becomes extremely to be not easy, and gas replenishment process needs to reach often by tracheae
Individual cannot walk, and limit the behavior of people, be unsuitable for allegro life.
Summary of the invention
In view of the above defects of the prior art, the utility model provides a kind of wearable walking, easy to use
Wearable Intelligent pressing cabin.
The utility model is achieved by the following technical solution: a kind of wearable Intelligent pressing cabin, it is characterized in that:
Including the boot last cabin that can wear walking, the multi-cavity air bag being arranged in boot last cabin, be fixed on boot last cabin for controlling
The air-bag control device of multi-cavity air bag inflation/deflation, the boot last cabin include the foot being consistent with people's feet shape and with people's shank
The leg that position shape is consistent, the front in the boot last cabin is can open type structure comprising the boots body of front opening and sets
Setting can connect to form the movable cover plate in boot last cabin with boots body in boots body opening, and the air-bag control device passes through with multi-cavity air bag
Tracheae connection.
When the utility model is used, boot last cabin can accommodate people's calf and foot, can wear its walking, pass through air bag control
Device processed can control the inflation/deflation of each air bag of multi-cavity air bag, it can be achieved that intelligent control air bag is anti-by setting mode, setting sequence
Multiple inflation/deflation, forms the pulsed pressure to local limbs and tissue, plays the flowing and improvement for promoting lower limb vascular and lymph
The effect of microcirculation accelerates the reflux of limb tissue liquid, helps to relieve fatigue and edema of lower extremity, prevents related disease.Boot last cabin
Front be designed as can open type structure, convenient for wearing.
Further, to guarantee that boots body is consistent with body shape, the boots body is molding by 3D printing.
Further, to guarantee that multi-cavity air bag is more bonded with the leg of human body and foot, the multi-cavity air bag is logical
Cross the molding wearable flexible multi-cavity air bag of 3D printing.This kind design is more bonded human body, can save tolerance and charge and discharge
The gas time.
Further, the multi-cavity air bag is fixed on the inner wall in the boot last cabin.
Further, the air-bag control device is arranged on the bulkhead of the leg in the boot last cabin.
Further, the sole site of the foot in the boot last cabin is set as sandwich, the air-bag control device
Power plant module is arranged in the sandwich, and the control of the air-bag control device and display module are arranged in the boot last cabin
Leg bulkhead on.
Further, the ankle-joint position of the boots body in the boot last cabin is set as angle adjustable, is equipped with angular adjustment and locks.
Further, the movable cover plate is connected by a snap with the boots body.
Further, the multi-cavity air bag has 3-10 air bag.
It further, is the comfort for guaranteeing dress, the two sides of the multi-cavity air bag are equipped with flexible material.
The beneficial effects of the utility model are: the utility model is by designing boot last cabin easy to wear and by by multi-cavity
Air bag and air-bag control device are set in boot last cabin, form a kind of wearable intelligentized pressure chamber, and people can also when use
To wear its walking, solve the problems, such as that therapeutic equipment in the prior art cannot walk when in use;Meanwhile the utility model body
Product is small, and the connecting tube between air-bag control device and multi-cavity air bag is short out, can reduce inflationtime, tolerance is saved, to reach
Save the effect of the energy;The utility model multi-cavity air bag is controlled by air-bag control device can be formed to local limbs and
The pulsed pressure of tissue more effectively plays the role of the flowing for promoting lower limb vascular and lymph and improves microcirculation, accelerates
The reflux of limb tissue liquid, helps to relieve fatigue and edema of lower extremity, prevents related disease.
Detailed description of the invention
Fig. 1 is the structural schematic diagram in the utility model embodiment 1;
Fig. 2 is the schematic diagram in the boot last cabin in the utility model embodiment 1;
Fig. 3 is the schematic diagram of the boots body in the utility model embodiment 1;
Fig. 4 is the schematic diagram of the multi-cavity air bag in the utility model embodiment 1;
Fig. 5 is the connection schematic diagram of the air-bag control device and multi-cavity air bag in the utility model embodiment 1;
Fig. 6 is the schematic diagram of the front leg portions cover plate in the utility model embodiment 1;
Fig. 7 is the schematic diagram of the forefoot cover plate in the utility model embodiment 1;
Fig. 8 is the schematic diagram of the soft OK cloth lining in the utility model embodiment 1;
Fig. 9 is the electric control theory figure in the utility model embodiment 1;
Figure 10 is the schematic diagram in the boot last cabin in the utility model embodiment 2;
Figure 11 is the schematic cross-sectional view of Figure 10;
Figure 12 is the structural schematic diagram of embodiment 3 in the utility model;
In figure, 1, boot last cabin, 101, boots body, 102, movable cover plate, 1021, front leg portions cover plate, 1022, forefoot cover plate,
104, it buckles, 2, multi-cavity air bag, 3, air-bag control device, 4, angular adjustment lock, 5, mode tuning knob, 6, display screen, 7, electricity
Source indicator light, 8, power input jack, 9, power switch, 10, mode selecting button, 11, tracheae, 12, control and display module,
13, power plant module.
Specific embodiment
The utility model is further described below by non-limiting embodiment and in conjunction with attached drawing:
Embodiment 1
As shown in attached drawing 1- Fig. 9, a kind of wearable Intelligent pressing cabin comprising boot last cabin 1, the setting of walking can be worn
In boot last cabin 1 multi-cavity air bag 2, be fixed on boot last cabin 1 for controlling the air bag controlled of multi-cavity air bag inflation/deflation
Device 3.The boot last cabin 1 is the shape being consistent with people's knee with lower portion shape comprising is consistent with people's feet shape
Foot and the leg that is consistent with people's shank position shape, the front in the boot last cabin 1 is can open type structure comprising preceding
The boots body 101 of portion's opening and it 101 opening of boots body is set can connect the movable cover plate 102 to form boot last cabin 1 with boots body 101.
It is connected between movable cover plate 102 and boots body 101 by the buckle 104 being arranged on boots body 101, or passes through bandage or velcro etc.
Connection.Movable cover plate 102 can be an overall structure or adopt a split structure, and may include front leg portions when adopting a split structure
1202 two parts of cover plate 1201 and forefoot cover plate.Boots body 101 be it is rigid, can be used 3D printing technique or other industry at
The molding of type technology, preferably 3D printing form.The structure type of multi-cavity air bag 2 is the prior art comprising has multi-cavity, can be three
Chamber or the design of four chambers or five chambers or six chambers or seven chambers or eight chambers or nine chambers or ten chambers etc..Multi-cavity air bag 2 can be using 3D printing
Technology molding or other industrial forming technique moldings, preferably 3D printing form, it can be made to be consistent with people foot and shape of leg,
It is bonded the design of human body, be conducive to save tolerance and shortens the inflation/deflation time.The shape of multi-cavity air bag 2 can for fitting leg and
The wearable flexible sock structure of foot, or people foot and calf can be wrapped in interior infantees by zipper
Structure, or can be bound by bandage and people foot and calf are wrapped in interior infantees structure.Multi-cavity air bag 2 can be fixed on boots
On the inner wall in type cabin 1.In order to guarantee that the comfort of dress, settable flexible material in boot last cabin 1 are such as served as a contrast using soft OK cloth
In.The air-bag control device 3 is connect with multi-cavity air bag 2 by tracheae 11.The air-bag control device 3 uses the prior art,
It mainly includes the power supply sequentially connected, control unit, operating unit, display window, air pump, solenoid valve, pressure sensor
Deng, it can be achieved that intelligent control air bag presses AD HOC, the inflation/deflation repeatedly of sequence.In the present embodiment, air-bag control device 3 is integrated
It is arranged on the bulkhead of the leg in the boot last cabin 1 for a module.
When the utility model is used, boot last cabin is worn on foot, the shank of people and foot are wrapped in it by multi-cavity air bag 2
It is interior, AD HOC, reiteration inflation/deflation are pressed by 3 intelligent control multi-cavity air bag of air-bag control device, formd to local limb
The pulsed pressure of body and tissue plays the role of the flowing for promoting lower limb vascular and lymph and improves microcirculation, accelerates limbs
Tissue fluid reflux, helps to relieve fatigue and edema of lower extremity, prevents related disease.The utility model can wear it when in use
Walking, is more suitable for the allegro life of modern society.The inflation/deflation mode of multi-cavity air bag, may be set to the suitable of various modes
The inflation/deflation repeatedly of sequence realizes the inflation/deflation pressurization and decompression of intelligent program, makes pressure from toes, vola, heel, shank
Gradually inflation/deflation pressurization decompression, so as to form the pulsed pressure to local limbs and tissue, play promote lower limb vascular and
The flowing of lymph and the effect for improving microcirculation accelerate the reflux of limb tissue liquid.
Other parts in the present embodiment are the prior art, and details are not described herein.
Embodiment 2
As shown in figs. 10-11, the present embodiment is substantially the same manner as Example 1, is a difference in that: the air bag control in the present embodiment
In device 3 processed, control unit, operating unit, display window are integrated into control and display module 12, power supply, air pump, solenoid valve,
Pressure sensor etc. is integrated into power plant module 13.The sole site of the foot in boot last cabin 1 is designed as sandwich, air bag controlled dress
It sets 3 power plant module 13 to be arranged in the sandwich, the control of air-bag control device 3 and display module 12 are arranged in boot last
It on the bulkhead of the leg in cabin 1, is connected between control and display module 12 and power plant module 13 by conducting wire, conducting wire is arranged in boot last
In the bulkhead interlayer in cabin 1.
Other parts in the present embodiment are same as Example 1, and details are not described herein.
Embodiment 3
As shown in Fig. 12, the present embodiment is substantially the same manner as Example 1, is a difference in that: the boot last cabin 1 in the present embodiment
Ankle-joint position be designed as adjustable angle section structure, such as boot last cabin leg and foot designs be split type structure, the two
It is flexibly connected, angular adjustment can be carried out by the angular adjustment lock 4 of setting between the two, it is more comfortable to wear.This implementation
The other parts of example are same as Example 1, and details are not described herein.
Certainly, the other parts in the present embodiment can also be same as Example 2, and details are not described herein.