CN217067000U

CN217067000U - Automatic pneumatic lower limb massager

Info

Publication number: CN217067000U
Application number: CN202123447919.XU
Authority: CN
Inventors: 解远峰; 吴志颖; 金彦青
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-31
Filing date: 2021-12-31
Publication date: 2022-07-29
Anticipated expiration: 2031-12-31

Abstract

The utility model relates to an automatic pneumatic massage appearance of low limbs. The existing lower limb pneumatic massage device can not massage the lower limbs of patients in sequence. The automatic pneumatic lower limb massager comprises an electric air pump, a pressurizing trouser cover, a controller, linkage selection double-body valves and a servo motor, wherein the lower end of the pressurizing trouser cover is provided with a foot cover, a foot air bag is arranged in the foot cover, each linkage selection double-body valve comprises an A valve and a B valve, the outlet of the electric air pump is connected with an air pump connector pipe of the A valve through a one-way valve, three air bag connector pipes of the A valve are respectively connected with the foot air bag, the crus air bag and the knee air bag according to the rotating sequence of a valve core of the A valve, the inlet of the electric air pump is connected with the air pump connector pipe of the B valve, and three air bag connector pipes of the B valve are respectively connected with the crus air bag, the knee air bag and the foot air bag according to the rotating sequence of the valve core of the B valve. The utility model discloses simple structure, with low costs, the operation is reliable to the artifical order massage of fungible suffers from the limb, is fit for paralysed patient or has the old person of the atrophy lower limbs thrombus risk of low limbs and uses.

Description

Automatic pneumatic lower limb massager

Technical Field

The utility model relates to an automatic pneumatic massage appearance of low limbs.

Background

When a human body is bedridden for a long time or sits for a long time, the condition that deep vein thrombus is formed on the lower limb easily occurs, the lower limb blood vessel is blocked and lesion is caused, pulmonary embolism and other serious clinical conditions are easily caused.

Clinically, for patients lying in bed for a long time and patients lying in bed after surgical operation, low molecular heparin subcutaneous injection, oral anticoagulant drugs, methods of raising limbs of the lower limbs, strengthening muscle massage of the limbs of the lower limbs and the like can be adopted, so that the problems of unsmooth blood flow, muscular atrophy and the like of the veins of the lower limbs, particularly deep veins can be solved, and the occurrence of clinical serious complications such as pulmonary embolism and the like can be reduced and prevented.

However, the above methods are time-consuming, laborious and not exact in therapeutic effect; the anticoagulation therapy cannot be applied due to intracranial hemorrhage, high postoperative bleeding risk, gastrointestinal hemorrhagic lesion and the like of a patient, and meanwhile, the anticoagulation therapy also brings important organ bleeding risk to the patient.

And for the old, the patients with diabetes, Parkinson and the like, the venous thrombosis of the lower limbs is very easily formed under the conditions of long-time inactivity, long-time sitting (such as long-time airplane travel, long-time meeting) and the like, and the method is also not suitable for long-term application of medical anticoagulation treatment.

The blood circulation of the lower limbs of the patient can be effectively enhanced by manually massaging the lower limbs of the patient from bottom to top or from top to bottom in sequence. Reduce the venous thrombosis of the lower limbs and reduce and avoid the occurrence of serious complications such as pulmonary embolism and the like. Meanwhile, the repeated contraction and massage effects of the lower limb circulation auxiliary device can also prevent the occurrence of the muscle atrophy of the individual. However, the manual massage is high in cost and labor intensity, and is difficult to benefit all patients.

2012.10.03 the authorized bulletin number is: CN 202459232U, a chinese utility model discloses a pneumatic leg-wrapping massage device for lower limbs. The split air bags are mutually communicated, have no functions of local inflation and local pressing, and certainly can not extrude and massage the lower limbs of patients from top to bottom or from bottom to top.

2017.04.12 the authorized bulletin number is: CN 206079132U, chinese utility model discloses a patient trousers for preventing deep venous thrombosis, which only has an air bag, and can only be inflated and pressurized integrally, and certainly can not extrude and massage the lower limbs of the patient from top to bottom or from bottom to top.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide an automatic air pressure massager for lower limbs.

For solving above-mentioned technical problem, this automatic pneumatic massager of low limbs, including electronic air pump, pressurization trousers cover and controller, knee, the shank part of pressurization trousers cover are equipped with knee gasbag and shank gasbag respectively, electronic air pump is controlled by the controller, aerifys its characterized in that for each gasbag: the lower end of the pressurizing trouser cover is provided with a foot cover, the foot cover is also internally provided with a foot air bag, the pressurizing trouser cover also comprises a linkage selection double-body valve and a servo motor, each linkage selection double-body valve comprises an A valve and a B valve, the A valve and the B valve respectively comprise a valve shell, a valve core and a valve rod, the valve shell is in a cone tube shape, the valve core is in a frustum shape, the valve shell is provided with three air bag interface tubes and an air pump interface tube, the diameters of the three air bag interface tubes are equal and are uniformly distributed around the axis of the valve shell, the axial leads of the three air bag interface tubes are all positioned on the same vertical plane of the axis of the valve shell, the air pump interface tube and the three air bag interface tubes are staggered up and down, the valve core is provided with an annular groove, the annular groove is provided with a chute pointing to one side of the three air bag interface tubes, the inner ends of the three air bag interface tubes and the air pump tube are all communicated with the inner space of the valve shell, the air pump interface tube is always opposite to the annular groove, the inclined groove can be communicated with any one air bag interface tube,

the knee air bag, the shank air bag and the foot air bag are respectively provided with an air inlet and outlet three-way pipe, one of the knee air bag, the shank air bag and the foot air bag is also provided with an inflation port with a one-way valve, and the three air bags are matched with an inflator.

The outlet of the electric air pump is connected with an air pump interface tube of the valve A through a one-way valve, three air bag interface tubes of the valve A are respectively connected with one interface of an air inlet and outlet three-way tube of the foot air bag, the shank air bag and the knee air bag according to the rotation sequence of a valve core of the valve A, the inlet of the electric air pump is connected with an air pump interface tube of the valve B, three air bag interface tubes of the valve B are respectively connected with one interface of an air inlet and outlet three-way tube of the shank air bag, the knee air bag and the foot air bag according to the rotation sequence of the valve core of the valve B, and the electric air pump transfers air among the knee air bag, the shank air bag and the foot air bag in sequence under the control of the controller, so that the lower limbs of a user are subjected to squeezing massage.

Before use, an inflator (see CN 202851290U) is used for inflating the related air bags through an inflation inlet with a one-way valve, air is fed to and extruded from the corresponding parts of the lower limbs of a user, the electric air pump and the servo motor are stopped, after a preset time (such as 1-2 minutes) is waited, the electric air pump is used for filling the air in the related air bags into the next air bag under the control of the controller, and the foot air bags, the calf air bags and the knee air bags are alternately inflated and deflated for circulation, so that the inflated air bags are used for carrying out squeezing massage on the lower limbs of the user. By the design, the lower limbs of a user can be sequentially squeezed from bottom to top or from top to bottom by only selecting the double-body valve and the two one-way valves in a linkage manner under the control of a common clock controller, so that the blood circulation of the lower limbs is promoted.

Preferably, the foot airbag, the lower leg airbag and the knee airbag have equal volumes. The design is convenient for the gas to flow and transfer among the air bags.

Preferably, the pressurizing trousers sleeve is provided with a zipper. By the design, the zipper is unzipped, so that the pressurizing trousers sleeve can be conveniently worn by the patient, and the pressurizing trousers sleeve can be fixed on the lower limb of the patient by zipping the zipper.

Preferably, the gear on the valve A and the gear on the valve B are directly meshed. By designing the valve cores of the valve A and the valve B in opposite rotating directions, the connection sequence of the three air bag interface tubes on the A, B valve is correspondingly opposite.

Preferably, the gear on the valve A and the gear on the valve B are meshed through a linkage gear. By the design, the valve cores of the valve A and the valve B rotate in the same direction, and correspondingly, the connection sequence of the three air bag interface tubes on the A, B valve is also the same.

Preferably, the inner side of the pressurizing trouser cover is provided with a suede surface and a plurality of massage bulges, the bottom surfaces of the massage bulges are provided with hook surfaces, the hook surfaces and the suede surface form a magic tape structure, and the massage bulges are detachably fixed at different positions of the inner side of the pressurizing trouser cover through the magic tape structure. So design, before using, medical personnel will massage protrudingly through magic subsides paste in the inboard relevant position of pressurization trousers cover, make the massage protruding corresponding acupuncture point of aiming at patient's low limbs just, then restart the automatic pneumatic massage appearance of low limbs, massage effect is better.

Preferably, the sole part and the heel shoe cover of the foot sleeve are respectively provided with a bottom plate and a heel back plate, the bottom plate and the heel back plate are hinged with each other, a torsion spring is sleeved on a hinged shaft of the bottom plate and a base plate is further arranged on the shank part of the pressurizing trousers sleeve, a support column is arranged on the base plate and provided with an electric winch, the electric winch comprises a micro motor and a winch, a twisted rope is wound on the winch, the other end of the twisted rope is connected to the toe part of the foot sleeve, and the micro motor is electrically connected with the controller. During micro motor forward rotation, drive the capstan winch hank and move the hank rope, can drive the tiptoe upwarping of suffering from the limb, during micro motor reverse rotation, drive capstan winch release hank rope, the bottom plate resets under torque spring drives, and the tiptoe that drives simultaneously suffering from the limb is transferred. So design can drive patient's foot motion, and the help patient is recovered.

The automatic lower limb pneumatic massager has the advantages of simple structure, low cost and reliable operation, can replace manual sequential massage of affected limbs, and is suitable for paralyzed patients or old people with the risk of lower limb atrophy or lower limb thrombosis.

Drawings

The automatic lower limb pneumatic massage instrument is further explained by combining the attached drawings as follows:

FIG. 1 is a schematic structural view of a first embodiment of the automatic lower limb pneumatic massager;

FIG. 2 is an exploded view of the valve A or the valve B according to the first embodiment of the automatic lower limb pneumatic massager;

FIG. 3 is a schematic view of the inflated structure of the air bag of the foot according to the embodiment of the automatic air pressure lower limb massager;

FIG. 4 is a schematic view of the automatic lower limb pneumatic massager of FIG. 3 pumping air from the foot bladder into the lower leg bladder (without the airless line);

FIG. 5 is a schematic view of the lower leg airbag inflated according to the embodiment of the automatic lower limb pneumatic massager;

FIG. 6 is a schematic view of the automatic lower limb pneumatic massager of FIG. 5 pumping air from the lower leg airbag into the knee airbag (no air flow line omitted);

FIG. 7 is a schematic view of the configuration of a knee airbag inflated according to the embodiment of the automatic lower limb pneumatic massager;

FIG. 8 is a schematic view of the automatic lower limb pneumatic massager of FIG. 7 pumping air from the knee airbag into the foot airbag (no air flow line omitted);

fig. 9 is a schematic structural view of a second embodiment of the automatic lower limb pneumatic massager.

In the figure: 1 is an electric air pump, 2 is a pressurizing trouser cover, 21 is a knee air bag, 22 is a shank air bag, 23 is a foot air bag, 3 is an A valve, 4 is a B valve, 5 is a valve shell, 6 is a valve core, 7 is a one-way valve, 8 is an air bag connector tube, 9 is an air pump connector tube, 10 is a ring groove, 11 is a chute, 12 is a gear, 13 is a linkage gear, 14 is a massage protrusion, 15 is a zipper, 16 is a bottom plate, 17 is a heel back plate, 18 is a torsion spring, 19 is a base plate, 20 is a support column, 24 is an air inlet and outlet three-way pipe, 25 is an inflation port with a one-way valve, 26 is a micro motor, 27 is a winch and 28 is a twisted rope.

Detailed Description

The first implementation mode comprises the following steps: as shown in fig. 1-8, the automatic pneumatic lower limb massager of the present invention comprises an electric air pump 1, a compression pants sleeve 2 and a controller (not shown in the figure), wherein knee airbags 21 and lower leg airbags 22 are respectively arranged on the knee and lower leg portions of the compression pants sleeve 2, the electric air pump 1 is controlled by the controller to inflate each airbag, and the automatic pneumatic lower limb massager is characterized in that: the lower end of the pressurizing trouser cover 2 is provided with a foot cover, the foot cover is also internally provided with a foot air bag 23, the pressurizing trouser cover further comprises a linkage selection double-body valve and a servo motor (not shown in the figure), each linkage selection double-body valve comprises an A valve 3 and a B valve 4, the A valve and the B valve respectively comprise a valve casing 5, a valve core 6 and a valve rod, the valve casing 5 is in a cone tube shape, the valve core 6 is in a frustum shape, the valve casing 5 is provided with three air bag interface tubes 8 and an air pump interface tube 9, the diameters of the three air bag interface tubes 8 are equal, the three air bag interface tubes 8 are uniformly distributed around the axis of the valve casing 5, the axial leads of the three air bag interface tubes 8 are all positioned on the same vertical plane of the axis of the valve casing 5, the air pump interface tube 9 is vertically staggered with the three air bag interface tubes 8, the valve core 6 is provided with an annular groove 10, the annular groove 10 is provided with a chute 11 pointing to one side of the three air bag interface tubes 8, the inner ends of the three air bag interface tubes 8 and the air pump interface tubes 9 are all communicated with the inner space of the valve casing 5, the air pump joint pipe 9 is always opposite to the annular groove, the valve core 6 is rotated, and the chute 11 can be communicated with any air bag joint pipe 9.

The valve core 6 is connected with one end of a valve rod, a gear 12 is arranged on the valve rod, the gear 12 on the valve A3 is meshed with the gear 12 on the valve B4 through a linkage gear 13, the gear 12 on the valve A3 or the gear 12 on the valve B4 is directly or indirectly driven by the servo motor, the servo motor is electrically connected with and controlled by a controller, the knee air bag 21, the calf air bag 22 and the foot air bag 23 are respectively provided with an air inlet and outlet three-way pipe 24, one of the knee air bag 21, the calf air bag 22 and the foot air bag 23 is also provided with an inflation port 25 with a one-way valve, and an inflator (not shown in the figure) is arranged.

The outlet of the electric air pump 1 is connected with an air pump interface tube 9 of the valve A3 through a one-way valve 7, three air bag interface tubes 8 of the valve A3 are respectively connected with interfaces of an air inlet and outlet three-way pipe 24 of the foot air bag 23, the calf air bag 22 and the knee air bag 21 according to the rotation sequence of a valve core 6 of the valve A3, the inlet of the electric air pump 1 is connected with the air pump interface tube 9 of the valve B4, the three air bag interface tubes 8 of the valve B4 are respectively connected with interfaces of the air inlet and outlet three-way pipe 24 of the calf air bag 22, the knee air bag 21 and the foot air bag 23 according to the rotation sequence of the valve core 6 of the valve B4, and the electric air pump 1 sequentially transfers air among the knee air bag 21, the calf air bag 22 and the foot air bag 23 so as to perform squeezing massage on the lower limbs of a user.

The inner side of the pressurizing trouser cover 2 is provided with a suede surface and a plurality of massage bulges 14, the bottom surfaces of the massage bulges 14 are provided with hook surfaces, the hook surfaces and the suede surface form a magic tape structure, and the massage bulges 14 are detachably fixed at different positions of the inner side of the pressurizing trouser cover through the magic tape structure. The pressurizing trousers sleeve 2 is provided with a zipper 15.

The valve core 6 of the A valve 3 and the B valve 4 is rotatably inserted into the valve housing 5 and is kept in a compressed state, and the two are sealed by a conical surface.

The second embodiment: as shown in fig. 9, the gear 12 on the a valve 3 and the gear 12 on the B valve 4 are directly meshed.

The sole part and the heel shoe cover of the foot sleeve are respectively provided with a bottom plate 16 and a heel back plate 17, the bottom plate 16 and the heel back plate 17 are hinged with each other, a torsion spring 18 is sleeved on a hinged shaft of the bottom plate, a base plate 19 is further arranged at the shank part of the pressurizing trousers sleeve 2, a support column 20 is arranged on the base plate 19, an electric winch is arranged on the support column 20, the electric winch comprises a micro motor 26 and a winch 27, a twisted rope 28 is wound on the winch 27, the other end of the twisted rope 28 is connected to the toe part of the foot sleeve, and the micro motor 26 is electrically connected with the controller.

Claims

1. The utility model provides an automatic pneumatic massager of low limbs, includes electronic air pump, pressurization trousers cover and controller, knee, the shank part of pressurization trousers cover are equipped with knee gasbag and shank portion gasbag respectively, electronic air pump is controlled by the controller, aerifys its characterized in that for each gasbag: the lower end of the pressurizing trouser cover is provided with a foot cover, the foot cover is also internally provided with a foot air bag, the pressurizing trouser cover also comprises a linkage selection double-body valve and a servo motor, each linkage selection double-body valve comprises an A valve and a B valve, the A valve and the B valve respectively comprise a valve shell, a valve core and a valve rod, the valve shell is in a cone tube shape, the valve core is in a frustum shape, the valve shell is provided with three air bag interface tubes and an air pump interface tube, the diameters of the three air bag interface tubes are equal and are uniformly distributed around the axis of the valve shell, the axial leads of the three air bag interface tubes are all positioned on the same vertical plane of the axis of the valve shell, the air pump interface tube and the three air bag interface tubes are staggered up and down, the valve core is provided with an annular groove, the annular groove is provided with a chute pointing to one side of the three air bag interface tubes, the inner ends of the three air bag interface tubes and the air pump tube are all communicated with the inner space of the valve shell, the air pump interface tube is always opposite to the annular groove, the inclined groove can be communicated with any one air bag interface tube,

the valve core is connected with one end of the valve rod, a gear is arranged on the valve rod, the gear on the valve A is meshed with the gear on the valve B directly or through a linkage gear, the gear on the valve A or the gear on the valve B is directly or indirectly driven by the servo motor, the servo motor is electrically connected with the controller and is controlled by the controller, the knee air bag, the calf air bag and the foot air bag are respectively provided with an air inlet and outlet three-way pipe, one of the three is also provided with an inflation port with a one-way valve and is provided with an inflator, the outlet of the electric air pump is connected with an air pump connector pipe of the valve A through the one-way valve, three air bag connector pipes of the valve A are respectively connected with one connector of the air inlet and outlet three-way pipes of the foot air bag, the calf air bag and the knee air bag according to the rotation sequence of the valve core of the valve A, the inlet of the electric air pump is connected with an air pump connector pipe of the valve B, and the three air bag connector pipes of the valve B are respectively connected with the calf air bag according to the rotation sequence of the valve core of the valve B, The electric air pump sequentially transfers air among the knee air bag, the calf air bag and the foot air bag under the control of the controller so as to carry out squeezing massage on the lower limbs of a user.

2. The automatic lower limb pneumatic massager of claim 1, wherein: the foot air bag, the lower leg air bag and the knee air bag are equal in volume.

3. The automatic lower limb pneumatic massager of claim 1, wherein: the pressurizing trousers sleeve is provided with a zipper.

4. The automatic pneumatic lower limb massager of claim 1, wherein: and the gear on the valve A is directly meshed with the gear on the valve B.

5. The automatic lower limb pneumatic massager of claim 1, wherein: and the gear on the valve A is meshed with the gear on the valve B through the linkage gear.

6. The automatic lower limb pneumatic massager of any one of claims 1 to 5, wherein: the inner side of the pressurizing trouser cover is provided with a suede surface and a plurality of massage bulges, the bottom surfaces of the massage bulges are provided with hook surfaces, the hook surfaces and the suede surface form a magic tape structure, and the massage bulges are detachably fixed at different positions of the inner side of the pressurizing trouser cover through the magic tape structure.

7. The automatic lower limb pneumatic massager of any one of claims 1 to 5, wherein: the foot sole part and the heel shoe cover of the foot sleeve are respectively provided with a bottom plate and a heel back plate, the bottom plate and the heel back plate are hinged with each other, a torsion spring is sleeved on a hinged shaft of the bottom plate and the heel back plate, a base plate is further arranged on the shank part of the pressurizing trousers sleeve, a supporting column is arranged on the base plate and provided with an electric winch, the electric winch comprises a micro motor and a winch, a twisted rope is wound on the winch, the other end of the twisted rope is connected to the toe part of the foot sleeve, and the micro motor is electrically connected with the controller.