Disclosure of Invention
The present invention is directed to solving, at least to some extent, one of the above-mentioned problems in the prior art. Therefore, the embodiment of the utility model provides a limb pressurizing device for a barometer, which is used for solving the problem that a limb bag for the barometer cannot enable a patient to freely bend and stretch limbs and is not suitable for multiple body positions.
The limb pressurizing device for the barometer comprises a limb sleeve body, wherein the limb sleeve body is divided into a first limb part, a second limb part and a third limb part, the second limb part is positioned between the first limb part and the third limb part, the second limb part is composed of elastic cloth, and the limb sleeve body is provided with a zipper and a placing space for placing limbs; and a limb pressurizing assembly, including the gasbag that pressurization air inlet, pressure release gas vent and a plurality of communicate in proper order, the pressurization air inlet is established on the third limb portion and with the gasbag intercommunication, the pressure release gas vent is established on the first limb portion and with the gasbag intercommunication, limb cover body is equipped with skin and inside lining cover layer, gasbag evenly distributed is in first limb portion reaches on the third limb portion and be in skin with between the inside lining cover layer.
Furthermore, a stretching surface and a sealing surface are arranged on the second limb part, the stretching surface and the sealing surface are both formed by mesh-shaped elastic cloth, an air path is arranged on the sealing surface, and the air path is communicated with the air bag.
Further, the zipper is positioned on the side surface of the limb sleeve body.
Furthermore, the limb sleeve body is also provided with a limb lining bag, and the limb lining bag is connected with the lining sleeve layer.
Preferably, the limb lining bag is a treatment towel.
In this embodiment, a temperature sensor is further disposed on the inner jacket layer.
Preferably, the limb sleeve body is internally provided with a moxa magnet paste, and the moxa magnet paste is connected with the inner lining layer.
Furthermore, a plurality of elastic belts are arranged in the limb sleeve body and are uniformly fixed on the inner lining sleeve layer.
Furthermore, the first limb part is provided with external fixing belts, and the external fixing belts are distributed on two sides of the first limb part.
Preferably, the end part of the outer fixing band is provided with a magic tape.
Based on the technical scheme, the embodiment of the utility model at least has the following beneficial effects: in the technical scheme, when the limb pressurizing device for the barometer is used, the zipper on the limb sleeve body is unzipped, then one limb of a patient is placed in the limb sleeve body, the limb sleeve body can be fixed on the limb by pulling the zipper, a plurality of sequentially communicated air bags are arranged between the inner layer and the outer layer of the limb sleeve body except for the second limb, air enters from the pressurizing air inlet of the third limb, the air bags are gradually filled with air one by one, the third limb is filled with air firstly and then reaches the first limb, certain pressure can be generated to press the limb of the patient after pressurization is formed, when the pressure relief air outlet arranged on the first limb is opened, the air in the air bags can be released and reduced, the process of inflating and deflating is carried out in a circulating mode through the barometer, stepped massage can be realized, the second limb is not provided with the air bags and is formed by using elastic cloth so that the patient can not move around the limb timely at any time The joint can also facilitate the adjustment of limbs when adjusting the body position, further improve the treatment effect of patients, and also solve the problem that the limb bag on the market can not allow the patients to freely bend and stretch limbs and is not suitable for multiple body positions.
Detailed Description
Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.
In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
In the description of the present invention, the meaning of a plurality of means is one or more, the meaning of a plurality of means is two or more, and larger, smaller, larger, etc. are understood as excluding the number, and larger, smaller, inner, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.
In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.
Referring to fig. 1 to 3, a limb compression device for a barometer according to an embodiment of the utility model includes a limb sleeve body and a limb compression assembly.
A limb sleeve body, the limb sleeve body is divided into afirst limb part 11, asecond limb part 12 and athird limb part 13, thesecond limb part 12 is arranged between thefirst limb part 11 and thethird limb part 13, thesecond limb part 12 is composed of elastic cloth, the limb sleeve body is provided with azipper 32 and a placing space for placing limbs, thefirst limb part 11, thesecond limb part 12 and thethird limb part 13 are sewn into a whole to form the limb sleeve body, and thezipper 32 can open the limb sleeve body, after thezipper 32 on the limb sleeve body is pulled open, one limb of a patient can be placed in the limb sleeve body, after thezipper 32 is pulled up, the limb sleeve body can be fixed on the limb of the patient, when the patient uses the limb pressurizing device, the limb joint of the patient is positioned at thesecond limb part 12, because thesecond limb part 12 is composed of elastic cloth, the patient can freely stretch and adjust the limb to move, particularly for patients with limb contracture and excessive flexion, the limb sleeve body can well improve the treatment effect, and the body position of the patient can be adjusted after wearing the limb sleeve body, so that the limb sleeve body is suitable for various patients with limb diseases and needing thrombus prevention. Specifically, thezipper 32 is located on the side surface of the limb sleeve body, and thezipper 32 arranged on the side surface can prevent the limb sleeve body from being easily loosened when the patient moves the limbs or adjusts the body position.
In the present embodiment, the limb compression device for barometer can be applied to the patient's upper or lower limb, and as will be understood with reference to fig. 1, when applied to the patient's lower limb, thefirst limb portion 11 is the thigh portion of the lower limb, thesecond limb portion 12 is the joint portion of the lower limb, and thethird limb portion 13 is the foot portion of the lower limb. Although only the limb compression device for an barometer applied to the lower limb is shown in the drawings, the device may be applied to the upper limb depending on the limb structure of the upper limb, specifically, thefirst limb portion 11 corresponds to the arm of the upper limb, thesecond limb portion 12 corresponds to the elbow joint of the upper limb, and thethird limb portion 13 corresponds to the palm of the upper limb.
The limb pressurizing assembly comprises a pressurizingair inlet 22, a pressurerelief air outlet 21 and a plurality ofair bags 34 which are sequentially communicated, wherein the pressurizingair inlet 22 is arranged on thethird limb portion 13 and is communicated with theair bags 34, the pressurerelief air outlet 21 is arranged on thefirst limb portion 11 and is communicated with theair bags 34, the limb sleeve body is provided with an outer layer and an inner sleeve layer, and theair bags 34 are uniformly distributed on thefirst limb portion 11 and thethird limb portion 13 and are positioned between the outer layer and the inner sleeve layer. The outer layer and the inner lining layer of the limb sleeve body and theair bags 34 are fixedly connected by fishbone-shaped suture, theair bags 34 on thethird limb portion 13 and thefirst limb portion 11 are uniformly sewn between the outer layer and the inner lining layer of thefirst limb portion 11 and thethird limb portion 13, theair bags 34 of thethird limb portion 13 are sequentially communicated, theair bags 34 on thefirst limb portion 11 are sequentially communicated, theair bags 34 on thethird limb portion 13 close to thesecond limb portion 12 are communicated with theair bags 34 on thefirst limb portion 11 close to thesecond limb portion 12, and referring to fig. 3, thesecond limb portion 12 is not provided with theair bags 34. Specifically, when the limb sleeve body is connected to a patient, after thepressurization air inlet 22 and the pressurerelief air outlet 21 are connected to an external barometer, the barometer leads air from thepressurization air inlet 22 into theair bags 34, and simultaneously closes the pressurerelief air outlet 21 to prevent the air from flowing out, after theair bags 34 of thethird limb part 13 are sequentially filled with the air, the air is transferred into theair bags 34 of thefirst limb part 11 and is sequentially filled, when all the sequentially filledair bags 34 are filled with the air, theair bags 34 are in an expanded state, in the inflation and pressurization process, the patient can feel that the limb in the limb sleeve body is sequentially pressurized from the farthest end of thethird limb part 13 to thefirst limb part 11, after the pressurization is completed, the pressurerelief air outlet 21 is opened for a stable period of time, the air is leaked from theair outlet 21, the pressure of the patient on the limb is released by the pressure of the limb sleeve body, and the tissues of the limb are relaxed and relaxed, after a certain time, the circulation of inflating, pressurizing, then deflating and decompressing is carried out again through the barometer, the limb of the patient can be well massaged by the circulation mode of far-end to near-end stepped pressurization, the occurrence of deep venous thrombosis of the limb is well prevented, meanwhile, the limb can be inconvenient or tense, and a patient with a joint bent can also use the circulation mode, so that the problem that the patient can not freely bend and stretch the limb and is not suitable for multiple positions by the existing limb bag is greatly solved.
As a further improvement of the above embodiment, thesecond limb portion 12 is provided with astretching surface 15 and asealing surface 14, both thestretching surface 15 and thesealing surface 14 are formed by mesh-like elastic cloth, and thesealing surface 14 is provided with an air passage which is communicated with theair bag 34. As can be seen from fig. 1 and 2, referring to the knee joint of the lower limb of the human body, theupper stretching surface 15 of thesecond limb portion 12 is divided into a knee end and a popliteal fossa end, both ends of which have no gas passage, and are sewn by mesh-shaped elastic cloth, which has good gas permeability, sufficient elasticity can enable the patient to freely perform joint movement and posture adjustment, such as bending, knee bending, elbow bending and the like, even if the patient with contracture limb can use the elastic cloth, and the improvement can enable the patient to wear comfortably and recover more quickly. The closedsurface 14 can also be formed by elastic cloth with a net surface, the outer layer of the closedsurface 14 and the inner lining layer are provided with a plurality of air channels for communicating theair bags 34 of thethird limb part 13 and thefirst limb part 11, so that the limbs can move freely, meanwhile, theair bags 34 can be communicated, and a circulation mode of stepped pressurization from the far end to the near end is completed, thereby further improving the treatment effect of the patient.
Preferably, the limb sleeve body is also provided with a limb lining bag, and the limb lining bag is connected with the lining sleeve layer. In some embodiments, the limb lining bag is detachably connected to the lining sleeve layer, and the matching magic tapes are respectively arranged on the limb lining bag and the lining sleeve layer, preferably, the limb lining bag is a therapeutic towel. On one hand, when the limb sleeve body is used for the lower limbs of a patient, the limb sleeve body is easy to pollute under the condition of incontinence of urine and feces of a patient who is unconscious for a long time and is easy to damage after being cleaned regularly when a disposable limb lining bag is not arranged; on the other hand, the disposable limb lining bag is arranged, so that the limb sleeve body can be prevented from causing cross infection under the condition of use by a plurality of people, the limb lining bag can be replaced once for each use, one limb lining bag is arranged by one person at a time, and the protection and isolation of the patient are enhanced. In other embodiments, a limb lining bag of a waterproof and contamination-proof material similar to the therapeutic towel may also be used.
Further, still be equipped with temperature sensor on the inside lining jacket layer, temperature sensor evenly distributed is on inside lining jacket layer and press close to the skin of disease limbs, measure the temperature of disease limbs body surface, this temperature sensor cooperates the infrared mode of heating of barometer to use, under the infrared mode of heating of barometer, the bulk temperature of heating limbs cover body and conduction to disease limbs, the body surface temperature real-time feedback who measures disease limbs through temperature sensor makes its adjustment heating process to the barometer, when the high temperature, the barometer reduces the infrared power of heating, prevent to scald the disease, the blood circulation of disease limbs has further been improved.
Furthermore, amoxa magnet paste 35 is arranged in the limb sleeve body, and themoxa magnet paste 35 is connected with the inner lining layer. Specifically, the hook and loop fastener may be disposed on the inner liner layer, themoxa magnet tape 35 may be connected to the inner liner layer through the hook and loop fastener, and in other embodiments, themoxa magnet tape 35 may be directly attached to the limb of the patient and not necessarily connected to the inner liner layer. As shown in fig. 4, in the embodiment, themoxa magnet paste 35 is rectangular, but magnets are not disposed on themoxa magnet paste 35, so that acupuncture points do not need to be considered, the moxa magnet paste can be placed at any position of the inner liner layer, particularly a position close to aching pain or edema of a patient limb, and the infrared heating mode of the barometer is matched to promote blood circulation and improve edema. Fig. 5 is amoxa magnet patch 35 at a single acupoint in the present embodiment, fig. 6 is amoxa magnet patch 35 at two acupoints in the present embodiment, fig. 7 is amoxa magnet patch 35 at three acupoints in the present embodiment, all threemoxa magnet patches 35 can be attached to the acupoints corresponding to the limbs of a patient, and circles in fig. 5, 6 and 7 are magnets, so that when the limb sleeve body is matched with an air pressure gauge to perform a circulation mode of stepped pressurization from the distal end to the proximal end, the acupoints of the limbs of the patient can be massaged, the edema problem of the patient is further improved, and the blood circulation is promoted.
In this embodiment, in order to fix the limb sleeve body on the limb of the patient more conveniently, referring to fig. 3, a plurality ofelastic bands 33 are further disposed in the limb sleeve body, theelastic bands 33 are uniformly fixed on the inner sleeve layer, and when the limb sleeve is used, theelastic bands 33 can be stretched and can be fixed with the limb of the patient in a self-adaptive manner, so that too much pressure cannot be applied to the patient. Preferably, be equipped withexternal fixation area 31 onfirst limb portion 11,external fixation area 31 distributes in 11 both sides of first limb portion, and the left and right sides is each one, and is specific, is provided with the magic subsides on the tip ofexternal fixation area 31, and twoexternal fixation areas 31 pass through magic subsides fixed connection of each other, and this setting is convenient for fix at patient's waist or offside shank, avoids the disease limbs cover body pine to take off when the limbs that move about.
The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.