CN217772754U - Orthopedic traction frame - Google Patents

Abstract

The utility model discloses an orthopedics traction frame, including the traction frame body, the traction frame body includes crossbeam pole, bearing diagonal pole, semicircle ring, include: the traction frame pad is arranged above the traction frame body; the traction frame pad comprises a shank and a thigh, two sides of the shank are connected with the cross beam rod, two sides of the thigh are connected with the inclined support rod, and the rear side of the thigh is connected with the semicircular ring; the upper surface of the lower leg part is provided with a heel vesicle, an ankle vesicle and a lower leg vesicle which are sequentially arranged, the heel vesicle is communicated with the lower leg vesicle, the lower leg vesicle is communicated with a first injection port on the lower surface of the traction frame pad, and the ankle vesicle is communicated with a second injection port on the lower surface of the traction frame. The utility model has the advantages that: 1. the air or liquid is filled in each vesicle to swell the vesicle so as to conform to the shape of the foot and the leg of the patient and provide enough support for the patient.

Description

Orthopedic traction frame

Technical Field

The utility model belongs to move material apparatus field, concretely relates to orthopedics traction frame.

Background

Bone traction is one of the methods for reduction and fixation of fracture and treatment of many other orthopedic diseases in orthopedics department, especially for the patient who is not suitable for operation, can achieve the treatment purpose through traction, and for the patient who is fractured in the lower leg or has other lower limb diseases, because the lower limb is difficult to move, a posture is kept for a long time, the rehabilitation of the lower limb is not facilitated, and joint stiffness, muscle spasm and even skin necrosis are easily caused, and the lower limb rehabilitation of the patient is usually helped through a traction frame clinically. Present traction frame adopts mostly to spread cover gauze and cotton pad and supports patient's shank in traction frame main part, but because the shank is put to the patient for a long time, gauze and cotton pad are damaged easily, also do not laminate enough to patient's shank, can not provide comfortable ground support.

To sum up, for solving current technical problem, the utility model designs an orthopedics traction frame that simple structure, utilization vesicle are aerifyd or the water injection is adjusted and is supported patient's shank.

Disclosure of Invention

The utility model discloses a solve current technical problem, designed a simple structure, utilized the vesicle to inflate or the water injection adjusts the orthopedics traction frame that supports patient's shank.

The purpose of the utility model can be realized by the following technical proposal:

the utility model provides an orthopedics traction frame, includes the traction frame body, the traction frame body includes crossbeam pole, bearing diagonal pole, semicircle ring, includes:

the traction frame pad is arranged above the traction frame body;

the traction frame pad comprises a shank and a thigh, two sides of the shank are connected with the cross beam rod, two sides of the thigh are connected with the inclined support rod, and the rear side of the thigh is connected with the semicircular ring;

the upper surface of the lower leg part is provided with a heel vesicle, an ankle vesicle and a lower leg vesicle which are sequentially arranged, the heel vesicle is communicated with the lower leg vesicle, the lower surface of the lower leg vesicle on the traction frame pad is communicated with a first injection hole, and the lower surface of the lower leg vesicle on the traction frame pad is communicated with a second injection hole.

Furthermore, the two sides of the shank part are detachably connected with the beam rod through long magic tapes, hook surfaces of the long magic tapes are arranged on the outer sides of the two side edges of the shank part, and hair surfaces of the long magic tapes are arranged below the two side edges of the shank part.

Furthermore, a magnetic button is arranged above the hook surface of the long magic tape.

Furthermore, a popliteal fossa part is connected between the lower leg part and the upper leg part, and the popliteal fossa part is made of elastic fabric.

Furthermore, thigh portion edge can be dismantled with bracing piece, semicircle ring and be connected through the magic subsides of bar.

Further, the heel vesicle comprises a surrounding vesicle and a supporting vesicle, wherein the surrounding vesicle is arranged around the supporting vesicle, and the surrounding vesicle is communicated with the supporting vesicle.

Furthermore, the crus vesicles are uniformly arranged strip-shaped vesicles, all the crus vesicles are communicated with one another, and narrow communication flow channels are arranged on the crus vesicles.

Compared with the prior art, the utility model discloses the structure sets up rationally: 1. air or liquid is filled in each vesicle to enable the vesicle to swell, so that the foot and leg shapes of the patient are met, and the patient is sufficiently supported; 2. the magnetic force can be used for covering and fixing disposable cushion materials such as waterproof films, gauzes and the like on the upper surface of the traction frame cushion, so that the traction frame cushion is prevented from being polluted by blood stains or medicine stains of a patient; 3. the traction frame pad is detachably connected with the traction frame body through the magic tapes arranged at each position, and the traction frame is convenient to clean, fill and discharge the vesicle, adjust the position and the like.

Drawings

FIG. 1 is an overall schematic view of the orthopedic traction frame;

FIG. 2 is a schematic diagram of the top surface of the traction frame pad;

FIG. 3 is a schematic view of the lower surface of the traction frame pad;

fig. 4 is a schematic view of a magnetic buckle.

Detailed Description

The technical solution of the present invention is further explained below with reference to the following examples. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The first embodiment is as follows:

the utility model provides an orthopedics traction frame, includes traction frame body A, traction frame body A includes crossbeam pole A1, bearing diagonal pole A2, semicircle ring A3, includes:

the traction frame cushion 1 is arranged above the traction frame body A, and the traction frame cushion 1 is arranged above the traction frame body A;

the traction frame pad 1 comprises a lower leg part 2 and an upper leg part 3, wherein two sides of the lower leg part 2 are connected with a cross beam rod A1, two sides of the upper leg part 3 are connected with an inclined support rod A2, and the rear side of the upper leg part A is connected with a semicircular ring A3;

the upper surface of the shank 2 is provided with a heel vesicle 41, an ankle vesicle 42 and a shank vesicle 43 which are sequentially arranged, the heel vesicle 41 is communicated with the shank vesicle 43, the lower surface of the shank vesicle 43 of the traction frame pad is communicated with a first injection port 431, and the lower surface of the traction frame pad is communicated with a second injection port 421 of the ankle vesicle 42.

Specifically, when using, the connection is laid on traction frame body A to traction frame pad 1, patient's leg and foot position is shelved on traction frame pad 1, the shank corresponds shank 2, the thigh corresponds thigh 3, semicircle ring A3 supports thigh root, heel vesicle 41 and shank vesicle 43 fill air or liquid through injection mouth two 431 and swell, can flexibly deform when contacting with patient's limbs, more laminate with patient's skin, provide the holding power, ankle vesicle 42 is independent of heel vesicle 41 and shank vesicle 43, can be through the volume of the air or the liquid of injection mouth 421 independent control, change the swelling height of ankle vesicle 42, with the radian of cooperation patient's ankle, make the patient more comfortable.

The second embodiment:

the difference between the second embodiment and the first embodiment lies in that two sides of the small leg part 2 are detachably connected with the beam rod A1 through long magic tapes 21, hook surfaces of the long magic tapes 21 are arranged on the outer sides of the edges of the two sides of the small leg part 2, and hair surfaces of the long magic tapes 21 are arranged below the edges of the two sides of the small leg part 2.

The edge of the thigh part 3 is detachably connected with the inclined support rod A2 and the semicircular ring A3 through a strip magic tape 31.

Specifically, paste 21 and be connected with crossbeam pole A1 through microscler magic, compare in the clip isotructure of current use, it is more firm, the atress area is bigger, is difficult to the damage, also convenient dismantlement installation.

Example three:

the difference between the third embodiment and the second embodiment is that a magnetic button 22 is disposed above the hook surface of the long magic tape 21.

Specifically, disposable cushion materials such as waterproof films and gauze can be laid on the traction frame cushion 1, the edges of the cushion materials are clamped and fixed by the magnetic buttons 22, and blood stains or medicine stains of a patient can be prevented from polluting the traction frame cushion 1.

Example four:

the fourth embodiment is different from the first embodiment in that a popliteal fossa portion 4 is connected between the lower leg portion 2 and the upper leg portion 3, and the popliteal fossa portion 4 is made of an elastic fabric.

Specifically, because the patient size is different, make the degree that traction frame pad 1 sinks different when the leg is put, then elastic fabric's popliteal fossa portion 4 can stretch according to the degree that sinks, and patient's popliteal fossa of laminating reduces and is felt soon.

Example five:

the difference between the fifth embodiment and the first embodiment is that the heel vesicle 41 comprises a surrounding vesicle 411 and a supporting vesicle 412, the surrounding vesicle 411 is arranged around the supporting vesicle 412, and the surrounding vesicle 411 is communicated with the supporting vesicle 412.

Specifically, when the heel of the patient is placed on the heel vesicle 41, the support vesicle 411 supports the center of the heel, the support vesicle 411 is sunken downwards, the surrounding vesicle 412 is pulled to incline towards the support vesicle 411 to surround the periphery of the heel, so that the heel of the patient is fixed when being placed, and traction is facilitated.

Example six:

the sixth embodiment is different from the first embodiment in that the lower leg vesicles 43 are strip-shaped vesicles which are uniformly arranged, the lower leg vesicles 43 are communicated with one another, and a narrow communication flow channel 432 is formed in the lower leg vesicles 43.

Specifically, when the lower leg of the patient is placed on the lower leg bubble 43, the plurality of lower leg bubbles 43 can be bent, and the narrow communicating flow passage 432 is less in air or liquid and can be bent to fit the arc line of the muscle of the lower leg of the patient after being pressed.

The preferred embodiments of the present invention are described herein, but the scope of the present invention is not limited thereto. Modifications or additions to or replacement by similar means to those skilled in the art to which the invention pertains to the specific embodiments described herein are intended to be covered by the scope of the invention.

Claims (7)

1. The utility model provides an orthopedics traction frame, includes the traction frame body, the traction frame body includes crossbeam pole, bearing diagonal pole, semicircle ring, its characterized in that includes:

the traction frame pad is arranged above the traction frame body;

the traction frame cushion comprises a shank and a thigh, two sides of the shank are connected with the cross beam rod, two sides of the thigh are connected with the inclined support rod, and the rear side of the thigh is connected with the semicircular ring;

the upper surface of the lower leg part is provided with a heel vesicle, an ankle vesicle and a lower leg vesicle which are sequentially arranged, the heel vesicle is communicated with the lower leg vesicle, the lower leg vesicle is communicated with a first injection port on the lower surface of the traction frame pad, and the ankle vesicle is communicated with a second injection port on the lower surface of the traction frame.

2. The orthopedic traction frame as claimed in claim 1, wherein two sides of the lower leg are detachably connected to the cross beam via long velcro tapes, hook surfaces of the long velcro tapes are disposed on the outer sides of two side edges of the lower leg, and a hair surface of the long velcro tapes is disposed on the lower side of two side edges of the lower leg.

3. The orthopedic traction frame as claimed in claim 2, wherein a magnetic button is disposed above the hook surface of the long Velcro.

4. The orthopedic traction frame of claim 1, wherein a popliteal fossa is connected between the lower leg portion and the upper leg portion, and the popliteal fossa is an elastic fabric.

5. The orthopedic traction frame as claimed in claim 1, wherein the edge of the thigh is detachably connected to the diagonal support bar and the semi-circular ring by means of a strip-type hook and loop fastener.

6. The orthopedic traction frame of claim 1 wherein the heel pocket comprises a surrounding pocket, a support pocket, the surrounding pocket disposed around the support pocket, the surrounding pocket and the support pocket communicating with each other.

7. The orthopedic traction frame of claim 1, wherein the lower leg vesicles are uniformly arranged strip-shaped vesicles, and are communicated with each other, and narrow communication channels are provided on the lower leg vesicles.

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