CN220002182U - Ankle fracture bed lifting pad - Google Patents

Abstract

The utility model discloses an ankle fracture bedridden lifting pad, wherein a first lifting body and a second lifting body are connected through a deformable part, a foot containing space with an opening is formed by surrounding the first lifting body, the deformable part and the second lifting body, and the width of the foot containing space can be adjusted through deformation of the deformable part; the connecting piece is detachably connected between the first lifting body and the second lifting body so as to keep the width of the foot accommodating space after adjustment; the ankle positioning ring is detachably sleeved at the ankle of the human body, and can be placed in the foot accommodating space. The lifting pad has strong universality, can be adjusted according to the needs, is suitable for multiple people to use, and saves the use cost. Meanwhile, the ankle positioning ring can be sleeved at the ankle fracture position to fix the ankle again, so that postoperative rehabilitation of ankle fracture patients is facilitated.

Description

Ankle fracture bed lifting pad

Technical Field

The utility model relates to an ankle fracture bedridden lifting pad.

Background

Ankle is a relatively easy injured part when exercising or walking, and a patient with severe ankle fracture needs to perform repair operation. However, after the operation, the user needs to lie down at night, if the ankle is not lifted and fixed, the ankle is stressed, so that the user can feel pressure on the ankle, the sleeping comfort level is poor, and the user cannot sleep even overnight.

The existing ankle fixing device is made of softer materials such as cloth, has poor shaping effect, does not have lifting effect, does not improve sleeping comfort level, and is not beneficial to postoperative recovery; some are made of metal plates, but the metal plates have high rigidity and cannot be bent, and a complex connecting device is needed for connecting all parts, so that the wearing process is complex.

The patent with the publication number of CN107411862A and the name of 3D printing ankle fracture postoperative fixing plate comprises a front end fixing plate, a rear end fixing plate and a foot fixing plate which are detachably connected, wherein the front end fixing plate covers the front side surface and the upper foot surface of an ankle part, the rear end fixing plate covers the rear side surface and the heel part of an ankle part, the foot fixing plate is sleeved on a foot part, a connecting device is arranged at the outer side part of the ankle and positioned at the outer side of the ankle, and the front end fixing plate, the rear end fixing plate and the foot fixing plate all establish a three-dimensional model according to the actual size of a patient and are printed by a 3D printer. Although this fixed plate size safety laminating patient's ankle, convenient to wear, however, a fixed plate can only adapt to a patient and use, and different patients, foot size variation are great, can't be general like the foot size gap between adult and child, and the wild-type nature is poor, and use cost is high.

Disclosure of Invention

The utility model provides an ankle fracture bedridden lifting pad which overcomes the defects in the prior art. The technical scheme adopted for solving the technical problems is as follows:

the ankle fracture bedridden lifting pad comprises a first lifting body, a second lifting body, a deformable part, an ankle positioning ring and a connecting piece, wherein the first lifting body and the second lifting body are connected through the deformable part, a foot containing space with an opening is formed by surrounding the first lifting body, the deformable part and the second lifting body, and the width of the foot containing space can be adjusted through deformation of the deformable part; the connecting piece is detachably connected between the first lifting body and the second lifting body so as to keep the width of the foot accommodating space after adjustment; the ankle positioning ring is detachably sleeved at the ankle of the human body, and the ankle positioning ring can be placed in the foot accommodating space.

In a preferred embodiment: the deformable part adopts a telescopic organ structure.

In a preferred embodiment: the ankle positioning ring is arranged in the accommodating groove.

In a preferred embodiment: the bottom wall of the accommodating groove is provided with an arc surface which is matched with the curve of the leg and foot of the human body.

In a preferred embodiment: the bottom wall of the accommodating groove is also provided with a limiting groove for limiting the ankle positioning ring.

In a preferred embodiment: the connecting piece is a magic tape, an elastic rope or an elastic belt.

In a preferred embodiment: the heating device comprises a heating circuit and a heating plate, wherein the heating circuit is arranged inside the first lifting body or the second lifting body, and the heating plate is clamped between the foot containing space and the soft cushion and is electrically connected with the heating circuit.

In a preferred embodiment: the heating device further comprises a battery, the first lifting body or the second lifting body is provided with a battery compartment with an opening, and the battery is detachably arranged in the battery compartment.

In a preferred embodiment: the battery cover is connected to the opening of the battery compartment.

In a preferred embodiment: the ankle locating ring is made of sponge materials.

Compared with the background technology, the technical proposal has the following advantages:

1. the ankle fracture lifting pad can be lifted at the ankle fracture position, the deformable part can deform according to the size of the foot of a human body to adjust the width of the foot accommodating space, and then the connecting piece is used for keeping and positioning the width, so that the ankle fracture lifting pad is high in universality, and the ankle fracture lifting pad can be adjusted as required, is suitable for multiple people to use, and saves the use cost if the difference between the foot sizes of adults and children, especially the maximum width of the foot is large. Meanwhile, the ankle positioning ring can be sleeved at the ankle fracture position to fix the ankle again, so that postoperative rehabilitation of ankle fracture patients is facilitated. And when the human foot is put into the foot accommodating space or needs to be moved out of the accommodating space, the width of the foot accommodating space is adjusted to be wider through the deformable part, so that the foot can be put in or moved out more conveniently.

2. The deformable part adopts a telescopic organ structure, and the adjustment is convenient and quick.

3. The soft cushion can be placed in the foot accommodating space, is made of flexible materials, plays a role in protecting feet of a human body, and improves comfort level.

4. The bottom wall of the accommodating groove is provided with an arc surface matched with the curve of the leg and foot of the human body, when the foot of the human body is placed in the accommodating groove, the bottom surface of the foot can be attached to the arc surface, the curve of the foot of the human body is met, and the comfort level is higher.

5. The bottom wall of the accommodating groove is also provided with a limiting groove for limiting the ankle positioning ring, when the feet of a human body are placed in the accommodating groove, the ankle positioning ring can be clamped into the limiting groove so as to limit the ankle positioning ring, and the ankle positioning ring is prevented from sliding in the accommodating groove.

6. The connecting piece is a magic tape, an elastic rope or an elastic belt and can be selected according to the needs.

7. The heating device is arranged to heat the feet of the human body so as to accelerate blood circulation and promote wound recovery.

8. The ankle locating ring is made of sponge materials, is high in comfort level and good in wrapping performance.

Drawings

The utility model is further described below with reference to the drawings and examples.

FIG. 1 is a schematic view showing an ankle fracture bedridden elevation pad according to a preferred embodiment.

FIG. 2 is a second schematic view showing an ankle fracture bedridden elevation pad according to a preferred embodiment.

FIG. 3 is a cross-sectional view of a bedridden elevation pad with ankle fracture in accordance with a preferred embodiment.

Fig. 4 is a schematic diagram showing the structure of the battery compartment of the elevation pad according to a preferred embodiment.

FIG. 5 is a schematic diagram showing a state in which the deformable portion of a preferred embodiment is widened.

FIG. 6 is a second schematic view showing a state in which the deformable portion of a preferred embodiment is widened.

Detailed Description

In the claims, specification and drawings hereof, unless explicitly defined otherwise, the terms "first," "second," or "third," etc. are used for distinguishing between different objects and not for describing a particular sequential order.

In the claims, specification and drawings of the present utility model, unless explicitly defined otherwise, references to orientation or positional relationship such as the terms "center", "lateral", "longitudinal", "horizontal", "vertical", "top", "bottom", "inner", "outer", "upper", "lower", "front", "rear", "left", "right", "clockwise", "counterclockwise", etc. are based on the orientation and positional relationship shown in the drawings and are merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or element referred to must have a particular orientation or be constructed and operated in a particular orientation, nor should it be construed as limiting the particular scope of the utility model.

In the claims, specification and drawings of the present utility model, unless explicitly defined otherwise, the terms "fixedly attached" and "fixedly attached" are to be construed broadly as any manner of connection without any positional or rotational relationship between the two, i.e. including non-removable, fixed, integrally connected, and fixedly connected by other means or elements.

In the claims, specification and drawings of the present utility model, the terms "comprising," having, "and variations thereof as used herein, are intended to be" including but not limited to.

Referring to fig. 1 to 6, a preferred embodiment of the ankle fracture lying-in-bed elevation pad includes a first elevation body 10, a second elevation body 20, a deformable portion 30, an ankle positioning ring 40, and a connecting member 50.

The first lifting body 10 and the second lifting body 20 are connected through the deformable portion 30, and a foot accommodating space with an opening is defined between the first lifting body 10, the deformable portion 30 and the second lifting body 20, and the width of the foot accommodating space can be adjusted through deformation of the deformable portion 30. As shown in fig. 1, the first elevation body 10 and the second elevation body 20 have a generally elongated shape extending in front-rear direction, and the height thereof near the sole of the foot increases slowly until the height thereof reaches the maximum when being located at the sole side, and is slightly higher than the length of the human foot. In this embodiment, the maximum height of the rear ends of the first lifting body 10 and the second lifting body 20 can be set according to the foot length of the adult.

In this embodiment, the deformable portion 30 adopts a telescopic organ structure. Specifically, as shown in fig. 1 and 2, the deformable portion 30 is formed by connecting a plurality of stretchable sheets, and the width is reduced by inward pressure and increased by outward pulling.

The connector 50 is detachably connected between the first elevation body 10 and the second elevation body 20 to maintain the width of the foot receiving space after adjustment. In this embodiment, the connecting member 50 is an elastic belt, and the elastic belt can be connected with the first lifting body 10 and the second lifting body 20 through a sticking buckle. As shown in fig. 1 and 2, the connection member 50 is provided in plurality and is provided at the rear side and the upper side of the elevation pad, respectively. The elastic belt has the function of relatively fixing the first lifting body 10 and the second lifting body 20, and can finely adjust the width of the foot accommodating space. The connecting piece 50 can also be a magic tape to directly fix the first lifting body 10 and the second lifting body 20 according to the requirement. Alternatively, the connection member 50 may be an elastic string wound around the outer circumferences of the first elevation body 10, the second elevation body 20, and the deformable portion 30 to be fixed.

In this embodiment, the lifting pad further includes a cushion 60, the cushion 60 is provided with a receiving groove 61 adapted to the shape of the foot receiving space, the cushion 60 can be placed in the foot receiving space, and the ankle positioning ring 40 can be placed in the receiving groove 61. The cushion 60 may be a foam pad or an airbag cushion, but is not limited thereto.

In this embodiment, as shown in fig. 3, the bottom wall of the accommodating groove 61 is disposed obliquely, and when the human body is lying on the bed, the accommodating groove 61 can raise the ankle to a position higher than the heart, preferably 30 degrees higher than the heart. In the actual manufacturing process of the soft pad 60, a plurality of soft pads 60 with different inclined heights of the accommodating grooves 61 can be arranged for the user to select. And the bottom wall of the accommodating groove 61 is provided with an arc surface 62 which is matched with the curve of the leg and foot of the human body. And, the bottom wall of the accommodating groove 61 is further provided with a limiting groove 63 for limiting the ankle positioning ring 40. The side wall of the accommodating groove 61 is also provided with a foot groove 64 which is attached to the bottom surface of the foot of the human body.

The ankle positioning ring 40 is detachably sleeved at the ankle of the human body, and the ankle positioning ring 40 can be placed in the foot accommodating space. In this embodiment, the ankle positioning ring 40 is made of sponge. Specifically, the ankle positioning ring 40 includes two half rings, and the two half rings are directly sleeved at the ankle of the human body when in use. Furthermore, as desired, a plurality of ankle retaining rings 40 may be provided, also to accommodate different ankle sizes.

In this embodiment, the lifting pad further includes a heating device, the heating device includes a heating circuit (not shown in the figure) and a heating plate 70, the heating circuit is mounted inside the first lifting body 10 or the second lifting body 20, and the heating plate 70 is sandwiched between the foot accommodation space and the cushion 60 and is electrically connected with the heating circuit.

In this embodiment, the heating device further includes a battery 71, the first lifting body 10 or the second lifting body 20 is provided with a battery compartment 11 having an opening, and the battery 71 is detachably mounted in the battery compartment 11.

In this embodiment, the lifting pad further comprises a battery cover 72, and the battery cover 72 is connected to the opening of the battery compartment 11 in a covering manner.

In the actual use process, the ankle positioning ring 40 is first sleeved at the fracture of the ankle of the human body, then the first lifting body 10 and the second lifting body 20 are pulled outwards, the deformable portion 30 deforms to stretch, the cushion 60 with a proper size is placed in the foot accommodating space, then the foot of the human body stretches into the accommodating groove 61, at this time, the bottom end of the ankle positioning ring 40 is clamped into the limiting groove 63, and the bottom surface of the foot of the human body stretches into the foot groove 64. Finally, the first lifting body 10 and the second lifting body 20 are restored to the proper positions, and then the first lifting body 10 and the second lifting body 20 are fixed through the connecting piece 50.

The deformable portion 30 of the lifting pad can be deformed according to the size of the foot of the human body to adjust the width of the foot accommodating space, and then the connecting piece 50 is used for maintaining and positioning the width, so that the ankle fracture lifting pad has strong universality, for example, the difference between the size of the foot of a adult and the size of the foot of a child, particularly the maximum width of the foot of the adult is large, the size of the foot can be adjusted according to the needs, the ankle fracture lifting pad is suitable for multiple persons to use, and the use cost is saved. Meanwhile, the ankle positioning ring 40 can be sleeved at the ankle fracture to fix the ankle again, so that the postoperative rehabilitation of the ankle fracture patient is facilitated. And, when the human foot is put into the foot accommodation space or needs to be removed from the accommodation space, the width of the foot accommodation space is adjusted to be wider by the deformable portion 30, so that the foot can be put in or removed more conveniently.

The foregoing description is only illustrative of the preferred embodiments of the present utility model, and therefore should not be taken as limiting the scope of the utility model, for all changes and modifications that come within the meaning and range of equivalency of the claims and specification are therefore intended to be embraced therein.

Claims (10)

1. An ankle fracture bed lifts pad, its characterized in that: the ankle positioning device comprises a first lifting body, a second lifting body, a deformable part, an ankle positioning ring and a connecting piece, wherein the first lifting body is connected with the second lifting body through the deformable part, a foot containing space with an opening is formed by surrounding the first lifting body, the deformable part and the second lifting body, and the width of the foot containing space can be adjusted through deformation of the deformable part; the connecting piece is detachably connected between the first lifting body and the second lifting body so as to keep the width of the foot accommodating space after adjustment; the ankle positioning ring is detachably sleeved at the ankle of the human body, and the ankle positioning ring can be placed in the foot accommodating space.

2. The ankle fracture bedridden elevation pad of claim 1, wherein: the deformable part adopts a telescopic organ structure.

3. The ankle fracture bedridden elevation pad of claim 2, wherein: the ankle positioning ring is arranged in the accommodating groove.

4. A bedridden elevation pad for ankle fracture of claim 3 wherein: the bottom wall of the accommodating groove is provided with an arc surface which is matched with the curve of the leg and foot of the human body.

5. The ankle fracture bedridden elevation pad of claim 4, wherein: the bottom wall of the accommodating groove is also provided with a limiting groove for limiting the ankle positioning ring.

6. A bedridden elevation pad for ankle fracture of claim 3 wherein: the connecting piece is a magic tape, an elastic rope or an elastic belt.

7. A bedridden elevation pad for ankle fracture of claim 3 wherein: the heating device comprises a heating circuit and a heating plate, wherein the heating circuit is arranged inside the first lifting body or the second lifting body, and the heating plate is clamped between the foot containing space and the soft cushion and is electrically connected with the heating circuit.

8. The ankle fracture bedridden elevation pad of claim 7, wherein: the heating device further comprises a battery, the first lifting body or the second lifting body is provided with a battery compartment with an opening, and the battery is detachably arranged in the battery compartment.

9. The ankle fracture bedridden elevation pad of claim 8, wherein: the battery cover is connected to the opening of the battery compartment.

10. The ankle fracture bedridden elevation pad of claim 1, wherein: the ankle locating ring is made of sponge materials.