CN219375143U - Ice compress device - Google Patents

Abstract

The utility model relates to an ice compress device, comprising: a plurality of cold insulation bag containing bags arranged side by side; adjacent cold insulation bag containing bags are connected through a zipper; the cold pack includes: a backing layer; the heat preservation cloth layer is arranged on the front side surface of the lining cloth layer in the middle; the heat preservation cloth layer is connected with the lining cloth layer to form a storage bag for accommodating the cold preservation bag; the bag cover is arranged at the bag opening of the storage bag, a first nylon net sheet is arranged on the bag cover, a first nylon hook sheet is arranged on the heat preservation cloth layer, and the bag cover seals the bag opening of the storage bag through pasting the net sheet and the hook sheet. The utility model has adjustable size, can compress the local ice of the limbs, can also completely wrap the limbs for one week, and can adapt to the limbs with different thickness; when in use, the utility model does not influence the action of a patient, is convenient to carry, is firmly fixed and is not easy to fall off; the cold insulation bag is convenient to replace, the operation is simple, the cold insulation bag cannot move after being filled, and the accurate ice compress position can be ensured; the ice compress effect is good, the air permeability is good, and the limbs can not be frostbitten.

Description

Ice compress device

Technical Field

The utility model relates to the technical field of postoperative ice compress, in particular to an ice compress device.

Background

Arterial puncture is a common technique widely applied to various medical fields, and is usually carried out when arterial blood is to be adopted for blood gas analysis or when some minimally invasive operations are needed for arterial puncture, radiography and the like. The most commonly selected site for arterial puncture is the radial artery, i.e., the outside artery of the wrist site.

After radial artery puncture, there are conditions of swelling of the forearm and upper arm, where ice is needed to be relieved, and bleeding at the puncture site and cyanosis and swelling of the distal limb are observed every half an hour.

In the prior art, development and use of a hemostat and a radial artery puncture hand support plate for radial artery puncture are focused, or a radial artery puncture device is improved and optimized, most of ice compress is a disposable quick-cooling ice bag, the disposable quick-cooling ice bag is large in size and cannot fit patients with arms of different thicknesses, the disposable quick-cooling ice bag is fixed by an adhesive tape when in use, and is directly stuck on a patient clothing, so that the fixation is not firm, and the ice bag is easy to fall off in the movement of the patient; the legs have similar situations and problems in ice compress.

1. CN201510017662.4 is a cold compress support convenient for wrist radial artery puncture, the using mode of the cold compress support is as follows: the ice bag comprises a bracket 1 in an 'angle' shape, wherein the upper surface of the bracket 1 is provided with a buckling groove 4, two buckling strips 5 are arranged on the ice bag, and an elastic bag 6 is arranged between the buckling strips 5; an opening 7 is arranged on one side of the elastic bag 6 and is used for containing the ice bag 8, and the opening 7 faces upwards during installation to prevent the ice bag from sliding off. The forearm is put on the device, can make the forearm raise, and the convenience is stopped bleeding, is equipped with the device of holding, fixed ice bag in forearm department in addition, is difficult for droing, can be fine carry out the cold compress to swelling department, reduces manpower and materials.

The defects are that:

the ice bag 8 can only be placed on one side of the forearm and cannot wrap the forearm;

when the ice compress bracket is used, a patient has inconvenient movement and needs to carry the bracket 1 in an 'angle' shape;

when a patient moves, the buckling strips 5 and the elastic bags 6 cannot ensure that the ice bags 8 are firmly fixed, and the ice bags are easy to fall off;

the ice compress support is large in size, inconvenient to carry when a patient moves, and the support is a fixed product and has certain requirements on the thickness of the arm.

2. CN202121573151.8 is a cold compress ice bag for orthopedics convenient to fix, the mode of use of cold compress ice bag is as follows: including ice bag body 1 and bed plate 2, the both sides of ice bag body 1 all are provided with fixed splint 3, connect through bending mechanism 4 between the fixed splint 3, fixed bandage 5 is installed to bending mechanism 4's both sides, bending mechanism 4's surface mounting has elevating system 6, elevating system 6 installs the surface at bed plate 2. The bending mechanism 4 can bend to drive the ice bag body 1 to be more fit with the skin of a human body, so that the ice compress effect is improved. The fixing strap 5 can fix the ice bag body 1 on the patient, and the ice bag body 1 can be suitable for different people due to the elasticity of the fixing strap 5.

The defects are that:

the ice bag body 1 can only be placed on one side of the ice compress part, such as on one side of the forearm, and cannot wrap the forearm;

the ice bag body 1 has large volume and no arc degree, and can not completely compress an arm for one circle;

the bending mechanism 4 comprises a bending plate 401 and a straight plate 402, the bending plate 401 can rotate and move, and the bending plate 401 and the straight plate 402 are movably connected through a connecting shaft 403; the lifting mechanism 6 comprises a lifting rod 601 and a lifting sleeve 602, the lifting rod 601 is movably connected inside the lifting sleeve 602, the lifting rod 601 is movably installed on the surface of the base plate 2, and a knob 603 is fixedly sleeved on the surface of the lifting rod 601; the lifting mechanism 6 is utilized to change the height of the bending plate 401, so that the bending plate 401 can change different heights according to needs, the structure is complex, the operation is complex, the plurality of knobs 603 are required to be adjusted when in use, time and labor are wasted, and the operation is inconvenient.

3. CN202020018018.5 medical adjustable ice compress fixer, the mode of use of said ice compress fixer is as follows: a plurality of columnar grid bags 2 are sewn on one surface of the cloth piece 1 and are used for placing different ice compress blocks or fixed clamping plates; a movable component 3 is inserted into the grid bag 2; two ends of the grid bag 2 are provided with cloth strips 4 for fixing the cloth pieces 1 on limbs of a patient; an elastic band 5 is sewn at one edge of the cloth piece 1, the movable components 3 in the grid bag 2 are further fixed through the elastic band 5, the movable components 3 are prevented from being easily separated during exercise, and meanwhile, the wrapped limbs are also fixed; the grid bag 2 is of a structure with an opening at one end, so that the movable component 3 can be conveniently inserted; the grid bag 2 is provided with one or more lacing tapes 201 along the length direction thereof; each tightening belt 201 is sewn along the peripheral side surface of the grid bag 2, so that the movable components 3 can be conveniently tightened, and meanwhile, the movable components 3 with different diameters can be placed; the movable assembly 3 is a clamping plate or the movable assembly 3 is a lollipop, or one half of the movable assembly 3 is a clamping plate and the other half is a lollipop; the movable component 3 can fix the affected part when being a splint, especially when fracture; when the movable component 3 is all ice lolly, ice compress, especially sprain, can be carried out on the affected part; when the movable component 3 is arranged at intervals between the ice lolly and the clamping plate, the ice compress and the fixation can be carried out on the affected part at the same time;

the defects are that:

the sizes of the cloth 1 and the grid bag 2 are fixed and can not be adjusted, and patients with arms of different thicknesses can only adapt to the thickness of the arms through the elastic bands 5, the cloth strips 4 and the like;

because the length of the cloth piece 1 and the grid bag 2 is fixed, the possibility that the front arm cannot be wrapped exists when the arm is thick, the cloth piece 1 and the grid bag 2 can be wound for more than one circle when the arm is thin, the insertion of the ice lolly is inconvenient, and the ice compress effect is affected when the cloth piece 1 and the grid bag 2 are overlapped.

4. CN202122069389.3 is a medical ice bag structure for upper limb ice compress, and the usage mode of the medical ice bag is as follows: the three-group ice compress device comprises three groups of ice compress groups 1, wherein the three groups of ice compress groups 1 are connected through connecting belts 2, the three groups of ice compress groups 1 are arranged in parallel, the connecting belts 2 and the ice compress groups 1 are arranged vertically, and the connecting belts 2 are arranged in the middle of the three groups of ice compress groups 1. Three ice packs 1 are used for fixing to the forearm, elbow joint and upper arm of a person, respectively. The ice pack 1 comprises a fixing belt 4 used for binding the arms of a person and three ice packs 3 detachably arranged on the fixing belt 4, wherein the three ice packs 3 are arranged on the fixing belt 4 at intervals along the left-right direction. The fixing belt 4 is an elastic belt with elasticity, the fixing belt 4 is long, the two ends of the fixing belt 4 along the length direction are provided with adhesive pieces 5 for connecting the two ends of the fixing belt 4, and the adhesive pieces 5 are of a magic tape structure. The ice pack 3 comprises an ice pack 31 and a heat preservation bag 32 wrapped outside the ice pack 31, a bag opening 33 is formed in the upper side of the heat preservation bag 32, the ice pack 31 is placed in the heat preservation bag 32 through the bag opening 33, and the ice pack 31 adopts a recyclable biological ice bag or ice water bag. When the ice pack 3 is used, the ice pack 3 is fixed on the fixing belt 4, the fixing belt 4 surrounds the arm for one circle and then is fixed through the magic tapes at the two ends of the fixing belt 4, and the plurality of groups of ice packs 1 are respectively fixed on the forearm, the elbow joint and the upper arm of the arm of a person in sequence, so that the ice pack 3 is tightly attached to the skin of the person along the peripheral side of the arm. The number of the ice packs 3 can be increased or reduced according to actual situations, and the arrangement space between the ice packs 3 can be adjusted, for example, the ice packs 3 on the middle ice pack 1 can be removed, so that the elbow joint of a patient can be conveniently moved. In addition, in the present embodiment, the plurality of ice packs 1 are three groups, and in other embodiments, may be one group, two groups, four groups, or five groups, and specifically may be conventionally set according to actual use conditions.

The defects are that:

when a plurality of groups of ice compress groups 1 are used, a plurality of fixing belts 4 need to surround the arm and fix the ice compress groups, and the operation is complicated;

the arrangement space between the ice packs 3 is adjustable but can not be fixed, so that the position of the ice packs 3 is possible to move in use, and the ice compress effect is affected;

when in ice compress, the ice is directly applied to the skin, which is easy to be frostbitten.

5. CN201420478040.2 upper arm ice compress device, the way of using of said upper arm ice compress device is as follows: the ice bag comprises two ice bags, namely a first ice bag 1 and a second ice bag 2, wherein the first ice bag 1 and the second ice bag 2 comprise a bag body and liquid filled in the belt body, and one surface of the bag body is provided with a circular arc groove. In this embodiment, the bag bodies of the first ice bag 1 and the second ice bag 2 are integrally formed, and a connecting belt made of the same material as the bag body is arranged between the bag bodies of the first ice bag 1 and the second ice bag 2. After the first ice bag 1 and the second ice bag 2 are closed, two grooves are oppositely arranged on the two ice bags to form a hole with a cross section similar to a circle, and the hole is used for placing the upper arm.

The defects are that:

the arc-shaped groove is fixed in shape, so that patients with arms with different thicknesses are difficult to adapt through the groove;

the diameter of the circular arc-shaped groove is fixed, the arm is thick and cannot be buckled, and the arm cannot be tightly attached, so that the ice compress effect is affected.

The information disclosed in this background section is only for enhancement of understanding of the general background of the utility model and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to provide the ice compress device which has adjustable size, can compress the local parts of the limbs, can also completely wrap the limbs for one week for ice compress, and can adapt to the limbs with different thickness; when in use, the utility model does not influence the action of a patient, is convenient to carry, is firmly fixed and is not easy to fall off; the cold insulation bag is convenient to replace, the operation is simple, the cold insulation bag cannot move after being filled, and the accurate ice compress position can be ensured; the ice compress effect is good, the air permeability is good, and the limbs can not be frostbitten.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an ice compress device, comprising:

a plurality of cold insulation bag containing bags 10 arranged side by side;

the left and right sides of each cold insulation bag containing bag 10 are provided with zippers 11, and adjacent cold insulation bag containing bags 10 are connected through the zippers 11;

the cold pack housing pack 10 includes:

a lining layer 21, the zipper 11 being connected to the lining layer 21;

a heat insulating cloth layer 22 centrally provided on the front side surface of the lining cloth layer 21;

three sides of the heat preservation cloth layer 22 are connected with the lining cloth layer 21 to form a storage bag 24, and the storage bag 24 is used for accommodating the cold preservation bag 40;

the bag cover 23 is arranged at the bag opening of the storage bag 24, a first nylon mesh sheet 31 is arranged on the bag cover 23, a first nylon hook sheet 32 is arranged on the heat preservation cloth layer 22, and the bag cover 23 seals the bag opening of the storage bag 24 through the adhesion of the first nylon mesh sheet 31 and the first nylon hook sheet 32.

On the basis of the above technical solution, the plurality of cold insulation bag containing bags 10 are connected through the zipper 11, so that the plurality of cold insulation bag containing bags 10 connected into a whole form an ice compress device which is adapted to the thickness of the limbs.

On the basis of the above-described technical solution, the rear side surface of the lining layer 21 is provided with an anti-slip layer 51.

On the basis of the above technical solution, the anti-slip layer 51 includes a plurality of anti-slip bumps distributed at equal intervals, and the anti-slip bumps are rectangular or circular.

On the basis of the technical scheme, the method further comprises the following steps:

the inner liner 61, the left and right side edges of the inner liner 61 are respectively provided with a second nylon mesh 62 and a second nylon hook piece 63;

the inner liner 61 is formed into a cylindrical shape according to the thickness of the limbs by adhering the second nylon mesh sheet 62 and the second nylon hook sheet 63;

the lower end of the inner liner 61 is bent to form a pocket baffle 64;

the space between the inner liner 61 and the pocket flap 64 forms a pocket for receiving the lower portion of the cold insulation bag receiving bag 10.

On the basis of the technical proposal, the lining cloth layer 21 is also provided with a ventilation strip 25;

the ventilation strips 25 are arranged on one side or two sides of the storage bag 24.

On the basis of the above technical solution, two storage bags 24 are provided on the lining cloth layer 21, the storage bags 24 are arranged side by side left and right or arranged side by side up and down, and ventilation strips 25 are provided between the storage bags 24.

On the basis of the above technical solution, two storage bags 24 are provided on the lining cloth layer 21, and the storage bags 24 are stacked front and back.

On the basis of the above technical solution, the width of each cold pack 10 is the same or different to adapt to the thickness of the limbs.

Based on the above technical solution, the cold insulation bag 40 is any one of the following:

disposable medical ice bag;

ice strips;

ice lolly.

The ice compress device has the following beneficial effects:

the size is adjustable, so that the local ice compress of the limbs can be realized, the ice compress can be completely wrapped for one week of the limbs, and the device can be suitable for the limbs with different thicknesses; when in use, the utility model does not influence the action of a patient, is convenient to carry, is firmly fixed and is not easy to fall off; the cold insulation bag is convenient to replace, the operation is simple, the cold insulation bag cannot move after being filled, and the accurate ice compress position can be ensured; the ice compress effect is good, the air permeability is good, and the limbs can not be frostbitten.

Drawings

The utility model has the following drawings:

the drawings are included to provide a better understanding of the utility model and are not to be construed as unduly limiting the utility model. Wherein:

fig. 1 is a schematic structural view of embodiment 1 of an ice compress device according to the present utility model.

Fig. 2 is a rear view of fig. 1.

Fig. 3 is a schematic structural view of embodiment 2 of an ice compress device according to the present utility model.

Fig. 4 is a top view of fig. 1 (with parts and details omitted).

Fig. 5 is a schematic view of the use state of embodiment 1 of an ice compress device according to the present utility model (parts and details are omitted).

Fig. 6 is a schematic structural view of embodiment 3 of an ice compress device according to the present utility model.

Fig. 7 is a schematic structural view of embodiment 4 of an ice compress device according to the present utility model.

Fig. 8 is a schematic structural view of embodiment 5 of an ice compress device according to the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings. The detailed description, while indicating exemplary embodiments of the utility model, includes various details of the embodiments of the utility model for the purpose of illustration only, should be considered as exemplary. Accordingly, those skilled in the art will recognize that various changes and modifications of the embodiments described herein can be made without departing from the scope and spirit of the utility model. Also, descriptions of well-known functions and constructions are omitted in the following description for clarity and conciseness.

As shown in fig. 1 and 4, the present utility model provides an ice compress device, comprising:

a plurality of cold insulation bag containing bags 10 arranged side by side; two cold pack accommodating bags 10 are shown in fig. 1 arranged side by side;

the left and right sides of each cold insulation bag containing bag 10 are provided with zippers 11, and adjacent cold insulation bag containing bags 10 are connected through the zippers 11;

the cold pack housing pack 10 includes:

a lining layer 21, the zipper 11 being connected to the lining layer 21; the lining layer is cotton cloth;

a heat insulating cloth layer 22 centrally provided on the front side surface of the lining cloth layer 21;

three sides of the heat preservation cloth layer 22 are connected with the lining cloth layer 21 to form a storage bag 24, and the storage bag 24 is used for accommodating the cold preservation bag 40; in the example shown in fig. 1, the lining layer 21 is rectangular, the object placing bag 24 is arranged along the length direction of the lining layer 21, and the bag mouth of the object placing bag 24 faces upwards;

a bag cover 23 is arranged at the bag opening of the storage bag 24, a first nylon mesh 31 is arranged on the bag cover 23, a first nylon hook piece 32 is arranged on the heat preservation cloth layer 22, and the bag cover 23 seals the bag opening of the storage bag 24 through the adhesion of the first nylon mesh 31 and the first nylon hook piece 32; in the example shown in fig. 1, the opening of the storage bag 24 on the left side cold pack accommodating bag 10 is opened, and the opening of the storage bag 24 on the right side cold pack accommodating bag 10 is closed.

When the ice compress device of the present utility model is used, the cold insulation bag 40 is inserted into the storage bag 24 from the bag opening, after the bag opening is closed, a plurality of cold insulation bag containing bags 10 are connected through the zipper 11, so that the plurality of cold insulation bag containing bags 10 which are integrated into a whole form the ice compress device which is matched with the thickness of limbs, as shown in fig. 5, the zipper 11 is omitted in fig. 5, and the number of the cold insulation bags 40 is only an example.

On the basis of the above-described technical solution, as shown in fig. 2, the rear side surface of the backing layer 21 is provided with an anti-slip layer 51.

On the basis of the above technical solution, the anti-slip layer 51 includes a plurality of anti-slip bumps distributed at equal intervals, and the anti-slip bumps are rectangular or circular.

In the example shown in fig. 2, the anti-skid bumps are circular. When the ice compress device is used, the anti-slip layer 51 enables a tiny gap to exist between the lining layer 21 and the skin of the arm, so that the arm is prevented from being pressed, the friction force between the lining layer 21 and the skin of the arm is increased, and the ice compress device is prevented from accidentally falling off from the arm; as is the case when used on the legs.

On the basis of the above technical solution, as shown in fig. 3, the method further includes:

the inner liner 61, the left and right side edges of the inner liner 61 are respectively provided with a second nylon mesh 62 and a second nylon hook piece 63;

the inner liner 61 is formed into a cylindrical shape according to the thickness of the limbs by adhering the second nylon mesh sheet 62 and the second nylon hook sheet 63;

the lower end of the inner liner 61 is bent to form a pocket baffle 64;

the space between the inner liner 61 and the pocket flap 64 forms a pocket for receiving the lower portion of the cold insulation bag receiving bag 10.

When the ice compress device is used, the inner liner 61 is wrapped on the arm, the inner liner 61 protects the arm on one hand, the ice compress temperature is prevented from being too low on the other hand, and the friction force between the cold insulation bag accommodating bag 10 and the arm is increased on the other hand; then, the cold insulation bag containing bags 10 are connected through the zipper 11, so that a plurality of cold insulation bag containing bags 10 which are connected into a whole form an ice compress device which is matched with the thickness of the limbs, and are wrapped outside the lining layer 61; the lower part of the cold insulation bag accommodating bag 10 is arranged in a pocket, and the pocket provides supporting force to prevent the cold insulation bag accommodating bag 10 from slipping off the arm; the same way is used in the leg as in the arm.

On the basis of the above technical solution, as shown in fig. 6, a ventilation strip 25 is further provided on the lining layer 21;

the ventilation strips 25 are arranged on one side or two sides of the storage bag 24.

In the example shown in fig. 6, the ventilation strips 25 are four and are respectively disposed on two sides of the storage bag 24.

The ventilation strips 25 allow air to pass through the gaps, so that the ice compress device has ventilation performance.

On the basis of the above technical solution, as shown in fig. 7, two storage bags 24 are provided on the lining layer 21, the storage bags 24 are arranged side by side left and right or arranged side by side up and down, and ventilation strips 25 are provided between the storage bags 24.

The cold packs 40 are of different sizes and dimensions, so that the size and number of storage pockets 24 are adapted to the cold packs 40. In general, one storage bag 24 may be used, and preferably, the storage bags 24 may be arranged side by side.

On the basis of the above technical solution, two storage bags 24 are provided on the lining cloth layer 21, and the storage bags 24 are stacked front and back.

The stacking of the storage bags 24 in tandem can accommodate more cold packs 40, increasing the time of ice compress. The number of stacked pouches 24 is not excessive, and two pouches 24 are preferred. When the two storage bags 24 are stacked in front and back, the two storage bags can be stacked in front and back completely, or can be stacked in front and back staggered up and down, and preferably staggered up and down, so that the ice compress area can be enlarged.

On the basis of the above technical solution, the width of each cold pack 10 is the same or different to adapt to the thickness of the limbs.

Based on the above technical solution, the cold insulation bag 40 is any one of the following:

disposable medical ice bag;

ice strips;

ice lolly.

Different patients have different thicknesses of limbs, and the cold insulation bags 40 with different sizes are reasonably matched according to conditions so as to ensure enough ice compress area and ensure firm wrapping of the limbs.

On the basis of the above technical solution, as shown in fig. 8, the lining layer 21 includes:

a plurality of cotton lining layers 211, wherein adjacent cotton lining layers 211 are connected through an elastic lining layer 212;

the length of the elastic lining layer 212 when no external force is applied is smaller than the length of the cotton lining layer 211; the length here corresponds to the left-right direction in fig. 8, and is the width of the backing layer 21; the length of the elastic lining layer 212 when subjected to an external force is greater than or equal to the length of the cotton lining layer 211.

At least two cotton lining layers 211 are arranged, and the two cotton lining layers 211 are connected through an elastic lining layer 212;

in the example shown in fig. 8, the cotton lining layers 211 are four, and are connected as the lining layers 21 by three elastic lining layers 212.

After the elastic lining layer 212 is added, the elasticity of the lining layer 21 can be improved, so that the lining layer is easier to attach to the limbs, can be firmly fixed when the lining layer winds the limbs for one circle, and has certain elasticity.

What is not described in detail in this specification is prior art known to those skilled in the art.

The above description is merely of the preferred embodiments of the present utility model, the protection scope of the present utility model is not limited to the above embodiments, but all equivalent modifications or variations according to the disclosure of the present utility model should be included in the protection scope of the claims.

Claims (10)

1. An ice compress device, comprising:

a plurality of cold insulation bag containing bags (10) which are arranged side by side;

the left side and the right side of each cold insulation bag containing bag (10) are respectively provided with a zipper (11), and the adjacent cold insulation bag containing bags (10) are connected through the zippers (11);

the cold pack accommodating bag (10) includes:

a lining layer (21), the zipper (11) is connected with the lining layer (21);

a heat preservation cloth layer (22) arranged on the front surface of the lining cloth layer (21) in the middle;

three sides of the heat preservation cloth layer (22) are connected with the lining cloth layer (21) to form a storage bag (24), and the storage bag (24) is used for accommodating the cold preservation bag (40);

the bag cover (23) is arranged at the bag opening of the storage bag (24), a first nylon net sheet (31) is arranged on the bag cover (23), a first nylon hook sheet (32) is arranged on the heat preservation cloth layer (22), and the bag opening of the storage bag (24) is sealed by the bag cover (23) through the adhesion of the first nylon net sheet (31) and the first nylon hook sheet (32).

2. An ice compress device according to claim 1, characterized in that several cold pack containers (10) are connected by means of a zipper (11) so that the integrated cold pack containers (10) form an ice compress device adapted to the thickness of the limbs.

3. An ice compress device as claimed in claim 1, characterized in that the back side surface of the lining layer (21) is provided with an anti-slip layer (51).

4. An ice compress device according to claim 3, characterised in that the anti-slip layer (51) comprises a number of equally spaced anti-slip bumps, which are rectangular or circular.

5. An ice compress apparatus as defined in claim 1, further comprising:

the inner liner (61), the left and right side edge of the inner liner (61) is equipped with the second nylon net piece (62) and second nylon hook piece (63) separately;

the lining layer (61) is formed into a cylindrical shape which is matched with the thickness of the limbs through the adhesion of the second nylon mesh (62) and the second nylon hook piece (63);

the lower end of the inner liner layer (61) is bent to form a pocket baffle (64);

the space between the inner liner (61) and the pocket flap (64) forms a pocket for accommodating the lower portion of the cold storage bag accommodating bag (10).

6. An ice compress device as claimed in claim 1, characterized in that a ventilation strip (25) is also provided on the lining layer (21);

the ventilation strips (25) are arranged on one side or two sides of the storage bag (24).

7. An ice compress device according to claim 1, characterized in that two storage bags (24) are arranged on the lining cloth layer (21), the storage bags (24) are arranged side by side or side by side up and down, and ventilation strips (25) are arranged between the storage bags (24).

8. An ice compress device as claimed in claim 1, characterised in that two storage bags (24) are provided on the lining layer (21), said storage bags (24) being stacked one behind the other.

9. An ice compress device according to claim 1, characterised in that the width of each cold pack (10) is the same or different to fit the thickness of the limbs.

10. An ice compress device according to claim 1, wherein the cold pack (40) is a disposable medical ice pack.