CN212522156U - Rechargeable electron cold and hot ice compress area - Google Patents
Rechargeable electron cold and hot ice compress area Download PDFInfo
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- CN212522156U CN212522156U CN201922121045.5U CN201922121045U CN212522156U CN 212522156 U CN212522156 U CN 212522156U CN 201922121045 U CN201922121045 U CN 201922121045U CN 212522156 U CN212522156 U CN 212522156U
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Abstract
The utility model relates to a rechargeable electronic cold and hot ice compress belt, which is characterized by comprising a bendable inner-layer refrigerating bag, an air heat insulation bag and a bendable inner-layer heating bag, wherein the bendable inner-layer refrigerating bag, the air heat insulation bag and the bendable inner-layer heating bag are sequentially bonded by an adhesive through hot pressing from top to bottom; a first temperature sensor, a radiator sleeved with a porcelain tube and a cold compress gel are arranged in the bendable inner-layer refrigeration bag; a second temperature sensor, a heater sleeved with a porcelain tube and a hot compress salt bag are arranged in the bendable inner heating bag; the first temperature sensor, the radiator sleeved with the porcelain tube, the second temperature sensor and the heater sleeved with the porcelain tube are respectively connected with an 89C51 single chip microcomputer arranged in the air heat insulation bag. The utility model provides a rechargeable electron cold and hot ice compress area can be fast switch over between cold compress and hot compress, and intelligent degree is high, and the system temperature is fast, non-maintaining, pollution-free to the environment, can be for a long time incessant continuous operation, safe and reliable.
Description
Technical Field
The utility model relates to a compress and take technical field, especially relate to a rechargeable electron cold and hot ice compress area.
Background
With the development of medical technology, ice compress has become a common disease quality method, is widely used for relieving swelling and pain of fracture and soft tissue injury, is also applied to hemostasis after many knee arthroscopes, hip joint replacement, hallux valgus orthopaedics and the like in recent years, and is more and more widely used. A traditional ice compress common towel or disposable therapeutic towel wraps a single piece of clear water ice or chemical ice and is tied on the limb by a bandage. On one hand, the single ice cannot be bent, the fit degree with the limb surface is not high, and the effective ice compress effect area is small; on the other hand, ice is easy to slip, which affects the ice compress effect.
With the acceleration of the rhythm of life and the increase of work and life pressure, people who often use computers have a stiff neck after working for a day, and can slowly develop cervical spondylosis after a long time, so that the people are dizzy, the health of the people is influenced, and the work is also influenced. The neck is often subjected to hot compress, the effects of relaxing the channels, promoting blood circulation and relieving muscle fatigue can be achieved, the stiffness is relieved, although a plurality of physiotherapy instruments for the neck are provided at present, the structure is complex, the hot compress instrument is still electrified to operate, and the manufacturing cost is high.
In the medical treatment process, cold compress and hot compress are often used simultaneously, for example, within 1-2 days of tooth extraction, the tooth extraction wound belongs to the bleeding and exudation period, exudation should be prevented at the moment, local blood supply should be reduced, and a cold compress method should be adopted. And 3-4 days after tooth extraction, the wound is transferred to a repair stage from exudation, and at the moment, the blood supply at the position is increased, the metabolic level is improved, and the local heating is beneficial to the recovery of the wound. Can be applied by hot compress to promote local blood circulation and metabolism, thereby promoting wound healing. In the prior art, the number of cold and hot double-purpose dressing belts is small, and various kinds of dressing belts are replaced to bring inconvenience to disease treatment and nursing. And cold and hot laying among the prior art is equipped with often electrified use, and equipment passes through the cable and is connected with the socket for it is more inconvenient to use, and the equipment that adopts the battery as the power supply consumes energy great, often changes the battery and causes the damage for equipment battery contact department.
Chinese utility model patent 201410446450.3 discloses a net ice compress area, put the ice bag including flexible inlayer net ice bag and skin, inlayer net ice bag can be placed in the skin is put the ice bag, and inlayer net ice bag divide into a plurality of hollow grids, has placed the frozen material in every net, is equipped with between two adjacent hollow grids and allies oneself with the through-hole, is equipped with the frozen material filling opening that can seal on the edge of inlayer net ice bag. The utility model provides a net ice compress area through the structure that sets up a plurality of networks on the bag body, makes whole ice bag be convenient for crooked, folding, and it is inseparabler to laminate with the ice compress position, has improved the effective area of ice compress, has overcome traditional ice compress not docile, the area of action is little, easy slippage aversion and influence the defect that the ice compressed the effect. The utility model does not need to limit the movement of the patient too much, increases the comfort level of the patient, can set grids with different sizes according to the area of the ice compress part, and is also suitable for various parts such as shoulders, hips, ankles and the like; however, the compress belt achieves the effect of ice compress by using the frozen material, the frozen material loses efficacy after absorbing heat, so the compress belt needs to be replaced again, the effective time is short, the frequent replacement of the compress belt brings inconvenience to patients, the rise of the physical therapy cost is caused, and the commercial production and application are not facilitated.
Therefore, the development of the rechargeable electronic cold and hot ice compress belt meets the market demand and has great clinical practical value.
SUMMERY OF THE UTILITY MODEL
The utility model aims at overcoming the defects of the prior art and providing a rechargeable electronic cold and hot ice compress belt, which adopts a two-side working mode, can be quickly switched between cold compress and hot compress, and has obvious effects on various traumas, soft tissue injuries, preoperative and postoperative swelling, edema, hematoma, edema, joint hematocele, hydrops, arthritis, acute and chronic soft tissue injuries, muscle injuries, closed fracture, limb fracture, neuropathic pain after joint operation, acute and chronic soft tissue pain and the like; the rechargeable electronic equipment is adopted, the intelligent degree is high, the temperature making speed is high, the maintenance is free, the environment is not polluted, the continuous operation can be carried out continuously for a long time, and the rechargeable electronic equipment is safe and reliable.
In order to achieve the above purpose, the utility model adopts the technical scheme that:
the rechargeable electronic cold and hot ice compress belt is characterized by comprising a bendable inner-layer refrigerating bag, an air heat insulation bag and a bendable inner-layer heating bag, wherein the bendable inner-layer refrigerating bag, the air heat insulation bag and the bendable inner-layer heating bag are sequentially subjected to hot-pressing bonding through an adhesive from top to bottom; a first temperature sensor, a radiator sleeved with a porcelain tube and a cold compress gel are arranged in the bendable inner-layer refrigeration bag; a second temperature sensor, a heater sleeved with a porcelain tube and a hot compress salt bag are arranged in the bendable inner heating bag; the first temperature sensor, the radiator sleeved with the porcelain tube, the second temperature sensor and the heater sleeved with the porcelain tube are respectively connected with an 89C51 singlechip arranged in the air heat insulation bag; the 89C51 singlechip is connected with a power module and a mode conversion button, and the power module is connected with a rechargeable battery.
Further, the flexible inner-layer refrigeration bag, the air heat insulation bag and the flexible inner-layer heating bag form an inner bag body, a cloth sleeve wraps the outer portion of the inner bag body, and a fixing band is arranged on the cloth sleeve.
Further, the fixing band is in a strip shape, and the fixing band is a hollow round rope or an elastic band made of rubber or thermoplastic elastomer materials.
Because above-mentioned technical scheme application, the utility model discloses a compare with prior art and have following advantage: the utility model provides a pair of cold and hot ice of rechargeable electron compress area adopts two sides mode, can make local vasoconstriction between cold compress and hot compress fast switch over, and blood slows down to make capillary's permeability reduce, the tissue liquid extravasation reduces, and local metabolism slows down, has reduced the release of inflammatory medium simultaneously effectively. Can reduce local tissue temperature, contract blood vessel, reduce subcutaneous hemorrhage, relieve tissue swelling, reduce excitability of nerve endings, increase pain threshold, and relieve pain and swelling. Can have obvious effects on various traumas, soft tissue injuries, swelling, edema, hematoma, edema, hemarthrosis, hydrops, arthritis, acute and chronic soft tissue injuries, muscle injuries, closed fracture, limb fracture, nerve pain after joint operation, acute and chronic soft tissue pain and the like after operation and operation; the rechargeable electronic equipment is adopted, the intelligent degree is high, the temperature making speed is high, the maintenance is free, the environment is not polluted, the continuous operation can be carried out continuously for a long time, and the rechargeable electronic equipment is safe and reliable.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only one embodiment of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.
FIG. 1 is a schematic view showing the overall structure of a rechargeable electronic cold and hot ice compress belt manufactured in example 1;
wherein the reference numerals are: 1. a flexible inner layer refrigeration bag; 2. an air insulation bag; 3. a flexible inner layer heating bag; 4. a first temperature sensor; 5. a radiator sleeved with a porcelain tube; 6. cold compressing the gel; 7. a second temperature sensor; 8. a heater sleeved with a porcelain tube; 9. hot compress salt bag; 10. 89C51 singlechip; 11. a power supply module; 12. a mode switching button; 13. A rechargeable battery; 14. cloth sheathing; 15 fixing the belt.
Detailed Description
The utility model relates to a rechargeable electronic cold and hot ice compress belt, which is characterized by comprising a bendable inner-layer refrigerating bag, an air heat insulation bag and a bendable inner-layer heating bag, wherein the bendable inner-layer refrigerating bag, the air heat insulation bag and the bendable inner-layer heating bag are sequentially bonded by an adhesive through hot pressing from top to bottom; a first temperature sensor, a radiator sleeved with a porcelain tube and a cold compress gel are arranged in the bendable inner-layer refrigeration bag; a second temperature sensor, a heater sleeved with a porcelain tube and a hot compress salt bag are arranged in the bendable inner heating bag; the first temperature sensor, the radiator sleeved with the porcelain tube, the second temperature sensor and the heater sleeved with the porcelain tube are respectively connected with an 89C51 singlechip arranged in the air heat insulation bag; the 89C51 singlechip is connected with a power module and a mode conversion button, and the power module is connected with a rechargeable battery.
Further, the flexible inner-layer refrigeration bag, the air heat insulation bag and the flexible inner-layer heating bag form an inner bag body, a cloth sleeve wraps the outer portion of the inner bag body, and a fixing band is arranged on the cloth sleeve.
Further, the adhesive is prepared from the following raw materials in parts by weight: 10-20 parts of methyl vinyl di (butanone oxime) silane, 420-30 parts of hyperbranched urethane acrylate G, 40-50 parts of cyanoacrylate adhesive and 1-3 parts of initiator.
Preferably, the initiator is at least one of azobisisobutyronitrile and azobisisoheptonitrile.
Furthermore, the bendable inner-layer refrigerating bag and the bendable inner-layer heating bag are made of flexible heat conducting materials independently. Further, the flexible heat conduction material is at least one of non-woven fabrics, silica gel and graphene.
Further, the fixing band is in a strip shape, and the fixing band is a hollow round rope or an elastic band made of rubber or thermoplastic elastomer materials.
Because above-mentioned technical scheme application, the utility model discloses a compare with prior art and have following advantage: the utility model provides a pair of cold and hot ice of rechargeable electron compress area adopts two sides mode, can make local vasoconstriction between cold compress and hot compress fast switch over, and blood slows down to make capillary's permeability reduce, the tissue liquid extravasation reduces, and local metabolism slows down, has reduced the release of inflammatory medium simultaneously effectively. Can reduce local tissue temperature, contract blood vessel, reduce subcutaneous hemorrhage, relieve tissue swelling, reduce excitability of nerve endings, increase pain threshold, and relieve pain and swelling. Can have obvious effects on various traumas, soft tissue injuries, swelling, edema, hematoma, edema, hemarthrosis, hydrops, arthritis, acute and chronic soft tissue injuries, muscle injuries, closed fracture, limb fracture, nerve pain after joint operation, acute and chronic soft tissue pain and the like after operation and operation; the rechargeable electronic equipment is adopted, the intelligent degree is high, the temperature making speed is high, the maintenance is free, the environment is not polluted, the continuous operation can be carried out continuously for a long time, and the rechargeable electronic equipment is safe and reliable.
The invention will be further described with reference to specific examples, but the scope of protection of the invention is not limited thereto:
example 1
The embodiment provides a rechargeable electronic cold and hot ice compress belt which is characterized by comprising a bendable inner-layer refrigerating bag 1, an air heat insulation bag 2 and a bendable inner-layer heating bag 3, wherein the bendable inner-layer refrigerating bag 1, the air heat insulation bag 2 and the bendable inner-layer heating bag 3 are sequentially bonded through an adhesive in a hot-pressing mode from top to bottom; a first temperature sensor 4, a radiator 5 sleeved with a porcelain tube and a cold compress gel 6 are arranged in the bendable inner-layer refrigeration bag; a second temperature sensor 7, a heater 8 sleeved with a porcelain tube and a hot compress salt bag 9 are arranged in the bendable inner heating bag; the first temperature sensor 4, the radiator 5 sleeved with the porcelain tube, the second temperature sensor 7 and the heater 8 sleeved with the porcelain tube are respectively connected with an 89C51 singlechip 10 arranged in the air heat insulation bag 2; the 89C51 singlechip 10 is connected with a power module 11 and a mode conversion button 12, and the power module 11 is connected with a rechargeable battery 13.
The flexible inner-layer refrigerating bag 1, the air heat-insulating bag 2 and the flexible inner-layer heating bag 3 form an inner bag body, a cloth cover 14 wraps the outer portion of the inner bag body, and a fixing belt 15 is arranged on the cloth cover.
The adhesive is prepared from the following raw materials in parts by weight: 10 parts of methyl vinyl bis (butanone oxime) silane, 420 parts of hyperbranched urethane acrylate G, 40 parts of cyanoacrylate adhesive and 1 part of azobisisobutyronitrile.
The bendable inner-layer refrigerating bag 1 and the bendable inner-layer heating bag 3 are made of flexible heat conducting materials independently; the flexible heat conduction material is silica gel; the fixing band is strip-shaped and is a hollow round rope made of rubber.
Example 2
The example provides a rechargeable electronic cold and hot ice compress belt, which has a structure basically the same as that of the example 1, and is different in that the adhesive is prepared from the following raw materials in parts by weight: 13 parts of methyl vinyl di (butanone oxime) silane, 423 parts of hyperbranched urethane acrylate G, 42 parts of cyanoacrylate adhesive and 1.5 parts of initiator; the flexible heat conduction material is non-woven fabric.
Example 3
The example provides a rechargeable electronic cold and hot ice compress belt, which has a structure basically the same as that of the example 1, and is different in that the adhesive is prepared from the following raw materials in parts by weight: 15 parts of methyl vinyl di (butanone oxime) silane, 425 parts of hyperbranched urethane acrylate G, 45 parts of cyanoacrylate adhesive and 2 parts of initiator; the flexible heat conduction material is graphene.
Example 4
The example provides a rechargeable electronic cold and hot ice compress belt, which has a structure basically the same as that of the example 1, and is different in that the adhesive is prepared from the following raw materials in parts by weight: 18 parts of methyl vinyl di (butanone oxime) silane, 428 parts of hyperbranched urethane acrylate, 48 parts of cyanoacrylate adhesive and 2.5 parts of initiator; the flexible heat conduction material is graphene.
Example 5
The example provides a rechargeable electronic cold and hot ice compress belt, which has a structure basically the same as that of the example 1, and is different in that the adhesive is prepared from the following raw materials in parts by weight: 20 parts of methyl vinyl di (butanone oxime) silane, 430 parts of hyperbranched urethane acrylate G, 50 parts of cyanoacrylate adhesive and 3 parts of initiator.
The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.
Claims (4)
1. The rechargeable electronic cold and hot ice compress belt is characterized by comprising a bendable inner-layer refrigerating bag, an air heat insulation bag and a bendable inner-layer heating bag, wherein the bendable inner-layer refrigerating bag, the air heat insulation bag and the bendable inner-layer heating bag are sequentially subjected to hot-pressing bonding through an adhesive from top to bottom; a first temperature sensor, a radiator sleeved with a porcelain tube and a cold compress gel are arranged in the bendable inner-layer refrigeration bag; a second temperature sensor, a heater sleeved with a porcelain tube and a hot compress salt bag are arranged in the bendable inner heating bag; the first temperature sensor, the radiator sleeved with the porcelain tube, the second temperature sensor and the heater sleeved with the porcelain tube are respectively connected with an 89C51 singlechip arranged in the air heat insulation bag; the 89C51 singlechip is connected with a power module and a mode conversion button, and the power module is connected with a rechargeable battery.
2. The charging type electronic cold and hot ice compress belt according to claim 1, wherein the inner bag body is composed of a bendable inner layer refrigerating bag, an air heat insulation bag and a bendable inner layer heating bag, and a cloth cover is wrapped outside the inner bag body and provided with a fixing belt.
3. The charging type electric cold and hot ice compress band as claimed in claim 1, wherein the flexible inner layer cooling bag and the flexible inner layer heating bag are independently made of flexible heat conductive material.
4. The charging type electronic cold and hot ice compress belt according to claim 2, wherein the fixing belt is a strip shape, and the fixing belt is a hollow round rope or an elastic belt made of rubber or thermoplastic elastomer material.
Priority Applications (1)
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CN201922121045.5U CN212522156U (en) | 2019-12-02 | 2019-12-02 | Rechargeable electron cold and hot ice compress area |
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CN201922121045.5U CN212522156U (en) | 2019-12-02 | 2019-12-02 | Rechargeable electron cold and hot ice compress area |
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