CN211271575U

CN211271575U - Ice cap with temperature monitoring function

Info

Publication number: CN211271575U
Application number: CN201922198732.7U
Authority: CN
Inventors: 张秀浓; 梁大炼
Original assignee: Guangdong General Hospital Guangdong Academy of Medical Sciences
Current assignee: Guangdong General Hospital Guangdong Academy of Medical Sciences
Priority date: 2019-12-10
Filing date: 2019-12-10
Publication date: 2020-08-18
Anticipated expiration: 2029-12-10

Abstract

The utility model discloses an ice cap with temperature monitoring, which comprises a cap body and a temperature monitoring device, wherein the cap body is sequentially provided with a waterproof flannelette layer, a water storage cavity layer, an ice storage cavity layer, a heat preservation cotton layer and a protective layer from inside to outside; the top of the cap body is provided with a water injection port communicated with the water storage cavity layer and an ice adding port communicated with the ice storage cavity layer; a circle of elastic tightening belt is arranged at the bottom and the brim of the hat body; the temperature monitoring device is arranged on the cap body and used for monitoring the body temperature of a patient. The utility model discloses an ice storage cavity layer inboard at the cap body sets up the water storage cavity layer, forms the buffer layer, converts the rigidity contact of ice-cube into the flexible contact of water, combines waterproof flannelette layer, has strengthened the comfort level with the head contact greatly. Meanwhile, the heat preservation cotton layer is arranged outside the ice storage cavity layer, so that heat loss is reduced, and good and lasting cold compress effects of the water storage cavity layer and the ice storage cavity layer are kept. The utility model relates to a medical care technical field.

Description

Ice cap with temperature monitoring function

Technical Field

The utility model relates to a medical care technical field, in particular to take temperature monitoring's ice cap.

Background

Physical hypothermia (cryotherapy) includes local cryotherapy and systemic cryotherapy. Topical cryotherapy includes ice bags, ice sacks, ice caps, ice chutes, cold compress, chemical cold packs, and the like. The whole body cold therapy comprises warm water bath, ethanol bath, and ice saline enema. With the development of science, the application of an electric cooling blanket is replaced. In any physical cooling (cold therapy), substances with a temperature lower than that of the human body are applied to the local part and the whole body of the body so as to achieve the treatment methods of hemostasis, pain relief, inflammation diminishing and fever abatement.

The use of the ice cap is one of the common physical cooling methods clinically, but the existing ice cap has poor binding effect, and particularly after ice is added, the comfort level felt by the head of a patient is poor, so that the pain of the patient is increased. Meanwhile, the existing ice cap cannot well detect the body sensing temperature of the head of a patient and the temperature of cooling objects in the ice cap, so that the ice cap is inconvenient to replace in time and master the body temperature information of the patient at any time.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect and not enough, provide a take temperature monitoring's ice cap, be equipped with the buffer layer, strengthen the comfort level with the head contact.

The purpose of the utility model can be realized by the following technical scheme: an ice cap with temperature monitoring function is characterized by comprising a cap body and a temperature monitoring device, wherein the cap body is sequentially provided with a waterproof flannelette layer, a water storage cavity layer, an ice storage cavity layer, a heat insulation cotton layer and a protective layer from inside to outside; the top of the cap body is provided with a water injection port communicated with the water storage cavity layer and an ice adding port communicated with the ice storage cavity layer; a circle of elastic tightening belt is arranged at the bottom and the brim of the hat body; the temperature monitoring device is arranged on the cap body and used for monitoring the body temperature of a patient.

As a preferable technical scheme, the water storage cavity layer and the ice storage cavity layer are of a double-layer bag body structure made of flexible waterproof materials.

As the preferred technical scheme, a plurality of elastic fastening belts are arranged between the heat-preservation cotton layer and the protective layer, and each elastic fastening belt is respectively connected with the top of the cap body and the elastic tightening belt. The elastic fastening belts are uniformly distributed along the outer side of the heat-insulating layer.

Preferably, the protective layer is made of a waterproof and wear-resistant material.

As the preferred technical scheme, the outer parts of the water injection port and the ice adding port are both in threaded connection with sealing covers.

As a preferred technical scheme, the temperature monitoring device comprises a heat conducting sheet, a first temperature sensing probe and a temperature display assembly; the heat conducting fins are arranged on the inner side surface of the elastic tightening belt; the first temperature sensing probe is arranged in the elastic tightening belt and is connected with the heat conducting strip; the temperature display component is arranged on the outer side of the protective layer and is connected with the first temperature sensor through a lead.

Preferably, the position of the heat-conducting sheet on the elastic tightening strap is at the position of the elastic tightening strap corresponding to the forehead of the patient.

As the preferred technical scheme, an embedded groove is formed in the water storage cavity layer and communicated with the elastic tightening belt, and a second temperature sensing probe is mounted in the embedded groove and connected with the temperature display assembly through a lead.

As a preferred technical scheme, the temperature display component comprises a display screen, a power supply component and a PLC integrated control chip.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

1. the utility model discloses an ice storage cavity layer inboard at the cap body sets up the water storage cavity layer, forms the buffer layer, converts the rigidity contact of ice-cube into the flexible contact of water, combines waterproof flannelette layer, has strengthened the comfort level with the head contact greatly. Meanwhile, the heat preservation cotton layer is arranged outside the ice storage cavity layer, so that heat loss is reduced, and good and lasting cold compress effects of the water storage cavity layer and the ice storage cavity layer are kept.

2. The utility model discloses it is equipped with the conducting strip to inlay at the corresponding patient forehead position department of elasticity lacing tape medial surface, and the conducting strip is measured patient's body temperature heat transfer for first temperature sensing probe, has avoided the discomfort that probe and human direct contact brought, when guaranteeing the comfort level, real-time supervision human body temperature. Embedding second temperature sensing probe in the caulking groove of water storage cavity layer, the temperature of real-time supervision water storage cavity layer is convenient for master the cold compress temperature of ice cap. The utility model discloses the temperature variation of human body and cooling thing in the ice cap is mastered directly perceivedly to the accessible display screen.

Drawings

FIG. 1 is a partial cross-sectional view of the interior of an ice cap in an embodiment of the present invention;

fig. 2 is a schematic structural view of an elastic tightening strap according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a temperature sensing probe according to an embodiment of the present invention.

Wherein: 1: a cap body; 2: an elastic tightening strap; 3: a waterproof flannelette layer; 4: a water storage cavity layer; 5: an ice storage cavity layer; 6: a heat insulation cotton layer; 7: an elastic fastening band; 8: a protective layer; 9: a water injection port; 10: an ice adding port; 11: a heat conductive sheet; 12: a first temperature sensing probe; 13: caulking grooves; 14: a second temperature sensing probe; 15: a temperature display assembly; 16: and (4) conducting wires.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the present invention is not limited thereto.

As shown in FIG. 1, an ice cap with temperature monitoring function comprises a cap body and a temperature monitoring device.

The cap body is sequentially provided with a waterproof flannelette layer, a water storage cavity layer, an ice storage cavity layer, a heat insulation cotton layer and a protective layer from inside to outside. The water storage cavity layer and the ice storage cavity layer are of a double-layer bag structure made of flexible waterproof materials. Be equipped with many elasticity fastening areas between cotton layer of heat preservation and the inoxidizing coating, every elasticity fastening area connects cap body top and elasticity lacing tape respectively to along heat preservation outside evenly distributed. The protective layer is made of waterproof and wear-resistant materials. The top of the cap body is provided with a water injection port communicated with the water storage cavity layer and an ice adding port communicated with the ice storage layer. The outer parts of the water injection port and the ice adding port are both in threaded connection with sealing covers. A circle of elastic tightening belt is arranged at the bottom of the cap body and the brim of the cap, and the elastic tightening belt has elasticity and can adapt to patients with different head circumferences.

As shown in fig. 2 and 3, the temperature monitoring device includes a heat conducting sheet, a first temperature sensing probe, a second temperature sensing probe, and a temperature display assembly. The heat conducting sheet is arranged on the inner side surface of the elastic tightening belt and corresponds to the forehead position of a patient. The first temperature sensing probe is arranged in the elastic tightening belt and is connected with the heat conducting sheet. The water storage cavity layer is internally provided with an embedded groove which is communicated with the elastic tightening belt, and a second temperature sensing probe is arranged in the embedded groove. The first temperature sensing probe and the second temperature sensing probe are connected with the temperature display assembly through leads. The temperature display component comprises a display screen, a power supply component and a PLC integrated control chip. In this embodiment, power supply module and the PLC integrated control chip of temperature display subassembly are installed on the elasticity fastening band, and the display screen need be installed in the inoxidizing coating outside, conveniently looks over temperature display.

The utility model relates to a take temperature monitoring's ice cap's theory of operation does:

when the ice storage device is used, a proper amount of cold water is injected into the water storage cavity layer through the water injection port, a proper amount of crushed ice is added into the ice storage cavity layer through the ice adding port, and the sealing cover is screwed tightly. The ice cap is sleeved on the head of the patient, so that the heat conducting sheet on the inner side surface of the elastic tightening belt is contacted with the forehead of the patient. The water storage cavity layer forms the buffer layer, converts the rigid contact of ice-cube into the flexible contact of water, combines waterproof cotton flannel layer, has strengthened the comfort level with the head contact greatly. Meanwhile, the heat preservation cotton layer is arranged outside the ice storage cavity layer, so that heat loss is reduced, and good and lasting cold compress effects of the water storage cavity layer and the ice storage cavity layer are kept.

The conducting strip contacts with the forehead of a patient, and heat is transmitted to the first temperature sensing probe for measurement, so that discomfort caused by direct contact of the probe and a human body is avoided. First temperature sensing probe real-time supervision patient forehead temperature to send temperature signal for the temperature display subassembly, show on the display screen, when guaranteeing the comfort level, the human temperature of real-time supervision. The second temperature sensing probe monitors the temperature of the water storage cavity layer in real time, sends a temperature signal to the temperature display assembly, displays the temperature signal on the display screen, and is convenient to master the cold compress temperature of the ice cap. The utility model discloses an ice cap accessible display screen is directly perceived and is mastered the temperature variation of human body and ice cap internal cooling thing.

It is worth noting that: whole ice cap realizes control to it through total control button, because the equipment that control button matches is equipment commonly used, belongs to current mature technique, no longer gives unnecessary details its electric connection relation and specific circuit structure here.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. An ice cap with temperature monitoring function is characterized by comprising a cap body and a temperature monitoring device, wherein the cap body is sequentially provided with a waterproof flannelette layer, a water storage cavity layer, an ice storage cavity layer, a heat insulation cotton layer and a protective layer from inside to outside; the top of the cap body is provided with a water injection port communicated with the water storage cavity layer and an ice adding port communicated with the ice storage cavity layer; a circle of elastic tightening belt is arranged at the bottom and the brim of the hat body; the temperature monitoring device is arranged on the cap body and used for monitoring the body temperature of a patient.

2. The ice cap with temperature monitoring function of claim 1, wherein the water storage cavity layer and the ice storage cavity layer are of a double-layer bag structure made of flexible waterproof materials.

3. The ice cap with temperature monitoring function according to claim 1, wherein a plurality of elastic fastening belts are arranged between the heat-insulating cotton layer and the protective layer, and each elastic fastening belt is respectively connected with the top of the cap body and the elastic tightening belt.

4. An ice cap with temperature monitoring according to claim 3 wherein the elastic fastening bands are evenly distributed along the outside of the insulation.

5. An ice cap with temperature monitoring according to claim 1, wherein said protective layer is made of waterproof and wear resistant material.

6. The ice cap with temperature monitoring function according to claim 1, wherein sealing covers are in threaded connection with the outer portions of the water filling port and the ice adding port.

7. The ice cap with temperature monitoring function of claim 1, wherein the temperature monitoring device comprises a heat conducting sheet, a first temperature sensing probe and a temperature display assembly; the heat conducting fins are arranged on the inner side surface of the elastic tightening belt; the first temperature sensing probe is arranged in the elastic tightening belt and is connected with the heat conducting strip; the temperature display component is arranged on the outer side of the protective layer and is connected with the first temperature sensor through a lead.

8. The ice cap with temperature monitoring of claim 7, wherein the position of the heat conducting strip on the elastic tightening strap is at the corresponding position of the elastic tightening strap on the forehead of the patient.

9. The ice cap with the temperature monitoring function according to claim 7 or 8, wherein an embedded groove is formed in the water storage cavity layer and is communicated with the elastic tightening belt, and a second temperature sensing probe is installed in the embedded groove and is connected with the temperature display assembly through a lead.

10. The ice cap with temperature monitoring function of claim 1, wherein the temperature display component comprises a display screen, a power supply component and a PLC integrated control chip.