CN112535779A

CN112535779A - Multifunctional heater for transfusion

Info

Publication number: CN112535779A
Application number: CN202011523258.1A
Authority: CN
Inventors: 张君华; 李耀强
Original assignee: Shaanxi High Beam Biomedical Materials Co ltd
Current assignee: Shaanxi High Beam Biomedical Materials Co ltd
Priority date: 2020-12-22
Filing date: 2020-12-22
Publication date: 2021-03-23

Abstract

The utility model provides a multi-functional heater of infusion, by conducting strip, the heat-generating body, the non-woven fabrics and cover the polylith ventilation volume control subsides on the non-woven fabrics and constitute, the heat-generating body is settled at the intracavity that generates heat that forms behind basement and the top cap laminating, base member and top cap adopt the polyethylene film to make, are equipped with ventilative micropore on the top cap of the chamber top that generates heat, the non-woven fabrics covers on the top cap, all ventilation volume control subsides cover the non-woven fabrics surface in ventilative micropore top, cover the non-woven fabrics surface completely. According to the invention, the medical material mixed with the biological light element is coated on the non-woven fabric, or the medical material mixed with the biological light element is added into the heating element, so that water molecules in the liquid medicine can be activated into smaller small molecules, and the absorption of active ingredients of the liquid medicine can be promoted; the invention can also help the liquid medicine to increase the temperature, reduce the temperature difference between the liquid medicine and the blood of the human body and improve the comfort level of transfusion.

Description

Multifunctional heater for transfusion

Technical Field

The present invention relates to an infusion heater for heating a liquid medicine flowing into a human body during an infusion process.

Background

During transfusion, the transfusion needle is inserted into the tube body, and the liquid medicine flows to the transfusion needle through the transfusion tube and then flows into the human body through the transfusion needle. Since the temperature of the liquid medicine is generally lower than the temperature of a human body, the liquid medicine flowing into blood vessels can cause people to feel cold and uncomfortable.

Therefore, it is necessary to find a method for properly warming the medical solution before the medical solution flows into the human body, so as to reduce the temperature difference between the medical solution and the blood.

Disclosure of Invention

The purpose of the invention is: a transfusion heater capable of appropriately heating a liquid medicine before the liquid medicine flows into a human body and reducing the temperature difference between the liquid medicine and blood.

The technical scheme of the invention is as follows: the utility model provides a multi-functional heater of infusion, by conducting strip 1, the heat-generating body 2, non-woven fabrics 3 and the polylith ventilation control subsides 4 that cover on the non-woven fabrics are constituteed, the heat-generating body is settled in the intracavity that generates heat that forms behind basement 21 and the laminating of top cap 22, base member and top cap adopt the polyethylene film to make, be equipped with ventilative micropore on the top cap of the chamber top that generates heat, the non-woven fabrics covers on the top cap, all ventilation control subsides cover the non-woven fabrics surface in ventilative micropore top, cover the non-woven fabrics surface completely.

The heating element is a polymer containing iron powder, activated carbon, inorganic salt and water.

The ventilation quantity control paste is made of release paper; when the non-woven fabric is completely covered by all the air permeability control pastes, all the air permeability micropores on the top cover are completely sealed, when one part of the air permeability control paste is uncovered, the non-woven fabric below the part of the air permeability control paste is exposed in the air, moisture in the air enters the heating body through the air permeability micropores, so that the heating body starts to generate heat, and the more the uncovered air permeability control pastes are, the larger the exposed non-woven fabric is, the larger the corresponding contact area with the air is, so that the heating body can generate heat more quickly.

The two ends of the heat conducting sheet 1, back to the length direction of the wall surface of the heating body, are respectively provided with an adhesive tape 11, the heat conducting sheet is wrapped on the outer wall of the infusion tube, the adhesive tapes at the two ends of the heat conducting sheet in the length direction are mutually bonded, the heat conducting sheet is fixed on the outer wall of the infusion tube, and when the heating body generates heat, the heat conducting sheet can transmit the heat to the liquid medicine in the infusion tube, so that the liquid medicine is heated; the strip is covered with a protective film 12.

Before the infusion device is used, the protective film on the rubber strip is firstly removed, the infusion heater is fixed on the infusion tube by using the rubber strip, then the partial air permeability control blocks are removed, infusion is carried out, and if the temperature of the liquid medicine is sensed to be lower, the heating body can adsorb more water in the air by removing more air permeability control blocks, so that more heat is generated.

The width of the air permeability control block is equal to or larger than that of the non-woven fabric, one side of the width direction of the air permeability control block is provided with an outward protruding uncovering lug, all the air permeability control blocks are sequentially covered on the non-woven fabric, the non-woven fabric is separated from air, the uncovering lug protrudes out of the non-woven fabric, and the uncovering lug protrudes outwards after the infusion heater is wrapped on the infusion tube.

Coating the non-woven fabric with the medical material mixed with the biological light or adding the medical material mixed with the biological light into the heating body.

The infusion port which is sunken towards the center is arranged on the same side wall corresponding to the heat conducting sheet, the heating cavity and the non-woven fabric, the wall surface of the heat conducting sheet 1 back to the heating body is coated with adhesive, and release paper is covered on the adhesive.

Advantageous effects

1. The heating body is wrapped on the outer wall of the infusion tube by mutually attaching two adhesive tapes arranged on the wall surface of the heat conducting sheet back to the heating body, the part or all of the adhesive tapes covering the non-woven fabric is uncovered by the outwards protruding uncovering lug to isolate the heating body from air, so that the heating body can be contacted with the outside air and absorb moisture in the air, and the infusion tube can automatically generate heat;

2. the coating of the medical material mixed with the biological light on the non-woven fabric or the addition of the medical material mixed with the biological light in the heating body is helpful for activating water molecules in the liquid medicine into smaller small molecules and promoting the absorption of active ingredients of the liquid medicine.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a schematic perspective view of another embodiment of the present invention;

FIG. 3 is a burst view of the present invention;

FIG. 4 shows an embodiment of the present invention in which the wrap is affixed to the infusion tube;

FIG. 5 is a schematic view of the embodiment of FIG. 4 with a ventilation control patch being removed;

FIG. 6 is a schematic view of the embodiment of FIG. 4 with a portion of the ventilation control patch removed;

FIG. 7 is a schematic view of the ventilation control patch of the embodiment of FIG. 4 after it is completely removed;

FIG. 8 is an embodiment of the present invention;

FIG. 9 is a schematic diagram of the embodiment of FIG. 8 illustrating bursting;

FIG. 10 is a schematic illustration of the embodiment of FIG. 8 with a portion of the ventilation control patch removed.

Detailed Description

As shown in fig. 1 to 10, a transfusion multifunctional heater comprises a heat conducting sheet 1, a heating body 2, a non-woven fabric 3 and a plurality of ventilation control pastes 4 covering on the non-woven fabric, wherein the heating body is arranged in a heating cavity formed after a substrate 21 and a top cover 22 are attached, the substrate and the top cover are made of polyethylene films, ventilation micropores are formed in the top cover above the heating cavity, the non-woven fabric covers the top cover, all the ventilation control pastes cover the surface of the non-woven fabric above the ventilation micropores, the surface of the non-woven fabric is completely covered, and the heating body is made of polymers containing iron powder, activated carbon, inorganic salt and water.

The polyethylene film is very thin, and the edge of base member and top cover laminates mutually through the hot pressing and forms the chamber that generates heat, and the heat-generating body is settled at the intracavity that generates heat. The heating body only contacts with the outside air, and the moisture in the air is absorbed to generate heat. The top cover above the heating element is provided with the ventilation micropores, and the heating element can only be heated by attaching moisture in the outside air through the ventilation micropores, so that the heating speed of the heating element can be controlled by controlling the aperture and the number of the ventilation micropores. All the air-permeable micropores are covered by the air-permeable quantity control paste, so that the contact between the heating body and air is blocked, and after the production is completed, all the air-permeable micropores are covered by the air-permeable quantity control paste, so that the product can be stored. When the heating device is used, part or all of the air permeability control paste is removed according to the heating requirement, the non-woven fabric below the heating device is exposed, the heating body can adsorb moisture in the outside air through the air permeable micropores below the exposed non-woven fabric, so that heat is generated, and then the liquid medicine in the infusion tube is transferred through the heat conducting sheet, so that the temperature of the liquid medicine is improved.

One polyethylene film is thin, and the other polyethylene film has poor molding effect, so that the non-woven fabric is covered on the polyethylene film, the performances of the infusion heater such as thickness and the like are enhanced, and the infusion pipeline can be better wrapped.

The ventilation quantity control paste is made of release paper. When the non-woven fabric is completely covered by all the air permeability control pastes, all the air permeability micropores on the top cover are completely sealed, when one part of the air permeability control paste is uncovered, the non-woven fabric below the part of the air permeability control paste is exposed in the air, moisture in the air enters the heating body through the air permeability micropores, so that the heating body starts to generate heat, and the more the uncovered air permeability control pastes are, the larger the exposed non-woven fabric is, the larger the corresponding contact area with the air is, so that the heating body can generate heat more quickly. When the heating body generates heat, the heat is transferred to the heat conducting sheet, the heat conducting sheet is made of metal materials, and the heat conducting sheet can transfer the heat to an object in contact with the heat conducting sheet.

The two ends of the wall surface of the heat conducting sheet 1 back to the heating body are respectively provided with an adhesive tape 11, the heat conducting sheet is wrapped on the outer wall of the infusion tube, the adhesive tapes at the two ends of the length direction of the heat conducting sheet are mutually bonded, the heat conducting sheet is fixed on the outer wall of the infusion tube, when the heating body generates heat, the heat conducting sheet can transmit heat to the liquid medicine in the infusion tube, so that the liquid medicine is heated, and the overlarge temperature difference between the liquid medicine and the blood of a human body.

The protective film 12 is covered on the rubber strip, before the transfusion device is used, the protective film on the rubber strip is firstly removed, the transfusion heater is fixed on the transfusion tube by using the rubber strip, then a part of the air permeability control block is removed, and then transfusion is carried out, if the temperature of the liquid medicine is still low, the heating body can absorb more water in the air by removing more air permeability control blocks, thereby generating more heat.

The width of the air permeability control block is equal to or larger than that of the non-woven fabric, one side of the width direction of the air permeability control block is provided with an outward protruding uncovering lug, all the air permeability control blocks are sequentially covered on the non-woven fabric, the non-woven fabric is separated from air, the uncovering lug protrudes out of the non-woven fabric, when the infusion heater is wrapped on the infusion tube, the uncovering lug protrudes outwards, and the air permeability control block where the uncovering lug is located is easily uncovered from the non-woven fabric by the uncovering lug.

The medical material mixed with the biological light element is coated on the non-woven fabric. The biological light element composite medical material comprises the following preferred components and contents (weight) as raw materials: 40-58% of jade, 5-9% of pearl powder, 3-4% of chitin and 40-48% of silicon dioxide.

Or adding 1 to 5 percent of biological light element mixed medical material into the heating element.

The coating of the medical material mixed with the biological light on the non-woven fabric or the addition of the medical material mixed with the biological light in the heating body is helpful for activating water molecules in the liquid medicine into smaller small molecules and promoting the absorption of active ingredients of the liquid medicine.

As shown in fig. 8, 9 and 10, the present invention can also be used as an infusion heating patch. The infusion port which is sunken towards the center is arranged on the same side wall corresponding to the heat conducting sheet, the heating cavity and the non-woven fabric, the wall surface of the heat conducting sheet 1 back to the heating body is coated with adhesive, and release paper is covered on the adhesive. When the infusion heating patch is used, an infusion needle is pricked into a human body, the release paper is removed, the infusion heater is attached to the body surface, the position where the infusion needle is pricked into the human body is located in the infusion port, and the part, located outside the body surface, of the infusion needle is located outside the infusion heating patch. The part or all of the ventilation control paste is torn off, and during infusion, when the liquid medicine just enters a human body, the human body feels uncomfortable due to the temperature difference between the liquid medicine and the blood, and the part is properly heated by the infusion heating paste, so that the discomfort feeling is reduced.

The invention can also be used for keeping the temperature and heating the feeding bottle. After a bottle of milk is often soaked by a child, the child cannot drink the milk at one time, and the rest milk needs to be kept warm. When the milk in the feeding bottle is low in temperature and needs to be drunk, the feeding bottle has to be boiled to assist in warming or heated by a microwave oven. The release paper on the multifunctional transfusion heater is torn off, the multifunctional heater is wrapped outside the feeding bottle, and the air permeability control paste is torn off, so that milk in the feeding bottle can be heated, and the multifunctional transfusion heater is more convenient and simpler to use. Particularly, when the multifunctional transfusion heater is used for playing outdoors, the multifunctional transfusion heater is more practical and convenient to heat milk in the feeding bottle.

The above-mentioned embodiments are only used for illustrating the application of the present invention, and are not meant to be limiting, and those skilled in the art should make various changes or substitutions within the spirit of the present invention, and shall fall within the protection scope of the present invention.

Claims

1. A multifunctional heater for transfusion is characterized in that: by conducting strip (1), heat-generating body (2), non-woven fabrics (3) and cover polylith ventilation control subsides (4) on the non-woven fabrics and constitute, the heat-generating body is settled in the intracavity that generates heat that forms behind basement (21) and top cap (22) laminating, base member and top cap adopt the polyethylene film to make, be equipped with ventilative micropore on the top cap of the chamber top that generates heat, the non-woven fabrics covers on the top cap, all ventilation control subsides cover on the non-woven fabrics surface of ventilative micropore top, cover the non-woven fabrics surface completely.

2. The transfusion multifunctional heater of claim 1, wherein: the heating element is a polymer containing iron powder, activated carbon, inorganic salt and water.

3. The transfusion multifunctional heater of claim 1, wherein: the ventilation quantity control paste is made of release paper; when the non-woven fabric is completely covered by all the air permeability control pastes, all the air permeability micropores on the top cover are completely sealed, when one part of the air permeability control paste is uncovered, the non-woven fabric below the part of the air permeability control paste is exposed in the air, moisture in the air enters the heating body through the air permeability micropores, so that the heating body starts to generate heat, and the more the uncovered air permeability control pastes are, the larger the exposed non-woven fabric is, the larger the corresponding contact area with the air is, so that the heating body can generate heat more quickly.

4. The transfusion multifunctional heater of claim 1, wherein: the two ends of the heat conducting sheet (1) back to the length direction of the wall surface of the heating body are respectively provided with an adhesive tape (11), the heat conducting sheet is wrapped on the outer wall of the infusion tube, the adhesive tapes at the two ends of the heat conducting sheet in the length direction are mutually bonded, the heat conducting sheet is fixed on the outer wall of the infusion tube, and when the heating body generates heat, the heat conducting sheet can transfer the heat to the liquid medicine in the infusion tube, so that the liquid medicine is heated; the adhesive tape is covered with a protective film (12).

5. The transfusion multifunctional heater of claim 4, wherein: before the infusion device is used, the protective film on the rubber strip is firstly removed, the infusion heater is fixed on the infusion tube by using the rubber strip, then the partial air permeability control blocks are removed, infusion is carried out, and if the temperature of the liquid medicine is sensed to be lower, the heating body can adsorb more water in the air by removing more air permeability control blocks, so that more heat is generated.

6. The transfusion multifunctional heater of claim 1, wherein: the width of the air permeability control block is equal to or larger than that of the non-woven fabric, one side of the width direction of the air permeability control block is provided with an outward protruding uncovering lug, all the air permeability control blocks are sequentially covered on the non-woven fabric, the non-woven fabric is separated from air, the uncovering lug protrudes out of the non-woven fabric, and the uncovering lug protrudes outwards after the infusion heater is wrapped on the infusion tube.

7. The transfusion multifunctional heater of claim 1, wherein: coating the non-woven fabric with the medical material mixed with the biological light or adding the medical material mixed with the biological light into the heating body.

8. The transfusion multifunctional heater of claim 1, wherein: the infusion port which is sunken towards the center is arranged on the same side wall corresponding to the heat conducting sheet, the heating cavity and the non-woven fabric, the wall surface of the heat conducting sheet (1) back to the heating body is coated with adhesive, and release paper is covered on the adhesive.