CN107307938B

CN107307938B - Hot compress heating bag capable of continuously heating

Info

Publication number: CN107307938B
Application number: CN201710476789.1A
Authority: CN
Inventors: 朱坤福; 祝蕾; 沈水木
Original assignee: SHANDONG ZHUSHITANG MEDICAL EQUIPMENT CO Ltd
Current assignee: Shandong Zhushitang Medical Treatment Instrument Co ltd
Priority date: 2017-06-21
Filing date: 2017-06-21
Publication date: 2020-01-14
Anticipated expiration: 2037-06-21
Also published as: CN107307938A

Abstract

The invention relates to a continuous heating hot compress heating bag, which consists of an inner bag and an outer bag, wherein the inner bag is buried in the outer bag; 4-5 parts by weight of water and 12-15 parts by weight of quicklime which are hermetically and separately assembled through a pierceable separation layer are arranged in the inner bag; the outer package is internally assembled with the following raw materials in parts by weight: 20-30 parts of magnesium powder, 30-40 parts of alum, 6-8 parts of sodium chloride, 7-8 parts of floating beads, 4-6 parts of vermiculite and 3-5 parts of sodium bicarbonate. The heating bag of the invention provides heat for the alum in the outer bag through the rapid heating of the inner bag, so that the alum in the outer bag decomposes water molecules serving as a starter and a solvent, and further promotes the heating agent in the outer bag to react to generate heat, the heating speed and the heat productivity of the heating bag can be better controlled, the temperature of the hot application surface of the heating bag is stably kept at a proper temperature for a long time, the hot application effect is good, the heat utilization rate is high, and the use is more convenient, safe and environment-friendly.

Description

Hot compress heating bag capable of continuously heating

Technical Field

The invention relates to a heating bag, in particular to a hot compress heating bag capable of continuously heating.

Background

Most of heating agents of heating bags used in the market at present are added with water to start reaction, however, after the heating agents are mixed with water, the reaction is usually rapid, so that the heating amount is too large, the skin is easily burnt, and potential safety hazards exist; the heat waste is large, the heat utilization rate is low, the waste of raw materials is serious, the cost is high, and the use cost of a user is increased; and the heating bag has short heating time and poor persistence, so that the practicability is not ideal.

Disclosure of Invention

The invention provides a hot compress heating bag capable of continuously heating, which overcomes the defects of high heating speed, potential safety hazard, high cost and unsatisfactory practicability of the heating bag commonly used at present.

The invention adopts the following technical scheme:

the continuous heating hot compress heating bag comprises an inner bag and an outer bag, wherein the inner bag is buried in the outer bag; 4-5 parts by weight of water and 12-15 parts by weight of quicklime which are hermetically and separately assembled through a pierceable separation layer are arranged in the inner bag; the center of the separation layer is provided with a water leakage hole and a sealing plug matched with the water leakage hole, and the inner bag is fixedly provided with a boss for extruding the sealing plug out of the water leakage hole. The outer package is internally assembled with the following raw materials in parts by weight: 20-30 parts of magnesium powder, 30-40 parts of alum, 6-8 parts of sodium chloride, 7-8 parts of floating beads, 4-6 parts of vermiculite and 3-5 parts of sodium bicarbonate.

In a further improvement, the outer package is only assembled with the following raw materials: 20-35 parts of magnesium powder, 30-40 parts of alum, 6-8 parts of sodium chloride, 7-8 parts of floating beads, 4-6 parts of vermiculite and 3-5 parts of sodium bicarbonate.

In a further improvement, the inner bag is provided with: 4.5 parts by weight of water and 14 parts by weight of quicklime; the outer bag is internally provided with: 25 parts of magnesium powder, 35 parts of alum, 7 parts of sodium chloride, 7.5 parts of floating beads, 5 parts of vermiculite and 4 parts of sodium bicarbonate.

In a further improvement, the outer package is only assembled with the following raw materials: 20-35 parts of magnesium powder, 30-40 parts of alum, 6-8 parts of sodium chloride, 7-8 parts of floating beads, 4-6 parts of vermiculite, 3-5 parts of sodium bicarbonate, 2-3 parts of titanium powder and 7-8 parts of quartz sand.

In a further improvement, the inner bag is provided with: 4.5 parts by weight of water and 14 parts by weight of quicklime; the outer bag is internally provided with: 25 parts of magnesium powder, 35 parts of alum, 7 parts of sodium chloride, 7.5 parts of floating beads, 5 parts of vermiculite, 4 parts of sodium bicarbonate, 2.5 parts of titanium powder and 7.5 parts of quartz sand.

In a further improvement, the particle size of each solid raw material is less than 50 meshes, and the raw materials in the outer package are uniformly mixed.

In a further improvement, the inner bag is distributed away from the hot compress surface of the outer bag, and the inner bag and the outer bag are both made of sealed waterproof materials.

As can be seen from the above description of the present invention, compared with the prior art, the present invention has the following advantages: according to the heating bag, quick heating of the inner bag provides heat for alum in the outer bag, so that water molecules serving as a starter and a solvent are decomposed, and further, the heating agent in the outer bag is promoted to react to generate heat, the heating speed and the heating amount of the heating bag can be well controlled in such a heat generation mode, the temperature of the hot compress surface of the heating bag is stably kept at an appropriate temperature for a long time, the continuous heating time of the heating bag with the total weight of 120 g reaches 8-15 hours, the appropriate temperature of 38-45 ℃ can be provided for a user, scalding is prevented, and the better using effect can be achieved for the user; the heat generated by the inner bag is blocked and absorbed by the outer bag, so that the over-high temperature of the hot compress surface can be prevented; the heating bag has the advantages that the structural design and the heating mode of the heating bag enable the heat production utilization rate to be high, the raw material waste is reduced, the use cost and the replacement times of a user are reduced, and the use is simpler, more convenient, safer and more environment-friendly.

Drawings

Fig. 1 is a schematic sectional structure view of the heat pack of the present invention.

Detailed Description

Implementation mode one

Referring to fig. 1, the heat generating pack of the present embodiment is composed of an inner pack 1 and an outer pack 2, the inner pack 1 being buried in the outer pack 2; the inner bag 1 is distributed away from the hot compress surface 21 of the outer bag 2, and the inner bag 1 and the outer bag 2 are both made of sealing waterproof materials. 4.5 parts by weight of water and 14 parts by weight of quicklime which are hermetically and separately assembled through a pierceable separation layer 11 are arranged in the inner bag 1; a water leakage hole 110 and a sealing plug 111 matched with the water leakage hole are arranged at the center of the separation layer 11, and a boss 12 for extruding the sealing plug 111 out of the water leakage hole 110 is fixedly arranged in the inner bag 1; as shown in fig. 1, the water layer 13 is provided above the separation layer 11, and the quicklime layer 14 is provided below the separation layer 11; the water layer 13 gradually flows into the lime layer 14 from the water leakage holes 110, and the preferable flow rate is 0.05-0.08 ml/min. The heat generating agent 22 provided in the outer package 2 is composed of only the following raw materials: 25 parts of magnesium powder, 35 parts of alum, 7 parts of sodium chloride, 7.5 parts of floating beads, 5 parts of vermiculite and 4 parts of sodium bicarbonate. The particle size of each solid raw material is smaller than 50 meshes, and the raw materials in the outer package 2 are uniformly mixed. According to the heating bag, quick heating of the inner bag 1 provides heat for alum in the outer bag 2, so that water molecules serving as a starter and a solvent are decomposed, and further, a heating agent in the outer bag 2 is promoted to react to generate heat, the heating speed and the heating amount of the heating bag can be well controlled in such a heat generation mode, the temperature of the hot application surface 21 of the heating bag is stably kept at a proper temperature for a long time, the continuous heating time of the heating bag with the total weight of 120 g reaches 11-14 hours, the proper temperature of 40-43 ℃ can be provided for a user, scalding is prevented, and the heating bag is favorable for the user to achieve a better using effect; the heat generated by the inner package 1 can be prevented from being too high by the obstruction and heat absorption of the outer package 2; the structural design and the heating mode of the heating bag of the embodiment ensure that the heating bag has high heat production utilization rate, reduce the waste of raw materials, reduce the use cost and the replacement times of users, and have more convenient, safe and environment-friendly use.

Second embodiment

Referring to fig. 1, the heat generating pack of the present embodiment is composed of an inner pack 1 and an outer pack 2, the inner pack 1 being buried in the outer pack 2; the inner bag 1 is distributed away from the hot compress surface 21 of the outer bag 2, and the inner bag 1 and the outer bag 2 are both made of sealing waterproof materials. 5 parts by weight of water and 15 parts by weight of quicklime which are hermetically and separately assembled through a pierceable separation layer 11 are arranged in the inner bag 1; a water leakage hole 110 and a sealing plug 111 matched with the water leakage hole are arranged at the center of the separation layer 11, and a boss 12 for extruding the sealing plug 111 out of the water leakage hole 110 is fixedly arranged in the inner bag 1; as shown in fig. 1, the water layer 13 is provided above the separation layer 11, and the quicklime layer 14 is provided below the separation layer 11; the water layer 13 gradually flows into the lime layer 14 from the water leakage holes 110, and the preferable flow rate is 0.05-0.08 ml/min. The heat generating agent 22 provided in the outer package 2 is composed of only the following raw materials: 20 parts of magnesium powder, 30 parts of alum, 8 parts of sodium chloride, 7 parts of floating beads, 6 parts of vermiculite and 3 parts of sodium bicarbonate. The particle size of each solid raw material is smaller than 50 meshes, and the raw materials in the outer package 2 are uniformly mixed. The total weight is 120 grams and the continuous heating time of the heating bag of the embodiment reaches 8-10 hours, so that the suitable temperature of 41-45 ℃ can be provided for a user, the scalding situation is prevented, and the better using effect can be achieved for the user.

Third embodiment

Referring to fig. 1, the heat generating pack of the present embodiment is composed of an inner pack 1 and an outer pack 2, the inner pack 1 being buried in the outer pack 2; the inner bag 1 is distributed away from the hot compress surface 21 of the outer bag 2, and the inner bag 1 and the outer bag 2 are both made of sealing waterproof materials. 4 parts by weight of water and 12 parts by weight of quicklime which are hermetically and separately assembled through a pierceable separation layer 11 are arranged in the inner bag 1; a water leakage hole 110 and a sealing plug 111 matched with the water leakage hole are arranged at the center of the separation layer 11, and a boss 12 for extruding the sealing plug 111 out of the water leakage hole 110 is fixedly arranged in the inner bag 1; as shown in fig. 1, the water layer 13 is provided above the separation layer 11, and the quicklime layer 14 is provided below the separation layer 11; the water layer 13 gradually flows into the lime layer 14 from the water leakage holes 110, and the preferable flow rate is 0.05-0.08 ml/min. The heat generating agent 22 provided in the outer package 2 is composed of only the following raw materials: 30 parts of magnesium powder, 40 parts of alum, 6 parts of sodium chloride, 8 parts of floating beads, 4 parts of vermiculite and 5 parts of sodium bicarbonate. The particle size of each solid raw material is smaller than 50 meshes, and the raw materials in the outer package 2 are uniformly mixed. The total weight is 120 grams and the continuous heating time of the heating bag of the embodiment reaches 12-15 hours, the suitable temperature of 38-42 ℃ can be provided for a user, the scalding situation is prevented, and the better using effect can be achieved for the user.

Embodiment IV

Referring to fig. 1, the heat generating pack of the present embodiment is composed of an inner pack 1 and an outer pack 2, the inner pack 1 being buried in the outer pack 2; the inner bag 1 is distributed away from the hot compress surface 21 of the outer bag 2, and the inner bag 1 and the outer bag 2 are both made of sealing waterproof materials. 4.5 parts by weight of water and 14 parts by weight of quicklime which are hermetically and separately assembled through a pierceable separation layer 11 are arranged in the inner bag 1; a water leakage hole 110 and a sealing plug 111 matched with the water leakage hole are arranged at the center of the separation layer 11, and a boss 12 for extruding the sealing plug 111 out of the water leakage hole 110 is fixedly arranged in the inner bag 1; as shown in fig. 1, the water layer 13 is provided above the separation layer 11, and the quicklime layer 14 is provided below the separation layer 11; the water layer 13 gradually flows into the lime layer 14 from the water leakage holes 110, and the preferable flow rate is 0.05-0.08 ml/min. The heat generating agent 22 provided in the outer package 2 is composed of only the following raw materials: 25 parts of magnesium powder, 35 parts of alum, 7 parts of sodium chloride, 7.5 parts of floating beads, 5 parts of vermiculite, 4 parts of sodium bicarbonate, 2.5 parts of titanium powder and 7.5 parts of quartz sand. The particle size of each solid raw material is smaller than 50 meshes, and the raw materials in the outer package 2 are uniformly mixed. The total weight is 120 grams and the continuous heating time of the heating bag of the embodiment reaches 13-15 hours, the suitable temperature of 40-43 ℃ can be provided for a user, the scalding situation is prevented, and the better using effect can be achieved for the user.

Fifth embodiment

Referring to fig. 1, the heat generating pack of the present embodiment is composed of an inner pack 1 and an outer pack 2, the inner pack 1 being buried in the outer pack 2; the inner bag 1 is distributed away from the hot compress surface 21 of the outer bag 2, and the inner bag 1 and the outer bag 2 are both made of sealing waterproof materials. 4 parts by weight of water and 13 parts by weight of quicklime hermetically and separately assembled through a pierceable separation layer 11 are arranged in the inner bag 1; a water leakage hole 110 and a sealing plug 111 matched with the water leakage hole are arranged at the center of the separation layer 11, and a boss 12 for extruding the sealing plug 111 out of the water leakage hole 110 is fixedly arranged in the inner bag 1; as shown in fig. 1, the water layer 13 is provided above the separation layer 11, and the quicklime layer 14 is provided below the separation layer 11; the water layer 13 gradually flows into the lime layer 14 from the water leakage holes 110, and the preferable flow rate is 0.05-0.08 ml/min. The heat generating agent 22 provided in the outer package 2 is composed of only the following raw materials: 22 parts of magnesium powder, 34 parts of alum, 6 parts of sodium chloride, 7 parts of floating beads, 4 parts of vermiculite, 5 parts of sodium bicarbonate, 2 parts of titanium powder and 8 parts of quartz sand. The particle size of each solid raw material is smaller than 50 meshes, and the raw materials in the outer package 2 are uniformly mixed. The total weight is 120 grams and the continuous heating time of the heating bag of the embodiment reaches 10-12 hours, the suitable temperature of 39-42 ℃ can be provided for a user, the scalding situation is prevented, and the better using effect can be achieved for the user.

Sixth embodiment

Referring to fig. 1, the heat generating pack of the present embodiment is composed of an inner pack 1 and an outer pack 2, the inner pack 1 being buried in the outer pack 2; the inner bag 1 is distributed away from the hot compress surface 21 of the outer bag 2, and the inner bag 1 and the outer bag 2 are both made of sealing waterproof materials. 5 parts by weight of water and 14 parts by weight of quicklime which are hermetically and separately assembled through a pierceable separation layer 11 are arranged in the inner bag 1; a water leakage hole 110 and a sealing plug 111 matched with the water leakage hole are arranged at the center of the separation layer 11, and a boss 12 for extruding the sealing plug 111 out of the water leakage hole 110 is fixedly arranged in the inner bag 1; as shown in fig. 1, the water layer 13 is provided above the separation layer 11, and the quicklime layer 14 is provided below the separation layer 11; the water layer 13 gradually flows into the lime layer 14 from the water leakage holes 110, and the preferable flow rate is 0.05-0.08 ml/min. The heat generating agent 22 provided in the outer package 2 is composed of only the following raw materials: 32 parts of magnesium powder, 38 parts of alum, 8 parts of sodium chloride, 8 parts of floating beads, 6 parts of vermiculite, 3 parts of sodium bicarbonate, 3 parts of titanium powder and 7 parts of quartz sand. The particle size of each solid raw material is smaller than 50 meshes, and the raw materials in the outer package 2 are uniformly mixed. The total weight is 120 grams and the continuous heating time of the heating bag of the embodiment reaches 11-14 hours, so that the suitable temperature of 41-44 ℃ can be provided for a user, the scalding situation is prevented, and the better using effect can be achieved for the user.

Seventh embodiment

Referring to fig. 1, the heat generating pack of the present embodiment is composed of an inner pack 1 and an outer pack 2, the inner pack 1 being buried in the outer pack 2; the inner bag 1 is distributed away from the hot compress surface 21 of the outer bag 2, and the inner bag 1 and the outer bag 2 are both made of sealing waterproof materials. 4.5 parts by weight of water and 14 parts by weight of quicklime which are hermetically and separately assembled through a pierceable separation layer 11 are arranged in the inner bag 1; a water leakage hole 110 and a sealing plug 111 matched with the water leakage hole are arranged at the center of the separation layer 11, and a boss 12 for extruding the sealing plug 111 out of the water leakage hole 110 is fixedly arranged in the inner bag 1; as shown in fig. 1, the water layer 13 is provided above the separation layer 11, and the quicklime layer 14 is provided below the separation layer 11; the water layer 13 gradually flows into the lime layer 14 from the water leakage holes 110, and the preferable flow rate is 0.05-0.08 ml/min. The heat generating agent 22 provided in the outer package 2 is composed of only the following raw materials: 25 parts of magnesium powder, 35 parts of alum, 7 parts of sodium chloride, 7.5 parts of floating beads, 5 parts of vermiculite, 4 parts of sodium bicarbonate and 2.5 parts of titanium powder. The particle size of each solid raw material is smaller than 50 meshes, and the raw materials in the outer package 2 are uniformly mixed. The total weight is 120 grams and the continuous heating time of the heating bag of the embodiment reaches 13-15 hours, the suitable temperature of 42-44 ℃ can be provided for a user, the scalding situation is prevented, and the better using effect can be achieved for the user.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims

1. The continuous heating hot compress heating bag is characterized by comprising an inner bag and an outer bag, wherein the inner bag is buried in the outer bag; 4-5 parts by weight of water and 12-15 parts by weight of quicklime which are hermetically and separately assembled through a pierceable separation layer are arranged in the inner bag; the outer package is internally assembled with the following raw materials in parts by weight: 20-30 parts of magnesium powder, 30-40 parts of alum, 6-8 parts of sodium chloride, 7-8 parts of floating beads, 4-6 parts of vermiculite and 3-5 parts of sodium bicarbonate.

2. The continuous heating hot compress pack of claim 1, wherein the outer pack is filled with only the following materials: 20-35 parts of magnesium powder, 30-40 parts of alum, 6-8 parts of sodium chloride, 7-8 parts of floating beads, 4-6 parts of vermiculite and 3-5 parts of sodium bicarbonate.

3. A continuous heat generating heat pack as set forth in claim 2, wherein said inner pack is fitted with: 4.5 parts by weight of water and 14 parts by weight of quicklime; the outer bag is internally provided with: 25 parts of magnesium powder, 35 parts of alum, 7 parts of sodium chloride, 7.5 parts of floating beads, 5 parts of vermiculite and 4 parts of sodium bicarbonate.

4. The continuous heating hot compress pack of claim 1, wherein the outer pack is filled with only the following materials: 20-35 parts of magnesium powder, 30-40 parts of alum, 6-8 parts of sodium chloride, 7-8 parts of floating beads, 4-6 parts of vermiculite, 3-5 parts of sodium bicarbonate, 2-3 parts of titanium powder and 7-8 parts of quartz sand.

5. The continuous heat generating hot compress pack of claim 4, wherein the inner pack is fitted with: 4.5 parts by weight of water and 14 parts by weight of quicklime; the outer bag is internally provided with: 25 parts of magnesium powder, 35 parts of alum, 7 parts of sodium chloride, 7.5 parts of floating beads, 5 parts of vermiculite, 4 parts of sodium bicarbonate, 2.5 parts of titanium powder and 7.5 parts of quartz sand.

6. A heat pack for sustaining heating according to any one of claims 1 to 5, wherein: the particle size of each solid raw material is smaller than 50 meshes, and the raw materials in the outer package are uniformly mixed.

7. A heat pack for sustaining heating according to any one of claims 1 to 5, wherein: the inner bag deviates from the hot compress surface of the outer bag and is made of a sealing waterproof material.

8. A heat pack for sustaining heating according to any one of claims 1 to 5, wherein: the center of the separation layer is provided with a water leakage hole and a sealing plug matched with the water leakage hole, and the inner bag is fixedly provided with a boss for extruding the sealing plug out of the water leakage hole.