Ambient humidity control article

Abstract

An ambient humidity control article for controlling the ambient humidity within 45%-55%. The article includes a substrate having a predetermined water absorbability, and a humidity control layer coated on the substrate. The amount of the composition coated on per cubic centimeter of the substrate is 0.54-0.74 grams. The composition includes at least one organic acid salt, at least one polyol and water. The count of carbon in the polyols is not greater than 5. The weight percentage of the organic acid salt and the polyols in the composition is 30.6%-58.8% and 9.3%-26.7%, respectively. The water absorption amount of the substrate is not less than 0.5 grams per cubic centimeter. The article can control the ambient humidity without the need to pre-adjust the objective space. The article has a large capacity of moisture absorption and desorption, and can quickly achieve the desired humidity.

Claims

1. An ambient humidity control article to control an ambient humidity within 45%-55%, comprising: a substrate, which has a predetermined water absorbability; a humidity control layer, which is coated on the substrate and comprising a humidity control composition; wherein an amount of the humidity control composition coated on per cubic centimeter of the substrate is 0.54-0.74 grams; the humidity control composition comprises an organic acid salt, at least one polyol and water; the organic acid salt comprises at least one of sodium lactate, potassium lactate and sodium formate; a count of carbon in said at least one polyol is not greater than 5; a weight percentage of the organic acid salt in the humidity control composition is 30.6%-58.8%; a weight percentage of said at least one polyol in the humidity control composition is 9.3%-26.7%; and a water absorption amount of the substrate is not less than 0.5 grams per cubic centimeter.

2. The ambient humidity control article according to claim 1, wherein the weight percentage of the organic acid salt in the humidity control composition is 44.4%-46.2%; and wherein the weight percentage of said at least one polyol in the humidity control composition is 13.3%-20.5%.

3. The ambient humidity control article according to claim 1, wherein the organic acid salt is the sodium lactate; and wherein said at least one polyol is a glycerol.

4. The ambient humidity control article according to claim 1, wherein the organic acid salt is the sodium lactate; and wherein said at least one polyol is an ethylene glycol.

5. The ambient humidity control article according to claim 1, wherein the organic acid salt is the sodium formate; and wherein said at least one polyol is a glycerol.

6. The ambient humidity control article according to claim 1, wherein the organic acid salt is the potassium lactate; and wherein said at least one polyol is an ethylene glycol.

7. The ambient humidity control article according to claim 1, wherein the comprises two of the organic acid salts, a first organic acid salt is the sodium lactate and a second organic acid salt is the potassium lactate; wherein said at least one polyol is an ethylene glycol; wherein a weight percentage of the sodium lactate in the composition is 15.6%-45%; wherein a weight percentage of the potassium lactate in the composition is 10%-30%; and wherein a total weight percentage of the sodium lactate and the potassium lactate in the composition is 30.6%-58.8%.

8. The ambient humidity control article according to claim 1, wherein the substrate comprises one of the following materials: a paper type material, cotton, chemical fiber material, non-woven fabric, felt, porous plastic and mineral-based material.

9. The ambient humidity control article according to claim 1, further comprising a package bag, the package bag being configured to hold the substrate coated with the humidity control composition.

10. The ambient humidity control article according to claim 9, wherein the paper bag comprises one of the following materials: a non-woven fabric, composite plastic, paper-plastic composite and cloth.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic diagram of structure showing the ambient humidity control article in embodiment 1.

(2) FIG. 2 is a schematic diagram of structure showing the ambient humidity control article in embodiment 2.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Embodiment 1

(3) FIG. 1 is a schematic diagram of structure showing the ambient humidity control article in embodiment 1.

(4) With respect to FIG. 1, the ambient humidity control article 10 in embodiment 1 is used to control ambient humidity within 45%-55%. The ambient humidity control article 10 comprises substrate 11 and humidity control layer 12 coated on the substrate.

(5) Substrate 11 has a certain water absorbability, the water absorption amount of the substrate is not less than 0.5 grams per cubic centimeter. The material of the substrate is any one of paper type material, cotton, chemical fiber material, non-woven fabric, felt, porous plastic, mineral-based material. In the embodiment 1, cotton-wood pulp paper in paper type material is selected as the substrate. The water absorption amount of the cotton-wood pulp paper is at least 0.8 grams per cubic centimeter, the water-retaining property amount of the cotton-wood pulp paper is at least 1.2 grams per cubic centimeter. For easy tailoring, the thickness of the cotton wood pulp paper is 0.2 mm-3 mm.

(6) The size of the substrate can be tailored to the needs of customers and the size is 1 cm×1 cm-60 cm×60 cm.

(7) Humidity control layer 12 is made up of humidity control composition. The humidity control composition comprises sodium lactate, glycerol and water. The weight percentage of sodium lactate in the composition is 30.6%-58.8%. The weight percentage of glycerol in the composition is 9.3%-26.7%.

(8) The purity of the sodium lactate is not less than 99.9%. The purity of the glycerol is not less than 99.9%. The water is deionized water.

(9) The amount of the humidity control composition coated on per cubic centimeter of the substrate is 0.54 grams.

Embodiment 2

(10) FIG. 2 is a schematic diagram of structure showing the ambient humidity control article in embodiment 2.

(11) With respect to FIG. 2, the ambient humidity control article 20 in embodiment 2 comprises substrate 21, humidity control layer 22 coated on the substrate 21 and package bag 23 for use in holding the substrate 21.

(12) Substrate 21 has a certain water absorbability, the water absorption amount of the substrate is not less than 0.5 grams per cubic centimeter. The material of the substrate is any one of paper type material, cotton, chemical fiber material, non-woven fabric, felt, porous plastic, mineral substrate. In the embodiment 2, cotton is selected as the substrate. The water absorption amount of the cotton is at least 0.8 grams per cubic centimeter, the water-retaining property amount the cotton is at least 1.2 grams per cubic centimeter. For easy tailoring, the thickness of the cotton is 2 mm.

(13) Humidity control layer 22 is made up of humidity control composition. The humidity control composition comprises sodium lactate, glycerol and water. The weight percentage of sodium lactate in the humidity control composition is 44.4%-46.2%. The weight percentage of glycerol in the humidity control composition is 13.3%-20.5%.

(14) The purity of the sodium lactate is not less than 99.9%. The purity of the glycerol is not less than 99.9%. The water is deionized water.

(15) The amount of the humidity control composition coated on per cubic centimeter of the substrate is 0.64 grams.

(16) The package bag 23 is used to hold the substrate coated with the humidity control composition. The package bag is made of thin-walled material that can permeate water vapor but not permeate liquid solution such as non-woven fabric, composite plastic, paper-plastic composite and cloth. Non-woven fabric is selected as the material of the package bag in the embodiment 2.

(17) When the weight percentage of the sodium lactate and the glycerol is greater than the percentage range, crystallization is easy to occur in the composition which requires high temperature to dissolve, resulting in high loss and making the weight of the composition being unstable. When the weight percentage of the sodium lactate and the glycerol is lower than the percentage range, it takes much longer time to manufacture the ambient humidity control article and the humidity control capability will decrease.

Embodiment 3

(18) In embodiment 3, the same instructions are omitted for the same structure as in embodiment 1.

(19) Humidity control layer 12 is made up of humidity control composition. The humidity control composition comprises sodium lactate, ethylene glycol and water. The weight percentage of sodium lactate in the humidity control composition is 44.4%-46.2%. The weight percentage of ethylene glycol in the humidity control composition is 13.3%-20.5%.

(20) The purity of the sodium lactate is not less than 99.9%. The purity of the ethylene glycol is not less than 99.9%. The water is deionized water.

(21) The amount of the humidity control composition coated on per cubic centimeter of the substrate is 0.74 grams.

Embodiment 4

(22) In embodiment 4, the same instructions are omitted for the same structure as in embodiment 1.

(23) Humidity control layer 12 is made up of humidity control composition. The humidity control composition comprises sodium formate, ethylene glycol and water. The weight percentage of sodium formate in the humidity control composition is 44.4%-46.2%. The weight percentage of ethylene glycol in the humidity control composition is 13.3%-20.5%.

(24) The purity of the sodium formate is not less than 99.9%. The purity of the ethylene glycol is not less than 99.9%. The water is deionized water.

(25) The amount of the humidity control composition coated on per cubic centimeter of the substrate is 0.64 grams.

Embodiment 5

(26) In embodiment 5, the same instructions are omitted for the same structure as in embodiment 1.

(27) Humidity control layer 12 is made up of humidity control composition. The humidity control composition comprises potassium lactate, glycerol and water. The weight percentage of potassium lactate in the humidity control composition is 44.4%-46.2%. The weight percentage of glycerol in the humidity control composition is 13.3%-20.5%.

(28) The purity of the potassium lactate is not less than 99.9%. The purity of the glycerol is not less than 99.9%. The water is deionized water.

(29) The amount of the humidity control composition coated on per cubic centimeter of the substrate is 0.64 grams.

Embodiment 6

(30) In embodiment 6, the same instructions are omitted for the same structure as in embodiment 1.

(31) Humidity control layer 12 is made up of humidity control composition. The humidity control composition comprises potassium lactate, ethylene glycol and water. The weight percentage of potassium lactate in the humidity control composition is 44.4%-46.2%. The weight percentage of ethylene glycol in the humidity control composition is 13.3%-20.5%.

(32) The purity of the potassium lactate is not less than 99.9%. The purity of the ethylene glycol is not less than 99.9%. The water is deionized water.

(33) The amount of the humidity control composition coated on per cubic centimeter of the substrate is 0.64 grams.

Embodiment 7

(34) In embodiment 7, the same instructions are omitted for the same structure as in embodiment 1.

(35) Humidity control layer 12 is made up of humidity control composition. The humidity control composition comprises sodium lactate, potassium lactate, ethylene glycol and water. The weight percentage of sodium lactate in the humidity control composition is 15.6%-45%. The weight percentage of potassium lactate in the humidity control composition is 10%-30%. The total weight percentage of sodium lactate and potassium lactate in the humidity control composition is 30.6%-58.8%. The weight percentage of ethylene glycol in the humidity control composition is 13.3%-20.5%.

(36) The purity of the sodium lactate is not less than 99.9%. The purity of the potassium lactate is not less than 99.9%. The purity of the ethylene glycol is not less than 99.9%. The water is deionized water.

(37) The amount of the humidity control composition coated on per cubic centimeter of the substrate is 0.64 grams.

(38) Take the embodiment 2 as an example, the amount of the humidity control composition in the ambient humidity control article for use in controlling different ambient humidity is a fixed value and there are all 0.64 grams humidity control composition coating on per cubic centimeter of substrate. However, the weight percentage of sodium lactate, glycerol and water in the humidity control composition is different, respectively

(39) TABLE-US-00001 Ambient humidity Sodium lactate Glycerol H.sub.2O (%) (%) (%) (%) 45 45.5 20.5 34.0 50 46.2 16.1 37.7 55 44.4 13.3 42.3

(40) The area of the 1 kilogram ambient humidity control article in embodiment 2 is 0.42 m.sup.2 and the thickness is 0.3 cm. The ambient humidity control article is used to control the humidity of 1 cubic meters closed space (no external gas exchange), under the condition that the initial temperature is 25° C. and the range of the initial humidity is 10%-90%, the ambient humidity will be controlled within 45%-55% in 24 hours and the humidity control is long-term and effective. If the gas in the closed space is exchanged with the external gas with a humidity range of 40% for a long time and the effective time of humidity control is 1 month.

The Effect of the Embodiments

(41) The ambient humidity control article according to the foregoing embodiments comprises: substrate, which have a certain water absorbability; humidity control layer, which is coated on the substrate. Wherein the amount of the humidity control composition coated on per cubic centimeter of the substrate is 0.64 grams, the humidity control composition comprises at least one of organic acid salt, at least one of polyols and water, the organic acid salt comprises at least one of sodium lactate, potassium lactate and sodium formate, the count of carbon in the polyols is not greater than 5, the weight percentage of the organic acid salt in the humidity control composition is 30.6%-58.8%, the weight percentage of the polyols in the humidity control composition is 9.3%-26.7%, the water absorption amount of the substrate is not less than 0.5 grams per cubic centimeter. Therefore, the ambient humidity control article of the foregoing embodiments can control the ambient humidity within 45%-55%, does not need to pre-adjust the objective space, has large capacity of moisture absorption and desorption and can quickly achieve the desired humidity in the objective environment.

(42) Moreover, since the ambient humidity control article of the foregoing embodiments comprises only sodium lactate, potassium lactate and sodium formate in common, the composition manufactured by using the organic salts is not only cheap, but also safe for human body when manufacturing. The ambient humidity control article can let the users rest assured because it does not corrode the camera lens or the instrument at all when protecting a camera lens or a wooden instrument. In addition, the ambient humidity control article of the present invention is still friendly to the natural environment after being discarded, and can be decomposed naturally without causing secondary pollution.

(43) The foregoing embodiments are preferred cases of the present invention and is not used to limit the scope of protection of the present invention.

(44) In the foregoing embodiments, the polyols of the humidity control composition in the ambient humidity control article are glycerol and ethylene glycol, however, polyols with a carbon content of not more than 5 can achieve the same effect as a component of the humidity control composition in the ambient humidity control article of the present invention.