CN113279670A - Preparation method of light sound insulation material applied to solid wood composite door - Google Patents

Abstract

The invention discloses a preparation method of a light sound insulation material applied to a solid wood composite door, which comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite, lithopone, a foam film, polyester fiber, an adhesive and a keel frame, wherein the raw materials and the weight fractions are as follows: the high-purity magnesium oxide accounts for 10-15% of the total mass ratio; the magnesium chloride accounts for 15-20% of the total mass; the plant fiber accounts for 5-10% of the total mass ratio; the total mass ratio of the perlite is 5-10%; the lithopone accounts for 45-50% of the total mass; the total mass ratio of the polyester fibers is 5-10%. The sound insulation material plate manufactured by the method not only can effectively improve the elimination of high-frequency sound and low-frequency sound and reduce the penetration rate of sound, but also can effectively improve the overall structural strength by utilizing the keel frame, thereby improving the sound insulation effect of the wooden door and reducing and improving the overall strength of the wooden door.

Description

Preparation method of light sound insulation material applied to solid wood composite door

Technical Field

The invention relates to the technical field of furniture manufacturing equipment, in particular to a preparation method of a light sound insulation material applied to a solid wood composite door.

Background

The novel complete set of solid wood composite door is composed of a door leaf, a door pocket and a door pocket line, and by adopting the structure, the style of the wooden door is changed variously, and the problems that the whole solid wood door is easy to deform, crack and the like are solved. The whole set of solid wood composite door is manufactured in a factory, is simple and quick to install, and avoids air and noise pollution caused by the fact that the door pocket needs to be painted on a construction site. The door leaf of the solid wood composite door is formed by bonding pine, fir or imported filling materials and the like, a density board and solid wood veneers are pasted outside, the door leaf is manufactured by high-temperature hot pressing, and the edge of the door leaf is sealed by solid wood lines. The existing solid wood composite door has the serious problems that the sound penetration rate cannot be effectively reduced because the correct material is not selected in the manufacturing process, and the appearance of the wood door is influenced because the structural strength of the wood door is low.

Disclosure of Invention

The invention provides a preparation method of a light sound insulation material applied to a solid wood composite door, aiming at the technical defects of the preparation of the light sound insulation material of the existing solid wood composite door and the like.

The invention adopts a modified technical scheme to solve the technical defects, and the preparation method of the light sound insulation material applied to the solid wood composite door comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite, lithopone, a foam film, polyester fiber, an adhesive and a keel frame, and comprises the following raw materials in parts by weight: the high-purity magnesium oxide accounts for 10-15% of the total mass ratio; the magnesium chloride accounts for 15-20% of the total mass; the plant fiber accounts for 5-10% of the total mass ratio; the total mass ratio of the perlite is 5-10%; the lithopone accounts for 45-50% of the total mass; the total mass ratio of the polyester fibers is 5-10%.

The invention relates to a preferable embodiment, which comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite, lithopone, foam film, polyester fiber and a keel frame, wherein the raw materials and the weight fractions are as follows: the high-purity magnesium oxide accounts for 15 percent of the total mass ratio; the magnesium chloride accounts for 15 percent of the total mass ratio; the plant fiber accounts for 5 percent of the total mass ratio; the total mass ratio of the perlite is 10 percent; the lithopone accounts for 50 percent of the total mass; the total mass ratio of the polyester fiber is 5%.

The invention relates to a preferable embodiment, which comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite, lithopone, foam film, polyester fiber and a keel frame, wherein the raw materials and the weight fractions are as follows: the high-purity magnesium oxide accounts for 15 percent of the total mass ratio; the magnesium chloride accounts for 20 percent of the total mass ratio; the plant fiber accounts for 5 percent of the total mass ratio; the total mass ratio of the perlite is 5 percent; the lithopone accounts for 45 percent of the total mass; the total mass ratio of the polyester fiber is 10%.

As a preferred embodiment of the invention, the manufacturing process comprises the following steps:

s1: pretreatment: weighing high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite and polyester fiber materials according to the component ratio;

s2: processing: putting the weighed high-purity magnesium oxide, magnesium chloride and perlite materials into a grinding machine for grinding; cutting alkali-resistant glass fiber cloth, plant fibers and polyester fibers;

s3: pressurizing and stirring: introducing the material ground into powder particles into a stirrer, adding an adhesive and 10% of water by mass, uniformly stirring, pressurizing and heating until the temperature in the stirrer reaches 60-80 ℃, standing for 3 minutes until the mixture is uniformly stirred;

s4: extrusion molding: placing a prepared die at an extrusion port, firstly spreading a foam film in the die, then placing the keel frame in the die, and then extruding the material in the stirrer into the die, wherein the material occupies one half of the space in the die; after extrusion, flatly paving a foam film on the top of the material, and paving a second layer of keel frame; and then extruding the material until the mould is filled with half of the material, then spreading a foam film on the surface of the mould, and cooling to obtain the finished product of the sound insulation material plate.

In a preferred embodiment of the present invention, in step S4, the material extruded into the mold is compacted by an extruder.

As a preferred embodiment of the present invention, in step S4, the first layer of keel frame is laid with a connection joint, and the two layers of keel frames are connected into a whole through the connection joint when the second layer of keel frame is laid.

In a preferred embodiment of the present invention, in step S2, the high purity magnesium oxide, magnesium chloride and perlite are sequentially ground into powder particles with a diameter of 0.3-0.5 mm; and cutting the alkali-resistant glass fiber cloth, the plant fiber and the polyester fiber to obtain the glass fiber cloth with the cutting size of 1-3 mm.

In step S4, a cutter is used to trim the formed sound-insulating material sheet.

The invention has the following beneficial effects: the sound insulation material plate manufactured by the method is light in weight, the closed air holes are formed in the sound insulation material plate, and the keel frame is further installed, so that when the manufactured sound insulation material plate encounters sound, the sound can be continuously refracted in the sound insulation material plate, the elimination of high-frequency sound and low-frequency sound can be effectively improved, the penetration rate of the sound is reduced, the overall structural strength can be effectively improved by utilizing the keel frame, and the sound insulation effect of the wooden door is improved, and the overall strength of the wooden door is also improved.

Detailed Description

A preparation method of a light sound insulation material applied to a solid wood composite door comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite, lithopone, a foam film, polyester fiber, an adhesive and a keel frame, wherein the raw materials and the weight fractions are as follows: the high-purity magnesium oxide accounts for 10-15% of the total mass ratio; the magnesium chloride accounts for 15-20% of the total mass; the plant fiber accounts for 5-10% of the total mass ratio; the total mass ratio of the perlite is 5-10%; the lithopone accounts for 45-50% of the total mass; the total mass ratio of the polyester fibers is 5-10%.

The composite material comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fibers, perlite, lithopone, a foam film, polyester fibers and a keel frame, and comprises the following raw materials in parts by weight: the high-purity magnesium oxide accounts for 15 percent of the total mass ratio; the magnesium chloride accounts for 15 percent of the total mass ratio; the plant fiber accounts for 5 percent of the total mass ratio; the total mass ratio of the perlite is 10 percent; the lithopone accounts for 50 percent of the total mass; the total mass ratio of the polyester fiber is 5%.

The composite material comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fibers, perlite, lithopone, a foam film, polyester fibers and a keel frame, and comprises the following raw materials in parts by weight: the high-purity magnesium oxide accounts for 15 percent of the total mass ratio; the magnesium chloride accounts for 20 percent of the total mass ratio; the plant fiber accounts for 5 percent of the total mass ratio; the total mass ratio of the perlite is 5 percent; the lithopone accounts for 45 percent of the total mass; the total mass ratio of the polyester fiber is 10%.

The manufacturing process comprises the following steps: s1: pretreatment: weighing high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite and polyester fiber materials according to the component ratio;

s2: processing: putting the weighed high-purity magnesium oxide, magnesium chloride and perlite materials into a grinding machine for grinding; cutting alkali-resistant glass fiber cloth, plant fibers and polyester fibers;

s3: pressurizing and stirring: introducing the material ground into powder particles into a stirrer, adding an adhesive and 10% of water by mass, uniformly stirring, pressurizing and heating until the temperature in the stirrer reaches 60-80 ℃, standing for 3 minutes until the mixture is uniformly stirred;

s4: extrusion molding: placing a prepared die at an extrusion port, firstly spreading a foam film in the die, then placing the keel frame in the die, and then extruding the material in the stirrer into the die, wherein the material occupies one half of the space in the die; after extrusion, flatly paving a foam film on the top of the material, and paving a second layer of keel frame; and then extruding the material until the mould is filled with half of the material, then spreading a foam film on the surface of the mould, and cooling to obtain the finished product of the sound insulation material plate.

In step S4, the material extruded into the mold is compacted by an extruder.

In step S4, a connection joint is left in the first layer of keel frame during laying, and the two layers of keel frames are connected into a whole through the connection joint when the second layer of keel frame is laid.

In the step S2, sequentially grinding high-purity magnesium oxide, magnesium chloride and perlite into powder particles with the diameter of 0.3-0.5 mm; and cutting the alkali-resistant glass fiber cloth, the plant fiber and the polyester fiber to obtain the glass fiber cloth with the cutting size of 1-3 mm.

In step S4, the formed sound-insulating material sheet is trimmed using a cutter.

Example 1

A preparation method of a light sound insulation material applied to a solid wood composite door comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite, lithopone, a foam film, polyester fiber, an adhesive and a keel frame, wherein the raw materials and the weight fractions are as follows: the high-purity magnesium oxide accounts for 10-15% of the total mass ratio; the magnesium chloride accounts for 15-20% of the total mass; the plant fiber accounts for 5-10% of the total mass ratio; the total mass ratio of the perlite is 5-10%; the lithopone accounts for 45-50% of the total mass; the total mass ratio of the polyester fibers is 5-10%.

The manufacturing process comprises the following steps:

s1: pretreatment: weighing high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite and polyester fiber materials according to the component ratio;

s2: processing: putting the weighed high-purity magnesium oxide, magnesium chloride and perlite materials into a grinding machine for grinding; cutting alkali-resistant glass fiber cloth, plant fibers and polyester fibers;

s3: pressurizing and stirring: introducing the material ground into powder particles into a stirrer, adding an adhesive and 10% of water by mass, uniformly stirring, pressurizing and heating until the temperature in the stirrer reaches 60-80 ℃, standing for 3 minutes until the mixture is uniformly stirred;

s4: extrusion molding: placing a prepared die at an extrusion port, firstly spreading a foam film in the die, then placing the keel frame in the die, and then extruding the material in the stirrer into the die, wherein the material occupies one half of the space in the die; after extrusion, flatly paving a foam film on the top of the material, and paving a second layer of keel frame; and then extruding the material until the mould is filled with half of the material, then spreading a foam film on the surface of the mould, and cooling to obtain the finished product of the sound insulation material plate.

The aloe gel juice, the witch hazel syrup, the teasel root, the motherwort fruit and the platycladi seed in the embodiment are matched with each other, so that the anti-aging effect of the compound essence preparation can be effectively improved.

Example 2

A preparation method of a light sound insulation material applied to a solid wood composite door comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fibers, perlite, lithopone, a foam film, polyester fibers and a keel frame, wherein the raw materials and the weight fractions are as follows: the high-purity magnesium oxide accounts for 15 percent of the total mass ratio; the magnesium chloride accounts for 15 percent of the total mass ratio; the plant fiber accounts for 5 percent of the total mass ratio; the total mass ratio of the perlite is 10 percent; the lithopone accounts for 50 percent of the total mass; the total mass ratio of the polyester fiber is 5%.

The manufacturing process comprises the following steps:

s1: pretreatment: weighing high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite and polyester fiber materials according to the component ratio;

s2: processing: putting the weighed high-purity magnesium oxide, magnesium chloride and perlite materials into a grinding machine for grinding; cutting alkali-resistant glass fiber cloth, plant fibers and polyester fibers;

s3: pressurizing and stirring: introducing the material ground into powder particles into a stirrer, adding an adhesive and 10% of water by mass, uniformly stirring, pressurizing and heating until the temperature in the stirrer reaches 60-80 ℃, standing for 3 minutes until the mixture is uniformly stirred;

s4: extrusion molding: placing a prepared die at an extrusion port, firstly spreading a foam film in the die, then placing the keel frame in the die, and then extruding the material in the stirrer into the die, wherein the material occupies one half of the space in the die; after extrusion, flatly paving a foam film on the top of the material, and paving a second layer of keel frame; and then extruding the material until the mould is filled with half of the material, then spreading a foam film on the surface of the mould, and cooling to obtain the finished product of the sound insulation material plate.

In the embodiment, the aloe gel juice and the witch hazel pure dew are used in a small amount, and the teasel root, the motherwort fruit and the platycladi seed are used in a large amount, so that wrinkles on the skin of a user can be gradually reduced after the user uses the aloe gel juice and the witch hazel pure dew for 2 treatment courses.

Example 3

A preparation method of a light sound insulation material applied to a solid wood composite door comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fibers, perlite, lithopone, a foam film, polyester fibers and a keel frame, wherein the raw materials and the weight fractions are as follows: the high-purity magnesium oxide accounts for 15 percent of the total mass ratio; the magnesium chloride accounts for 20 percent of the total mass ratio; the plant fiber accounts for 5 percent of the total mass ratio; the total mass ratio of the perlite is 5 percent; the lithopone accounts for 45 percent of the total mass; the total mass ratio of the polyester fiber is 10%.

The manufacturing process comprises the following steps:

s1: pretreatment: weighing high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite and polyester fiber materials according to the component ratio;

s2: processing: putting the weighed high-purity magnesium oxide, magnesium chloride and perlite materials into a grinding machine for grinding; cutting alkali-resistant glass fiber cloth, plant fibers and polyester fibers;

s3: pressurizing and stirring: introducing the material ground into powder particles into a stirrer, adding an adhesive and 10% of water by mass, uniformly stirring, pressurizing and heating until the temperature in the stirrer reaches 60-80 ℃, standing for 3 minutes until the mixture is uniformly stirred;

s4: extrusion molding: placing a prepared die at an extrusion port, firstly spreading a foam film in the die, then placing the keel frame in the die, and then extruding the material in the stirrer into the die, wherein the material occupies one half of the space in the die; after extrusion, flatly paving a foam film on the top of the material, and paving a second layer of keel frame; and then extruding the material until the mould is filled with half of the material, then spreading a foam film on the surface of the mould, and cooling to obtain the finished product of the sound insulation material plate.

The operation steps are the same between the example 2 and the example 3, and the material proportions are different, so the following test tables are obtained:

	example 2	Example 3
			Outdoors	Indoor/penetration rate	Indoor/penetration rate
70dB	30/42.8％	28/40％
			60dB	27/45％	25/41.6％
50dB	24.5/49％	23.8/47.6％

In summary, the following steps: the sound-proofing board prepared according to example 3 exhibited better decibels and better penetration in the closed door state than the sound-proofing board prepared according to example 2.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A preparation method of a light sound insulation material applied to a solid wood composite door is characterized by comprising the following steps: the adhesive comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite, lithopone, a foam film, polyester fiber, an adhesive and a keel frame, wherein the raw materials and the weight fraction are as follows: the high-purity magnesium oxide accounts for 10-15% of the total mass ratio; the magnesium chloride accounts for 15-20% of the total mass; the plant fiber accounts for 5-10% of the total mass ratio; the total mass ratio of the perlite is 5-10%; the lithopone accounts for 45-50% of the total mass; the total mass ratio of the polyester fibers is 5-10%.

2. A preparation method of a light sound insulation material applied to a solid wood composite door is characterized by comprising the following steps: the composite material comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fibers, perlite, lithopone, a foam film, polyester fibers and a keel frame, and comprises the following raw materials in parts by weight: the high-purity magnesium oxide accounts for 15 percent of the total mass ratio; the magnesium chloride accounts for 15 percent of the total mass ratio; the plant fiber accounts for 5 percent of the total mass ratio; the total mass ratio of the perlite is 10 percent; the lithopone accounts for 50 percent of the total mass; the total mass ratio of the polyester fiber is 5%.

3. A preparation method of a light sound insulation material applied to a solid wood composite door is characterized by comprising the following steps: the composite material comprises high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fibers, perlite, lithopone, a foam film, polyester fibers and a keel frame, and comprises the following raw materials in parts by weight: the high-purity magnesium oxide accounts for 15 percent of the total mass ratio; the magnesium chloride accounts for 20 percent of the total mass ratio; the plant fiber accounts for 5 percent of the total mass ratio; the total mass ratio of the perlite is 5 percent; the lithopone accounts for 45 percent of the total mass; the total mass ratio of the polyester fiber is 10%.

4. A preparation method of a light sound insulation material applied to a solid wood composite door is characterized by comprising the following steps: the manufacturing process comprises the following steps:

s1: pretreatment: weighing high-purity magnesium oxide, magnesium chloride, alkali-resistant glass fiber cloth, plant fiber, perlite and polyester fiber materials according to the component ratio;

s2: processing: putting the weighed high-purity magnesium oxide, magnesium chloride and perlite materials into a grinding machine for grinding; cutting alkali-resistant glass fiber cloth, plant fibers and polyester fibers;

s3: pressurizing and stirring: introducing the material ground into powder particles into a stirrer, adding an adhesive and 10% of water by mass, uniformly stirring, pressurizing and heating until the temperature in the stirrer reaches 60-80 ℃, standing for 3 minutes until the mixture is uniformly stirred;

s4: extrusion molding: placing a prepared die at an extrusion port, firstly spreading a foam film in the die, then placing the keel frame in the die, and then extruding the material in the stirrer into the die, wherein the material occupies one half of the space in the die; after extrusion, flatly paving a foam film on the top of the material, and paving a second layer of keel frame; and then extruding the material until the mould is filled with half of the material, then spreading a foam film on the surface of the mould, and cooling to obtain the finished product of the sound insulation material plate.

5. The method for preparing a lightweight soundproof material for a solid wood composite door according to claim 4, wherein: in step S4, the material extruded into the mold is compacted by an extruder.

6. The method for preparing a lightweight soundproof material for a solid wood composite door according to claim 4, wherein: in step S4, a connection joint is left in the first layer of keel frame during laying, and the two layers of keel frames are connected into a whole through the connection joint when the second layer of keel frame is laid.

7. The method for preparing a lightweight soundproof material for a solid wood composite door according to claim 4, wherein: in the step S2, sequentially grinding high-purity magnesium oxide, magnesium chloride and perlite into powder particles with the diameter of 0.3-0.5 mm; and cutting the alkali-resistant glass fiber cloth, the plant fiber and the polyester fiber to obtain the glass fiber cloth with the cutting size of 1-3 mm.

8. The method for preparing a lightweight soundproof material for a solid wood composite door according to claim 4, wherein: in step S4, the formed sound-insulating material sheet is trimmed using a cutter.