阅读说明：本技术 一种耐冲击且耐摩擦的热熔振荡凸起型道路标线涂料 (Impact-resistant and friction-resistant hot-melt oscillation convex road marking coating ) 是由 彭超 尚涛 彭伟 于 2021-09-09 设计创作，主要内容包括：本发明公开了一种耐冲击且耐摩擦的热熔振荡凸起型道路标线涂料,涉及涂料生产领域,包括粉料,所述粉料的制作过程：取20-35份的树脂利用研磨机对树脂进行粉碎将树脂粉碎成粉末状,取10-25份的微晶石利用研磨机对微晶石进行粉碎成粉末状,得到制作耐冲击且耐摩擦的热熔振荡凸起型道路标线涂料,取9-15份的重钙粉,加入重钙粉15-25％的云母粉与重钙粉进行混合,取30-45份的纳米玻璃粉,加入纳米玻璃粉2-5％的水对纳米玻璃粉进行微量稀释,将树脂粉、微晶石粉和重钙粉云母粉混合粉放入搅拌机内研磨。本发明通过在树脂粉中添加微晶石粉和纳米玻璃粉形成高韧性耐冲击的粉料涂料,与加入云母粉的云母粉混合料提高涂料的耐摩擦度,使生产出的涂料具有高韧性耐冲击。(The invention discloses an impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, which relates to the field of paint production and comprises powder, wherein the preparation process of the powder comprises the following steps: crushing 20-35 parts of resin into powder by using a grinder, crushing 10-25 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation raised road marking paint, mixing 9-15 parts of heavy calcium powder, 15-25% of mica powder and the heavy calcium powder, 30-45 parts of nano glass powder, 2-5% of water for diluting the nano glass powder in a trace manner, and grinding the mixed powder of the resin powder, the microlite powder and the heavy calcium powder in a stirrer. According to the invention, the high-toughness impact-resistant powder coating is formed by adding the microcrystal stone powder and the nano glass powder into the resin powder, and the friction resistance of the coating is improved by mixing the powder coating with the mica powder, so that the produced coating has high toughness and impact resistance.)

1. The utility model provides an impact-resistant and antifriction's protruding type road marking coating of hot melt oscillation, includes the powder, its characterized in that: the preparation process of the powder is as follows:

(1) crushing 20-35 parts of resin into powder by using a grinder, crushing 10-25 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, adding mica powder accounting for 15-25% of the weight calcium powder into 9-15 parts of the weight calcium powder, mixing the mica powder with the weight calcium powder, adding 30-45 parts of nano glass powder, adding water accounting for 2-5% of the nano glass powder to slightly dilute the nano glass powder, putting the mixed powder of the resin powder, the microlite powder and the weight calcium powder into a stirrer for grinding, adding 7-13 parts of quartz sand into the diluted nano glass powder for mixing, putting the resin powder, the microlite powder, the weight calcium powder, the mica powder and the mixed powder into the stirrer for mixing and stirring, the dispersing auxiliary agent is added in the stirring process, the stirring speed of the stirrer is controlled to be 40-60 revolutions per minute, and the stirring time is controlled to be within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 5-10 parts of pigment, adding 10-15% of water into the pigment to dilute the pigment into semi-dry liquid, taking 5-10 parts of colorant, adding 5-15% of water into the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the paint after coloring.

(4) And (3) taking 3-9 parts of polyethylene film, adding 20-30% of water of the polyethylene film to dilute the polyethylene film, and mixing the diluted polyethylene film with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) And (2) sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, putting 6-10 parts of plasticizer and 6-10 parts of forming agent into the dryer to dry, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter, so as to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

2. An impact-resistant and friction-resistant hot melt oscillating raised road marking paint as claimed in claim 1, wherein: the preparation process of the powder material comprises the following steps:

(1) crushing 20 parts of resin into powder by using a grinder, crushing 10 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, mixing 9 parts of heavy calcium powder, mica powder 15-25% of the heavy calcium powder and the heavy calcium powder, adding 30 parts of nano glass powder, adding water 2-5% of the nano glass powder to slightly dilute the nano glass powder, grinding the mixed powder of the resin powder, the microlite powder and the heavy calcium powder mica powder in a stirrer, adding 7 parts of quartz sand into the diluted nano glass powder to mix, adding the resin powder, the microcrystalline powder, the heavy calcium powder, the mica powder and the mixed powder into the stirrer to mix and stir, adding a dispersing aid in the stirring process, controlling the stirring speed of the stirrer to 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 5 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 5 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And 3 parts of polyethylene film is taken, 20-30% of water of the polyethylene film is added to dilute the polyethylene film, and the diluted polyethylene film is mixed with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 6 parts of plasticizer and 6 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

3. An impact-resistant and friction-resistant hot melt oscillating raised road marking paint as claimed in claim 1, wherein: the preparation process of the powder material comprises the following steps:

(1) crushing 25 parts of resin into powder by using a grinder, crushing 12 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation raised road marking paint, adding mica powder accounting for 15-25% of the weight calcium powder into 11 parts of the weight calcium powder, mixing the mica powder with the weight calcium powder, adding 34 parts of nano glass powder, adding water accounting for 2-5% of the nano glass powder to slightly dilute the nano glass powder, putting the mixed powder of the resin powder, the microlite powder and the weight calcium powder into a stirrer for grinding, adding 8 parts of quartz sand into the diluted nano glass powder for mixing, putting the resin powder, the microlite powder, the weight calcium powder, the mica powder and the mixed powder into the stirrer for mixing and stirring, adding a dispersing aid during stirring, controlling the stirring speed of the stirrer to be 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 6 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 6 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And 4 parts of polyethylene film is taken, 20-30% of water of the polyethylene film is added to dilute the polyethylene film, and the diluted polyethylene film is mixed with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 7 parts of plasticizer and 7 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

4. An impact-resistant and friction-resistant hot melt oscillating raised road marking paint as claimed in claim 1, wherein: the preparation process of the powder material comprises the following steps:

(1) crushing 30 parts of resin into powder by using a grinder, crushing 13 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, mixing 12 parts of heavy calcium powder, mica powder 15-25% of the heavy calcium powder and the heavy calcium powder, adding 38 parts of nano glass powder, adding water 2-5% of the nano glass powder to slightly dilute the nano glass powder, grinding the mixed powder of the resin powder, the microlite powder and the heavy calcium powder mica powder in a stirrer, adding 9 parts of quartz sand into the diluted nano glass powder to mix, adding the resin powder, the microcrystalline powder, the heavy calcium powder, the mica powder and the mixed powder into the stirrer to mix and stir, adding a dispersing auxiliary agent in the stirring process, controlling the stirring speed of the stirrer to 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 7 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 7 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And (3) taking 5 parts of polyethylene film, adding 20-30% of water of the polyethylene film to dilute the polyethylene film, and mixing the diluted polyethylene film with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 8 parts of plasticizer and 8 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

5. An impact-resistant and friction-resistant hot melt oscillating raised road marking paint as claimed in claim 1, wherein: the preparation process of the powder material comprises the following steps:

(1) crushing 35 parts of resin into powder by using a grinder, crushing 25 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, adding 15 parts of heavy calcium powder, adding 15-25% of mica powder and the heavy calcium powder to mix, adding 45 parts of nano glass powder, adding 2-5% of nano glass powder to slightly dilute the nano glass powder, putting the mixed powder of the resin powder, the microlite powder and the heavy calcium powder mica powder into a stirrer to grind, adding 13 parts of quartz sand into the diluted nano glass powder to mix, putting the resin powder, the microlite powder, the heavy calcium powder, the mica powder and the mixed powder into the stirrer to mix and stir, adding a dispersing aid in the stirring process, controlling the stirring speed of the stirrer to be 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 10 parts of pigment, adding 10-15% of water into the pigment to dilute the pigment into semi-dry liquid, taking 10 parts of colorant, adding 5-15% of water into the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And (3) taking 9 parts of polyethylene film, adding 20-30% of water of the polyethylene film to dilute the polyethylene film, and mixing the diluted polyethylene film with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 10 parts of plasticizer and 10 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

6. An impact-resistant and friction-resistant hot melt oscillating raised road marking paint as claimed in claim 1, wherein: the sanding time of the mixed coating in the step (2) is 0.3-0.5 hour, and the mixed coating needs to be placed for 0.5 hour after the plasticizer is added in the step (4).

7. An impact-resistant and friction-resistant hot melt oscillating raised road marking paint as claimed in claim 1, wherein: the drying time in the step (5) is 0.5-1 hour, the temperature in the dryer is 300-400 ℃, and the filtering time of the coating in the filter box is 0.5 hour.

Technical Field

The invention relates to the field of powder production, in particular to an impact-resistant and friction-resistant hot-melt oscillation convex road marking paint.

Background

With the rapid development of traffic, vehicles and people flow on the road are increased, traffic lights, vehicles and people flow walking roads are arranged on the road to avoid traffic accidents, and traffic safety caused by overcrowding of people flow and vehicles is avoided.

Road marking coating is needed to be used for doodling distinguishing when distinguishing sidewalks and roadways, such as zebra stripes, but because the coating is laid on the road surface and is always exposed, the coating is easily melted by high temperature influence, and the friction disappears due to the pedestrian flow walking contact of vehicles, the doodling is carried out by using the hot-melting oscillation convex road marking coating which is impact-resistant and friction-resistant.

The coating produced by the existing coating production process is easy to crack when being coated, the hardness and the friction resistance of the produced coating are low, the smoothness of the surface of the produced coating coated on the ground is low, the attractiveness is affected, the adhesion degree of the coating coated on the road ground and the ground is low, the coating is easy to scratch when vehicles excessively rub the road ground, the service life is short, the coating on the road needs to be repaired and coated for many times, and the coating is wasted.

Disclosure of Invention

Based on the technical problems that the coating produced by the existing coating production process is easy to crack when being coated, the hardness and the friction resistance of the produced coating are low, the smoothness of the coated surface of the produced coating is low, the attractiveness is affected, the adhesion degree of the coated surface of a road to the ground is low, the coating is easy to scratch when a vehicle is excessively rubbed with the ground, the service life is short, the road coating needs to be repeatedly coated and repaired, and the coating is wasted.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an impact-resistant and antifriction's protruding type road marking coating of hot melt oscillation, includes the powder, the preparation process of powder:

(1) crushing 20-35 parts of resin into powder by using a grinder, crushing 10-25 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, adding mica powder accounting for 15-25% of the weight calcium powder into 9-15 parts of the weight calcium powder, mixing the mica powder with the weight calcium powder, adding 30-45 parts of nano glass powder, adding water accounting for 2-5% of the nano glass powder to slightly dilute the nano glass powder, putting the mixed powder of the resin powder, the microlite powder and the weight calcium powder into a stirrer for grinding, adding 7-13 parts of quartz sand into the diluted nano glass powder for mixing, putting the resin powder, the microlite powder, the weight calcium powder, the mica powder and the mixed powder into the stirrer for mixing and stirring, the dispersing auxiliary agent is added in the stirring process, the stirring speed of the stirrer is controlled to be 40-60 revolutions per minute, and the stirring time is controlled to be within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 5-10 parts of pigment, adding 10-15% of water into the pigment to dilute the pigment into semi-dry liquid, taking 5-10 parts of colorant, adding 5-15% of water into the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the paint after coloring.

(4) And (3) taking 3-9 parts of polyethylene film, adding 20-30% of water of the polyethylene film to dilute the polyethylene film, and mixing the diluted polyethylene film with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) And (2) sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, putting 6-10 parts of plasticizer and 6-10 parts of forming agent into the dryer to dry, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter, so as to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

The invention is further arranged in that the manufacturing process of the powder material is as follows:

(1) crushing 20 parts of resin into powder by using a grinder, crushing 10 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, mixing 9 parts of heavy calcium powder, mica powder 15-25% of the heavy calcium powder and the heavy calcium powder, adding 30 parts of nano glass powder, adding water 2-5% of the nano glass powder to slightly dilute the nano glass powder, grinding the mixed powder of the resin powder, the microlite powder and the heavy calcium powder mica powder in a stirrer, adding 7 parts of quartz sand into the diluted nano glass powder to mix, adding the resin powder, the microcrystalline powder, the heavy calcium powder, the mica powder and the mixed powder into the stirrer to mix and stir, adding a dispersing aid in the stirring process, controlling the stirring speed of the stirrer to 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 5 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 5 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And 3 parts of polyethylene film is taken, 20-30% of water of the polyethylene film is added to dilute the polyethylene film, and the diluted polyethylene film is mixed with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 6 parts of plasticizer and 6 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

The invention is further arranged in that the manufacturing process of the powder material is as follows:

crushing 25 parts of resin into powder by using a grinder, crushing 12 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation raised road marking paint, adding mica powder accounting for 15-25% of the weight calcium powder into 11 parts of the weight calcium powder, mixing the mica powder with the weight calcium powder, adding 34 parts of nano glass powder, adding water accounting for 2-5% of the nano glass powder to slightly dilute the nano glass powder, putting the mixed powder of the resin powder, the microlite powder and the weight calcium powder into a stirrer for grinding, adding 8 parts of quartz sand into the diluted nano glass powder for mixing, putting the resin powder, the microlite powder, the weight calcium powder, the mica powder and the mixed powder into the stirrer for mixing and stirring, adding a dispersing aid during stirring, controlling the stirring speed of the stirrer to be 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 6 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 6 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And 4 parts of polyethylene film is taken, 20-30% of water of the polyethylene film is added to dilute the polyethylene film, and the diluted polyethylene film is mixed with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 7 parts of plasticizer and 7 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

2. An impact-resistant and friction-resistant hot melt oscillating raised road marking paint as claimed in claim 1, wherein: the preparation process of the powder material comprises the following steps:

(1) crushing 20 parts of resin into powder by using a grinder, crushing 10 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, mixing 9 parts of heavy calcium powder, mica powder 15-25% of the heavy calcium powder and the heavy calcium powder, adding 30 parts of nano glass powder, adding water 2-5% of the nano glass powder to slightly dilute the nano glass powder, grinding the mixed powder of the resin powder, the microlite powder and the heavy calcium powder mica powder in a stirrer, adding 7 parts of quartz sand into the diluted nano glass powder to mix, adding the resin powder, the microcrystalline powder, the heavy calcium powder, the mica powder and the mixed powder into the stirrer to mix and stir, adding a dispersing aid in the stirring process, controlling the stirring speed of the stirrer to 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 5 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 5 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And 3 parts of polyethylene film is taken, 20-30% of water of the polyethylene film is added to dilute the polyethylene film, and the diluted polyethylene film is mixed with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 6 parts of plasticizer and 6 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

3. An impact-resistant and friction-resistant hot melt oscillating raised road marking paint as claimed in claim 1, wherein: the preparation process of the powder material comprises the following steps:

(1) crushing 25 parts of resin into powder by using a grinder, crushing 12 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation raised road marking paint, adding mica powder accounting for 15-25% of the weight calcium powder into 11 parts of the weight calcium powder, mixing the mica powder with the weight calcium powder, adding 34 parts of nano glass powder, adding water accounting for 2-5% of the nano glass powder to slightly dilute the nano glass powder, putting the mixed powder of the resin powder, the microlite powder and the weight calcium powder into a stirrer for grinding, adding 8 parts of quartz sand into the diluted nano glass powder for mixing, putting the resin powder, the microlite powder, the weight calcium powder, the mica powder and the mixed powder into the stirrer for mixing and stirring, adding a dispersing aid during stirring, controlling the stirring speed of the stirrer to be 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 6 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 6 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And 4 parts of polyethylene film is taken, 20-30% of water of the polyethylene film is added to dilute the polyethylene film, and the diluted polyethylene film is mixed with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 7 parts of plasticizer and 7 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

4. An impact-resistant and friction-resistant hot melt oscillating raised road marking paint as claimed in claim 1, wherein: the preparation process of the powder material comprises the following steps:

(1) crushing 30 parts of resin into powder by using a grinder, crushing 13 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, mixing 12 parts of heavy calcium powder, mica powder 15-25% of the heavy calcium powder and the heavy calcium powder, adding 38 parts of nano glass powder, adding water 2-5% of the nano glass powder to slightly dilute the nano glass powder, grinding the mixed powder of the resin powder, the microlite powder and the heavy calcium powder mica powder in a stirrer, adding 9 parts of quartz sand into the diluted nano glass powder to mix, adding the resin powder, the microcrystalline powder, the heavy calcium powder, the mica powder and the mixed powder into the stirrer to mix and stir, adding a dispersing auxiliary agent in the stirring process, controlling the stirring speed of the stirrer to 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 7 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 7 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And (3) taking 5 parts of polyethylene film, adding 20-30% of water of the polyethylene film to dilute the polyethylene film, and mixing the diluted polyethylene film with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 8 parts of plasticizer and 8 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

5. An impact-resistant and friction-resistant hot melt oscillating raised road marking paint as claimed in claim 1, wherein: the preparation process of the powder material comprises the following steps:

(1) crushing 35 parts of resin into powder by using a grinder, crushing 25 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, adding 15 parts of heavy calcium powder, adding 15-25% of mica powder and the heavy calcium powder to mix, adding 45 parts of nano glass powder, adding 2-5% of nano glass powder to slightly dilute the nano glass powder, putting the mixed powder of the resin powder, the microlite powder and the heavy calcium powder mica powder into a stirrer to grind, adding 13 parts of quartz sand into the diluted nano glass powder to mix, putting the resin powder, the microlite powder, the heavy calcium powder, the mica powder and the mixed powder into the stirrer to mix and stir, adding a dispersing aid in the stirring process, controlling the stirring speed of the stirrer to be 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 10 parts of pigment, adding 10-15% of water into the pigment to dilute the pigment into semi-dry liquid, taking 10 parts of colorant, adding 5-15% of water into the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And (3) taking 9 parts of polyethylene film, adding 20-30% of water of the polyethylene film to dilute the polyethylene film, and mixing the diluted polyethylene film with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 10 parts of plasticizer and 10 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

6. An impact-resistant and friction-resistant hot melt oscillating raised road marking paint as claimed in claim 1, wherein: the sanding time of the mixed coating in the step (2) is 0.3-0.5 hour, and the mixed coating needs to be placed for 0.5 hour after the plasticizer is added in the step (4).

7. An impact-resistant and friction-resistant hot melt oscillating raised road marking paint as claimed in claim 1, wherein: the drying time in the step (5) is 0.5-1 hour, the temperature in the dryer is 300-400 ℃, and the filtering time of the coating in the filter box is 0.5 hour.

In summary, the invention mainly has the following beneficial effects:

1. according to the invention, the high-toughness impact-resistant powder coating is formed by adding the microlite powder and the nano glass powder into the resin powder, and the friction resistance of the coating is improved by mixing the microlite powder and the nano glass powder with the mica powder, so that the produced coating has high toughness impact resistance, is not easy to separate from a road surface, avoids the need of supplementing materials to the road for many times, saves coating resources and prolongs the service life of the coating;

2. according to the invention, the pigment and the colorant are added into the paint powder to improve the coloring of the paint during production, so that the produced paint has a glossier color, is easier to see by vehicles and pedestrians when being applied to roads, and reduces the occurrence rate of traffic accidents.

3. According to the invention, the polyethylene film is added into the coating powder to remove impurities in the coating, so that the problem that the fineness of the produced powder is uneven and the quality of powder production is influenced is avoided, the smoothness degree of the coating applied to the road surface is improved, the plasticizer and the forming agent added into the drying box are used for drying and shaping the powder at high temperature, the moisture in the powder is reduced, the efficiency of powder production is improved, the quality of powder production is ensured, and the phenomenon that coating cracks occur due to excessive moisture in the produced powder is avoided.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention. The embodiments described below by reference are exemplary only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

The following describes an embodiment of the present invention based on its overall structure.

Example 1

The hot-melt oscillation convex road marking coating with impact resistance and friction resistance is prepared by the following steps:

(1) crushing 20 parts of resin into powder by using a grinder, crushing 10 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, mixing 9 parts of heavy calcium powder, mica powder 15-25% of the heavy calcium powder and the heavy calcium powder, adding 30 parts of nano glass powder, adding water 2-5% of the nano glass powder to slightly dilute the nano glass powder, grinding the mixed powder of the resin powder, the microlite powder and the heavy calcium powder mica powder in a stirrer, adding 7 parts of quartz sand into the diluted nano glass powder to mix, adding the resin powder, the microcrystalline powder, the heavy calcium powder, the mica powder and the mixed powder into the stirrer to mix and stir, adding a dispersing aid in the stirring process, controlling the stirring speed of the stirrer to 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 5 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 5 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And 3 parts of polyethylene film is taken, 20-30% of water of the polyethylene film is added to dilute the polyethylene film, and the diluted polyethylene film is mixed with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 6 parts of plasticizer and 6 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

Example 2

The hot-melt oscillation convex road marking coating with impact resistance and friction resistance is prepared by the following steps:

crushing 25 parts of resin into powder by using a grinder, crushing 12 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation raised road marking paint, adding mica powder accounting for 15-25% of the weight calcium powder into 11 parts of the weight calcium powder, mixing the mica powder with the weight calcium powder, adding 34 parts of nano glass powder, adding water accounting for 2-5% of the nano glass powder to slightly dilute the nano glass powder, putting the mixed powder of the resin powder, the microlite powder and the weight calcium powder into a stirrer for grinding, adding 8 parts of quartz sand into the diluted nano glass powder for mixing, putting the resin powder, the microlite powder, the weight calcium powder, the mica powder and the mixed powder into the stirrer for mixing and stirring, adding a dispersing aid during stirring, controlling the stirring speed of the stirrer to be 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 6 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 6 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And 4 parts of polyethylene film is taken, 20-30% of water of the polyethylene film is added to dilute the polyethylene film, and the diluted polyethylene film is mixed with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 7 parts of plasticizer and 7 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

Example 3

The hot-melt oscillation convex road marking coating with impact resistance and friction resistance is prepared by the following steps:

(1) crushing 30 parts of resin into powder by using a grinder, crushing 13 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, mixing 12 parts of heavy calcium powder, mica powder 15-25% of the heavy calcium powder and the heavy calcium powder, adding 38 parts of nano glass powder, adding water 2-5% of the nano glass powder to slightly dilute the nano glass powder, grinding the mixed powder of the resin powder, the microlite powder and the heavy calcium powder mica powder in a stirrer, adding 9 parts of quartz sand into the diluted nano glass powder to mix, adding the resin powder, the microcrystalline powder, the heavy calcium powder, the mica powder and the mixed powder into the stirrer to mix and stir, adding a dispersing auxiliary agent in the stirring process, controlling the stirring speed of the stirrer to 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 7 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 7 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And (3) taking 5 parts of polyethylene film, adding 20-30% of water of the polyethylene film to dilute the polyethylene film, and mixing the diluted polyethylene film with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 8 parts of plasticizer and 8 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

Example 4

The hot-melt oscillation convex road marking coating with impact resistance and friction resistance is prepared by the following steps:

(1) crushing 35 parts of resin into powder by using a grinder, crushing 25 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, adding 15 parts of heavy calcium powder, adding 15-25% of mica powder and the heavy calcium powder to mix, adding 15 parts of nano glass powder, adding 2-5% of nano glass powder to slightly dilute the nano glass powder, putting the mixed powder of the resin powder, the microlite powder and the heavy calcium powder mica powder into a stirrer to grind, adding 13 parts of quartz sand into the diluted nano glass powder to mix, putting the resin powder, the microlite powder, the heavy calcium powder, the mica powder and the mixed powder into the stirrer to mix and stir, adding a dispersing aid in the stirring process, controlling the stirring speed of the stirrer to be 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 10 parts of pigment, adding 10-15% of water into the pigment to dilute the pigment into semi-dry liquid, taking 10 parts of colorant, adding 5-15% of water into the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And (3) taking 9 parts of polyethylene film, adding 20-30% of water of the polyethylene film to dilute the polyethylene film, and mixing the diluted polyethylene film with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 10 parts of plasticizer and 10 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

Comparative example 1

The hot-melt oscillation convex road marking coating with impact resistance and friction resistance is prepared by the following steps:

(1) crushing 20 parts of resin into powder by using a grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, adding 9 parts of heavy calcium powder, 15-25% of mica powder and the heavy calcium powder to mix, adding 30 parts of nano glass powder, 2-5% of water to slightly dilute the nano glass powder, putting the mixed powder of the resin powder, the microlite powder and the heavy calcium powder into a stirrer to grind, adding 7 parts of quartz sand into the diluted nano glass powder to mix, adding the resin powder and the microlite powder, the coarse whiting powder, the mica powder and the mixed powder are put into a stirrer for mixing and stirring, the dispersing auxiliary agent is added in the stirring process, the stirring speed of the stirrer is controlled to be 40-60 revolutions per minute, and the stirring time is controlled to be within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 5 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 5 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And 3 parts of polyethylene film is taken, 20-30% of water of the polyethylene film is added to dilute the polyethylene film, and the diluted polyethylene film is mixed with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 6 parts of plasticizer and 6 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

Comparative example 2

The hot-melt oscillation convex road marking coating with impact resistance and friction resistance is prepared by the following steps:

crushing 25 parts of resin into powder by using a grinder, crushing 12 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation raised road marking paint, adding mica powder accounting for 15-25% of the weight calcium powder into 11 parts of the weight calcium powder, mixing the mica powder with the weight calcium powder, adding 34 parts of nano glass powder, adding water accounting for 2-5% of the nano glass powder to slightly dilute the nano glass powder, putting the mixed powder of the resin powder, the microlite powder and the weight calcium powder into a stirrer for grinding, adding 8 parts of quartz sand into the diluted nano glass powder for mixing, putting the resin powder, the microlite powder, the weight calcium powder, the mica powder and the mixed powder into the stirrer for mixing and stirring, adding a dispersing aid during stirring, controlling the stirring speed of the stirrer to be 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 6 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 6 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And 4 parts of polyethylene film is taken, 20-30% of water of the polyethylene film is added to dilute the polyethylene film, and the diluted polyethylene film is mixed with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 7 parts of plasticizer and 7 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

Comparative example 3

The hot-melt oscillation convex road marking coating with impact resistance and friction resistance is prepared by the following steps:

(1) crushing 30 parts of resin into powder by using a grinder, crushing 13 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, mixing 12 parts of heavy calcium powder, mica powder 15-25% of the heavy calcium powder and the heavy calcium powder, adding 38 parts of nano glass powder, adding water 2-5% of the nano glass powder to slightly dilute the nano glass powder, grinding the mixed powder of the resin powder, the microlite powder and the heavy calcium powder mica powder in a stirrer, adding 9 parts of quartz sand into the diluted nano glass powder to mix, adding the resin powder, the microcrystalline powder, the heavy calcium powder, the mica powder and the mixed powder into the stirrer to mix and stir, adding a dispersing auxiliary agent in the stirring process, controlling the stirring speed of the stirrer to 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 7 parts of pigment, adding water accounting for 10-15% of the pigment to dilute the pigment into semi-dry liquid, taking 7 parts of colorant, adding water accounting for 5-15% of the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 8 parts of plasticizer and 8 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

Comparative example 4

The hot-melt oscillation convex road marking coating with impact resistance and friction resistance is prepared by the following steps:

(1) crushing 35 parts of resin into powder by using a grinder, crushing 25 parts of microlite into powder by using the grinder to obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking paint, adding 15 parts of heavy calcium powder, adding 15-25% of mica powder and the heavy calcium powder to mix, adding 15 parts of nano glass powder, adding 2-5% of nano glass powder to slightly dilute the nano glass powder, putting the mixed powder of the resin powder, the microlite powder and the heavy calcium powder mica powder into a stirrer to grind, adding 13 parts of quartz sand into the diluted nano glass powder to mix, putting the resin powder, the microlite powder, the heavy calcium powder, the mica powder and the mixed powder into the stirrer to mix and stir, adding a dispersing aid in the stirring process, controlling the stirring speed of the stirrer to be 40-60 revolutions per minute, the stirring time is controlled within 2-2.5 hours.

(2) The powder that will stir the mixture takes out from the mixer and puts into the sand mill in, carries out the sand mill with the powder that mixes, adds the glass bead to the sand mill in simultaneously and carries out the sand mill, improves the fineness of mixed powder, improves the homogeneity that the powder mixes and is convenient for follow-up shaping to the powder.

(3) Taking out the powder after sand grinding and mixing, placing the powder on a manufacturing board, manually dispersing the mixed powder on the manufacturing board to avoid the accumulation of the mixed powder, taking 10 parts of pigment, adding 10-15% of water into the pigment to dilute the pigment into semi-dry liquid, taking 10 parts of colorant, adding 5-15% of water into the colorant to dilute the colorant into the semi-dry liquid, and placing the pigment and the colorant into the mixed powder to facilitate the coloring of subsequent paint and improve the glossiness of the colored paint.

(4) And (3) taking 9 parts of polyethylene film, adding 20-30% of water of the polyethylene film to dilute the polyethylene film, and mixing the diluted polyethylene film with the mixed coating, so that the smoothness of the coating is prevented from being insufficient, and the quality of coating manufacture is improved.

(5) Sending the preliminarily mixed coating powder into a dryer to dry and form the coating powder, taking 10 parts of plasticizer and 10 parts of forming agent to dry in the dryer, improving the drying and forming speed of the coating powder, forming and reinforcing the coating powder, and finally sending the coating into a filter box to filter and obtain the impact-resistant and friction-resistant hot-melt oscillation convex road marking coating.

Watch 1

To summarize: the toughness strength of the powder production is related to the microlite as shown in table one.

Watch two

To summarize: the second table experiment shows that the coloring degree of powder production is related to the colorant, and the coloring difficulty of powder production is influenced by the content of the colorant.

Watch III

To summarize: the third experiment shows that the smoothness of the outer surface produced by the powder is related to the polyethylene film, and the glossiness of the outer surface produced by the powder is influenced by the content of the nano graphite powder.

Watch four

To summarize: the fourth test in the table shows that the friction resistance produced by the powder is related to the friction resistance produced by the nano glass powder, and the friction resistance produced by the powder is higher due to the addition of the nano glass powder.

Although embodiments of the present invention have been shown and described, it is intended that the present invention should not be limited thereto, that the particular features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples, and that modifications, substitutions, variations or the like, which are not inventive and may be made by those skilled in the art without departing from the principle and spirit of the present invention and without departing from the scope of the claims.