TW201438821A - Construction method of waterproof coating - Google Patents

Abstract

The present invention provides a construction method of waterproof coating, which is first preparing an atomizing coating processing cover, an atomizer and, a pressure pump for pressurizing and suction. The atomizing coating processing cover is provided for a processing object in tightly fitted mounting to form a first coating chamber and a second coating chamber at both ends of the processing object and separated from each other. The first coating chamber is connected to the outlet of the atomizer, the second coating chamber is connected to the suction pipe of the pressure pump, and the inlet of the atomizer is connected to the pressurizing pipe of the pressure pump. With such an assembly, the atomized waterproof coating agent may be outputted through the operation of the atomizer and reach the first coating chamber. The pressure pump may perform the intermittent negative-pressure suction for the second coating chamber to form a negative pressure space. Thus, the positive and negative pressure differences between the first and second coating chambers may force the atomized waterproof coating agent in the first coating chamber entering the interior through an exposed hole at one end of the processing object, and overflowing from the hole at the other end to reach the second coating chamber, so as be seeped into all the holes and surfaces of the inner and outer components of the processing object for adherence, and thus form the entire waterproof coating layer structure.

Description

Waterproof coating construction method (2)

The invention relates to a waterproof coating film construction method (2), in particular to a waterproof coating process which can be carried out without disassembling the product casing, and the waterproof coating agent is infiltrated into all the pore surfaces of the construction object without adhesion. And fully invented the innovative inventor of the construction method of waterproof coating filled with closed adhesion.

According to the coating structure, it is widely used in various high-priced electronic products and their components. For example, recently popular mobile phones are popular for waterproof coating or scratch-resistant protective coating treatment to prevent internal components from malfunctioning due to moisture or surface. Scratch the wearer.

The above-mentioned waterproof coating treatment generally attaches a liquid waterproof coating agent to the surface of the construction object by means of coating or spraying, so that the coating agent forms a coating layer on the surface of the construction object (or spray adhesion layer). Structure) to achieve the protection against surface scratches.

However, the above-mentioned coating layer structure (or spray adhesion layer structure) formed by the water-repellent coating agent on the construction object may have dead corners or pores which cannot be completely adhered during construction, and cannot form a comprehensive attachment structure effectively. One of the shortcomings is that the coating cannot achieve comprehensive protection.

Moreover, taking the mobile phone as an example, if the internal parts are to be protected from moisture, the construction must be dismantled before the construction can be carried out, resulting in inconvenience in construction and delay in the construction period, which is the second disadvantage.

Finally, since the warranty requirements of general mobile phones (including other electronic products) will be determined that the casing cannot be removed, once the casing is disassembled for construction, the loss of the construction object will be lost, which is the third disadvantage.

Therefore, how to innovate the inventors for the inability of the above-mentioned waterproof coating system to be fully attached and protected, and the inconvenience of having to disassemble the product casing and the loss of the warranty may be the difficult points to be solved in this case. Where. .

The main object of the present invention is to provide a waterproof coating film construction method (2), which can make the waterproof coating agent penetrate into all the pores of the construction object, and fully form a waterproof coating structure filled with closed adhesion to achieve comprehensive protection inside and outside the surface. Use progressive people.

The second object of the present invention is to provide a waterproof coating film construction method (2), which can perform waterproof coating construction without disassembling the product casing, and effectively improve the convenience of construction operation and the progress of construction speed.

Another object of the present invention is to provide a method for constructing a waterproof coating (2), which does not require dismantling of the casing to avoid loss of warranty loss.

The construction method (2) of the waterproof coating of the present invention includes the following procedures: The atomization coating environment preparation program (a) comprises an atomization coating processing sleeve, an atomizer and a pressure pump for providing pressure and suction, and the atomization coating processing sleeve can provide a close connection to a construction object. The sleeve is installed, and the first coating chamber and the second coating chamber which are mutually blocked at the two ends of the construction object are formed, and the atomization coating processing sleeve is connected with the atomizer outlet by an interface located on the outdoor side of the first coating film, An interface on the outdoor side of the second coating is connected with a suction pipe provided by the pump, and the inlet of the atomizer is connected with a pressure pipe provided by the pump, and the pump is additionally provided with a row of fog. The tube is connected to a filter water tank; and the operation structure for performing positive and negative pressure circulation in the first coating chamber and the second coating chamber together to provide an operator for performing atomization coating construction.

The pre-operation program (b), after the construction object is properly cleaned, the sleeve is tightly connected to the sealing sleeve of the partition, and then the partition is sleeved in the opposite sleeves of the first sleeve and the second sleeve. The two inner edges are pressed to form a tight joint that blocks the first coating chamber and the second coating chamber, so that the construction object is installed in the first coating chamber and the second coating chamber where the atomization coating processing sleeve is mutually blocked. between.

Waterproof coating agent atomization program (c), the waterproof coating agent pre-installed in the atomizer is formed into a mist-like waterproof coating agent by the operation of the atomizer, and is output from the atomizer outlet to the atomization coating processing sleeve. The first coating chamber of the casing.

Positive and negative pressure difference intermittent suction program (d), when the intermittent vacuum suction operation is performed by the pressure pumping, the suction of the second coating chamber through the suction pipe forms a negative pressure space, and the pressure is pressurized. The tube pressurizes the atomizer to continuously pass the mist-like waterproof coating agent into the first coating chamber, and forms a positive and negative pressure difference between the first coating chamber and the second coating chamber, and thereby the pressure difference acts to make the first The spray-like waterproof coating agent of the coating chamber can be exposed by exposed holes at one end of the construction object (such as sound reinforcement holes and sound holes) Or a charging hole, etc.) enters the interior, passes through the assembly space of the internal space, and overflows from the other end of the construction object to the second coating chamber to form a convection cycle of positive and negative pressure, and is extracted by the pumping suction pipe. The misty waterproof coating agent will be discharged from the exhaust pipe to the filter tank for environmental protection filtration.

The waterproof coating agent infiltration and adhesion process (e), by the convection circulation of the positive and negative pressures described above, the mist-like waterproof coating agent which is infiltrated by the exposed holes of the construction object can penetrate into the inner space of the construction object, and can penetrate into the construction environment without perforation. All the pore surfaces of the components inside and outside the object are attached, and gradually form a waterproof coating layer structure filled with closed pores on all the surface of the component.

The finished product program (f), after the mist-like waterproof coating agent completes the comprehensive attachment processing operation of the construction object, the pumping pump is closed to stop the suction and pressurization operation, and the atomization coating processing sleeve is opened, and the construction is started. The object is taken out as the finished product.

According to the above, after the finished product program, a drying setting procedure (g) is further provided, that is, the finished product after the waterproof coating agent coating processing is placed in the oven to be baked, and the structure of the waterproof coating layer is accelerated and shaped.

According to the above, the atomization coating device comprises an atomization coating processing sleeve, an atomizer and two pressure pumping pumps for providing pressurization and suction; wherein the pressure pumping pump is provided with a suction tube and a second pump The interface on the outdoor side of the coating constitutes a suction connection, and another row of the mist pipe is connected with a filter water tank; and the other pressure pumping pump is provided with a pressure pipe having a pressure gauge and an inlet of the atomizer.

According to the above, the atomized coating processing sleeve comprises a first set a body, a second sleeve body and a partition plate, the first sleeve body and the second sleeve body are provided with inner flanges on the inner side of the opposite open ends to form an inner first coating chamber and a second coating chamber, the first sleeve body, The second sleeve body is formed with a clamping groove on the outer side opening of the inner edge, and an interface is formed on the other end; the partition plate is a soft material plate body, and is clamped to the first sleeve body and the second sleeve body The two clamping slots of the sleeve are arranged to block the first coating chamber and the second coating chamber, and a sealing sleeve hole corresponding to different construction objects can be closely arranged in the center of the plate body.

According to the above, the first sleeve body and the second sleeve body of the atomized coating processing sleeve are transparent materials.

In view of the above, the partition is made of foamed cotton.

According to the above, the construction objects are smart phones, tablet computers, car navigation systems, handheld game instruments, electronic dictionaries, video players, MP3 and other 3C products.

10‧‧‧Atomized coating processing sleeve

11‧‧‧First set

111‧‧‧First coating chamber

112, 122‧‧‧

113, 123‧‧‧ slot

114, 124‧‧‧ interface

12‧‧‧Second set

121‧‧‧Second coating room

13‧‧‧Baffle

131‧‧‧Sleeve hole

20‧‧‧ atomizer

21‧‧‧ entrance

22‧‧‧Export

30‧‧‧Pump pump

31‧‧‧Sucking tube

32‧‧‧ Pressurized tube

321‧‧‧ pressure gauge

33‧‧‧Draining tube

34‧‧‧Filter tank

40‧‧‧Matty waterproof coating agent

50‧‧‧ Construction items

51‧‧‧Call screen

60‧‧‧ a basin of water

The first figure is a flow chart of the construction procedure of the present invention.

The second drawing is a perspective exploded view of the atomization coating apparatus of the present invention.

The third figure is a schematic sectional view of the atomization coating apparatus of the present invention.

The fourth figure is a schematic cross-sectional view of the atomization program of the waterproof coating agent of the present invention.

The fifth figure is a schematic cross-sectional view of the intermittent suction process of the positive and negative pressure difference of the present invention.

Figure 6 is a schematic cross-sectional view showing a second embodiment of the atomization coating apparatus of the present invention.

The seventh figure is a schematic diagram of the waterproof test of the construction object of the present invention.

Generally, according to the present invention, the preferred embodiment is to provide construction articles 50 of various electroporous products (such as smart phones, tablets, car navigation systems, palm-type amusement instruments, electronic dictionaries, video players, MP3s or other For the construction operator of the waterproof coating for the 3C product and the like, the mobile phone is used as an example. Referring to FIG. 1, the present invention includes the following procedure: a preparation procedure of the atomization coating device (a), such as As shown in the second and third figures, an atomization coating processing sleeve 10, an atomizer 20 and a pressure pump 30 for providing pressure and suction are provided. The atomization coating processing sleeve 10 includes a first sleeve. 11. A second casing 12 and a partition 13 are formed. The first casing 11 and the second casing 12 are shell-like casings of a see-through material, and inner flanges 112 and 122 are disposed on opposite inner sides of the opposite ends. The first first coating chamber 111 and the second coating chamber 121 are formed, and the first sleeve body 11 and the second sleeve body 12 are oppositely formed with the clamping grooves 113 and 123 at the outer opening edges of the inner flanges 112 and 122, and one of the other ends is formed at the other ends. The interface 114, 124; the partition 13 is a soft foamed cotton board body. The first coating chamber 111 and the second coating chamber 121 are blocked by the first sleeve body 11 and the second sleeve body 12, and the first coating chamber 111 and the second coating chamber 121 are blocked. Corresponding to different construction objects 50 can be closely connected to the sleeve sealing hole 131. The atomized coating processing sleeve 10 can provide a first coating chamber 111 and a second coating chamber 121 which form a mutual barrier between the construction object 50 and the first coating chamber 121; the atomization coating processing sleeve 10 Located in the first coating chamber 11 An outer port 114 is engaged with the outlet 22 of the atomizer 20, and an interface 124 located outside the second coating chamber 121 is connected to a suction pipe 31 provided by the pumping pump 30. The inlet of the atomizer 20 21 is connected with a pressurizing tube 32 of the pumping pump 30, and the pumping pump 30 is further provided with a row of mist tubes 33 connected to a filtering tank 34; the composition is applicable to the first coating chamber 111 and the second coating chamber. 121 The operation structure for performing positive and negative pressure difference cycles, as shown in the third figure, to provide an operator for performing atomization coating construction.

The pre-operation program (b), as shown in the third figure, after the construction object 50 is properly cleaned, is tightly bound in the sealing sleeve hole 131 of the partition plate 13, and then the partition plate 13 is set in the first sleeve body. 11. The two clamping slots 113 and 123 of the second sleeve body 12 are pressed by the two inner flanges 112 and 122 to form a tight joint of the first coating chamber 111 and the second coating chamber 121, thereby forming the construction object. 50 is installed between the first coating chamber 111 and the second coating chamber 121 where the atomization coating processing sleeve 10 blocks each other.

The water-repellent coating agent atomization program (c), the water-repellent coating agent previously contained in the atomizer 20 is formed into a mist-like water-repellent coating agent 40 by the operation of the atomizer 20, and is output to the atomization by the outlet 22 of the atomizer 20. The first coating chamber 111 of the first casing 11 of the coating processing sleeve 10 is as shown in the fourth figure.

The positive and negative pressure difference intermittent suction program (d), as shown by the hollow arrows in the fourth and fifth figures, is intermittently sucked and pressurized by the pressure pump 30, and is passed through the suction pipe 31 to the second coating chamber 121. The suction causes it to form a negative pressure space, and pressurizes the atomizer 20 through the pressurizing tube 32 to continue the misty waterproof coating agent 40 into the first coating chamber 111, thereby making the first sleeve 1 1. The second casing 12 forms a positive and negative pressure difference between the first coating chamber 111 and the second coating chamber 121 which are blocked by the partition plate 13, and the water pressure coating of the first coating chamber 111 is caused by the pressure difference. The agent 40 can enter the inside from the exposed hole at one end of the construction object 50 (such as a sound reinforcement hole, a sound hole or a charging hole, etc.), as shown by a solid arrow in the figure, and the other part of the construction object 50 is passed through the assembly space of the internal space. The hole overflows to reach the second coating chamber 121 (as shown in FIG. 5), and constitutes a convection cycle of positive and negative pressure, and the mist-like waterproof coating agent 40 extracted by the suction pump 30 suction pipe 31 will be as the fifth. The exhaust pipe 33 is discharged from the exhaust pipe 33 to the filter water tank 34 for environmentally-friendly filtration concentration.

The water-repellent coating agent osmosis adhesion process (e), by the convection circulation of the positive and negative pressures described above, the mist-like water-repellent coating agent 40 infiltrated by the exposed hole of the construction object 50 can flow through the internal space of the construction object 50, All of the pore surfaces of the components inside and outside of the infiltrated construction object 50 are adhered without perforation, and gradually form a waterproof coating layer structure filled with closed pores on all the surface of the component.

The finished product program (f), after the mist-like waterproof coating agent 40 completes the processing operation of the comprehensive attachment of the construction object 50, the pumping pump 30 is closed to stop the operation of suction and pressurization, and the atomization coating processing sleeve 10 is processed. When the construction object 50 is taken out, the construction finished product is taken out.

Dry setting procedure (g), the finished product after the coating of the waterproof coating agent is placed in the oven to be baked, and the structure of the waterproof coating layer is accelerated and shaped.

The construction operation as described above is performed by the pumping pump 30 to suction the first and second coating chambers 111, 121 by mounting the construction articles between the first and second coating chambers 111, 121 which are isolated from each other. Form positive and negative The pressure difference causes the mist-like water-repellent coating agent 40 generated by the atomizer 20 to be input to the first coating chamber 111 to converge through the pores of the construction object to the second coating chamber 121, thereby making the mist-like waterproof coating agent 40 can form a comprehensive attachment without perforation, and can directly carry out construction operations under the casing without the need to disassemble the construction object.

6 is a schematic cross-sectional view of a second embodiment of the atomization coating apparatus of the present invention, comprising an atomization coating processing sleeve 10, an atomizer 20 and two pressure pumping pumps 30 for providing pressure and suction. One of the pumping pumps 30 is provided with a suction pipe 31 and an interface 124 outside the second coating chamber 121 to form a suction connection, and another row of the atomizing pipe 33 is connected with a filtering water tank 34; and another pressure pumping pump is provided. 30, a pressurizing tube 32 having a pressure gauge 321 is engaged with the inlet 21 of the atomizer 20 to form a component.

The seventh figure is a schematic diagram of the waterproof test of the construction object according to the present invention. As shown in the above figure, the construction object (mobile phone) 50 for completing the waterproof coating construction can be immersed in a basin of water 60, which can be formed by the above-mentioned construction adhesion. The waterproof coating structure is completely waterproof; as shown in the figure below, when the construction object (mobile phone) 50 number is dialed, the construction object (mobile phone) 50 immersed in the water can still receive the call signal and open the call screen 51.

As described above, the "sealing method for waterproof coating (2)" of the present invention enables the waterproof coating agent to be infiltrated into the pore surface of all components inside and outside the construction object without any need to disassemble the casing of the construction object, and All the surface of the pores in the surface of the construction object is fully filled with a waterproof coating layer structure which is closed and attached, which effectively improves the convenience and construction speed of the coating construction operation, and avoids the loss of the warranty of the construction object. Re-progressive achievers.

In summary, when the invention is industrially usable and progressive, and the invention is not found in any publication, it is also novel. When the patent law is met, the invention patent application is filed according to law, and the review committee is invited. The quasi-patent is a prayer.

The above is only one of the possible embodiments of the present invention, and the scope of the present invention is not limited thereto; that is, the equal variation and modification of the scope of the patent application of the present invention should still belong to the present invention. Within the scope of coverage.

10‧‧‧Atomized coating processing sleeve

11‧‧‧First set

111‧‧‧First coating chamber

112, 122‧‧‧

113, 123‧‧‧ slot

114, 124‧‧‧ interface

12‧‧‧Second set

121‧‧‧Second coating room

13‧‧‧Baffle

131‧‧‧Sleeve hole

20‧‧‧ atomizer

21‧‧‧ entrance

22‧‧‧Export

30‧‧‧Pump pump

31‧‧‧Sucking tube

32‧‧‧ Pressurized tube

33‧‧‧Draining tube

34‧‧‧Filter tank

Claims (7)

A method for constructing a waterproof coating (2), comprising: a preparation procedure of the atomization coating device (a), an atomization coating processing sleeve, an atomizer and a pressure pump for providing pressure and suction, The atomized coating processing sleeve can provide the first coating chamber and the second coating chamber which are mutually blocked at the two ends of the construction object, and the atomization coating processing sleeve is located on the outdoor side of the first coating film. An interface is connected to the atomizer outlet, and an interface on the outdoor side of the second coating is connected to a suction pipe provided by the pump, and the inlet of the atomizer and the pressure pump are pressurized. The pipe is connected, and the pressure pump is additionally provided with a row of mist pipes connected to a filter water tank; and the common composition can be used for the positive and negative pressure circulation operation structures in the first coating chamber and the second coating chamber to provide the atomization coating construction. The operator; the pre-operation program (b), after the construction object is properly cleaned, the sleeve is tightly connected to the sealing sleeve of the partition, and then the partition is sleeved on the first sleeve and the second sleeve. In the two clip slots, the two inner edges are pressed against each other to form a barrier. The bonding between the coating chamber and the second coating chamber is performed, so that the construction object is installed between the first coating chamber and the second coating chamber where the atomization coating processing sleeve is mutually blocked; the waterproof coating agent atomization program (c) is pre-loaded The waterproof coating agent in the atomizer forms a mist-like waterproof coating agent by the operation of the atomizer, and is output from the atomizer outlet to the first coating chamber of the first set of the atomization coating processing sleeve; the positive and negative pressure difference intermittently Suction procedure (d), when the intermittent suction suction operation is performed by the pressure pumping, the suction of the second coating chamber through the suction tube is made Forming a negative pressure space, and pressurizing the atomizer through the pressurizing tube to continuously enter the first coating chamber with the mist-like waterproof coating agent, and forming a positive and negative pressure difference between the first coating chamber and the second coating chamber By this pressure difference, the water-repellent coating agent of the first coating chamber can enter the inside from the exposed hole (sound hole, sound hole or charging hole, etc.) at one end of the construction object, and the assembly space of the internal space is assembled. The outer hole of the construction object overflows to reach the second coating chamber to form a convection cycle of positive and negative pressure, and the mist-like waterproof coating agent extracted by the pumping suction pipe will be discharged from the exhaust pipe to the filter tank for environmental protection. Filtration concentration; waterproof coating agent permeation attachment procedure (e), through the above-mentioned positive and negative pressure convection circulation, so that the mist-like waterproof coating agent penetrating into the exposed hole of the construction object can be pervasive during the process of flowing through the internal space of the construction object The infiltration of all the pore surfaces of the internal and external components of the construction object is adhered, and gradually forms a waterproof coating layer structure filled with closed pores on all the surface of the component; the finished product program (f After the mist-like waterproof coating agent completes the comprehensive attachment processing operation of the construction object, the pumping pump is closed to stop the suction and pressurization operation, the atomization coating processing sleeve is opened, and the construction object is taken out. Construction finished product. According to the construction method (2) of the waterproof coating according to the first application scope of the patent application, after the finished product program, a drying setting procedure (g) is further provided, and the finished product after the coating of the waterproof coating agent is finished is placed in the oven for baking. To accelerate the drying and setting of the waterproof coating layer structure. According to the construction method (2) of the waterproof coating according to item 1 of the patent application scope, The atomization coating device comprises an atomization coating processing sleeve, an atomizer and two pressure pumping pumps for providing pressure and suction; wherein the pressure pumping pump is provided with a suction tube and a second coating film. The interface on the outdoor side constitutes a suction connection, and another row of the mist pipe is connected to a filter water tank; and the other pressure pumping pump is provided with a pressure pipe having a pressure gauge and an inlet of the atomizer. According to the construction method (2) of the waterproof coating according to the first application of the patent scope, the atomized coating processing sleeve comprises a first sleeve body, a second sleeve body and a partition plate, and the first sleeve body and the first sleeve body The second sleeve body is provided with an inner abutting edge on the inner side of the opposite open end to form an inner first coating chamber and a second coating chamber, and the first sleeve body and the second sleeve body are oppositely formed with a clamping groove at the outer side opening of the inner flange, and Forming an interface respectively; the partition is a soft material plate, and is clamped in the two clamping slots of the first sleeve and the second sleeve to block the first coating chamber and the second coating In the chamber, a sealing sleeve hole corresponding to different construction objects can be closely arranged in the center of the plate body. According to the construction method (2) of the waterproof coating according to Item 4 of the patent application scope, the first sleeve body and the second sleeve body of the atomized coating processing sleeve are made of a see-through material. According to the construction method (2) of the waterproof coating according to item 4 of the patent application scope, the separator is made of foamed cotton material. According to the construction method (2) of the waterproof coating according to item 1 of the patent application scope, the construction object is a smart phone, a tablet computer, a car navigation system, a palm-type amusement instrument, an electronic dictionary, a video player, an MP3, etc. 3C product. .