KR101315832B1 - Method of lifetime extension wood door with height controlling equipment - Google Patents

Abstract

PURPOSE: A life extension method for a wooden door using a height adjustment device is provided to extend the life of a wooden door by using a height adjustment device installed on the top with a spring, coating the surface, and obtaining strong rustproof properties. CONSTITUTION: A life extension method for a wooden door using a height adjustment device comprises the following steps: attaching a height adjustment device which comprises a case, a coil spring, a cap, a rod, a connection member, and a roller on the top of a wooden door; and coating the surface of the wooden door to form a coating layer which contains phosphate, titanium dioxide as an inorganic substance, and red clay. The coating layer contains 3-5 parts by weight of titanium dioxide and 5-10 parts by weight of red clay based on 95-97 parts by weight of phosphate.

Description

Method of lifetime extension wood door with height controlling equipment

The present invention relates to a method of extending the life of a wooden door using a height adjusting device, and more particularly, to a method of extending the life of a wooden door using a height adjusting device installed in a door in the manufacture of a wooden door, and also using a phosphate and a teal height adjusting device. It is about.

Korean Patent No. 10-0599376 discloses a plurality of horizontal bars installed at regular intervals up and down, and a body having a plurality of glass installation parts configured to be vertically coupled to both ends of the horizontal bars to connect the horizontal bars; Reinforcing members coupled to both ends of the main body to reinforce the main body; Closing caps are inserted into both ends of the body to surround the coupling portion of the reinforcement and the vertical / horizontal; A prefabricated door is disclosed which comprises a glass installed on the glass installation part.

In addition, in Korean Patent Publication No. 10-0997489, several non-transmission boards are adhered to each other in a rectangular shape, and upper, middle, lower, left, right frames are formed on the edges of the body plate formed by bonding laminated sheets on both sides. In the common wood frame door is configured to be symmetrical to the upper and lower center of the body plate symmetrically fixed to the middle frame and a viewing window formed of a viewing window frame on the upper side of the body plate, the components of the wooden door One resin selected from polyurethane resin or acrylic 93 ~ 97wt%, dispersant 1-3wt%, flame retardant 0.3 ~ 1.5wt%, wood preservative 0.2 ~ 1.5wt%, silane capping agent 0.5 ~ 2wt%, antioxidant 0.05 ~ Disclosed is a method for producing a classroom wood door made by infiltrating a permeable composition composed of 1 wt% under reduced pressure and a door thereof.

The body plate is made of rectangular shape by closely contacting the non-transmission board of a certain width in the lateral or longitudinal direction of the door, and then glued to the both sides of the board, and the frame of the door has a certain width in the middle frame of left and right. The frame is carved with a right angle bent and a curved bent on one side. The reinforcement plate has the same width as up and down and left and right reinforcement plate. The width of the reinforcement plate is equal to the side thickness of the door. Its width coincides with the length of the left and right reinforcement cladding plates.

In addition, the frame into which the sight glass or mirror is inserted consists of Rawang horns.

 In the step-by-step description of the method of manufacturing the door with the components of the door as described above, the first step of the step of penetrating the components into the composition consisting of the non-transmission board, the fusion plate, the frame, the reinforcement covering plate viewing window frame; A two-step process of evaporating and removing the solvent by injecting the component penetrated into the depressurizing dryer, and attaching the dried pinewood sheet having a predetermined length and width to the door sized laminate to match the laminate. Press plate is pressed to make a body plate, and the upper and lower, left and right frames and the middle frame are symmetrically matched on both sides of the rectangular body plate and press-bonded to form a door frame. Three-step process of manufacturing a door by installing a sight glass or a sight glass on the upper side of the plate, and the polyurethane door to the produced door Or it can be referred to as a classroom wood door according to the manufacturing method of the four-step process of coating the acrylic varnish three times and the manufacturing method of the wood door.

Method of infiltrating the permeation composition solution after making the door in the manufacturing method is also disclosed a method of manufacturing a wooden door for the classroom included in the manufacturing method of the wooden door for the classroom of the present invention and the door.

However, in the wooden doors manufactured by the conventional manufacturing method, the door frame and the upper surface of the door are slightly uncomfortable due to frictional force at the time of opening and closing the door. And as time passed, the door frame and the door joint surface were worn down, which caused the reduction of the cross-section. This caused the play to be severe and greatly reduced the original functionality of the wooden windows.

On the other hand, in the normal operating state of door frames and doors after the installation of wooden windows, the ball bearings on the upper doors keep their normal operation due to the smooth operation of the door frame joint surface. .

  And when the door is repeatedly opened and closed for a long time, the door is derailed from the door rail part gradually due to the reduction of the cross section by the friction of the upper surface of the door.

On the other hand, the door manufactured by the existing manufacturing method has a short life due to the weak antiseptic force, and also has the disadvantage that the appearance is not close to natural wood.

Therefore, the present invention has been devised to solve the above problems, the present invention is a wooden door in the manufacture of the wooden door height adjustment device is installed by the spring at the top, and the surface is coated, the antiseptic property is strong, and the appearance is excellent To provide a method for extending the life of wood doors using a height adjustment device that extends the service life.

The present invention relates to a wood door life extension method using a height adjustment device, in the wood door life extension method using a height adjustment device, the height adjustment device 20 is further attached to the upper portion of the wood door 10, The height adjusting device 20 is a case 21, a coil spring 22 inserted into the case 21, a cap 40 for sealing the inlet of the case 21, and the cap 40 Through the upper and lower, the rod 23 in contact with the upper end of the coil spring 22 in the case, the connecting member 24 for engaging with the upper end of the rod 23, and the upper end of the connecting member 24 and Combination is made of a roller 25 in contact with the upper door frame 30 in the cloud, and also to coat the surface of the wooden door 10, the coating layer is characterized in that it contains phosphate, inorganic titanium dioxide, ocher.

Therefore, the wood door of the present invention manufactured by the method of extending the life of the wood door using the height adjustment device of the present invention is installed with a height adjustment device by a spring on the upper side, and the surface is coated, so that the antiseptic property is excellent, the appearance is excellent, and the service life is long. There is a significant effect of prolonging.

1 is a combination of the height raising device of the life-long wood door installed height adjustment device of the present invention
Figure 2 is an exploded view of the height adjustment device of the life-long wood door installed height adjustment device of the present invention
Figure 3 is a cross-sectional view of the rod lowering the height device of the life-long wood door installed height adjustment device of the present invention
4 is a cross-sectional view of a state in which the rod of the elevator device of the life-extending wood door having the elevator device of the present invention mounted thereon is elevated;
Figure 5 is formed of three cases of life-long wood doors installed height adjustment device of the present invention, cross-sectional view of the rod lowering height device
Figure 6 is formed of three cases of the life-long wood door installed height adjustment device of the present invention, cross-sectional view of the rod height of the height raising device
Figure 7 is a cross-sectional view of the fins of the height raising device of the life-long wood door is installed height adjustment device of the present invention
Figure 8 is a schematic diagram installed on a wooden door installed height adjustment device of the present invention

The present invention relates to a wood door life extension method using a height adjustment device, in the wood door life extension method using a height adjustment device, the height adjustment device 20 is further attached to the upper portion of the wood door 10, The height adjusting device 20 is a case 21, a coil spring 22 inserted into the case 21, a cap 40 for sealing the inlet of the case 21, and the cap 40 Through the upper and lower, the rod 23 in contact with the upper end of the coil spring 22 in the case, the connecting member 24 for engaging with the upper end of the rod 23, and the upper end of the connecting member 24 and Combination is made of a roller 25 in contact with the upper door frame 30 in the cloud, and also to coat the surface of the wooden door 10, the coating layer is characterized in that it contains phosphate, inorganic titanium dioxide, ocher.

In addition, the content ratio of the coating layer is characterized in that the phosphate 95 ~ 97 parts by weight, titanium dioxide 3 ~ 5 parts by weight, ocher 5 ~ 10 parts by weight.

The present invention will be described in detail with reference to the accompanying drawings. 1 is an exploded view of the height extension device of the life-long wood door installed height adjustment device of the present invention, Figure 2 is an exploded view of the height device of the life-long wood door installed height adjustment device of the present invention, Figure 3 is a life extension wood installed height adjustment device of the present invention Section of the door height of the door is lowered, cross-sectional view, Figure 4 is a cross-sectional view of the rod of the height of the life extension wood door installed height adjustment device of the present invention, Figure 5 is a case of the life extension wood door of the height adjustment device of the present invention is installed Is formed of three, cross-sectional view of the rod height of the height device is lowered, Figure 6 is formed of three cases of the life-long wood door installed height adjustment device of the present invention, cross-sectional view of the rod height of the height device is raised, Sectional view of the pin height of the elevator door height extension device is installed height adjustment device of the present invention, Figure 8 is the height adjustment device of the present invention It is a schematic view, which is installed on the installed wood doors.

The present invention relates to a life extension wood door having a height adjustment device is installed, in the life extension wood door having a height adjustment device, the height adjustment device 20 is further attached to the upper portion of the wood door 10, The height adjusting device 20 includes a case 21, a coil spring 22 inserted into the case 21, a cap 40 sealing the inlet of the case 21, and the cap 40. A rod 23 penetrating up and down and contacting the upper end of the coil spring 22 in the case, a connecting member 24 engaging with the upper end of the rod 23, and an upper end of the connecting member 24. It is made of a roller 25 in contact with the upper door frame 30 in a cloud.

In addition, a screw portion is formed at the inlet of the case 21 to be screwed with the screw portion formed at the outer circumference of the cap 40, and a lower stop plate 26 is formed at the lower end of the rod 23, and the lower stop The diameter of the plate 26 is larger than the inner diameter of the cap, and the upper stop plate 27 is formed at the lower end of the connecting member 24.

In addition, the surface of the wood door 10 is coated, the coating layer includes phosphate, inorganic titanium dioxide and ocher.

In addition, the content ratio of the coating layer is based on 95 to 97 parts by weight of phosphate, 3 to 5 parts by weight of titanium dioxide, 5 to 10 parts by weight of ocher.

The height adjustment device 20 is further attached to the upper part of the life-extending wood door is installed height adjustment device of the present invention. The height adjusting device 20 is a case 21, a coil spring 22 inserted into the case 21, a cap 40 for sealing the inlet of the case 21, and the cap 40 Through the upper and lower, the rod 23 in contact with the upper end of the coil spring 22 in the case, the connecting member 24 for engaging with the upper end of the rod 23, and the upper end of the connecting member 24 and The roller 25 is coupled to the upper door frame 30 in contact with the cloud.

The roller uses a roller widely used in the window and door technology, the conventional roller is composed of an external rotating portion and an internal fixing portion, the insertion hole is formed in the center of the fixing portion, the insertion The upper end of the connecting member is fixed to the hole. Therefore, the roller is rolling in the door frame and the wooden door is slid with the connecting member as the central axis. Since the said roller is a conventional thing, detailed description is abbreviate | omitted.

In addition, a screw portion is formed at the inlet of the case 21 and screwed with a screw portion formed at an outer circumference of the cap 40.

In addition, a lower stop plate 26 is formed at a lower end of the rod 23, and a diameter of the lower stop plate 26 is larger than an inner diameter of a cap, and a lower end of the connection member 24 made of a plastic material such as pp The upper stop plate 27 is integrally formed.

Cases, rods, caps, etc., except for the connection member, are made of metal such as stainless steel.

Therefore, when the wooden door is worn down and the height is lowered, the coil spring 22 inserted into the case 21 is extended to raise the rod, thereby raising the upper roller, thereby supporting the roller on the door frame. Therefore, the wooden doors do not depart from the door frame, thereby extending the service life as a whole.

In addition, the present invention can be fastened by dividing the case into an upper case, an intermediate case, and a lower case in another embodiment. In this case, the upper case and the lower case is different in the screw direction. If the lower part of the upper case is the right screw, the upper part of the middle case is the right screw, and the lower part of the middle case is the left screw and the upper part of the lower case is the left screw. Therefore, when the middle case is turned left or right, the length of the case is shortened or extended.

In addition, in the present invention, in order to fix the rod in a position desired by the user, a plurality of pin holes 29 are drilled in the horizontal direction on the outer periphery of the upper stop plate of the cap and the pin holes are formed with a plurality of pins 28. Insert A screw is also formed in the pin hole to advance or retract the pin horizontally.

In addition, a plurality of grooves are formed to correspond to the rod outer circumference so that the tip of the pin is inserted into or detached from the fastening groove 31.

Therefore, in the state where the pin is inserted into the fastening groove, the rod, the connecting member fastened to the rod top and the roller fastened to the top of the connection member are fixed at a predetermined position regardless of the elastic force of the lower coil spring.

On the other hand, the present invention is to add a different configuration for extending the life of the wood door, finishing materials such as preservatives and external oil stains used to increase the water repellent and antiseptic, insect repellent effect to prevent the penetration of moisture into the wood of the present invention Prevents wood from deforming and decaying and extends the life of the wooden deck. The lower the degree of infiltration of the preservative, the richer it is.

Wood doors are mainly treated by pressurized antiseptic methods, but they are often treated by coating or spraying. At this time, paint using a paint brush or roller or spray using a sprayer.

Preservatives can prevent wood from releasing moisture and prevent the access of bacteria or fungi, which can prolong wood deck life by preventing the wood from decaying. The present invention is due to the structure of the wood preservative can penetrate deeply into the wood to improve the durability to extend the life.

In addition, the present invention is a warp-resistant and life-long wood door to increase the wear resistance by using a wood preservative added to the phosphate-based inorganic alumina, or titanium dioxide and other inorganic systems.

Wood preservatives are classified into inorganic chemicals and organic chemicals and include water-soluble preservatives, oil-based preservatives, and oil-soluble preservatives.

As a water-soluble preservative, simple metal salts, such as mercury chloride, zinc chloride, and copper sulfate, are dissolved in water, but such preservatives have the drawback that the preservatives are leached from wood when used in a humid place.

Oil-soluble preservatives include organic iodine compound (IPBC) and organic iodine phosphorus compound (IPBCP). The organic iodine phosphorus compound system (IPBCP), which is a phosphate-based preservative, is mainly a wood preservative member used indoors and is basically nontoxic, and has little elution due to surface hardening properties.

The present invention enhances wear resistance by adding alumina or titanium dioxide, which is an inorganic substance, to the phosphate preservative. Titanium dioxide (TiO 2) is a chemically and physically stable material that is harmless to the environment and the human body, and is used as a pigment and of course an abrasion resistance enhancer. Alumina is harmless to the human body, light and durable.

Phosphate-based preservatives are basically non-toxic and have low elution due to surface hardening properties, impart flame retardant performance of wood, and are more resistant to wear than other preservatives, but are insufficient for use in mechanical friction such as walking. The addition of alumina or titanium dioxide and other inorganic systems enhances the wear resistance and air-blocking performance, thereby blocking the wood's water-volatile properties, which can extend the lifespan of wood.

The mixing ratio of alumina or titanium dioxide is 95% to 97% by weight of phosphate, and 3% to 5% of alumina or titanium dioxide is appropriate by weight. When the ratio of alumina or titanium dioxide is low, the above abrasion resistance and air barrier increase efficiency cannot be achieved. When the ratio of alumina or titanium dioxide is high, the manufacturing cost is high and viscosity becomes difficult to work.

The color difference of natural wood according to the species of king and baekna is mixed and applied with phosphate-based preservative, titanium dioxide and ocher to maintain the same natural color of natural wood with different colors as ocher. Titanium prevents the distortion of wood and extends the life of wood.

In addition, it is intended to have a bright far-infrared emission and insect repellent, antibacterial, deodorizing function due to the components of ocher.

In the present invention, in the wood door 10, the surface of the wood door 10 is coated, the coating liquid is phosphate, inorganic materials include titanium dioxide and ocher.

The content ratio of the coating solution is that of 95 to 97 parts by weight of phosphate, 3 to 5 parts by weight of titanium dioxide, 5 to 10 parts by weight of ocher.

If the ginseng salt is less than 95, the anticorrosive property is lowered, and if it exceeds 97 parts by weight, the price is excessive and the viscosity is low.

If the titanium dioxide is less than 3 parts by weight, wear resistance and air-blocking performance is lowered. If it exceeds 5 parts by weight, the price is excessive, viscosity is reduced, and wear resistance and air-blocking performance is lowered.

If the yellow soil is less than 5 parts by weight of insect repellent, antibacterial, deodorizing function is lowered, if it exceeds 10 parts by weight of the color is discolored, the product is less preservative.

After mixing the phosphate, inorganic titanium dioxide and ocher in a content ratio to make a mixture, and mixed with water, it is used by diluting by mixing in a ratio of 40 to 50 parts by weight of water with respect to 1 part by weight of the mixture.

When the mixed solution prepared as described above is applied to the application rollers, and then passed through a wooden door or sprayed with a spray or painted or painted with a brush, the color after drying becomes a light reddish color similar to that of natural wood.

Therefore, the wood door of the present invention manufactured by the method of extending the life of the wood door using the height adjustment device of the present invention is installed with a height adjustment device by a spring on the upper side, and the surface is coated, so that the antiseptic property is excellent, the appearance is excellent, and the service life is long. There is a significant effect of prolonging.

10: wood door 20: height adjusting device
30: upper door frame 40: cap
21: Case 21-1: Lower Case
21-2: middle case 21-3: upper case
22: coil spring 23: rod
24: connecting member 25: roller
26: lower stop plate 27: upper stop plate
28: pin 29: pin hole
31: fastening hole

Claims (2)

In the wood door life extension method using the height adjustment device, the height adjustment device 20 is further attached to the upper portion of the wood door 10, the height adjustment device 20 is the case 21 and the case ( 21) the coil spring 22 inserted therein, the cap 40 sealing the inlet of the case 21, and penetrate the cap 40 up and down, and make contact with the upper end of the coil spring 22 inside the case. Rod 23, a connecting member 24 coupled to the upper end of the rod 23, and a roller 25 coupled to the upper end of the connecting member 24 and rolling contact with the upper door frame 30. Also, the surface of the wood door 10 is coated, the coating layer is characterized in that it contains a phosphate, inorganic titanium dioxide, ocher,
The content ratio of the coating layer is 95 to 97 parts by weight of phosphate, 3 to 5 parts by weight of titanium dioxide, ocher 5 to 10 parts by weight of wood door life extension method using a height adjustment device, characterized in that delete

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