KR0159589B1 - Method and apparatus for changing the color of window glasses using dye - Google Patents

Abstract

The present invention relates to a method and apparatus for changing the color of a glass window using a colored dye that can change the color of the glass window installed in the building at random, in order to be able to change the color of the glass window arbitrarily

first; Since the inside of the glass window must have a hollow part, the hollow part is formed when the glass window is manufactured, or an existing fair glass is used, but the upper part is opened without maintaining the middle part in a vacuum state, that is, a method of allowing air to flow. Can be adopted,

second; It requires a dye injection device that can selectively inject a variety of colored dyes into the hollow portion of the double glass window, which is the most preferable way to be mounted on the window frame holding the double glass window, and the dye pump means It should have a structure that can pumping operation to selectively supply the dye stored in each dye container and pumping operation to recover the dye injected into the hollow part of the double glass window,

third; It detects the filling and empty state of the dye in the upper and the lower part of the double glass window, and has a configuration to incorporate a detection switch to stop the operation of the dye pump means, thereby recovering the colored dye filled in the hollow part of the double glass window. Next, the color of the window can be arbitrarily selected by supplying and filling colored dyes of desired color.

Description

Color change method of glass window using colored dye and its device

1 is a development of a color change device for explaining an embodiment of the present invention.

Figure 2 (a) (b) (c) is a state diagram of the operation of the dye barrel valve applied to the color changing apparatus according to an embodiment of the present invention.

(A) and (b) of FIG. 3 are sectional views taken along line A-A of FIG. 1, showing an operating state of the sensing switch means applied to the glass window.

4 is a plan view of a glass window showing an example of the glass structure applied to the present invention.

5 is a circuit diagram of an embodiment applied to the present invention.

(A) and (b) of FIGS. 6 to 8 are diagrams illustrating the operation state of the main switch means of the circuit diagram applied to the present invention.

9 is a front view schematically showing an embodiment of a glass window to which the present invention is applied.

* Explanation of symbols for main parts of the drawings

1 double glazing 2 hollow part

3: connection passage 4: window frame

5: filling amount detecting switch means 6: recovering amount detecting switch means

7: dye pump means 8: dye supply line

8a-8f: branch line 9a-9f: dye container

10a to 10f: valve 10: valve plate

20: main switch means 21: casing

22: moving ball 23: seating groove

24: manual switch 25: spring

26: permanent magnet 27, 27a, 27b: (+) terminal

28,28a, 28b: (-) terminal 29,30: electromagnet

31: power

The present invention is to be able to change the color of the glass window installed in the building at random, so as to change the various colors throughout the building or to allow the occupants themselves to randomly select the color of the glass window to change the room atmosphere. The present invention relates to a method of changing color of a glass window using colored dye and a device thereof.

As a method for achieving the above object

first ; The inside of the glass window should be a hollow portion, such a double glass window is to form a hollow portion during manufacturing or using an existing pair of glass (pair glass), but the upper part is opened without maintaining the middle portion in a vacuum state, that is, A method may be employed to allow air to flow.

second; It requires a dye injection device that can selectively inject a variety of colored dyes into the hollow part of the double glass window, which is the most preferable method to be mounted on the window frame holding the double glass window, and the dye pump is It should have a structure capable of pumping operation for selectively supplying dye stored in the dye and pumping operation for recovering the dye injected into the hollow part of the double glazing.

third; A detection switch for detecting the filling and emptying of the dye and stopping the dye pump should be built in the upper and lower inside of the double glass window. The dye pump and the sensing switch is preferably to be automatically connected to the organic circuit by an electrical circuit device or the like.

In general, the glass windows of various existing buildings are installed by single glass or pair glass, and as a method of coating a color on a glass window, a so-called tinting method of adhering a colored film was used. Alternatively, a method of producing colored glass by mixing pigments was used when producing the glass itself.

The former method has the advantage that the color of the glass window can be selected because the colored film is adhered to the glass window, while the task of bonding the colored film is very difficult and difficult. Not only that, there was a problem that the attached colored film fell over time, which made it difficult to maintain, and in particular, due to the difficulty of attaching, there was a defect that the colored film could not be replaced frequently. And the latter method has the advantage of not having to attach the colored film after installing the glass because the glass itself is manufactured in the colored state, while the color of the glass window can not be changed once the glass is installed. There was a disadvantage that can not change.

Therefore, the present invention solves the problems of the prior art, and furthermore, it is possible to change the appearance of the building by changing the color of the glass window arbitrarily, and can change the appearance of the building according to the season, and the glass window according to the user's taste and room atmosphere To change the color of the at any time, will be described in detail according to the accompanying drawings of the present invention.

FIG. 1 is a view of an embodiment for explaining the present invention, and a connecting passage 3 for injecting or recovering dye into the hollow part 2 is formed at the bottom of the double glass window 1.

The hollow part 2 of the double glass window 1 is hermetically sealed on the left, right and bottom sides, and the upper part is kept open to allow air to flow (see FIG. 4). Likewise, the upper portion of the double glass window 1 is configured to allow air to pass even when the window frame 4 is installed.

In addition, one side upper and inner bottoms of the hollow part 2 of the double glass window detect a filling amount switch unit 5 for detecting whether the injected dye is filled to a predetermined position and a recovery amount for detecting that the entire amount of the dye has been collected. Install the switch means (6).

The connecting passage 3 formed at the bottom of the double glass window 2 is connected with a dye pump means 7 for injecting or recovering dye by a pumping operation, and a dye supply line 8 is disposed on the opposite side of the connecting passage. The dye supply line 8 is provided with branch lines 8a to 8f for connecting a plurality of dye tanks 9a to 9f in which dyes of various colors are stored, and valves 10a to each branch line are provided. 10f) is installed so that the colored dye stored in the dye container can be selectively injected into or recovered from the hollow part of the double glazing.

Each valve is composed of a valve plate 10 which opens only in one direction as in the embodiment shown in (a) (b) (c) of FIG. 2 and is operated by manual operation. Three functions: complete blocking (see also (a)), supplying colored dyes to the dye container (see also (b)), and recovering colored dyes injected into the hollow (see also (c)). It consists of a so-called three-way valve that has the function of.

In addition, the colored dyes stored in each of the dye tanks 9a to 9f are made by mixing a non-conductive pigment with a liquid (oil) which is weak in non-conductive properties and surface tension, so that even if the electrical connection terminal is exposed to the colored dye applied in the present invention. The short phenomenon does not occur, and each dye container stores colored dyes of different colors.

The dye pump means 7 is composed of a motor 7a and a gear type pumping part 7b, because the pumping amount of the colored dye is very low, so the pumping operation by the gear is suitable. In addition, the width of the hollow portion 2 of the glass window 1 in the diet is to have a very narrow space in and out of 1 mm, thereby reducing the amount of colored dye filling the space density of the entire hollow portion, which is a dye The volume of the cylinder is advantageous in that it can be mounted on the window frame 4.

On the other hand, the circuit arrangement for operating the dye pump means 7 and the filling amount, recovery amount sensing switch means 5, 6 in the above is the same as the embodiment of FIG.

The circuit device is largely composed of the main switch means 20, the dye pump means 7, and the filling amount and recovery amount sensing switch means 5,6.

The main switch means 20 is a manual switch 24 protruding into the moving hole 22 of the upper surface of the casing 21 to enable manual operation, and maintain a neutral operation by the mounting groove 23 formed on the inner bottom surface. ) Is configured to move the permanent magnet 26 elastically installed by the spring (25) to the left, right, both sides of the permanent magnet (26) (+) terminal 27 and (-) terminal 28 is Attached.

Electromagnets 29 and 30 are installed in the magnetic force line direction of the permanent magnet 26, and positive terminals 27a, 27b and negative terminals 28a and 28b are provided on both sides of the electromagnet. Each has a heavy snow.

The filling amount and recovery amount detecting switch means 5 and 6 are composed of sub-structures 5b and 6b having movable terminals 5a and 6a and two fixed terminals 5c and 5d and 6c. 6d).

With the present invention made in such a way will be described how to change the color of the glass window to have a random color as a method of supplying or recovering the colored dye in the double glass window and the operation and its effects.

First, an embodiment of recovering the colored dye filled in the hollow part 2 of the double glass window 2 and supplying the colored dye of another dye container as illustrated in FIG. 1 shows that the user has a hollow part of the double glass window 1. The dye 10f on the side of the dye container 9f, which supplied the colored dye filled and filled with (2), was operated in a recovery state (see also (c) of FIG. 2), and the dye containing the colored dye to be supplied was stored. The valve 10d on the side of the cylinder 9d operates the supply state (see also FIG. 2 (b)), and then moves the main switch means 20 of the circuit device mounted on the window frame 4 to the neutral position. By operating the motor 7a in reverse rotation by operating in FIG. 6 (a), the colored dyes filled in the hollow part 2 can be recovered to the empty dye container 9f. The main switch means 20 is moved to the left side in the drawing as shown in FIG. 8 so that the positive and negative terminals 27 and 28 disposed on both sides of the permanent magnet 26 are operated. ) Is connected to the (+), (-) terminals 27b, 28b on the electromagnet 30 side, the current polarity of the power supply 31 is reversed as normal and is supplied to the motor. The dye pump means (7) is to pump the colored dyes filled in the hollow portion (2) through the connecting passage (3) by the reverse rotation drive, the colored dyes thus recovered is reversed to the dye supply line (8) The valves 10a, 10b, 10c, and 10e on the dye tanks 9a, 9b, 9c, and 9e are kept blocked (see also FIG. 2A). In addition, since the valve 10d operated for supply has a state in which the valve plate 10 is blocking the inflow into the dye container 9d (see also FIG. 2 (b)), the hollow part 2 which flows backward in the end The colored dye on the side) is recovered into the dye container 9f while opening the valve plate 10 of the valve 10f operated in the recovery state (see also (c) in FIG. 2). In (2), colored dye is When the part flows out, the subsidiary body 6b of the recovery amount detecting switch means 6 formed on the inner bottom side of the hollow part is lowered to the fixed terminal side by its own weight while losing the buoyancy, so that the movable terminal 6a is the two fixed terminals 6c. (6d), when the movable terminal and the fixed terminal is connected in this way, the recovery amount detecting switch means 6 is in a closed circuit state, so that the electromagnet 30 is instantaneously magnetized to become magnetic. The magnetic polarity of 30 is to have a polarity to push the permanent magnet (26). That is, since the polarities of the parts of the permanent magnets 26 and the electromagnets 30 adjacent to each other have the same pole (S), repulsive force is generated between them, and thus repulsive force is generated. As the permanent magnet 26 moves in the opposite direction, the positive and negative terminals 27 and 28 on both sides of the permanent magnet are positive and negative terminals 27a on the electromagnet 30 side. ), (28b) to fall off the power is cut off accordingly the motor 7a of the dye pump means 7 will be automatically stopped to be able to protect the motor. And the permanent magnet 26 is moved by the repulsive force as the manual switch 24 enters the seating groove 23 by the springing action of the spring 25 is waiting for the next operation in the neutral position at the same time stop.

After recovering the entire amount of colored dye from the hollow portion of the double glass window as described above, if the manual switch 24 is moved to the right side in the drawing as shown in FIG. 7, the permanent magnet 26 is installed on both sides (+) , (-) Terminals 27 and 28 are connected to (+) and (-) terminals 27a and 28a on the electromagnet 29 side to rotate the dye pump means 7 forward. In the same forward rotation operation, the valve 10d operated in the previously supplied state is injected into the hollow part 2 through the connection passage 3 while the colored dye stored in the dye container 9d flows out into the dye supply line 8. At this time, since the recovery amount detection switch means 6 when the colored dye is injected, the movable terminal and the fixed terminal are not affected by the floating action of the floating body 6b due to the floating action of the substructure 6b.

As described above, the colored dye injected into the hollow part 2 reaches the filling amount sensing switch means 5 on the upper side, causing the floating body 5b to rise, and the movable terminal 5a is the two fixed terminals 5c and 5d. The filling amount sensing switch means (5) is connected to the closed circuit state to generate a repulsive force to push the permanent magnet 26 while being magnetized. That is, the portion adjacent to the permanent magnet is magnetized to the same (N) pole as the (N) pole of the permanent magnet 26.

Therefore, as soon as the electromagnet 29 is rotated, the permanent magnet 26 is moved to the opposite side by the repulsive force, so that the (+) terminals 27 and 27a and (-) terminals 28 and 28a are Since they are separated from each other, the power is turned off and the dye pump means 7 stops the pumping operation so that the hollow portion 2 is filled with colored dye only up to an appropriate level.

As described above, the double glazing creates a new color change by the colored dye newly filled in the hollow portion 2 of the double glazing 1, and in the case of changing the color of the double glazing again afterwards, By repeatedly repeating the method of, the effect of varying the color of the window can be obtained.

The present invention as described above, as shown in the embodiment shown in Figure 9 is installed in the upper and inner bottom portion of the double glass window filling and recovery amount detection position means, the window frame dye pump means and a plurality of dye tank and valve device And after installing the circuit device of the main switch means, the color of the window can be changed by simple method of selectively operating the main switch means and each valve device displayed on the window frame. It is a novel invention that has the advantage of being able to arbitrarily select the color of the glass window as well as the advantages of the indoor environment or the type of business and the taste of the user.

Claims (2)

A left, right side and a bottom part having a connecting passage on one side of the inner bottom part of the double glass window having the hollow part which is hermetically sealed so that the non-conductive colored dye can be supplied or recovered to the hollow part; The dye pump means is installed in a pipe line connecting the fuel pump means connected to the connection passage and a plurality of dye containers in which the different colored dyes are stored, and selectively opening and closing each valve of the dye containers. A method of recovering or supplying colored dyes injected and filled into the hollow part; And a sensing switch means installed in the inner upper part and the inner bottom of the hollow part of the double glass window to detect the filling amount and the recovering amount of the colored dye in the hollow part. A method of changing the color of a glass window using colored dye, characterized in that the color of the glass window can be arbitrarily changed by allowing the dye to be injected and filled selectively. Filling and recovery amount sensing switch means consisting of a movable terminal and a fixed terminal consisting of two fixed terminals by the buoyancy action of the inner upper portion and the inner bottom of the hollow portion with an open top, the dye pump means and the opposite side of the recovery amount sensing switch means A constitution of a double glass window forming a connecting passage communicating therewith; Connect multiple dye passages with non-conductive colored dyes of different colors and supply lines from the dye pump means to multiple branch lines, and install the valves in each branch line to selectively store the colored dyes stored in each dye tank. A configuration to be injected into the hollow portion; The dye pump means and the filling amount and recovery amount detecting switch means is a main switch means consisting of permanent magnets and electromagnets which are manually operated, and a circuit arrangement for automatically stopping and simultaneously stopping the dye pump means. It is provided with; Color change device of the glass window using the colored dye, characterized in that configured to be able to arbitrarily select the color of the glass tea by recovering and supplying the colored dye of the desired color in the hollow portion of the double glass window.