KR101913073B1 - Constructing method for using the connection equipment of ceiling panel - Google Patents

Abstract

The present invention relates to a method for constructing a ceiling panel for an apartment building using a fastening device of an apartment ceiling panel. The method for constructing a ceiling panel for an apartment building comprises: a drilling process of drilling a first fastening hole in a fixed structure and drilling a second fastening hole in a ceiling panel; a combining process of forming a head part at an end portion of the first and second fastening holes, disposing a rotating member at the other end portion and fitting and combining a fixing member having a hollow therein; and a rotating process of fastening a fastening member to an inner circumferential surface of the hollow of the fixing member in such a way that the fastening member rotates a horizontal bar of the rotating member and rotates the rotating member so that a vertical bar of the rotating member comes in contact with an upper surface of the fixed structure. The fixed structure is processed to prevent pollution through a surface processing means. Therefore, the method for constructing a ceiling panel for an apartment building is easy to assemble and disassemble the ceiling panel and the fixed structure, prevents that the ceiling panel and the fastening hole of the fixed structure are damaged easily due to frequent assembling and disassembling work, reinforces pollution resistance by the surface processing on at least a portion of the components, and is easy, effective and stable in maintenance and repair before and after construction of the ceiling panel.

Description

TECHNICAL FIELD [0001] The present invention relates to a ceiling panel construction method for an apartment,

The present invention relates to a method of constructing a ceiling panel of an apartment, and more particularly, to a ceiling panel and a fixing structure which are easily separated from each other, The ceiling panel of the apartment which is easy to maintain and manage after the installation as well as before installation of various construction means used in the construction of the ceiling panel, And a construction method.

After building the apartment, if the ceiling of the room is left intact, the concrete is exposed and the aesthetics are damaged. Thus, various types of panels are closed or a wallpaper is attached to the surface of the panel. In order to finish the ceiling with a panel, a fixing structure capable of fixing the panel to the ceiling must be provided. Such a fixing structure has conventionally been carried out in various forms. The fixing structure of the prior art connects hangers protruding downward by using bolts to nuts embedded in ceiling slabs, and connects the upper channels to the hangers while keeping the upper channels at regular intervals. At the lower part of the upper channel, the lower channel is connected at a regular interval so as to be perpendicular to the upper channel, and the lower channel is connected to the upper channel by using a clamp. The ceiling is closed by fixing a ceiling panel such as a plate of various shapes made of a gypsum board or a metal plate to the lower channel. The construction of such a ceiling panel is widely used due to the creation of a sophisticated office environment, excellent sound insulation performance, complete fire resistance performance, easy assembly / disassembly / replacement, excellent corrosion resistance, chemical resistance and stain resistance. The fixing structure of the existing ceiling panel is to arrange the ceiling panel in the roof channel for fixing the boards in the horizontal and vertical directions on the ceiling, and fasten the fixing bolts to the edge portion of each ceiling panel and the long side in the longitudinal direction Therefore, it is troublesome and time consuming to fasten the ceiling panel so as to firmly fix the ceiling panel. As an example of this, a fixing bracket to be inserted into a connection groove of a ceiling panel is formed, an upper fixing frame protruded to fix an upper part of a panel frame to which a ceiling panel is inserted and fixed, and a ceiling panel And a ceiling panel connector formed integrally with the lower fixed frame protruded to fix the lower portion of the panel frame to be inserted and fixed and connected to the fixing bracket. However, since a reinforcement frame for preventing the breakage of polyurethane, styrofoam and the like, which are the inner material of the panel, is required between the ceiling panel connection port and the panel portion, There is a problem that an additional process and an additional cost are incurred. Another example related to the finishing structure and installation method of existing ceiling panels is disclosed in Korean Registration No. 10-1063630 entitled " Ceiling Finishing Device Using Ceiling Panel and Frame Member and Installation Method "(Registered Date: 2011.09.01) And a first reinforcing member extending integrally from an inner surface of the first frame body to define an interior of the first frame body and a second reinforcing member extending along the longitudinal direction on a plurality of outer sides of the first frame body. A first frame member provided on a ceiling of the building, the first frame member being constituted by a plurality of first opening grooves formed to be open and a first locking member formed to be bent inward at an end of the plurality of first moving grooves; The first fixing member and the rectangular plate having the shape of a 'c' section are bent vertically one time so as to have a shape of 'a' cross section, but the lower end of the vertical portion is engaged with a hook, And a second fixing member which is coupled to one side of the vertical upper surface of the vertical member at a right angle and the vertical member is coupled to one side of the first fixing member having the 'C' shape by a coupling member, And a ceiling panel in which a corner is engaged with a locking jaw of the fixing part, wherein a connecting member is used to engage a central horizontal surface of the first fixing member in a 'C' shape with a first moving groove of the first frame member And a ceiling finishing apparatus using a panel and a frame member. The joining structure of the existing ceiling panel and the lower channel is such that the ceiling panel is fastened and fixed to the lower channel by a fastening member such as a screw or a bolt, and a fastening hole for fastening the fastening member to the lower channel and the ceiling panel is formed. However, since the existing ceiling panel is often separated and assembled with the lower channel during the wiring work and various maintenance work, there is a possibility that the thread of the fastening hole is damaged or worn when the ceiling panel is frequently attached and detached, There is a disadvantage that the periphery of the fastening hole is easily broken due to the assembly, and the ceiling panel is replaced with a new ceiling panel. In addition, when the fastening member is detached from the fastening hole when the ceiling panel is disassembled and assembled, there is a problem that the ceiling panel is dropped to the floor or the operation is delayed. In addition, maintenance and maintenance of the ceiling panel construction before and after installation of the construction means are not easy, so that it is not easy to construct an effective and stable ceiling panel.

Korean Patent No. 10-1063630

The present invention relates to a ceiling panel and a fixing structure, which are easy to separate and fasten between the ceiling panel and the fixing structure, prevent frequent breakage of the fastening holes of the ceiling panel and the fixing structure due to frequent attaching and detaching operations, And an object of the present invention is to provide a method of constructing a ceiling panel of an apartment in which the prevention resistance is enhanced, maintenance before installation is easy, and maintenance after installation is easy.

The present invention relates to a method of constructing a ceiling panel for an apartment using an apartment ceiling panel fastener, the method comprising: a perforating step of forming a first fastening hole in the fastening structure and forming a second fastening hole in the ceiling panel; A coupling step of forming a head part at one end of the first and second fastening holes and a rotary member at the other end of the first and second fastening holes and fitting a fixing member having a hollow therein; And a rotating step of screwing a fastening member to the hollow inner circumferential surface of the fixing member and interlocking the horizontal base of the rotary member so that the vertical member of the rotary member is in close contact with the upper surface of the fixing structure, Wherein the fixing structure is provided with an anti-pollution treatment method for an apartment ceiling panel through surface treatment processing means.

According to the method of constructing the ceiling panel of the apartment according to the present invention, it is possible to easily separate and fasten the ceiling panel and the fixing structure, prevent the fastening holes of the ceiling panel and the fixing structure from being easily broken owing to frequent attaching / detaching operations, It is possible to provide a method of constructing a ceiling panel of an apartment in which the antifouling resistance is strengthened through at least a part of the surface treatment and the maintenance before maintenance is easy and the maintenance after installation is easy and the ceiling panel can be effectively and stably installed .

1 is a perspective view showing a combined structure of an apartment ceiling panel and a fixing structure according to an embodiment of the present invention.
2 is a perspective view illustrating the structure of a fastening apparatus according to an embodiment of the present invention.
3 is a cross-sectional view of a fastening member according to an embodiment of the present invention.
4 is a sectional view of a fixing member according to an embodiment of the present invention.
FIGS. 5A, 5B and 5C are assembly views sequentially illustrating the assembling process of the fastening device according to the embodiment of the present invention.
6 is a cross-sectional view illustrating a state where a fixing structure and a ceiling panel are coupled by a fastening device according to an embodiment of the present invention.
FIGS. 7A, 7B, and 7C are explanatory views illustrating a disassembling process of the fastening apparatus according to an exemplary embodiment of the present invention.
8 to 12 are views showing a surface treatment processing means according to an embodiment of the present invention.
13 to 14 are views showing a surface treatment processing means according to another embodiment of the present invention.
15 to 18 are views showing a second surface treatment processing means for pollution prevention processing according to an embodiment of the present invention.
19 is a view showing a second surface treatment processing means for pollution prevention processing according to another embodiment of the present invention.
20 to 21 are diagrams showing configurations of a second surface treatment processing means in another embodiment of the present invention.
22 to 23 are diagrams showing configurations according to another embodiment of the present invention.
24 to 26 are views showing the configurations of the second surface treatment processing means according to another embodiment of the present invention.
Figs. 27 to 31 are views showing still another embodiment of the surface treatment processing means of the present invention.
32 to 33 are views showing still another embodiment of the surface treatment processing means of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 7, a fastening structure of an apartment ceiling panel according to the present invention includes a fixed structure 10 'in the form of a channel or a beam fixed to a ceiling slab and a ceiling panel 10' And a fastening means for fastening the fixing structure 10 'and the ceiling panel 20' so that the fixing structure 10 'and the ceiling panel 20' can be detachably and integrally fixed. Referring to FIG. 1, the fixing structure 10 'is formed in a channel shape, and a first fastening hole 12' is formed to communicate with the upper and lower portions of the fixing structure 10 '. The ceiling panel 20' And has a structure in which the fastening holes 22 'are perforated. Referring to FIG. 2, the fastening means includes a fastening member 100 'fitted to the first and second fastening holes 12 and 22' and having a hollow 105 'formed at the center thereof, A bolt head 210 'is formed at one end of the bolt head 210' and a driver groove 212 'in the form of a concave groove is formed on the surface of the bolt head 210' And a fixing member 100 'which is rotatably hinged to the other end of the fixing member 100' and is fixed to the fixing member 200 ' The other end of the member 100 'is interlocked with the other end of the fastening member 200' which is fastened in the hollow 105 'at the time of fastening the member 100', and the other end is rotated toward the upper surface side of the fastening structure 10 ' And a rotary member 400 'supported by the member 200'.

When the first and second fastening holes 12 and 22 'are fitted to the outer circumferential surface of the fixing member 100', the first and second fastening holes 12 and 22 ' It is preferable that a scratch portion 150 'is formed. The present invention further includes return means 500 'for returning the rotationally driven rotary member 400' to its original position when the fastening member 200 'is disassembled with respect to the fixing member 100' . One end of the return means 500 'is integrally connected to each of the rotary members 400' and the other end thereof is accommodated in the wire draw-out hole 220 'so that the rotary member 400' And a magnet handle 520 'which is provided at the other end of the wire member 510' and can be brought into close contact with a lower edge of the wire draw-out hole 220 'by a magnetic force, And a lead groove part 530 'formed laterally in the form of a groove in the wire drawing hole 220' for drawing out the magnet handle 520 'to the wire drawing hole 220' . At this time, it is preferable that the wire member 510 'has a length longer than the combined length of the fastening member 200' and the rotary member 400 'so as not to be affected by the fastening and separating operation of the fastening member 200' . In addition, the wire member 510 'of the present invention not only functions to return the rotary member 400', but also prevents the rotation of the rotary member 400 'when the existing fastening member is released from the fastening hole Therefore, it is possible to improve the workability and shorten the working time. The magnet handle 520 'is normally attached to the lower side of the wire draw-out hole 220' of the coupling member 200 'made of a metal material so as to be closely contacted by the magnetic force. When the magnetic handle 520' 'To pull the wire member 510' downward.

Referring to FIG. 3, the fastening member 200 'is formed with a male thread on an outer circumferential surface to be fastened to the hollow 105' of the fastening member 100 ', a bolt head 210' A driver groove 212 'in the form of a groove is formed on the surface of the wire 210', and a wire draw-out hole 220 ' The wire lead-out hole 220 'includes a vertical portion 222' having an upper portion vertically formed at the center thereof and a bolt head 210 'formed at a lower portion of the vertical portion 222' And an inclined portion 224 'inclined to be pierced on the lower side of the lower surface. As shown in FIG. 4, the fixing member 100 'is provided with a head portion 110' at one end, a hollow portion 105 'having a thread at the center, and a rotary member 400' And a hinge groove 120 'is formed so that the hinge groove 120' is rotatable. Each of the rotary members 400 'is rotatably coupled to the hinge groove 120' through a hinge pin 430 ', and is normally horizontally coupled to the hinge groove 120' And the vertical bar 420 'corresponding to the other end is vertically erected. A method for constructing a ceiling panel of a building using a fastening apparatus for an apartment ceiling panel 20 'having such a configuration is characterized in that a first fastening hole 12' is formed in the fixing structure 10 ' And a rotary member 400 'is formed at one end of the first and second fastening holes 12 and 22' and a head 110 'is formed at the other end of the fastening hole 22' And a connecting step of fastening the fastening member 200 'to the inner circumferential surface of the hollow 105' of the fastening member 100 'and fixing the end of the fastening member 200' A rotating step of rotating the rotary member 400 'so that one side of the rotary member 400' is brought into close contact with the upper side of the fixing structure 10 'while supporting the rotary member 400' in contact with the rotary member 400 ' And the other end of the wire member 510 'that has passed through the wire drawing hole 220' formed in the fastening member 200 'is pulled to rotate the rotating member 400' And the releasing step of releasing the fastening state in a state in which the fastening member 100 'and the fastening member 200' can be disassembled.

6, the first fastening hole 12 'is drilled on the upper and lower surfaces of the fixed structure 10', and the ceiling panel 20 ' A second fastening hole 22 'having a fastening protrusion 22a' is formed to receive the first fastening hole 110 '. 5A, the fastening member 200 'is fastened to the fastening member 100' as the fastening member 200 'is fastened to the hollow 105' of the fastening member 100 'in one direction, as shown in FIG. 5A. And is fastened while being raised in the hollow 105 '

Then, in the rotating process, the other end of the coupling member 200 ', which is raised, interferes with the horizontal base 410' disposed in the center, and pushes up one side of the horizontal base 410 ' The vertical base 420 'is rotated to the upper surface side of the fixed structure 10' with respect to the hinge pin 430 'as shown in FIG. 5B. Thereafter, the rotary member 400 'is formed such that one side of the vertical bar 420' is in surface contact with the upper surface of the fixing structure 10 'and is prevented from falling downward, Is supported by the fastening member 200 'so that the rotation of the rotary member 400' is restricted by the surface contact with the end side surface of the fastening member 200 '. Accordingly, the rotary member 400 'is brought into close contact with the other end side surface of the coupling member 200' so as to be restricted in its rotational motion, and the vertical base 420 ' The lower portion of the fixing member 100 'can be prevented from being lowered as it is in close contact with the upper surface of the fixing structure 10', so that the fixing member 100 'can be firmly fixed to the fixing structure 10'.

After the assembling process is completed, in order to separate the ceiling panel 20 'from the fixing structure 10', the fixing state of the fixing member 100 ', the coupling member 200' and the rotation member 400 'is released It is necessary to perform a releasing process for releasing the fastening member 200 '. In this releasing process, as shown in FIG. 7A, it is necessary to first solve the supporting state of the rotary member 400' by the fastening member 200 ' 200 'in the other direction to lower the fastening member 200' down to a height at which the rotary member 400 'is rotatable. Next, as shown in FIG. 7B, when the magnet handle 520 'is pulled out to the lower side of the wire drawing-out hole 220' by using a separate drawing tool such as a screwdriver and then the wire member 510 ' The rotating member 400 'is arranged at the original position (the end of the horizontal base 410' is oriented toward the center by the pulling force of the wire member 510 ') and the vertical base 420' Quot; state "). Thereafter, the fastening member 200 'may be continuously rotated in the other direction to completely detach the fastening member 100' from the hollow 105 'of the fastening member 100', and then the fastening member 100 ' 12 'and 22' are separated to disassemble the ceiling panel 20 'and the fixing structure 10', the releasing process is completed.

8 to 12 are views showing a surface treatment processing means according to an embodiment of the present invention. The surface treatment processing means includes at least a stationary structure 10 ', a ceiling panel 20', a fixing member 100 ', a fastening member 200', a rotary member 400 ' , At least one support unit (121, 122) for supporting the injection unit (110), and at least one support unit (121, 122) 121 and 122 in the longitudinal direction of the object to be processed. The injection unit 110 is installed adjacent to the inclined object to be processed and the injection unit 110 is connected to a storage tank 113 containing the antifouling coating material. Is supplied to the injection unit 110 by the pumping of the fuel injection valve 114. Thus, the injection unit 110 is configured to inject the antifouling coating material supplied from the storage tank 113 onto the surface of the object to be processed. A gap sensor 115 is installed on one side of the injection unit 110 to sense the gap between the injection unit 110 and the object to be processed and transmit the sensed distance to the controller (not shown) Can be maintained constant. The support units 121 and 122 support the injection unit 110 and are configured to guide the injection unit 110 in the vertical direction. The support units 121 and 122 include a guide portion 125 disposed parallel to the surface of the object to be processed, a pivot portion 126 formed at the lower end of the guide portion 125, And an extended portion 127 extending to intersect with the guide portion 125 at an angle. A guide rail 125a is formed along a longitudinal direction on one surface of the guide portion 125 (that is, a surface facing the surface of the object to be processed). A guide block 111 is provided on the guide rail 125a along the longitudinal direction And the injection unit 110 is mounted on the guide block 111 so that the injection unit 110 moves along the guide part 125 in the vertical direction of the object to be processed. The pivot portion 126 is pivotally mounted on the upper end of the vertical pole 131 of the guide unit 130 to be described later so that the inclination angle of the guide portion 125 can be easily adjusted corresponding to the inclination angle of the object. have. The extension portion 127 integrally extends outwardly from the pivot portion 126 and the extension portion 127 extends to cross the guide portion 125 at an angle.

A center weight 128 is provided at the end of the extension 127 and the center of gravity of the support units 121 and 122 can be balanced by the center weight 128. [ At least one sag prevention wire 123 is connected to the guide portion 125 and the sag prevention wire 123 can effectively prevent the guide portion 125 from being sagged toward the surface of the object. One end of the sag prevention wire 123 is fixed to the guide portion 125 and the other end of the sag prevention wire 123 is adjustably installed on the support roller 124a of the support member 124. [ The supporting unit 124 is installed vertically on the upper part of the extension 127 and the supporting roller 124a is installed on the middle of the supporting unit 124. The supporting units 121 and 122 support the center line 1CL of the object And two support units 121 and 122 so as to divide the upper space TA and the lower space LA by reference to allow each injection unit 110 to independently spray the anti-fouling coating material. The first support unit 121 is configured to move the injection unit 110 upward and downward only in a predetermined upper section of the guide part 125 so as to inject the anticorrosion coating material only in the upper space TA of the object to be processed, The support unit 122 is configured to move the injection unit 110 upward and downward only in the lower certain section of the guide part 125 so as to inject the anti-fouling coating material into the lower space LA of the object to be processed. As described above, the first and second supporting units 121 and 122 are divided into the upper space TA and the lower space LA with respect to the surface of the object to be processed, and the anti-fouling coating material is sprayed independently, It is possible not only to enhance the coating efficiency for the coating, but also to ensure the uniformity of the anti-fouling coating material. The guide unit 130 includes a vertical pole 131 that is pivotally mounted on the pivot portion 126 of the support units 121 and 122 and a holder 132 on which the vertical pole 131 is installed to be adjustable in height, And a guide rail 133 for guiding the workpiece 132 in the longitudinal direction of the object to be processed. A pivot connection part 134 is formed at an upper end of the vertical pole 131. A pivot part 126 of the support unit 120 is pivotably installed at the pivot connection part 134 via a pivot shaft 135, The vertical pole 131 is installed on the holder 132 so as to be adjustable in height. A plurality of through holes 126a and 634a are formed to correspond to each other along the circumferential direction in the pivot portion 126 of the support units 121 and 122 and the pivot connection portion 134 of the vertical pole 131, The dowel pin 136 is fitted into the aligned through holes 126a and 634a of the pivotal portion 126 and the pivotal connection portion 134 after the pivotal portion 126 pivots at a predetermined angle about the center of the pivotal portion 126, The inclined angle of the guide units 125 of the support units 121 and 122 can be appropriately adjusted corresponding to the inclination angle of the object to be processed. The holder 132 is formed in a cylindrical structure having a hollow portion with an open top and a vertical pole 131 is provided on the hollow portion of the holder 132 so as to be adjustable in height. ). A plurality of through holes 131a and 632a are formed in the vertical pole piece 131 and the holder 132 so as to correspond to each other along the longitudinal direction and the vertical pole piece 131 is inserted into the hollow portion of the holder 132, The vertical pole 131 can be height-adjustable to the holder 132 by fitting a doowel pin 38 into the aligned through holes 131a and 632a of the vertical pole 131 and the holder 132 Respectively. The guide rails 133 are provided on the floor provided with the object to be processed and extend long along the longitudinal direction of the object to be processed. The guide rails 133 of the holder 132 are guided by the guide protrusions 132b so that the vertical poles 131, the holders 132 and the support units 121 and 122 can be moved along the longitudinal direction of the object to be processed .

In particular, the guide block 132b may be configured to be transported along the guide rail 133 as the rotating screw (not shown) is rotated by a drive motor (not shown) 131), the support units 121, 122 can be adjusted very easily in the longitudinal direction feed rate. As the vertical poles 131 and the holders 132 of the guide unit 130 are guided along the longitudinal direction of the object to be processed through the guide rails 133, And 122 can be individually moved along the longitudinal direction of the object to be processed and each of the injection units 110 is moved vertically by moving the respective injection units 110 individually in the support units 121 and 122 It is possible to spray the antifouling coating material on the surface of the object very quickly and uniformly in the longitudinal direction and the up-down direction.

Hereinafter, another embodiment of the above-described surface treatment processing means will be described, focusing on a portion having constituent features. 13 to 14, the surface treatment processing means includes an injection unit 110, at least one support unit 121, 122 for supporting the injection unit 110, and support units 121, 122 The support units 121 and 122 include a guide part 125 and a guide part 125 formed at a lower end of the guide part 125 to guide the guide unit 130 The guide unit 130 has a pivot portion 126 that is pivotally mounted and an extension 127 that extends outwardly from the pivot portion 126 at an angle to the guide portion 125 at an angle, A holder 132 in which the vertical pole 131 is installed in a height-adjustable manner, a holder 132 in which the pivot portion 126 of the support unit 121 and 122 is pivotably installed, And a guide rail 133 guiding the vertical pole 131. A pivot connection is formed at an upper end of the vertical pole 131, A pivot portion 126 of the support units 121 and 122 is pivotally installed via a pivot shaft and a guide block 132b guided along the guide rails 133 is installed at a lower end of the holder 132 And the upper guide part 125b which performs the forward and reverse operation and the forward and backward movement of the lower guide part 125a from the lower guide part 125a, ). The injection unit 110 includes a lower injection unit 110a provided on the lower guide part 125a and an upper injection unit 110b provided on the upper guide part 125b, The injection control module 140 is provided on at least a part of the periphery of the upper injection unit 110b on the upper guide part 125b so that the upper injection unit 110b to control the spraying range and spraying capacity of the coating material.

The injection control module 140 includes a first injection control module 141 that is configured to reciprocate in a sliding manner in the longitudinal direction of the upper guide part 125b, The first injection control module 141 includes a first cylinder module S1, a first cylinder module S1, a second cylinder module S1, a second cylinder module S2, A first piston module P1 which is protruded from the first cylinder module S1 and a second piston module P2 which protrudes and retracts from the second cylinder module S2, Respectively. The second injection control module 142 has a third cylinder module S3 on the inner side, a third cylinder module S3 adjacent to the third cylinder module S3, a fourth cylinder module S4 on the inner side, A third piston module P3 which is exposed from the third cylinder module S3 and a fourth piston module P4 which is protruded and retracted from the fourth cylinder module S4, The second cylinder module S2 and the fourth cylinder module S4 are opposed to each other and the first piston module P1 to the fourth piston module P4 Controls the spraying range of the coating material and the spraying amount of the coating material in the upper spray unit 110b through the setting of the approach distance.

The first and second cylinder modules S1 and S2 are provided to be movable in a predetermined range in the longitudinal direction of the end portion of the first injection control module 141. The third and fourth cylinder modules S3, The first injection control module 141 is provided so as to be able to flow in a predetermined range in the longitudinal direction of the end of the second injection control module 142 and a first gripping type grip portion 1CL1 is provided on the end of the first injection control module 141, A second clamping type grip portion 1CL2 is provided on the end of the control module 142. The guide portion 125 is provided between the first clamping type grip portion 1CL1 and the second clamping type grip portion 1CL2 And to grasp the object for pollution prevention treatment. The surface treatment processing means is located on a predetermined first flow module 150a and the object to be processed is positioned on a predetermined second flow module 150b, A first-second fluid unit 150a1 positioned at the upper end of the first fluid unit 150a1, a second fluid unit 150a2 flowing in a sliding manner, and a second- And a first to third fluid unit 150a3 disposed at the upper end of the first fluid container unit 150a2 and flowing in a sliding manner. The first fluid unit 150a1 has a first finishing panel 150a11 And the second flow module (150b) is provided with a first mounting panel (150a31) in which the surface treatment processing means is mounted above the first fluid module (150a3) A second-2 flow unit 150b2 positioned at the upper end of the second-1 flow unit 150b1 and flowing in a sliding manner, and a second-fluid flow unit 150b2 disposed at the upper end of the second- top And a second finishing panel 150b11 is provided below the second-1 fluid unit 150b1. The second finishing panel 150b11 is disposed below the second finishing panel 150b11, The moving part 150b3 is provided with a second mounting panel 150b31 on which the object to be processed is mounted and a buffer module 160 is installed between the first flow module 150a and the second flow module 150b And the first flow module 150a and the second flow module 150b flow toward each other in a spacing direction or a collision direction so that the first flow module 150a and the second flow module 150b are accelerated or flowed through contact with the buffer module 160 Buffer flow.

The first magnetic means M1 is provided on the inner end portion of the first 1-1 fluid portion 150a1 to the first 1-3 fluid portion 150a3 toward the buffer module 160, The second magnetic means M2 is provided on an inner end portion of the first magnetic portion 150b1 to the second magnetic portion 150b3 toward the buffer module 160. The second magnetic means M2, A third magnetic means M3 is provided on one side of the buffer module 160 and a fourth magnetic means M4 is provided on the other side of the buffer module 160 facing the second magnetic means M2, The first magnetic means M1 and the third magnetic means 150a1 and the third magnetic means 150b may be arranged such that when the first to the first fluidizing portions 150a1 to 150a3 are flowed in the first direction toward the buffer module 160, The magnetic means M3 are set to have mutually different polarities so as to accelerate the flow in the first direction and the first to the first fluid flow units 150a1 to 150a3 to The first magnetic means M1 and the third magnetic means M3 are set to have the same polarity with respect to each other when flowing in the second direction toward the opposite side of the buffer module 160, Thereby accelerating the flow of the fluid.

When the second-first fluid unit 150b1 to the second-third fluid unit 150b3 flow in a third direction toward the buffer module 160, the second magnetic unit M2 and the fourth The magnetic means M4 are set to have different polarities from each other to accelerate the flow in the third direction, and the second-1 flow unit (150b1) to the second-third flow unit (150b3) The second magnetic means M2 and the fourth magnetic means M4 are set to have the same polarity with each other when flowing in the fourth direction toward the opposite side of the buffer module 160, Thereby accelerating the flow of the fluid. The buffer module 160 is provided with an elastic means 1C between the third magnetic means M3 and the fourth magnetic means M4 so that the third magnetic means M3 and the fourth magnetic means M4), and the buffer module 160 provides an elastic restoring force corresponding to the external force applied through the first direction of the first 1-1 moving part (150a1) to the first 1-3 moving part (150a3) The flow of the shock from the third magnetic means M3 and the flow of the second-first fluid portion 150b1 to the second-third fluid portion 150b3 in the third direction, , And shocks applied from the fourth magnetic means (M4) to accelerate the flow of the first 1-1 fluid unit (150a1) to the first 1-3 fluid unit (150a3) in the second direction , And the impact applied from the third magnetic means (M3) based on the first magnetic flux (150b1) and the second magnetic flux By the flow of the base thereby buffering an impact applied from the fourth magnetic means (M4). In order to accelerate the flow in the third direction of the first-first fluid unit (150a1) to the first fluid unit (150a3), an elastic restoring force is generated with respect to the third magnetic means (M3) An elastic restoring force is generated with respect to the fourth magnetic means M4 in order to accelerate the flow of the second-first fluid unit 150b1 to the second-fluid unit 150b3 in the fourth direction.

The first fastening panel 150a1 is provided with a first protrusion 150a31T at an end of the first fastening panel 150a31 facing the buffer module 160 and a second fastening panel 150b1 is provided at an end of the first finishing panel 150a11 toward the buffer module 160 And a second-first protrusion 150b31T is provided at the end of the second mounting panel 150b31 facing the buffer module 160. The second-first protrusion 150b31T is provided at the end of the second mounting panel 150b31 facing the buffer module 160, A second closure part 150b11T is provided at an end of the second closure panel 150b11 facing the second closure part 150b11 and the buffer module 160 is coupled to the third and fourth magnetic parts M3, A first fixing means 161 for temporarily fixing the first 1-1 protrusions 150a31T to one side and temporarily fixing the first 1-2 protrusions 150a11T to the other side, The second-1 protrusion part 150b31T is temporarily fixed to the lower side of the fourth magnetic means M3 and the fourth magnetic means M4, and the second-2 protrusion part 15 And a second fixing means 162 for temporarily fixing the first and second fixing portions.

The first fixing unit 161 fixes the first 1-1 protrusion 150a31T on the basis of the first directional flow by the first to third fluid unit 150a3, The second-first protrusion 150b31T is fixed by the second-third fluid unit 150b3 based on the third-direction flow, and the second fixing unit 162 is fixed by the first-first fluid unit 150a1 And the second securing means 162 is configured such that the second-1 moving unit 150b1 moves the first-direction flow based on the third-direction flow based on the first- The first fixing means 161 may fix the second protrusion 150b11T to the first protrusion 150b1 in order to convert the first fluid 1 150a1 into the second fluid, The first fixing means 161 releases the fixing of the second-1 protruding portion 150b1T in order to switch to the fourth-direction flow of the second-1 moving portion 150b1, The second fixing means 162 releases the temporary fixation of the first 1-2 protrusion 150a11T to switch to the second direction flow of the second 1-2 fluidic portion 150a2, When the second fixing means 162 releases the fixing of the second-second protruding portion 150b11T to switch to the fourth-direction flow of the second-2 moving portion 150b2, The moving part 150a3 and the first moving part 150a1 are accelerated and flowed in the second direction based on the elastic restoring force of the buffer module 160. [ The second-2-3 fluid unit 150b3 and the second-1 fluid unit 150b1 are accelerated and flow in the fourth direction based on the elastic restoring force of the buffer module 160, and the temporary fixture is forced- Magnetic coupling, pneumatic pressurization, or the like.

A first transport module 170 is provided below the first flow module 150a to allow the first flow module 150a to flow within a predetermined range, 2 transport module 180 is provided to flow the first flow module 150a within a certain range and the first transport module 170 includes a first 1-1 base portion 171, -1 base portion 172 of the first flow module 150a and a second 1-2 base portion 172 that constantly flows on the first base portion 171 and the second base portion 172, And a first interlocking part 173 for interlocking the first flow module 150a and the first transport module 170 by binding the first flow module 150a1. The second transport module 180 includes a 2-1 base portion 181, a 2-2 base portion 182 constantly flowing on the 2-1 base portion 181, 2 base unit 182 and the second-1 moving unit 150b1 of the second flow module 150b to couple the second flow module 150b and the second transport module 180 to each other A second interlocking portion 183 is provided.

The first 1-1 base portion 171 is provided to have an inclination angle that gradually decreases from the second direction toward the first direction, And the second-1 base portion 181 is formed in a shape corresponding to the first portion 171 and flows forward and backward from the first-first base portion 171 in the second direction and the first direction, And has an inclination angle that gradually decreases from the fourth direction toward the third direction. The second-2 base portion 182 is formed in a shape corresponding to the second-1 base portion 181, and is provided between the second-1 base portion 181 in the fourth direction and the third direction Flow backward and forward. A mounting module 190 for mounting the object to be processed is provided on the second mounting panel 150b31 and the object to be processed is mounted on the mounting module 190 and the mounting module 190 is mounted on the second mounting panel 150b31, A panel unit 191 provided on the mounting panel 150b31 and at least one pair capable of moving in the longitudinal direction and the height direction of the second mounting panel 150b31 in the vertical direction on the panel unit 191, And a plurality of fixing protrusions 192a are formed on the inner surface of the column portion 192 in the height direction to fix the object to be processed.

15 to 18 are views showing a second surface treatment processing means for pollution prevention processing according to an embodiment of the present invention. The surface treatment processing means for the contamination prevention processing is rotatably mounted on the fixing portion 215 which is fixed to the fixing portion 215 fixed at a predetermined height of the above described object coated on the conveyor 200, A center shaft 225 rotated by the center shaft 225 and an upper horizontal beam 230 horizontally fixed to the upper portion of the center shaft 225; A side vertical bar 240 slidably coupled to the upper horizontal bar 230 and fixed to the upper horizontal bar 230 and slidably coupled to the side vertical bar 240; A movable block 245 having first fixing means 242 for fixing the upper horizontal bar 230 to the side vertical bar 240 and a second fixing means 242 for fixing the side vertical bar 240 to the side vertical bar 240, And a second fixing means (247) A spray gun 250 for spraying the object to be sprayed by the spray unit 252 with the application liquid applied to the object, and a pneumatic pump 250 for spraying the application liquid to the object by providing air pressurized to the spray gun 250, (260). The center horizontal bar 230 is rotated by the rotation of the center shaft 225 by the rotating means 220 so that the side vertical bar 240 is rotated at both sides of the upper horizontal bar 230, The spray gun 250 coupled to the lower portion of the spray gun 250 is also rotated so that the coating material is sprayed on all surfaces of the object continuously moving below the spray gun 250 by the rotation of the spray gun 250, And is applied in a uniform thickness, and the application time of the coating material is also shortened.

Scales for adjusting the horizontal position and the vertical position of the spray gun 250 are formed on the upper horizontal beam 230 and the side vertical bar 240. When a worker presses the application liquid The distance between the spray gun 250 and the horizontal vertical bar 230 is adjusted by adjusting the horizontal position of the spray gun 250 at the upper horizontal beam 230 and the vertical position at the side vertical bar 240. Accordingly, . The first fixing means 242 is vertically coupled to the moving block 245 and horizontally coupled to the vertical screw and the moving block 245 for fixing the moving block 245 to the upper horizontal portion, To the moving block 245. In this embodiment, The second fixing means 247 fixes the spray gun 250 to the lower portion of the side vertical bar 240 so as to be able to rotate the spray gun 250 and to fix the rotation, A shaft bar for axially connecting and connecting the spray gun 250 to the side vertical bar 240 is formed and the spray gun 250 is fitted to the spray gun 250 through the hole of the connecting plate and the connecting plate having the holes formed in the circumferential direction at the outer periphery, A pin for fixing the spray angle of the gun 250, and the like. A coating liquid supply unit 265 and a pneumatic tank 260 for supplying a coating liquid are fixed to one side of the fixing unit 215 and the coating liquid supply unit 265 and the tube (270) connected to the spray gun (250) by a pipe (267) and connected to the spray gun (267) by a pipe (267) And the spray gun is connected to the spray gun 250 by a pipe 267. The spray gun 275 is connected to the pneumatic tank 260 via a pipe 267, A pneumatic connection 277 with an air shutoff valve 276 is provided.

The center shaft 225 is provided with a horizontally moving means 280 for horizontally moving the moving block 245 by using a motor 286 or a cylinder. The motor 286 is fixed to one side of the center block 226 which fixes the upper horizontal beam 230 to the center shaft 225 and a screw round bar 287 is attached to the motor 286, And the screw rod 287 is connected to an arm screw 288 coupled to the bottom of the moving block 245. By the operation of the motor 286 the moving block 245 is connected to the upper horizontal beam 230, . The moving distance of the moving block 245 is controlled by an encoder coupled to the motor 286 and an arm screw 288 that is moved in the screw round bar 287 by one rotation of the motor 286, ) Of the moving object. On the other hand, the motor 286 can be simplified in motor control by the control unit by using the step motor 286 which is rotated at a certain angle by a signal transmitted from the control unit and has a brake function of the axis of the motor 286, The position of the movable block 245 can be fixed by holding the axis of the motor 286 to the function. The moving block 245 sets the moving distance of the moving block 245 to the control unit for controlling the motor 286 and the motor 286 is rotated by the control unit at a rotational speed corresponding to the moving distance, The moving distance of the moving block 245 must be set in advance in the control unit in accordance with the position of the spray gun 250 corresponding to the object. The height adjusting means 290 is also provided on the moving block 245 to vertically move the side vertical bar 240. The height adjusting means 290 is also connected to the motor 286 ) And a screw combination, or the use of a pneumatic cylinder.

Here, the height adjusting means 290 is arranged such that the motor 296 is disposed perpendicular to the moving block 245, the screw round bar 297 is axially coupled to the moving block 245, the motor 286 and the screw round bar 297 Is connected to a pinion gear 299 and a screw round bar 297 is connected to an arm screw 298 fixed to the spray gun 250 and a side vertical bar 240 slidably coupled to the moving block 245 The travel distance is calculated in the same manner as the movement of the movable block 245 and the rotational speed of the motor 296 is controlled by the control unit so that the side vertical bars 240 May be set to match the position of the spray gun 250 that fits the object. When the spray gun 250 is rotated by the rotation of the center shaft 225, the spray portion 252 of the spray gun 250 is inclined with respect to the object at the end of the spray gun 250, The coating material is uniformly sprayed downward toward the object.

19 is a view showing a second surface treatment processing means for pollution prevention processing according to another embodiment of the present invention. The conveyor 200 has a plurality of predetermined supports 210a at its lower portion and the lower ends of the supports 210a are accommodated in a predetermined fastening module 1000 to be coupled thereto. The support portion 210a includes a downwardly directed pillar portion 210a1 and an extended portion extending a predetermined length to a side portion between the upper first region L1 and the lower second region L2 of the pillar portion 210a1, (210a2). 20 to 21 are diagrams showing configurations of a second surface treatment processing means in another embodiment of the present invention. The spray gun 250 is provided with a predetermined jetting portion 252 and at least one variable portion 291 surrounding the jetting portion 252 and having a wall or bar shape that tilts in a predetermined range And adjusts the spray range of the coating liquid sprayed from the spray portion 252. A plurality of suction portions (SH) are provided on the inner surface of the variable portion 291 to suck at least a part of the application liquid sprayed from the spray portion 252. On the outer surface of the variable portion 291, A plurality of air jetting portions 252 are provided. The variable portion 291 of the spray gun 250 may be rotated forward or backward in whole or in part. The spray gun 250 is provided at its rear end with an inverse splitter 292 for spraying air for canceling the recoil based on the discharge of the sprayer 252. On the lower end of the spray gun 250, And a second inverse splitter (293) for canceling the recoil based on the operation of the yarn splitter (252) and the inverse splitter (292). The inverse splitter 292 is tilted through the tilting structure PT1 and the second inverse splitter 293 is provided so as to be capable of sideways flow. The coating apparatus includes a predetermined guiding means GM capable of moving in a predetermined range and a blocking portion (not shown) guided by the guiding means GM. The blocking portion includes a blocking body 294 A first protruding and retracting portion 295 provided to be able to protrude and retract upward from the blocking body 294 and a second protruding and retracting portion 296 provided to be able to protrude and retract downward from the blocking body 294, A third protruding and retracting portion 297 provided so as to protrude and retract in the left direction from the blocking body 294 and a fourth protruding and retracting portion (not shown) provided so as to protrude and retreat in the right direction from the blocking body 294 do.

22 to 23 are diagrams showing configurations according to another embodiment of the present invention. The blocking portion uniformly separates objects to be processed on the conveyor 200 through the second protruding portion 296 protruded from the blocking body 294. The spray gun 250 is provided with a predetermined arm module RB for monitoring the front end of the spray gun 250. A predetermined first recessed groove RH1 is formed on at least a part of the periphery of the arm module . The arm module RB is provided with a predetermined joint type guide portion GM1 and a body module BM extending from the guide portion GM1. The arm module (RB) is inserted into the first recessed groove (RH1) and is inserted therein. A predetermined second recessed groove RH2 is formed in the first recessed groove RH1 along the circumferential direction at a depth equal to or larger than the depth of the first recessed groove and the guide portion GM of the arm module RB The main body module BM of the arm module RB is inserted and seated on the first recessed groove RH1.

The main body module BM is provided with a heating part HM positioned at an end of the guide part GM and a closed type photographing part opening and closing the upper part HM of the guide part GM, CM1 and the second photographing unit CM2 to close or expose the upper surface of the heating unit HM through rotation and to provide the bottom surface of the first photographing unit CM1 facing the heating unit HM, And a second adiabatic panel CH2 is provided on the bottom portion of the second photographing portion CM2. The fifth heat insulating panel CH5 is provided in the first region of the periphery of the heating unit HM and the first heat insulating panel CH2 is formed on the first heat radiating panel CH1, And a third adiabatic panel CH3 is provided on the periphery of the first panel CM1. The sixth heat insulating panel CH6 is provided in a second peripheral portion of the heating portion HM and the second heat radiating panel CH6 of the heating portion HM, CM2, a third adiabatic panel CH3 is provided.

24 to 26 are views showing the configurations of the second surface treatment processing means according to another embodiment of the present invention. The spray gun 250 is provided with a predetermined second arm module RB2 that flows toward the front end of the spray gun 250. The spray gun 250 is provided with at least a predetermined portion on at least a part of the periphery of the second arm module RB2. Three recessed grooves RH3 are formed. The second arm module RB2 is provided with a predetermined joint type second guide portion GM2 and a second body module BM2 extending from the second guide portion GM2. The second arm module RB2 is inserted into the third recessed groove RH3 and is mounted thereon. A predetermined fourth recessed groove RH4 is formed in the third recessed groove RH3 along the circumferential direction at a depth equal to or greater than the depth of the third recessed groove RH3, 2 guide unit GM2 is inserted on the fourth recessed groove RH4 and the second main module BM2 of the second arm module RB2 is inserted on the third recessed groove RH3 Is mounted. The main body module BM is formed in a curved shape corresponding to the first recessed groove RH1 and the second arm module RB2 is formed into a curved shape corresponding to the third recessed groove RH3 do. The second arm module RB2 includes a second-first arm module UM provided on the end of the second guide portion GM2 and a second arm module UM mounted on the second guide module GM2, 2 arm module DM and the first brush BR1 is provided on the bottom surface of the second-first arm module UM and the upper surface of the second- The second brush BR2 is provided. The first brush BR1 protrudes from the second-1 arm module UM and rotates while the second-first arm module UM and the second-second arm module DM are spaced apart from each other The second brush BR2 is operated in a brush rotation mode in which the second brush BR2 protrudes from the second-second arm module DM and rotates, and the second arm module RB2 operates in the brush rotation mode, The variable portion 291 and the jetting portion 252 are positioned between the first brush BR1 and the second brush BR2. The first brush BR1 and the second brush BR2 operate in a first rotation mode rotating about a virtual center axis in the horizontal direction and in a second rotation mode rotating about a virtual center axis in a vertical direction vertical direction . The photographing unit of the main body module BM monitors the state around the variable unit 291 and the ejector unit 252. The heating unit HM of the main body module BM then controls the variable unit 291, And the second body module BM2 applies heat to the vicinity of the variable portion 291 and the jetting portion 252 after applying heat to the vicinity of the jetting portion 252, And the photographing portion of the main body module BM monitors the washing state after the washing.

Figs. 27 to 31 are views showing still another embodiment of the surface treatment processing means of the present invention. 27 to 31, a plurality of supports L or L '' provided under the first transport module 170 and the second transport module 180 described above; And a multi-bumper module tied to the support portion (L) to attenuate an impact transmitted from the surface processing means and minimize vibration. The multi-bumper module includes a first bumper module 100 'for mounting the support portion L, and the first bumper module 100' includes a first bumper module 100 ' A first pressing part 1112 'for pushing the first seating part forwardly and a second pressing part 1112b for pressing the first seating part 1111' and the first pressing part 1112 ' A bump module 1110 'having a first rotating part 1113' for rotating the supporting part L in the horizontal direction and a second seating part 2111 ' , A second pressing portion 2112 'for pushing the second seating portion 2111' forward and rearward, a second pressing portion 2111 'and a second pressing portion 2112' And a second rotating part 2113 'for rotating the first bumper module 2110'.

The first pressing portion 1112 'moves the first seating portion 1111' forward and backward via the bridge B1 and the first pressing portion 1112 ' And a second pressing distance detecting sensor S2 'is provided on the surface of the first pressing portion 2112' and the second pressing portion 2112 ' A second distance sensor S21 'on the opposite side of the second seating portion 2111' of the second pressing portion 2112 ', and a second distance sensor 21' -2 distance information detecting sensor S22 ', and the 1-1 information value of the 1-1 distance-detecting sensor S11' and the 1-1 information value of the 1-2 distance-measuring sensor S11 ' S2 'of the second-second separation distance sensor S22' and the second-1 information value of the second-1 separation distance sensor S21 ' 2 Monitoring against information values. The information of the 1-1 information of the 1-1 distance-detecting sensor S11 'and the 1-2 information of the 1-2 distance-detecting sensor S2' The second-1 information value of the second-first separation distance sensor S21 'and the second-2 information value of the second-second separation distance sensor S22' are compared with each other through the external monitoring means .

The support portion L is a bar-shaped body and includes a first tapered structure T1 which is formed to be tapered from the upper side to the lower side and which can reciprocate in a sliding manner on the lower end of the support portion L, Wherein the first taper structure T1 and the second taper structure T2 are interlocked with each other by an elastic means CM so as to have an elastic restoring force in a horizontal direction, The structure T1 is in registration with the first seating portion 1111 'and the second taper structure T2 is in registration with the second seating portion 2111', and the first taper structure T1 ' And the second tapered structure T2 are pressed and seated between the first and second seating portions 1111 'and 2111', and the first and second tapered structures' The two seating portions 2111 'each have a first tapered structure T1 and a second tapered structure 2111' A protrusion (O) is retracting water (T2) to the outside of the facing inclined surfaces is provided. The first tapered structure T1 and the second tapered structure T2 are formed on the first seating portion 1111 'and the second tapered structure T2 And is fixed on the first seating portion 1111 'and the second tapered structure T2 by the projection O while being seated on the first tapered structure T1 and the second tapered structure T2, At least a contact portion of the structure T2 in contact with the first and second seating portions 1111 'and 2111' is made of an elastomeric material and a groove corresponding to the projection O is formed, O) is inserted.

The first rotating part 1113 'of the first bumper module 1110' and the first rotating part 1113 'of the first bumper module 1110' are provided on both sides of the supporting part L, A fixing means HM is provided on the first horizontal region of the upper surface portion of the second rotating portion 2113 'of the second bumper module 2110' to reciprocate in a sliding manner toward the supporting portion L, The first tapered structure T1 and the second tapered structure T2 are seated on the first seating portion 1111 and the second seating portion 2111 ' And at least a part of the lifting means (UP) is located on the second horizontal region, wherein the second horizontal region is at least partly pressed to press the taper structure (T1) and the second taper structure (T2) The fixing means HM is pressed downward so that the first taper structure T1 and the second taper hole < RTI ID = 0.0 > So that the plate T2 is pressed downward.

The fixing means HM is an equilateral triangle which is rotatable in the circumferential direction so that the hypotenuse is opposite to the supporting portion L in a state of being positioned on the second horizontal region, The upper end of the lifting means UP is pressed against the upper end of the fixing means HM rotated in the circumferential direction by the lower end portion where the chamfer is formed, And pressurized. The multi-bumper module further includes a second bumper module 200 'positioned below the first bumper module 110', and the second bumper module 200 ' And a second rotating part 3113 'for rotating the third seating part 3111' in the horizontal direction, and a second rotating part 3111 'provided below the second mounting part 3110' A fourth seat part 4111 'provided below the first bumper module 2110' and a fourth seat part 4111 'provided below the first seat part 4111' A second bumper module 4110 'provided with a fourth rotary part 4113'.

The third seating part 3111 'has a shape corresponding to the first seating part 1111' and the fourth seating part 4111 'has a shape corresponding to the second seating part 2111' And at least a part of an inclined surface is made of an elastomeric material, and the third seat portion 3111 'and the fourth seat portion 4111' The pumping module PM is provided below the third rotating part 3113 'and the fourth rotating part 4111' to provide an elastic restoring force between the upper part and the lower part. The lower seating part BL 'and the third seating part 3111', the fourth seating part 4111 ', the third rotation part 3113' and the fourth rotation part 4113 ' And an upper plate portion (UL ') which can flow between the upper and lower portions via the elastic means and the pumping means from the lower plate portion (BL').

The pumping means may include a main body I 'in which a fluid is built in and a main body I' in which the main body I 'flows on the basis of an external pressing force or vibration, And a pressure member P for spraying the fluid of the fluid. The upper body part UL 'and the lower body part BL' are each provided with a magnetic means for generating an attractive force or a repulsive force. The inner body I 'is provided with a spray nozzle N' ) Is formed to inject the fluid into a space between the upper plate portion (UL ') and the lower plate portion (BL'), wherein the fluid is a thermoplastic resin selected from the group consisting of polyethylene, polyvinyl chloride and polystyrene, Gas.

The support portion L is first seated on the first bumper module 110 'via the first taper structure T1 and the second taper structure T2 based on an external load, The first tapered structure T1 and the second tapered structure T2 of the support portion L are moved in the direction of the rotation of the first rotation portion 1113 'and the second rotation portion 2113' The second seat portion 2111 'is forcibly passed through the first seat portion 1111' and the second seat portion 2111 'when the seat is secondarily placed on the second bumper module 200' Second bumper module 200 '.

32 to 33 are views showing still another embodiment of the surface treatment processing means of the present invention. Hereinafter, a description will be given mainly of the difference between the above-mentioned points. 32 to 33, the multi-bumper module further includes a sub bumper module 300 provided between the first bumper module 110 and the second bumper module, and the sub bumper module 300 ) Includes a first sub seating portion 1111 S provided under the first bumper module 1110 and a second sub seating portion 1111 S for supporting the first sub seating portion 1111 S in a forward / And a first sub-bending portion 1112S provided with a first sub-pressing portion 1112S, a first sub-seating portion 1111 S, and a first sub-rotation portion 1113S for horizontally rotating the first sub- A second sub seating portion 2111S provided below the first bumper module 2110 and a second sub seating portion 2111S for pushing the second sub seating portion 2111S forward and rearward, A second sub rotation portion 2113S for rotating the second sub seating portion 2111S and the second sub pressing portion 2112S in the horizontal direction is provided The second sub bumper module 4110 is opened.

The first sub-pressing portion 1112S moves the first sub-seating portion 1111 S forward and backward via the bridge B1 and the first sub-seating portion 1112S of the first sub- The first sub-separation distance detection sensor S11S and the first sub-separation distance detection sensor S12S are provided on the opposite side of the bridge B1, And a second-first sub-separation distance sensor S21S and a second-first sub-separation distance sensor 2121S are provided on the opposite surface of the second sub-seating portion 2111S of the second pressing portion 2112, , A second sub-range separation sensor S22S is provided, and the first sub-range information S11S of the first sub-range separation sensor S11S and the first sub- The sub-information value of the second-first sub-separation distance sensor S21S and the second-first sub-information value of the second-first sub-separation distance sensor S21S, S22S) 1 sub information value of the first sub-range separation sensor S11S and the first sub-range information of the first sub-range separation sensor S11S through the external monitoring means, The second-1 sub information value of the second-1 < 1 > sub range-difference sensor S21S and the second 2-1 sub information value of the second- And monitors the 2 < nd > 2 sub information value of the sub-separation distance detection sensor S22S.

The first sub-seating portion 1111 S has a chamfer portion corresponding to at least a part of the lower end portion of the first tapered structure T 1 on a diagonal line upper side portion toward the second sub seating portion 2111 S, 2 sub seating portion 2111S has a chamfer portion corresponding to at least a part of the lower end portion of the second taper structure T2 on a diagonal line upper side portion toward the first sub seating portion 1111 S, Is mounted on the first sub bumper module (3110) via the first bumper module (110) via the first taper structure (T1) and the second taper structure (T2) And the first tapered structure T1 and the second tapered structure of the support portion L based on the selective rotation control of the first sub-rotation portion 1113S and the second sub- T2 are seated on the first sub bumper module 3110, If that is the setpoint or more load is applied, by way of a compelling the first seating portion 1111 and the second seating portion (2111) wherein is mounted on a first sub-module, a bumper 3110.

A plurality of shock absorbers EC are provided on the third seat portion 3111 and the fourth seat portion 4111 so that the first taper structure of the support portion L via the first bumper module 100, The buffering structure EC is in contact with the first tilting structure T1 and the second tilting structure T2 and covers the surfaces of the third and fourth seating portions 3111 and 4111, .

The buffer EC is formed to have a pocket for fluid storage therein and is provided so as to be able to protrude and retract from the inside to the outside on the third seating part 3111 and the fourth seating part 4111, EC has a space for storing fluids therein and is provided to be able to protrude and retract from the inside to the outside on the third seating part 3111 and the fourth seating part 4111. [ A first outer pushing portion 5100 having an outer diagonal lower surface formed with a chamfer and pressing the outer periphery of the third rotating portion 3113 to restrict the flow of the third rotating portion 3113, A first upper panel part 5300 for supporting the lower part of the first driving part 5200 and a second upper panel part 5300 for supporting the lower part of the first upper panel part 5300, A first lower panel part 5400 facing the lower diagonal direction of the first upper panel part 5300 and a second lower panel part 5400 disposed between the first upper panel part 5300 and the first lower panel part 5400 and having visual and olfactory identification therein A first capsule pressurizing module 500 having a first capsule panel CP1 provided with a plurality of first capsule layers having a built-in gas therein for discharging the gas to the outside when a predetermined pressing force is applied, , The first outer pressurizing module (500) and the first outer pressurizing module A first discharging module 550 in which a first discharging unit BM1 for accelerating and discharging the gas of the first capsule layer to the outside is built in, a first discharging module 550 in which a lower diagonal lower surface is chamfered, 4113) for restricting the flow of the fourth rotary part 4113, and a second outer pressurizing part (6100) for pressing the second outer pressurizing part (6100) A second upper panel part 6300 supporting the lower part of the second driving part 6200 and a second lower panel part 6300 facing the lower diagonal direction of the second upper panel part 6300 A plurality of second capsule layers which are provided between the second upper panel part 6300 and the second lower panel part 6400 and have a built-in gas for visual identification and olfactory identification, A second cap which is provided so that the gas flows out to the outside when a predetermined pressing force is applied, A second outer pressurizing module 600 provided with a panel CP2 and a second outer pressurizing module 600 which is moved at a predetermined height between the upper and lower sides of the outer side of the second pressurizing module 600 to accelerate the gas of the second capsule layer to the outside And a second discharging unit (BM2) for discharging the second discharging unit (BM2).

The first capsule panel CP1 includes a 1-1 capsule panel CP11 and a 1-2 capsule panel CP12 disposed under the 1-1 capsule panel CP11, 2 capsule panel CP2 includes a 2-1 capsule panel CP21 and a 2-2 capsule panel CP22 provided below the 2-1 capsule panel CP21, The first discharging means BM1 of the module 550 includes a first discharging means BM11 and a 1-2 discharging means BM12 provided below the first discharging means BM11, The second discharging means BM2 of the second discharging module 650 includes a second discharging module BM21 and a second discharging module BM2 provided below the second discharging module BM21 Wherein the first discharge module BM11 and the first 1-2 discharge module BM12 are arranged in the first 1-1 capsule panel CP11) and the first and second capsule panels (CP12), and the second discharge module (650) In order to discharge the gas, the second-1 discharge module BM21 and the second-2 discharge module BM22 are connected to the second-1 capsule panel CP21 and the second -2 capsule panel CP22, As shown in Fig.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10 ': fixed structure 12': first fastening hole
20 ': ceiling panel 22': second fastening hole
22a ': engaging jaw 100': fixing member

Claims (5)

A method of constructing a ceiling panel of an apartment building using a fastening device of an apartment ceiling panel,
A perforating step of perforating a first fastening hole in a predetermined fixing structure and forming a second fastening hole in the ceiling panel; A coupling step of forming a head part at one end of the first and second fastening holes and a rotary member at the other end of the first and second fastening holes and fitting a fixing member having a hollow therein; And a rotating step of screwing a fastening member to the hollow inner circumferential surface of the fixing member and interlocking the horizontal base of the rotary member so that the vertical member of the rotary member is in close contact with the upper surface of the fixing structure, Wherein the fixing structure is subjected to the anti-fouling processing through the surface processing processing means,
The surface treatment processing means includes:
An injection unit, at least one support unit for supporting the injection unit,
And a guide unit for guiding the unit,
The support unit includes a predetermined guide portion, a guide portion formed at a lower end of the guide portion,
Wherein the guide unit includes a pivot portion pivotally mounted to the guide unit and an extension portion extending outwardly from the pivot portion at an angle with respect to the guide portion, And a guide rail for guiding the holder, wherein the holder includes:
Wherein a pivot connection part is formed at an upper end of the vertical pole and a pivot part of the support unit is pivotally installed via a pivot shaft and a guide block guided along the guide rail is provided at a lower end of the holder,
The guide portion includes a lower guide portion positioned at a lower portion,
And an upper guide unit for performing a forward or reverse operation and a forward and backward movement operation, wherein the injection unit includes a lower injection unit provided on the lower guide part and an upper injection unit provided on the upper guide part In addition,
Wherein the upper guide portion comprises a plurality of tiltable middles portions,
An injection control module is provided on at least a part of the periphery of the upper injection unit on the upper guide part to control a coating material injection range and injection volume of the upper injection unit,
Wherein the injection control module comprises:
A first injection control module provided to be capable of reciprocating in a sliding manner in a longitudinal direction of the upper guide part and a second injection control module provided to be capable of tilting on the longitudinal end of the upper guide part, The control module includes a first cylinder module that is advanced and retracted on the inner side, a second cylinder module that is adjacent to the first cylinder module, a first piston module that projects out of the first cylinder module, A second piston module is provided,
Wherein the second injection control module includes a third cylinder module on the inner side, a fourth cylinder module adjacent to the third cylinder module, a third piston module projecting and retracting from the third cylinder module, A fourth piston module which is protruded from the module,
Wherein the first cylinder module and the third cylinder module are opposed to each other, the second cylinder module and the fourth cylinder module are opposed to each other, and the first piston module to the fourth piston module are mutually opposed Controlling the spraying range of the coating material and the spraying amount of the coating material in the upper spray unit through the setting of the running distance,
Wherein the first and second cylinder modules are provided so as to be able to flow in a predetermined range in the longitudinal direction of the end portion of the first injection control module and the third and fourth cylinder modules are arranged in a predetermined range in the longitudinal direction of the end portion of the second injection control module And is capable of flowing,
The first injection control module is provided with a first gripping gripper and the second injection control module is provided with a second gripper gripper. The guide portion includes the first gripper gripper and the second gripper gripper, Wherein the surface processing means is located on a predetermined first flow module and the object to be processed is positioned on a predetermined second flow module,
Wherein the first flow module comprises:
A second-first flow unit positioned at the upper end of the first-second flow unit and flowing in a sliding manner; 1-3 flow unit,
The first-first flow portion is provided with a predetermined first finishing panel at a lower portion thereof,
Wherein the first to third flow units are provided with a first mounting panel on which the surface processing means is mounted,
Wherein the second flow module comprises:
A second-2 flow portion positioned at an upper end of the second-first flow portion and flowing in a sliding manner; a second-2 flow portion positioned at an upper end of the second- 2-3 flow unit,
The second-first flow portion is provided with a predetermined second finishing panel, and the second to third flow portion is provided with a second mounting panel on which the object to be processed is placed, A buffer module is provided between the two flow modules,
Wherein the first flow module and the second flow module are moving toward each other in a spacing direction or a collision direction so that they are accelerated or buffer flow mutually through contact with the buffer module. The method according to claim 1,
The first magnetic means is provided on the inner end portion of the first-first fluid portion to the first-third fluid portion facing the buffer module,
Second magnetic means is provided on an inner end portion of the second-first flow portion to the second-third flow portion toward the buffer module,
A third magnetic means is provided on one side of the buffer module facing the first magnetic means,
And a fourth magnetic means is provided on the other side of the buffer module facing the second magnetic means,
The first magnetic means and the third magnetic means are set to have mutually different polarities when the first-first fluid portion to the first-third fluid portion flows in a first direction toward the buffer module, Accelerate the flow in the first direction,
The first magnetic means and the third magnetic means are set to have the same polarity with each other when the first-first fluid portion to the first-third fluid portion flows in a second direction toward the opposite side of the buffer module Thereby accelerating the flow in the second direction,
And the second magnetic means and the fourth magnetic means are set to have mutually different polarities when the second-first fluid portion to the second-third fluid portion flows in a third direction toward the buffer module, Accelerating the flow in the third direction,
And the second magnetic means and the fourth magnetic means are set to have the same polarity when the second-first flow portion to the second-third flow portion flows in a fourth direction toward the opposite side of the buffer module Thereby accelerating the flow in the fourth direction,
Wherein the buffer module is provided with an elastic means between the third magnetic means and the fourth magnetic means,
And an elastic restoring force corresponding to an external force applied through the third magnetic means and the fourth magnetic means,
The buffer module includes:
An impact applied from the third magnetic means on the basis of a flow in the first direction of the first 1-1 flow portion to the first 1-3 flow portion, And a third magnetic means for absorbing the shock applied from the fourth magnetic means based on the flow in the third direction,
And a second magnetic flow path that accelerates the flow of the first to the first fluid flow portions to the first to third flow portions in the second direction, A shock absorbing shock applied from the fourth magnetic means based on the flow in the third direction of the flow portion,
An elastic restoring force is generated with respect to the third magnetic means in order to accelerate the flow of the first-first fluid portion to the first-third fluid portion in the third direction,
And an elastic restoring force is generated with respect to the fourth magnetic means to accelerate the flow of the second-first flow portion to the second-third flow portion in the fourth direction. The method of claim 2,
The first mounting panel facing the buffer module is provided with the 1-1 protrusion,
The first finishing panel facing the buffer module is provided with a first 1-2 protrusion,
A second-1 protrusion is provided at an end of the second mounting panel facing the buffer module,
A second-2 protrusion is provided at an end of the second finishing panel facing the buffer module,
The buffer module includes:
A first fixing means is provided above the third magnetic means and the fourth magnetic means for temporarily fixing the first-first protruding portion to one side and temporarily fixing the first-second protruding portion to the other side,
A second fixing means for temporarily fixing the second-1 protruding portion to one side and fixing the second-second protruding portion to the other side below the third magnetic means and the fourth magnetic means,
Wherein the first fixing means fixes the first 1-1 protrusion on the basis of the first direction flow,
Wherein the first fixing means fixes the second-1 protruding portion based on the third direction flow,
Wherein the second fixing means fixes the first 1-2 protrusion on the basis of the first direction flow,
Said second securing means securing said second-2 protrusion based on said third direction flow, said second-
The first fixing means releases the temporary fixing of the 1-1 protrusion to convert the first 1-1 flow section into the second direction flow,
The first fixing means releases the temporary fixing of the second-1 protruding portion for switching to the fourth-direction flow of the second-first flow portion,
The second fixing means releases the temporary fixing of the first and second protrusions for switching to the second direction flow of the first-second flow portion,
When the second fixing means releases the temporary fixing of the second-second protrusion for switching to the fourth-direction flow of the second-second flow portion,
Wherein the first to third fluid flow portions and the first to first flow portion are accelerated and flowed in the second direction based on the elastic restoring force of the buffer module,
The second-2-3 flow portion and the second-1 flow portion are accelerated and flowed in the fourth direction based on the elastic restoring force of the buffer module,
Wherein the temporary fixture is based on at least one of mandatory fitting, magnetic coupling, and pneumatic pressing. delete delete

Images