KR102502959B1 - Construction method of electric wire piping system for apartment house - Google Patents

Abstract

The present invention relates to a method for constructing electric wire piping for apartment houses, in which interference between electric cables is prevented or minimized during insertion of the electric cables. According to the present invention, the method comprises the steps of: preparing electric wire piping devices for apartment houses; transporting the electric wire piping device for apartment houses by a transport means; unloading the electric wire piping device for apartment houses by an unloading means at the site; and installing the electric wire piping device for apartment houses at the site. The electric wire piping device for apartment houses comprises: a plurality of unit conduits (100) installed to be connected to each other for electrical wiring of apartment houses and into which electric cables (10) are introduced in the longitudinal direction; and a circular central shaft (210) installed inside the unit conduit (100) to perform a function of dividing the internal space (110) of the unit conduit (100) into 2 to 4 unit spaces (120) with respect to the cross-sectional shape cut in a direction perpendicular to the longitudinal direction of the unit conduit (100), disposed at the inner center of the unit conduit (100) in the longitudinal direction of the unit conduit (100), and having a hollow storage groove (211) formed on the central part with respect to the longitudinal direction to install the electric device.

Description

Construction method of electric wire piping system for apartment house}

The present invention relates to a method for constructing an electric wire piping device for apartment house electricity in the field of apartment house electrical technology, and more particularly, since an electric cable can be pulled in and installed in a divided unit space unit, electricity can be drawn in when an electric cable is drawn into a conduit. It relates to a method of constructing a wire piping device for electricity in an apartment house in which interference between cables is prevented.

In electric wire piping-related technologies, the phenomenon of interference between electric cables can be prevented or minimized during the lead-in operation of electric cables into the conduit, and at the same time, various types of electric cables can be more efficiently classified and routed in the conduit. it is necessary to do

In addition, in creating a construction environment related to the construction of a device, a means to prevent exposure to various viruses, bacteria, etc. is required. However, there is a problem in the absence of technical means that satisfies all of these.

Korean Registered Patent No. 10-20257930000

The problem to be solved by the present invention is to prevent or minimize the phenomenon of interference between electric cables during the lead-in operation of electric cables, and at the same time, various types and multiple electric cables can be more efficiently separated and wired in the conduit, It is to provide a method of constructing electric wire piping devices for apartment houses to prevent exposure to various viruses, germs, etc. of devices and workers for constructing devices in creating a construction environment related to the construction of devices.

In addition, in order to install these devices, a fluid injection means is provided for quarantine in the construction process, such as worker movement and material introduction, but efficient removal and installation of these fluid injection means is possible, so that the operation of the fluid injection means is reliable and simplified. is to make it possible.

In particular, it is possible to have a stable impact resistance structure of the fluid spraying means, and to enable efficient operation in various conditions through variable functional operation.

By implementing various sizes of the fluid injection means, it is possible to operate suitable for the installation purpose and needs.

In addition, it is to enable stable and solid mounting and fixing in the mounting of the fluid ejection means.

The tasks of the present invention are not limited to the tasks mentioned above, and other tasks not mentioned will be clearly understood by those skilled in the art from the following description.

The present invention is a method of constructing a wire piping device for electricity in an apartment house, comprising the steps of preparing a wire piping device for electricity in an apartment house; Transferring the electric wire piping device of the apartment house by a transfer means; unloading the electric wire piping device of the apartment house by a loading means at the site; And a step of installing electric wire piping devices for the apartment house electricity at the site, wherein a plurality of electric wire piping devices for the apartment house electricity are installed to be connected to each other for electrical wiring of the apartment house, and electrical wire piping devices are installed along the length direction. Unit conduit 100 through which the cable 10 is introduced: It is installed inside the unit conduit 100 so that the inner space 110 of the unit conduit 100 is perpendicular to the longitudinal direction of the unit conduit 100. It functions to divide into 2 to 4 unit spaces 120 based on the cross-sectional shape cut in the direction, and is disposed along the length direction of the unit conduit 100 at the inner center of the unit conduit 100, and is hollow. It is a type, and includes a circular central axis 210 in which a receiving groove 211 for installing an electric appliance is formed in the central portion in the longitudinal direction.

According to the present invention as described above, there is one or more of the following effects.

The present invention can prevent or minimize the phenomenon of interference between electric cables during the lead-in operation of electric cables, and at the same time, various types and multiple electric cables can be more efficiently separated and wired in the conduit, and the construction and In creating a related construction environment, it is possible to provide a method of constructing an electric wire piping device for an apartment house to prevent exposure of devices and workers for constructing devices to various viruses, bacteria, etc.

In addition, in order to install these devices, a fluid spraying means is provided for quarantine in various construction processes, such as worker movement and material import, but the fluid spraying means can be efficiently removed and installed, so the operation of the fluid spraying means is reliable and simplified. this is possible

In particular, it is possible to have a stable impact resistance structure of the fluid ejection means, and to operate efficiently in various conditions through variable functional operation.

By implementing various sizes of the fluid ejection means, it is possible to operate suitable for the installation purpose and needs.

In addition, it is possible to mount and fix the fluid injection means stably and firmly.

1 is a perspective view illustrating a pipe wiring device of an apartment house electricity according to an embodiment of the present invention in an exploded state;
2 is a perspective view illustrating a state in which a wiring conduit division module is coupled in a piping wiring device for electricity in an apartment house according to an embodiment of the present invention and a state before being installed in a unit conduit
3 is a perspective view illustrating a piping wiring device of an apartment house electricity according to an embodiment of the present invention in a coupled state;
Figure 4 is a side cross-sectional view of a pipe wiring device of an apartment house electricity according to an embodiment of the present invention
5 is a block diagram illustrating an electrical configuration in a piping wiring device for electricity in an apartment house according to an embodiment of the present invention.
6 is a view schematically illustrating examples in which an internal space of a unit conduit is divided into a plurality of unit spaces in the electrical piping wiring device of an apartment house according to an embodiment of the present invention.
7 to 11 are schematic diagrams showing the main components of the present invention.

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

1 is a perspective view illustrating an electrical piping wiring device for an apartment house according to an embodiment of the present invention in an exploded state, and FIG. 2 is a divided wiring pipe in an electrical piping wiring device for an apartment house according to an embodiment of the present invention. A perspective view illustrating a state in which modules are coupled and a state before being installed in a unit conduit, and FIG. 3 is a perspective view illustrating a piping wiring device for electricity in an apartment house according to an embodiment of the present invention in a coupled state, and FIG. 4 is a cross-sectional side view of a piping wiring device for electricity in an apartment house according to an embodiment of the present invention, and FIG.

As shown, the piping wiring device for electricity in an apartment house according to an embodiment of the present invention includes a unit conduit 100, a wiring conduit dividing module 200, a temperature sensor 300, a control unit 400, and a wireless communication module ( 500) and a power supply unit 600. A plurality of unit conduits 100 are installed to be connected to each other for electrical wiring of apartment houses, and an electric cable 10 is introduced into the unit conduit 100 along its length direction.

The wiring conduit division module 200 is installed inside the unit conduit 100 and cuts the internal space 110 of the unit conduit 100 in a direction perpendicular to the length direction of the unit conduit 100 as a reference. It serves to divide into 2 to 4 unit spaces 120.

The wiring conduit division module 200 includes a central axis 210 and a plurality of division plates 220 . The central axis 210 is formed in a hollow shape and a circular shape, and the central axis 210 is disposed along the longitudinal direction of the unit conduit 100 at the inner center of the unit conduit 100. In addition, a receiving groove 211 for installing an electric device such as a sensor is formed in the center of the central axis 210 in the longitudinal direction.

The partition plate 220 includes a plate body 221 , a coupler 222 and a soft pad 223 . The plate body 221 is configured to elongate along the longitudinal direction of the central axis 210 . The coupler 222 is detachably coupled to one end of the plate body 221 in the width direction, and includes a coupling ring 222a for elastically gripping the central axis 210 . And these couplers 222 are installed in plurality along the longitudinal direction of the plate body 221 . In the present embodiment, the coupler 222 has a groove for inserting the plate body 221, and one side of the plate body 221 is coupled to the groove by an interference fit method. It is not limited, and the detachable coupling between the coupler 222 and the plate body 221 may use various configurations such as a bolt coupling method.

The soft pad 223 is formed of a soft material and is detachably coupled to the other end of the plate body 221 in the width direction. The soft pad 223 fills the gap between the plate body 221 and the inner surface of the unit conduit 100, and at the same time, when the plate body 221 moves along the length of the unit conduit 100, the plate body 221 and the unit conduit 100 (100) It functions to reduce the frictional force between the inner surfaces.

In addition, two to four division plates 220 described above are coupled to the central axis 210 to divide the inner space of the unit conduit 100 from two to four unit spaces 120 . In other words, the wiring conduit division module 200 divides the internal space of the unit conduit 100 into two to four unit spaces 120 according to the number of division plates 220 coupled to the central axis 210. do. In other words, the unit conduit 100 has two to four unit spaces 120 according to the number of partition plates 220 whose inner space 110 is coupled to the central axis 210 of the wiring conduit division module 200. is divided into

Referring to FIG. 6, FIG. 6 is a diagram schematically illustrating examples in which an internal space of a unit conduit is divided into a plurality of unit spaces in a piping wiring device for electricity in an apartment house according to an embodiment of the present invention. In (a) of FIG. 6, two division plates 220 are coupled in the direction of the vertical axis to the central axis 210 of the wiring conduit division module 200, and thus the internal space 110 of the unit conduit 100 is formed. It illustrates a state to be divided into two unit spaces 120 based on the vertical axis, and (b) shows that the two division plates 220 are coupled to the central axis 210 in the direction of the horizontal axis, and thus the unit conduit ( 100) illustrates a state in which the inner space 110 is divided into two unit spaces 120 based on the horizontal axis.

And (c) and (d) in (a) in the drawing, one partition plate 220 is further coupled to the central axis 210 relative to the horizontal axis, and accordingly, the inner space 110 of the unit conduit 100 is An illustration of a state divided into a total of three unit spaces 120, including one unit space 120 located on one side relative to the horizontal direction and two unit spaces 120 located vertically symmetrically on the other side it did In addition, (e) and (f) in (b) in the drawing, one partition plate 220 is further coupled to the central axis 210 on the basis of a vertical axis, and accordingly, the inner space 110 of the unit conduit 100 Based on this vertical direction, a state divided into a total of three unit spaces 120, including one unit space 120 located on one side and two unit spaces 120 located symmetrically on the other side, it is foreshadowed

Finally, (g) shows the central axis 210 with four partition plates 220, the two partition plates 220 are arranged in a row in the horizontal direction, and the remaining two partition plates 200 are arranged in a row in the vertical direction. As coupled to, the state in which the inner space 110 of the unit conduit 100 is divided into four unit spaces 120 of the same size is illustrated.

1 to 5, the temperature sensor 300 is installed in the receiving groove 211 of the central shaft 210 to detect the internal temperature of the unit conduit 100 according to a preset cycle, and every cycle Transmits the detected temperature value to the receiving target in real time. In other words, the temperature sensor 300 functions to detect the internal temperature of the unit conduit 100 according to a predetermined cycle and transmits the detected temperature value at each cycle to the controller 400 to be described in real time.

The control unit 400 is installed in the receiving groove 211 of the central shaft 210, and the control unit 400 sets a critical temperature and a critical number of times in advance to determine overheating of the electrical wiring in the unit conduit 100 , State of electrical wiring within the unit conduit 100 when the temperature in the unit conduit 100 transmitted through the temperature sensor 300 exceeds the predetermined critical temperature and exceeds the critical number of times under the premise that the number of times exceeded is continuous Generates and outputs a check request signal for

The wireless communication module 500 is installed in the receiving groove 211 of the central shaft 210 and functions to receive the inspection request signal of the control unit 400 and wirelessly transmit it to an external reception target. Here, the external reception target may be a mobile smart device of a management office that manages electrical facilities or a server computer of a management office that manages electrical facilities.

The power supply unit 500 is installed inside the central shaft 210 on one side of the central shaft 210 in the longitudinal direction, and the through hole 211a formed in the receiving groove 211 to communicate with the inside of the central shaft 210. ) is connected to the temperature sensor 300, the control unit 400 and the wireless communication module 500 through and functions to supply power to the temperature sensor 300, the control unit 400 and the wireless communication module 500. In this embodiment, the power supply unit 500 includes a battery as an example, but the present invention is not limited thereto.

With the above-described configuration, the internal space 110 of the unit conduit 100 can be selectively divided into an appropriate number of unit spaces 120 within a predetermined number of two or more and four or less as needed, and thus The electrical cable 10 can be pulled in and installed in units of the divided unit space 120, so that when the electrical cable 10 is pulled in along the electrical wiring conduit to which the unit conduits 100 are connected to each other, the electrical cables 10 are connected to each other. The phenomenon of interference can be prevented or minimized, and at the same time, a plurality of electric cables 10 of various types can be more efficiently separated and routed in an electric wire conduit.

In addition, the overheating phenomenon in the unit conduit 100 can be periodically monitored as the temperature in the unit conduit 100 into which a plurality of electrical cables 10 of various types are introduced is frequently measured according to a predetermined cycle, and the overheating situation When detected, the fact can be quickly propagated to the corresponding manager or management center so that action can be taken. As it is installed in the receiving groove 211 in an accommodating manner, when the electrical cables 10 are pulled into the unit conduit 100 and the electrical wiring conduit including it, the monitoring equipment interferes with the retraction of the wire cable 10. won't do it

In addition, referring to FIGS. 7 to 11 , a method of constructing a wire piping device for electricity in an apartment house according to an embodiment of the present invention comprises the steps of preparing a wire piping device for electricity in an apartment house; Transferring the electric wire piping device of the apartment house by a transfer means; unloading the electric wire piping device of the apartment house by a loading means at the site; and installing the electric wire piping device for the apartment house at the site.

The electric wire piping device for the apartment house electricity is installed so that a plurality of them are connected to each other for electrical wiring of the apartment house, and the unit conduit 100 into which the electric cable 10 is introduced along the length direction: of the unit conduit 100 It is installed inside and divides the inner space 110 of the unit conduit 100 into 2 to 4 unit spaces 120 based on the cross-sectional shape cut in a direction perpendicular to the longitudinal direction of the unit conduit 100. It functions to do, and is disposed along the longitudinal direction of the unit conduit 100 at the inner center of the unit conduit 100, is hollow, and has a receiving groove 211 for installing an electric appliance in the central portion based on the longitudinal direction. ) includes a circular central axis 210 formed.

A fluid supply unit 100' is installed at the site to spray the fluid for quarantine to at least one of the components of the electric wire piping device, the transfer means, and the unloading means of the apartment house electricity, and the fluid supply unit ( 100') is provided with a central body 110' and a determination module 114' installed on the upper part of the central body 110' and photographing and determining whether a photographing target around the upper part corresponds to a preset target. an upper mounting body 112', a first movable panel 116' protruding from one side of the central body 110', and a second movable panel 118 protruding from the other side of the central body 110' '), and the first movable panel 116' facing each other, and facing the first buried panel 120', which is partly buried and installed on the floor, and the second movable panel 118', and partly on the floor. The second buried panel 122' is buried and installed, and the fluid injection modules 211' and 212' are installed on both sides of the upper part of the upper mounting body 112' and are mounted in a replacement type based on removal to spray fluid. , 213', 214', 215').

In addition, the fluid injection modules 211', 212', 213', 214', and 215' spray a first fluid for eradicating algae approaching the site P' and a second fluid for disinfection. .

In addition, the fluid injection modules 211', 212', 213', 214', and 215' include a spray structure 221' filled with the fluid and spraying the fluid, and an upper portion of the spray structure 221'. It is located at, and includes a variable structure 222' that is rotationally driven by the motor rotation method from the injection structure 221'.

In addition, the upper mounting body 112' includes the first upper moving body 310' installed horizontally on both sides, the first lower moving body 316' installed horizontally on both sides, and the first lower moving body 316' installed horizontally on both sides. Includes a first space maintaining panel 312' facing the upper movable body 310' and a second space maintaining panel 314' installed horizontally on both sides and facing the first lower movable body 316' on both sides do.

A 1-1 recessed part and a 1-2 recessed part are formed in the lower part of the upper mounting body 112', and a 2-1 recessed part and a 2-1 recessed part are formed in the upper part of the first space maintaining panel 312'. 2 recesses are formed, a 3-1 recessed part and a 3-2 recessed part are formed in the lower part of the first spacer maintaining panel 312', and a 4-1 recessed part is formed in the upper part of the second spacer maintaining panel 314'. A recessed part and a 4-2 recessed part are formed, a 5-1 recessed part and a 5-2 recessed part are formed under the second space keeping panel 314', and the first lower moving body 316' has The 6-1st recessed part and the 6-2nd recessed part are formed in the upper part.

In addition, the fluid injection modules 211', 212', 213', 214', and 215' are mounted in the 1-1 region S1' between the 1-1 recessed part and the 2-1 recessed part. a first fluid injection module 211', and a second fluid injection module 212' mounted in the 1-2 region S2' between the 1-2 recessed part and the 2-2 recessed part And, a third fluid injection module 213' mounted in the 2-1 region S3' between the 2-1 recessed part and the 3-1 recessed part, and the 2-2 recessed part and A fourth fluid injection module 214' mounted in the 2-2 region S4' between the 3-2 recessed parts, and a third fluid injection module 214' between the 3-1 recessed part and the 4-1 recessed part. The fifth fluid injection module 215' mounted in the -1 area S5' and the 3-2 area S6' between the 3-2 recessed part and the 4-2 recessed part mounted and a sixth fluid injection module 216'.

The upper mounting body 112' can be moved up and down from the central body 110', and the first movable panel 116' enters the first buried panel 120' at the bottom and is mounted thereon. A first bottom fluid 1161' is provided, and the second movable panel 118' is provided with a second bottom fluid 1181' installed by entering the second buried panel 122' at the bottom. In the first movable panel 116' and the second movable panel 118', the first buried panel 120' and the second buried panel 122' slide in the horizontal direction, respectively, A fixing force is applied to the first buried panel 120' and the second buried panel 122', and based on the fixing force, the central body 110' connects the first buried panel 120' and the second buried panel 120'. The second buried panel 122' is interlocked and fixed so as to respond to an external impact.

Meanwhile, the first fluid injection module 211' to the sixth fluid injection module 216' apply a rotational force in a circumferential rotation between the horizontal directions of the injection structure 221' in the stationary mounting state, so that the fluid injection module (211', 212', 213', 214', 215') is the mounting fixing force in the upper mounting body 112', the first spacing maintaining panel 312', and the second spacing maintaining panel 314' make it stronger.

Here, a first outer panel 124' is provided above the first buried panel 120', and the first outer panel 124' is a pair of first variable actuators 1241 facing each other inwardly. , 1242') is provided, and a second movable panel 118' is provided on the upper part of the second buried panel 122', and the second movable panel 118' is a pair of mutually facing each other inwardly. Second variable actuators 1261' and 1262' are provided.

In addition, the first movable panel 116' and the second movable panel 118' are moved in a sliding manner toward the first buried panel 120' and the second buried panel 122', respectively. The first variable actuators 1241 and 1242' press and fix the upper surface of the first upper movable body 310' and the lower surface of the first lower movable body 316' at one side of the upper mounting body 112'. And, the second variable actuators 1261' and 1262' connect the upper surface of the first upper movable body 310' and the first lower movable body 316' on the other side of the upper mounting body 112'. Press down on the lower surface to secure.

The first movable panel 116' and the second movable panel 118' are the first contact module 411' and the third fluid which press the first fluid injection module 211' up and down, respectively. A second contact module 412' that presses the injection module 213' and a third contact module 413' that presses the fifth fluid injection module 215' up and down is provided.

In addition, the upper mounting body 112' includes a first vertical body 511' protruding between the 1-1 area S1' and the 1-2 area S2', and the first vertical body ( 511') to press the first fluid injection module 211' in the 1-1 region S1' and the second fluid injection module 212' in the 1-2 region S2', respectively. A first transverse body 521 ′ that emerges and retracts is provided.

Meanwhile, the first upper movable body 310' includes a second vertical body 512' that protrudes between the 2-1 area S3' and the 2-2 area S4', and the first upper movable body 512'. In the movable body 310', the second fluid injection module 212' of the 2-1 area S3' and the third fluid injection module 213' of the 2-2 area S4' are respectively A second transverse body 522' protruding and retracting to be pressed is provided.

The first lower movable body 316' includes a third vertical body 513' that appears and retracts between the 3-1 area S5' and the 3-2 area S6', and the first lower movable body. In 316', the 3rd fluid injection module 213' of the 3-1 area S5' and the 4th fluid injection module 214' of the 3-2 area S6' are pressed, respectively. A third transverse body 523' protruding and retracting is provided.

Meanwhile, the site (P) here is a first site (P1) where the device of the present invention is located, a third site (P3) corresponding to a gate for entering the first site (P1), and the first site ( It includes a second site (P2) located between P1) and the third site (P3). At least in the second site P2 here, the fluid providing unit 100 is disposed or installed.

The driving method of the physical components described above is forward-backward movement and rotational movement based on motors, actuators, etc., and the shape and size of each component can be selected and provided in various ways depending on the installation site and the materials to be implemented. . Although the present invention has been described with reference to the embodiments shown in the drawings, this is only exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical scope of protection of the present invention should be determined by the technical spirit of the appended claims.

10: electric cable 100: unit conduit
110: inner space 120: unit space
200: wiring duct division module

Claims (2)

In the electric wire piping installation facility for apartment houses,
The electrical wire piping device of the apartment house is transported by the transfer means, the electrical wire piping device of the apartment house is unloaded by the unloading means at the site, and the electrical wire piping device of the apartment house is installed at the site,
The electric wire piping device of the apartment house electricity,
It is installed on the inside of the unit conduit 100 and is disposed along the longitudinal direction of the unit conduit 100 at the inner center of the unit conduit 100, and a receiving groove for installing electric appliances in the central portion based on the longitudinal direction ( 211) includes a circular central axis 210 formed,
The fluid supply unit 100' is installed at the site to spray the fluid for quarantine to at least one of the components of the wire piping device of the apartment house electricity, the transfer means, and the unloading means,
The fluid providing unit 100 ',
A central body 110 'and an upper mounting body installed on the upper part of the central body 110' and equipped with a determination module 114' for photographing and determining whether a photographing target around the upper part corresponds to a preset target ( 112'), the first movable panel 116' that appears and descends to one side of the central body 110', and the second movable panel 118' that emerges and descends to the other side of the central body 110', A first buried panel 120' facing the first movable panel 116' and installed with a part buried on the floor, and a first buried panel 120' facing the second movable panel 118' and installed with a part buried on the floor. Two fluid injection modules 211', 212', 213', and 214 installed on both sides of the buried panel 122' and the upper portion of the upper mounting body 112' to spray fluid by being installed as a replacement type based on removal. ',215'),
The fluid injection modules 211', 212', 213', 214', and 215' spray a first fluid for combating algae approaching the site P' and a second fluid for disinfection,
The fluid injection modules 211', 212', 213', 214', 215',
A spraying structure 221' filled with the fluid and spraying the fluid, and a variable structure 222 located above the spraying structure 221' and rotationally driven by a motor rotation method from the spraying structure 221''),
The upper mounting body 112 ',
The first upper movable body 310' installed horizontally on both sides, the first lower movable body 316' installed horizontally on both sides, and the first upper movable body 316' installed horizontally on both sides and facing the first upper movable body 310'. Including a first space maintaining panel 312' and a second space maintaining panel 314' installed horizontally on both sides and facing the first lower moving body 316' on both sides,
A 1-1 recessed part and a 1-2 recessed part are formed in the lower part of the upper mounting body 112', and a 2-1 recessed part and a 2-2 recessed part are formed on the upper part of the first space maintaining panel 312'. An indentation is formed,
A 3-1 recessed part and a 3-2 recessed part are formed in the lower part of the first space maintaining panel 312', and a 4-1 recessed part and a 4-1 recessed part and a 4-2 recessed part are formed in the upper part of the second space maintaining panel 314'. 2 Indentations are formed,
A 5-1 recessed part and a 5-2 recessed part are formed in the lower part of the second space keeping panel 314', and a 6-1 recessed part and a 6-1 recessed part and a 6-1 recessed part are formed in the upper part of the first lower moving body 316'. 2 Indentations are formed,
The fluid injection modules 211', 212', 213', 214', and 215'
A first fluid injection module 211' mounted in the 1-1 region S1' between the 1-1 recessed part and the 2-1 recessed part, and the 1-2 recessed part and the The second fluid injection module 212' mounted in the 1-2 region S2' between the 2-2 recesses and the 2-1 between the 2-1 recesses and the 3-1 recesses The third fluid injection module 213' mounted in the region S3' and the third fluid injection module 213' mounted in the 2-2 region S4' between the 2-2 recessed part and the 3-2 recessed part. 4. A fluid injection module 214', and a fifth fluid injection module 215' mounted in the 3-1 region S5' between the 3-1 recessed part and the 4-1 recessed part, A sixth fluid injection module 216' mounted in the 3-2 region S6' between the 3-2 recessed part and the 4-2 recessed part,
The upper mounting body 112 ',
It is possible to go up and down in the central body 110', and the first movable panel 116' enters the inside of the first buried panel 120' at the bottom and is mounted on the first bottom fluid body 1161' is provided,
The second movable panel 118' is provided with a second bottom fluid body 1181' installed by entering into the second buried panel 122' at the lower part, and the first movable panel 116' and the second movable panel 116'. In the second movable panel 118', the first buried panel 120' and the second buried panel 122' slide in a horizontal direction, respectively, so that the first buried panel 120' and the second buried panel 120' So that the fixing force for the buried panel 122 'acts,
Based on the fixing force, the central body 110 'is interlocked and fixed to the first buried panel 120' and the second buried panel 122' so as to respond to an external impact,
The first fluid injection module 211' to the sixth fluid injection module 216' apply rotational force in a circumferential rotation between the horizontal directions of the injection structure 221' in the stationary mounting state, thereby causing the fluid injection module ( 211', 212', 213', 214', 215') have a mounting fixing force in the upper mounting body 112', the first spacing maintaining panel 312', and the second spacing maintaining panel 314' to strengthen,
A first outer panel 124' is provided above the first buried panel 120', and the first outer panel 124' is a pair of first variable actuators 1241 facing each other inwardly. 1242') is provided,
A second movable panel 118' is provided above the second buried panel 122', and the second movable panel 118' is a pair of second variable actuators 1261' facing each other inwardly. ,1262') is provided,
The upper mounting body 112 ',
It is possible to go up and down in the central body 110', and the first movable panel 116' enters the inside of the first buried panel 120' at the bottom and is mounted on the first bottom fluid body 1161' is provided,
The second movable panel 118' is provided with a second bottom fluid body 1181' installed by entering into the second buried panel 122' at the lower part, and the first movable panel 116' and the second movable panel 116'. In the second movable panel 118', the first buried panel 120' and the second buried panel 122' slide in a horizontal direction, respectively, so that the first buried panel 120' and the second buried panel 120' So that the fixing force for the buried panel 122 'acts,
Based on the fixing force, the central body 110 'is interlocked and fixed to the first buried panel 120' and the second buried panel 122' so as to respond to an external impact,
The first fluid injection module 211' to the sixth fluid injection module 216' apply a rotational force in a circumferential rotation between the horizontal directions of the injection structure 221' in the stationary mounting state, so that the fluid injection module ( 211', 212', 213', 214', 215') have a mounting fixing force in the upper mounting body 112', the first spacing maintaining panel 312', and the second spacing maintaining panel 314' to strengthen,
A first outer panel 124' is provided above the first buried panel 120', and the first outer panel 124' is a pair of first variable actuators 1241 facing each other inwardly. 1242') is provided,
A second movable panel 118' is provided above the second buried panel 122', and the second movable panel 118' is a pair of second variable actuators 1261' facing each other inwardly. ,1262') is provided, electric wire piping installation equipment for apartment houses.

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