WO2023054854A1 - 분전반용 전원 분배장치 - Google Patents
분전반용 전원 분배장치 Download PDFInfo
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- WO2023054854A1 WO2023054854A1 PCT/KR2022/009244 KR2022009244W WO2023054854A1 WO 2023054854 A1 WO2023054854 A1 WO 2023054854A1 KR 2022009244 W KR2022009244 W KR 2022009244W WO 2023054854 A1 WO2023054854 A1 WO 2023054854A1
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- Prior art keywords
- connection
- distribution device
- power distribution
- housing
- circuit breaker
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Classifications
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02B—BOARDS, SUBSTATIONS OR SWITCHING ARRANGEMENTS FOR THE SUPPLY OR DISTRIBUTION OF ELECTRIC POWER
- H02B1/00—Frameworks, boards, panels, desks, casings; Details of substations or switching arrangements
- H02B1/26—Casings; Parts thereof or accessories therefor
- H02B1/46—Boxes; Parts thereof or accessories therefor
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02B—BOARDS, SUBSTATIONS OR SWITCHING ARRANGEMENTS FOR THE SUPPLY OR DISTRIBUTION OF ELECTRIC POWER
- H02B1/00—Frameworks, boards, panels, desks, casings; Details of substations or switching arrangements
- H02B1/20—Bus-bar or other wiring layouts, e.g. in cubicles, in switchyards
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02B—BOARDS, SUBSTATIONS OR SWITCHING ARRANGEMENTS FOR THE SUPPLY OR DISTRIBUTION OF ELECTRIC POWER
- H02B1/00—Frameworks, boards, panels, desks, casings; Details of substations or switching arrangements
- H02B1/26—Casings; Parts thereof or accessories therefor
- H02B1/30—Cabinet-type casings; Parts thereof or accessories therefor
- H02B1/38—Hinged covers or doors
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02B—BOARDS, SUBSTATIONS OR SWITCHING ARRANGEMENTS FOR THE SUPPLY OR DISTRIBUTION OF ELECTRIC POWER
- H02B1/00—Frameworks, boards, panels, desks, casings; Details of substations or switching arrangements
- H02B1/015—Boards, panels, desks; Parts thereof or accessories therefor
- H02B1/04—Mounting thereon of switches or of other devices in general, the switch or device having, or being without, casing
- H02B1/056—Mounting on plugboards
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02B—BOARDS, SUBSTATIONS OR SWITCHING ARRANGEMENTS FOR THE SUPPLY OR DISTRIBUTION OF ELECTRIC POWER
- H02B1/00—Frameworks, boards, panels, desks, casings; Details of substations or switching arrangements
- H02B1/20—Bus-bar or other wiring layouts, e.g. in cubicles, in switchyards
- H02B1/207—Cross-bar layouts
Definitions
- the present invention relates to a power distribution device for a distribution board, which implements a connection terminal of a connection hole connection method (a connection terminal having a connection hole formed on one side of the connection terminal, hereinafter referred to as a connection module) in which parallelism is maintained, and It is implemented so that the height of the connection terminal can be used as a single height-adjustable support, and the open output terminal formed on the outer housing of the power distribution device for distribution board is implemented to be protected as a rotating cover, and the terminal of the exposed connection module is implemented.
- the present invention relates to a power distribution device for a distribution panel implementing a housing alignment connection structure capable of protecting a housing as a safety cover and arranging and connecting two or more consecutive power distribution devices for a distribution panel.
- a distribution panel is composed of terminals of a main wiring breaker and earth leakage breaker in a housing (hereinafter referred to as a housing inclusive of a main housing and a sub housing), and busbars electrically connecting them with the main wiring breaker and earth leakage breaker, It has a function to prevent safety accidents such as electric leakage and electric shock by preventing exposure of lines connected to each circuit breaker as well as supplying and blocking of circuit breakers.
- a busbar block for power distribution according to the prior art serves to distribute power supplied from the outside by electrically connecting horizontal connection terminals and vertical connection terminals disposed in a housing to each other.
- main busbar connection terminals connected to the main circuit breaker to induce power
- sub busbar connection terminals connected to the main busbar connection terminals to distribute and supply power to the branch breaker, and It includes a busbar assembly (hereinafter referred to as a power distribution device) interconnecting the main busbar connection terminal and the sub busbar connection terminal.
- connection terminals for circuit breakers must maintain the same parallelism so that not only the complex assembly structure and assembly method of connection structures are stable, but also the energization state is stable.
- the terminal heights of the conventional busbar assembly (power distribution device) and the connection terminals of the breakers do not match, the terminals connected to them form a step one by one to connect the terminals overlapping each other and then fasten the power distribution device (booth).
- the connection terminal constituting the bar assembly had to be separately manufactured and used, and in particular, in the case of a specific circuit breaker, there was a problem that it could not be used because the height of the connection terminal did not match.
- connection terminals with steps through a separate mold, which increases manufacturing cost and lowers productivity and economy.
- connection terminal of the conventional power distribution device for distribution board is a connection structure protruding downward by forming a burring downward in forming a fastening hole in the connection portion of the terminal to increase the connection force, so due to the protrusion at the bottom
- the connection terminal of the conventional power distribution device for distribution board is a connection structure protruding downward by forming a burring downward in forming a fastening hole in the connection portion of the terminal to increase the connection force, so due to the protrusion at the bottom
- a terminal connection structure without burring protrusions has been required as a connection terminal of a power distribution device for a distribution board.
- busbar assemblies for distribution boards integrally form a housing that protects and covers the outside, and prevents exposure of terminals as well as inserting and mounting busbar assemblies at the bottom.
- a height-adjustable support that protects the exposed part except for the terminal is installed and used according to the height of the output terminal.
- This height-adjustable support is an exposed part at the bottom of the busbar assembly (power distribution device), and it is a height-adjustable support to prevent the risk of static electricity generation, short circuit, or short circuit due to direct contact with the connection part by the human body or dust or foreign substances stuck in this part. has been protected as However, these conventional height-adjustable supports have been cumbersome to manufacture and use two types of height-adjustable supports to fit the two different heights of the output terminal part.
- generally used distribution panel power distribution devices form a housing that protects and covers the outside, but a cover means has been installed and used on the rear side of the housing to prevent exposure of the connection terminal portion of the power distribution devices exposed to the output side. .
- the cover means for protecting the exposed terminals of the conventional distribution panel power distribution device is to manually mount and remove separate parts to cover the open space of the exposed terminals, the installation state is separated by slight vibration or the like, or prevents separation. Even if a locking jaw is provided and supported, there is a disadvantage in that the locking jaw is easily separated due to wear and tear due to repeated use. Therefore, a rotational cover means for preventing separation necessary to cover the open space of the exposed terminal has been required.
- the exposed terminal part of the connection terminal on the rear side of the conventional power distribution device for distribution panel forms an exposed state as it is, so the human body touches the connection terminal part or dust or foreign matter is caught in this part and static electricity is generated, causing short circuit or short circuit.
- a safety cover for a connection part of a power distribution device for a distribution panel covering such an exposed part has been required.
- At least two conventional power distribution devices for distribution boards are installed by continuously connecting them in a vertical direction.
- a line was formed or a linear guide means was formed on the base of the distribution board as an aid. Therefore, there has been a need for a housing alignment connection structure constituting a power distribution device for a distribution panel.
- Patent Document 1 Registered Patent No. 10-2004696 (published on July 29, 2019)
- Patent Document 2 Registered Patent No. 10-1055421 (published on August 9, 2011)
- Patent Document 3 Registered Patent No. 10-0748397 (published on August 10, 2007)
- Patent Document 4 Registration No. 10-1176626 (published on August 23, 2012)
- Patent Publication 5 Publication No. 10-2007-0106054 (published on November 01, 2007)
- Patent Publication Document 6 Publication No. 10-2017-0142076 (published on December 27, 2017)
- the present invention is a sleeve connection type connection terminal (a connection terminal in which a connection hole is formed at one end and the other end can be inserted into it, which can maintain parallelism,
- a main object is to provide a connection module that improves the above problems by introducing a connection module).
- the present invention is a distribution board that reduces manufacturing costs due to increased processing processes by improving the problems of maintaining parallelism due to Z-bending of conventional connection terminals, the problem of increasing contact resistance (line contact), and the problems of burring processing on fastening terminals. Its purpose is also to provide a power distribution device for
- An object of the power distribution device for a distribution panel of the present invention is to provide a housing assembly method for assembling and combining upper and lower cover housings in a state where internal connection terminals are installed inside.
- An object of the power distribution device for a distribution panel of the present invention is to improve the connection end of one end of the connection module and to provide a connection module in which the end of the connection end is processed for convenient insertion into the connection hole of the other end.
- connection module is fastened to the lower housing constituting the bottom side, so that wear is prevented and loosening is improved.
- Another object of the present invention is to provide a lower housing provided with a fastening groove portion in which a stem formed with a spiral of one fastening member is firmly fastened.
- the power distribution device for distribution panel of the present invention addresses the height of the exposed output terminals with one height-adjustable support by improving the problem of using two height-adjustable supports individually to match the height of the output terminals in two directions exposed to the outside of the outer housing. Its purpose is also to be able to use it corresponding to the height of the output terminal by simply exchanging the upper and lower surfaces.
- Another object of the power distribution device for distribution board of the present invention is to improve the problem of the conventional protective cover means for protecting the exposed terminals opened at one end of the upper part of the housing in which the installation is fixed and rotates at a predetermined angle by improving the simple structure.
- Another object of the power distribution device for distribution panel of the present invention is an exposed terminal without connection between housings forming the power distribution device for distribution panel by safely supporting it in close contact through the fastening holes formed in the first and second connecting members of the connection module. Therefore, the purpose is to prevent unintentional contact with conductive members, contact with workers, and short-circuit accidents caused by rainwater in the open state of the distribution board.
- Another object of the power distribution device for distribution boards of the present invention is a housing alignment connection structure of the power distribution device.
- the gap between the pieces is narrowed and the front end
- the object is also to provide a structure that is stably connected during continuous connection for aligning housings by being inserted while being retracted and at the same time being caught and supported by the inner jaw of the groove-shaped female connection groove.
- a housing composed of an upper housing protecting an upper portion of the power distribution device for the distribution board and a lower housing supporting and protecting a lower portion of the power distribution device for the distribution board;
- connection module integrally formed with connection terminals so that power of the main circuit breaker and the branch circuit breaker is energized in the space inside the housing;
- Connection terminals fastened to the connection module to distribute power
- connection module Including, the connection module
- a first end and a second end are formed, and between the first end and the second end, a plate-shaped surface having a predetermined width extends in the longitudinal direction, and rivet coupling holes and connection holes are formed on the plate surface between them. ;
- connection terminal is made of a first connection member and a second connection member that are covered and coupled from above and below to form a connection hole through which connection and electricity are connected, and the first and second connection members respectively correspond to each other.
- a connecting member forming both side edges, an open end forming a connection hole, a fastening hole, and a coupling hole;
- a current fastening member for inserting a second end of the connection terminal into the connection hole and passing through the connection hole of the second end and upper and lower fastening holes
- a ring-shaped nut member fixed to the fastening groove of the lower housing and fastened and fixed by passing through the fastening holes and the connecting hole;
- a power distribution device for a distribution panel comprising a.
- connection module connected to a busbar connection terminal for a main circuit breaker to receive power from a main circuit breaker in a space inside the housing;
- Busbar connection terminals stacked and coupled to the connection module to distribute power from the main circuit breaker to branch circuit breakers and additional output circuit breakers;
- the height adjustable support is adjustable.
- the first coupling groove and the second coupling protrusions of the first surface are installed at the height of the first terminal, and the second coupling groove and the second coupling protrusion of the second surface are located at the height of the second terminal. It is preferable to achieve this as a power distribution device for a distribution board including a power distribution device for a distribution board characterized in that the position of the first surface and the second surface are changed and installed.
- a housing composed of an upper housing protecting an upper portion of the power distribution device for the distribution board and a lower housing supporting and protecting a lower portion of the power distribution device for the distribution board;
- connection module integrally formed with connection terminals so that power of the main circuit breaker and the branch circuit breaker is energized in the space inside the housing;
- Connection terminals fastened to the connection module to distribute power
- a pivoting cover that rotates to open when the second end of the connection terminal of the power distribution device for distribution board is connected to the connection hole of another power distribution device for distribution board in the state in which the housing is opened, and rotates to close after connection;
- a first surface portion extending in a plate shape in the longitudinal direction
- a hinge shaft in which both side surfaces of the rotational surface are rotatably fixed
- the upper housing includes a slip recess
- the slip waist part The slip waist part
- an angle fixing groove portion forming a first groove portion and a second groove portion in which a stop protrusion is located to fix an open state or a closed state of the rotation cover;
- a power distribution device for a distribution panel comprising a.
- connection module connected to a busbar connection terminal for a main circuit breaker to receive power from a main circuit breaker in a space inside the housing;
- Busbar connection terminals stacked and coupled to the connection module to distribute power from the main circuit breaker to branch circuit breakers and additional output circuit breakers;
- a front cover made of a plate shape to cover several connection holes on the front side at the same time;
- An upper cover portion that is bent at right angles from the front cover portion and protrudes in a fork shape by alternately forming seating holes on the plate surface;
- a fastening hole cover part having a seating hole for closely covering the head of the fastening member directly below the upper cover part;
- a power distribution device for a distribution board for achieving the above object includes a housing covering the outside of the power distribution device; a connection module connected to a busbar connection terminal for a main circuit breaker to receive power from a main circuit breaker in a space inside the housing; Busbar connection terminals stacked and coupled to the connection module to distribute power from the main circuit breaker to branch circuit breakers and additional output circuit breakers; and connection holders protruding from the front and rear ends of the housing to connect the housings to each other. Including, the connection holder portion,
- Suspension connecting protrusions formed on both sides of the front end of the housing and made of coal pieces parallel to each other at intervals ("c") while forming a sharp tip in the support protruding on the front end of the housing; and female mating connection grooves formed at both sides of the rear end of the housing so as to be opened upwards and hooked and coupled to the chin part by inserting the male mating connection protrusions. It is preferable to implement it as a power distribution device for distribution board comprising a.
- the above-described power distribution device for a distribution board of the present invention improves the problems of conventional power distribution devices for a distribution board by providing a connection module having a connection hole formed at one end and having a connection terminal into which the other end can be inserted into the conventional power distribution device for a distribution board. It has the effect of improving the point of forming a step at the end of the connection terminal of them.
- the power distribution device for distribution board of the present invention is a connection terminal having the above connection hole at one end and inserting the connection end of one end of one end of a sleeve connection method in which parallelism is maintained into the connection hole of the other end, and processing the connection hole.
- a connection module made of a simple assembly structure by providing a coupling structure of upper and lower connection members for, it has an effect of providing a connection means of an improved power distribution device for a distribution board.
- the power distribution device for distribution board solves the problem of maintaining parallelism due to Z-bending of the conventional connection terminals, as well as the problem of the resulting increase in contact resistance (line contact) and the burring of the fastening terminals. It is possible to obtain the effect of reducing the manufacturing cost due to the increase in the processing process as well as improving the problems according to the present invention.
- the power distribution device for a distribution board provides a housing assembly method for assembling and combining housings covering upper and lower parts in a state in which internal connection terminals are installed at the same time as implementing a connection module having connection terminals maintaining the above-described parallelism. It became.
- the fastening structure of the above-described connection module is fixed to the lower housing constituting the bottom side with a fastening member that prevents fastening wear and improves loosening
- a lower housing provided with a groove has been provided.
- the height-adjustable support of the distribution panel power distribution device of the present invention improves the problem of using two height-adjustable supports individually to match the height of the output terminals in two directions exposed to the outside of the outer housing, thereby improving the height of the output terminals with one height-adjustable support.
- the rotational cover of the power distribution device for distribution board of the present invention improves the problems of the conventional protective cover means for protecting exposed terminals opened in the upper part of the upper housing, and rotates the open state after rotating at a predetermined angle between the angle fixing grooves. After that, the stopping protrusions were stably inserted in the first and second fixing grooves, and an improvement effect was obtained in which the fixed angle was maintained constant.
- the rotational cover of the power distribution device for distribution board of the present invention improves the problem of the conventional protective cover means for protecting the exposed terminals opened at one end of the upper part of the installed housing and improves it to a simple structure, thereby maintaining the open state by rotating at a predetermined angle. It is possible to provide a rotating cover that can be closed to the original position after terminal connection, as well as generating a click sound during angle rotation and rotating in stages.
- the safety cover of the connection part of the power distribution device for distribution board according to the present invention penetrates through the fastening holes formed in the first and second connection members of the above-mentioned connection module and safely adheres to it, thereby exposing the housings forming the power distribution device for distribution board without connection. Due to the terminal, an improvement effect of preventing unintentional contact with a conductive member, contact with a worker, and a short-circuit accident due to rainwater in an open state of a distribution panel is obtained.
- the housing alignment connection structure of the power distribution device for distribution board of the present invention when the front end protruding from the front end of the housing of the male connection protrusion is inserted into the female connection groove, the gap between the pieces is narrowed and the front end is retracted and inserted while the groove It is caught and supported by the inner jaw of the female connection groove of the form, so that it is possible to provide a structure that is stably connected during continuous connection for aligning the housings.
- FIG. 1 is a perspective view of the entire distribution board to which the power distribution device for distribution board according to the present invention is applied;
- FIG. 2 is an exploded perspective view of the entire distribution board to which the power distribution device for the distribution board of the present invention is applied;
- FIG. 3 is an exploded perspective view of a power distribution device for a distribution board of the present invention.
- FIG. 4 is a perspective view of the connection state of the power distribution device for the distribution board of the present invention.
- Figure 5a is a perspective view of the connection module of the power distribution device for distribution board of the present invention.
- Figure 5b is an exploded perspective view of the connection module of the power distribution device for distribution board of the present invention.
- 6A is a cross-sectional view of an installation state including a connection module of the power distribution device for a distribution board according to the present invention
- 6B is an excerpted cross-sectional view of the connection module of the power distribution device for distribution board of the present invention.
- FIG. 7 is perspective views of an applied state according to an embodiment of the height adjustment support of the power distribution device for distribution board of the present invention.
- Figure 8a is a side view of a first application state according to an embodiment of the height adjustment support of the power distribution device for distribution board of the present invention
- FIG. 8B is a side view in another direction of a second application state according to an embodiment of the height adjustment support of the power distribution device for distribution board of the present invention
- FIG. 9A is an exploded perspective view of a rotating cover according to an embodiment of the rotating cover of the power distribution device for a distribution board according to the present invention.
- FIG. 9B is an exploded perspective view of a rotating cover according to an embodiment of a rotating cover of a power distribution device for a distribution board according to the present invention
- 10A is a side cross-sectional view showing a closed state and an open state of a rotational cover according to an embodiment of the rotational cover of the power distribution device for a distribution board according to the present invention
- 10B is a cross-sectional side view in another direction showing a closed state and an open state of the rotational cover according to an embodiment of the rotational cover of the power distribution device for a distribution board of the present invention
- FIG. 11 is an exploded perspective view according to an embodiment of a safety cover for a connection part of a power distribution device for a distribution board according to the present invention
- 12a is an excerpted perspective view of a safety cover of a connection part of a power distribution device for a distribution board according to the present invention
- 12c is a bottom perspective view and a cross-sectional view of the safety cover of the connection part of the power distribution device for distribution board of the present invention
- Figure 12d is a cross-sectional view of the installation of the safety cover of the connection part of the power distribution device for distribution board of the present invention
- FIG. 13 is a plan view showing a housing alignment connection structure of the power distribution device for a distribution board according to the present invention.
- connection state 14A is a main part view of a connection state showing a housing arrangement connection structure of a power distribution device of a distribution board of the present invention
- 14B is an enlarged view of whether or not a connection state is present showing a housing alignment connection structure of a power distribution device of a distribution board according to the present invention.
- the power distribution device (1) for the distribution panel of the present invention transfers power from the connection terminal (2a) for the main circuit breaker (2) stacked on the top to the connection terminal (3a) for the branch circuit breaker (3) and the busbar for the additional circuit breaker (4).
- the connection module 10 included in the power distribution device for the distribution board will be described as Embodiment 1, and the height included in the power distribution device for the distribution board
- the control support 20 is described in Example 2
- the rotation cover 30 included in the power distribution device for distribution board is described in Example 3
- the safety cover 50 included in the power distribution device for distribution board is described in Example.
- the housing alignment connection structure included in the power distribution device for distribution board will be described in Example 5.
- FIG. 1 is a perspective view of the entire distribution board to which the power distribution device for distribution boards of the present invention is applied
- Figure 2 is a perspective view of the entire distribution board to which the power distribution device for distribution boards of the present invention is applied
- FIG. 3 is an exploded view of the power distribution device for distribution boards of the present invention
- Figure 4 is a perspective view of the connection state of the power distribution device for distribution board of the present invention
- Figure 5a is a perspective view of an excerpted connection module of the power distribution device for distribution board of the present invention
- Figure 5b is a connection of the power distribution device for distribution board of the present invention It is an exploded perspective view of the module
- Figure 6a is a cross-sectional view of the installation state including the connection module of the power distribution device for distribution board of the present invention
- Figure 6b is an excerpted cross-sectional view of the connection module of the power distribution device for distribution board of the present invention.
- This power distribution device (1) has a housing (100) covering the outside, and a bus bar connection terminal (2a) for the main circuit breaker (2) to receive power from the main circuit breaker (2) in the space inside the housing (100).
- the connected connection module 10 and the busbar connection terminal 3a for the branch circuit breaker 3 and the busbar connection terminal for the additional circuit breaker 4 are stacked and coupled to the connection module 10 to supply power to the main circuit breaker 2 It may include a busbar connection terminal 41 connected to distribute to (41),
- the power distribution device for the distribution board of the present invention is connected to the connection terminals 3a for the main circuit breaker 1, and the power of the main circuit breaker 1 is connected to the branch circuit breakers 2.
- a power distribution device (a kind of power distribution device (a kind of A busbar assembly, 1) is formed.
- the power distribution device 1 for a distribution board of the present invention shown in FIGS. 3 and 4 of the accompanying drawings may form a housing 100 composed of an upper housing 101 and a lower housing 103 installed on the floor.
- connection module 10 installed in the vertical direction on the side of the bus bar terminal 2a for the main circuit breaker 2 in the lower housing 103 within the housing 100, and the connection module 10 are laminated and coupled to the main circuit breaker 2. Height selectively installed to protect the first and second output terminals 411 and 412 of the busbar connection terminal 41 that distributes the power of the circuit breaker 2 to the branch circuit breaker 3 and the additional circuit breaker 4
- the output terminal is connected to the control support 20 and the output terminal (first end of the connection module) side newly exposed in the upper housing 101, it is opened upward and rotates to cover to protect the side after connection.
- a cover 30 may be included.
- connection module 10 of the power distribution device 1 for the distribution board of the present invention largely includes connection terminals 11 and connection members 12 ), a coupling member 13, an energization fastening member 14, and a ring-shaped nut member 15.
- connection terminal 11 forms a first end 111 at either end side of both ends, and a second end 112 at the other end side of both ends.
- a plate-shaped surface having a predetermined width extends in the longitudinal direction, and several rivet holes 114 for coupling are formed on the plate surface between them. can be perforated.
- connection hole 113 is formed on the second end 112 side, but as shown in FIG. 5 (a), inclined surfaces 112a are formed on the upper and lower surfaces, and between the inclined surfaces 112a The end of may form the front end surface (112b).
- the second end 112 is a curved portion 112c that is easy to insert into a connection hole 124 to be described later, and it is preferable to form a smooth insertion structure.
- the connecting member 12 includes a first connecting member 121 that is covered and coupled from above to form a connecting hole 124 through which the second end 112 of the connecting terminal 11 is connected and energized, and a connecting terminal ( 11) is composed of a second connection member 122 supported and coupled from the bottom to form a connection hole 124 through which electricity is connected.
- the first and second connecting members 121 and 122 form opposite side edges 121a and 122a, a fastening hole 123, and a coupling hole 125, respectively, and the front and rear ends are open. Steps 124a and 124b may be formed. In the open ends 124a and 124b, the first and second connecting members 121 and 122 have the first end 111 of the connection terminal 11 in the center, and correspond in the upper and lower directions to the coupling hole ( The connection hole 124 may be formed by passing through the 125 and combining the coupling member 13 .
- the depth of the connection hole 124 may form an insertion length of 50% between the first end 111 and the second end 112 so that the second end 112 of the connection terminal 11 is inserted and fastened.
- the energization fastening member 14 penetrates the fastening hole 123 of the connecting member 12 and the fastening hole 113 of the first end 111 of the connection terminal 11 and is installed in the bottom enclosure 103 in a ring shape. It is fixedly installed to the nut member 15.
- the current fastening member 14 includes a stem portion 142 passing through the fastening holes 123 of the first connecting member 121 and the second connecting member 122, and a head hooked and supported by the fastening hole 123. It consists of part 141.
- the ring-shaped nut portion 15 forms a screw hole 151 into which the stem portion 142 of the fastening member 14 is screwed, and its outer edge forms a rectangular edge.
- the ring-shaped nut part 15 is embedded and fixed so that its upper part is exposed in the fastening groove part 103a formed at a predetermined position along the outer edge of the lower housing 103.
- the stem part 142 of the fastening member 14 for energization is connected to the ring-shaped nut part 15 fixed to the fastening groove part 103a, and the fastening hole 123 of the first connecting member 121 and the connecting terminal 11 It passes through the fastening hole 113 and the fastening hole 123 of the second connecting member 122 sequentially, and is fastened and fixed by screw fitting in the screw hole 151 of the ring-shaped nut part 15 of the fastening groove 103a.
- connection terminal 11 constituting the connection module 10 between the upper housing 101 and the lower housing 103 is located at the center in the horizontal direction. It is installed.
- connection terminals 11 shown in FIG. 6B are connected in a horizontal direction to maintain an energized state.
- connection module 10 extracted from FIG. 6A is in a state in which two of the connection terminals 11 are connected.
- the connection terminal 11 on the right exposes the second end 112 to the output terminal 3a side of the branch circuit breaker 3 on the left side, and the connection member 12 coupled to the second terminal 111 side on the left side While is located, the second end 112 of the other connection terminal 11 is inserted into the connection hole 124, and the energized fastening member 14 passes through the fastening hole 123 and the fastening hole 113 to the lower part. It is screw-fitted to the ring-shaped nut member 15 fixedly embedded in the housing 103.
- connection terminals 11 are connected to the connection terminals (signs omitted) of the power distribution device of at least one branch circuit breaker in the vertical direction and the horizontal and vertical rivet holes 114 ) through which they are coupled.
- connection module 10 is not eccentric to either one side or the other side and is formed at the center of the thickness, it has the advantage of being able to be installed even when one side and the other side are turned over 180 degrees without distinction of position when installed in the power distribution device for distribution board. .
- the power supplied from the main branch breaker 2 through the power distribution device 1 for the distribution board of the present invention is branched and supplied in the cross direction so that power is energized to the branch breaker 3 and the additional circuit breaker 4. role can be fulfilled.
- connection method of the two connection terminals 11 of the connection module 10 in a horizontal state is maintained horizontally, thereby reducing the burring structure of the connection terminals of the conventionally known busbar assembly (power distribution device) or the step to the output side. It is to provide a simple and concise assembly structure in terms of the entire assembly construction compared to the structure to be formed.
- the stable fixed state of the horizontal connection structure of the power distribution device 1 for the distribution panel of the present invention will provide a combined effect to stably provide power distribution even in various external flow situations.
- connection modules 10 and branching connection terminals 40 secure a space that can be drawn upward from the connection module 10 of the present invention.
- the formation of steps and burrings for such horizontal terminal coupling also has a disadvantage in that the space between the upper and lower pivoting covers for connection can be expanded, as well as preventing the instability of electricity during connection.
- connection terminal 11 of the connection module 10 of the power distribution device 1 for distribution board of the present invention can be maintained in a linear state as shown in FIG. Since the width of the induced current that can be induced in the terminal connection state of the coupling structure can be reduced, if the thickness of the connection part of the conventional connection terminal becomes thicker, the expansion width of the induced current around the energized state increases, thereby interfering with other terminals. Malfunction due to current can be improved.
- connection hole 124 formed as the connection member 12 on the side of the first end 111 of the connection terminal 11 of the connection module 10 terminal connection that is conventionally placed on the upper and lower surfaces and fastened. According to the structure, the binding operation of the connection module 10 can be performed more simply and easily. In addition, by increasing the contact force by screw-fitting of the stem portion 142 of the fastening member 14, the fixing force and the energized state can be improved at the same time.
- the power distribution device 1 for the distribution panel configured as described above maintains the horizontal linear state of the connection terminals 11 of the bus bus connection module 10, so that the upper and lower parts of the distribution panel do not distinguish between positions. , Not only can it be conveniently placed in the lower rotating cover, but also it can maintain a stable coupling force by being screwed to the ring-shaped nut member 15 forming the outer edge of the square of the lower housing 103.
- connection module 10 simply assembles and disassembles the second end 112 of the connection terminal 11 by screwing the fastening member 14 in the connection hole 124 to quickly and easily perform mutual fastening and maintenance And replacement work can be performed efficiently.
- the ring shape of the lower housing 103 passes through the fastening holes 123 of the first and second connecting members 121 and 122 and the connecting hole 113 of the second end 112.
- the bonding force is doubled, and accordingly, when an external impact is applied, the terminal of the main circuit breaker 2, the output terminals 31 and 32 of the branch circuit breaker 3, and the additional It is possible to prevent the terminals of the circuit breaker 4 from being separated, and at the same time, it is possible to reduce electrical resistance.
- the output terminal (2a) of the main circuit breaker (2) and the output terminal (41) of the additional circuit breaker (4) are connected. It is possible to improve the problem of loosening of the connection part due to material deformation due to heat.
- the ring-shaped nut member 15 is fixed to the lower housing 103 by molding injection for fixing the nut member, and when the stem portion 142 of the fastening member 14 is fastened, the nut is automatically coupled by holding the nut separately from below. Work efficiency has been improved by solving the process problem of giving or fixing with molding injection.
- the power distribution device 1 for the distribution board of the present invention includes a main breaker 2 receiving power from the main breaker 2, branch breakers 3 that distribute the power of the main breaker 2 in different directions, and additional It includes a circuit breaker 3 for output terminals, and a power distribution device 1 for distribution board that distributes and connects the power of the main circuit breaker 1 to the branch circuit breaker 3 and the circuit breaker 4 for additional output terminals.
- the power distribution device 1 for the distribution board of the present invention includes an upper housing 101, a lower housing 103 installed on the floor, and a connection module installed vertically on the side of the main circuit breaker 2 in the lower housing 103 ( 10), and the output terminal (first end of the connection module) side of the upper housing 101 that is exposed in the new direction, opens upward when the output terminal is connected, and covers the side surface after connection. ) may be included.
- connection module (10) of the power distribution device (1) for distribution board consists of a connection terminal (11), a connection member (12), a coupling member (13), a current fastening member (14), and a ring-shaped nut member. (15) included.
- connection terminal 11 forms a first end 111 at either end side of both ends, and forms a second end 112 at the other end side of both ends.
- a plate-shaped surface having a predetermined width extends in the longitudinal direction, and several rivet holes 114 for coupling are formed on the plate surface between them. can be perforated.
- connection hole 113 is formed on the second end 112 side, but an inclined surface 112a is formed on the upper and lower surfaces, and the end between the inclined surfaces 112a forms a front end surface 112b. .
- the second end portion 112 is a curved portion 112c that is easy to insert into the connection hole 124 and preferably forms a smooth insertion structure.
- connection member 12 includes a first connection member 121 that is covered and coupled from above to form a connection hole 124 through which the second end 112 of the connection terminal 11 is connected and energized, and the connection terminal 11 ) is composed of a second connection member 122 supported and coupled from the bottom to form a connection hole 124 through which connection and conduction are conducted.
- the first and second connecting members 121 and 122 form opposite side edges 121a and 122a, a fastening hole 123, and a coupling hole 125, respectively, and the front and rear ends are open. Steps 124a and 124b may be formed. In the open ends 124a and 124b, the first and second connecting members 121 and 122 have the first end 111 of the connection terminal 11 in the center, and correspond in the upper and lower directions to the coupling hole ( The connection hole 124 may be formed by passing through the 125 and combining the coupling member 13 .
- the depth of the connection hole 124 may form an insertion length of 50% between the first end 111 and the second end 112 so that the second end 112 of the connection terminal 11 is inserted and fastened.
- the energization fastening member 14 penetrates the fastening hole 123 of the connecting member 12 and the fastening hole 113 of the first end 111 of the connection terminal 11 and is installed in the bottom enclosure 103 in a ring shape. It is fixedly installed to the nut member 15.
- the current fastening member 14 includes a stem portion 142 passing through the fastening holes 123 of the first connecting member 121 and the second connecting member 122, and a head hooked and supported by the fastening hole 123. It consists of part 141.
- the ring-shaped nut portion 15 forms a screw hole 151 into which the stem portion 142 of the fastening member 14 is screwed, and its outer edge forms a rectangular edge.
- the ring-shaped nut part 15 is embedded and fixed so that its upper part is exposed in the fastening groove part 103a formed at a predetermined position along the outer edge of the lower housing 103.
- the stem part 142 of the fastening member 14 for energization is connected to the ring-shaped nut part 15 fixed to the fastening groove part 103a, and the fastening hole 123 of the first connecting member 121 and the connecting terminal 11 It passes through the fastening hole 113 and the fastening hole 123 of the second connecting member 122 sequentially, and is fastened and fixed by screw fitting in the screw hole 151 of the ring-shaped nut part 15 of the fastening groove 103a.
- FIG. 7 are perspective views of an applied state according to an embodiment of the height-adjustable support of the power distribution device for distribution board of the present invention
- FIG. 8B is a side view of the second applied state according to an embodiment of the height adjustment support of the power distribution device for a distribution board of the present invention.
- the height-adjustable support 20 of the power distribution device 1 for the distribution board according to the present invention according to the above drawings is up and down to match the heights of the first terminal 411 and the second terminal 32 of the branch circuit breaker 3 It is a cover structure that can be used both by changing the location so that the two heights match the height of the different output terminals. This structure improves the conventional two height-adjustable supports formed separately so as to fit each output terminal.
- the height adjustment support 20 of the power distribution device for distribution board has a first coupling groove 21 formed along the first surface 201 to match the height of the first output terminal 411 of the branch circuit breaker 3. ), four first coupling protrusions 22 may be alternately formed. The number of first coupling grooves 21 and first coupling protrusions 22 may be changed to four or more depending on the device used.
- the height adjustment support 20 of the power distribution device for distribution board according to the present invention has a second coupling groove 23 formed along the second surface 202 to match the height of the second output terminal 412 of the branch circuit breaker 3. ), four second coupling protrusions 24 may be alternately formed.
- the number of second coupling grooves 23 and second coupling protrusions 24 can be changed to 5 to 6 or more depending on the device used.
- the height-adjustable support 20 of the power distribution device for distribution board of the present invention made as described above has a first output terminal corresponding to the height of the output terminals 411 and 412 of the branch circuit breaker 3 as shown in FIGS. 7 and 8a and 8b.
- the height of 411 is mounted to fit the second coupling groove 23 of the second surface portion 202 of the height adjustment support 20 and the second coupling protrusions 24, and the height of the second output terminal 412 In the first surface portion 201, the first coupling groove 21 and the first coupling protrusion 22 are positioned so that the height adjustment support 20 is mounted by changing the upper and lower positions.
- the height adjustment support 20 of the power distribution device 1 for the distribution board of the present invention is a body forming a rectangle, and the first surface portion 201 forming one surface (upper surface) in the horizontal direction has a first coupling groove 21, By forming first coupling protrusions 22 and forming second coupling grooves 23 and second coupling protrusions 24 on the second surface portion 202 located on the other surface (lower surface) in the horizontal direction, the conventional first, It has the same function as the two height adjusting supports used to manufacture and mount the two height adjusting supports for each terminal groove for each second output terminal (31, 32), but has improvements solved as a single body.
- the power distribution device (1) for a distribution panel of the present invention includes a main circuit breaker (2) receiving power from a main circuit breaker, branch circuit breakers (3) for distributing power from the main circuit breaker (2) in different directions, and additional output terminals. It includes a circuit breaker 3 and a power distribution device 1 for a distribution board that distributes and connects power from the main circuit breaker 1 to the branch circuit breaker 3 and the circuit breaker 4 for additional output terminals.
- the power distribution device 1 for the distribution board of the present invention includes an upper housing 101, a lower housing 103 installed on the floor, and a connection module installed vertically on the side of the main circuit breaker 2 in the lower housing 103 ( 10), and the output terminal (first end of the connection module) side of the upper housing 101 that is exposed in the new direction, opens upward when the output terminal is connected, and covers the side surface after connection. ) may be included.
- connection module (10) of the power distribution device (1) for distribution board consists of a connection terminal (11), a connection member (12), a coupling member (13), a current fastening member (14), and a ring-shaped nut member. (15) included.
- connection terminal 11 forms a first end 111 at either end side of both ends, and forms a second end 112 at the other end side of both ends.
- a plate-shaped surface having a predetermined width extends in the longitudinal direction, and several rivet holes 114 for coupling are formed on the plate surface between them. can be perforated.
- connection hole 113 is formed on the second end 112 side, but an inclined surface 112a is formed on the upper and lower surfaces, and the end between the inclined surfaces 112a forms a front end surface 112b. .
- the second end portion 112 is a curved portion 112c that is easy to insert into the connection hole 124 and preferably forms a smooth insertion structure.
- connection member 12 includes a first connection member 121 that is covered and coupled from above to form a connection hole 124 through which the second end 112 of the connection terminal 11 is connected and energized, and the connection terminal 11 ) is composed of a second connection member 122 supported and coupled from the bottom to form a connection hole 124 through which connection and conduction are conducted.
- the first and second connecting members 121 and 122 form opposite side edges 121a and 122a, a fastening hole 123, and a coupling hole 125, respectively, and the front and rear ends are open. Steps 124a and 124b may be formed. In the open ends 124a and 124b, the first and second connecting members 121 and 122 have the first end 111 of the connection terminal 11 in the center, and correspond in the upper and lower directions to the coupling hole ( The connection hole 124 may be formed by passing through the 125 and combining the coupling member 13 .
- the depth of the connection hole 124 may form an insertion length of 50% between the first end 111 and the second end 112 so that the second end 112 of the connection terminal 11 is inserted and fastened.
- the energization fastening member 14 penetrates the fastening hole 123 of the connecting member 12 and the fastening hole 113 of the first end 111 of the connection terminal 11 and is installed in the bottom enclosure 103 in a ring shape. It is fixedly installed to the nut member 15.
- the current fastening member 14 includes a stem portion 142 passing through the fastening holes 123 of the first connecting member 121 and the second connecting member 122, and a head hooked and supported by the fastening hole 123. It consists of part 141.
- the ring-shaped nut portion 15 forms a screw hole 151 into which the stem portion 142 of the fastening member 14 is screwed, and its outer edge forms a rectangular edge.
- the ring-shaped nut part 15 is embedded and fixed so that its upper part is exposed in the fastening groove part 103a formed at a predetermined position along the outer edge of the lower housing 103.
- the stem part 142 of the fastening member 14 for energization is connected to the ring-shaped nut part 15 fixed to the fastening groove part 103a, and the fastening hole 123 of the first connecting member 121 and the connecting terminal 11 It passes through the fastening hole 113 and the fastening hole 123 of the second connecting member 122 sequentially, and is fastened and fixed by screw fitting in the screw hole 151 of the ring-shaped nut part 15 of the fastening groove 103a.
- FIG. 9a is an exploded perspective view of the pivoting cover according to an embodiment of the pivoting cover of the power distribution device for distribution board of the present invention
- FIG. Fig. 10a is a side cross-sectional view showing a closed state and an open state of the pivoting cover according to an embodiment of the pivoting cover of the power distribution device for distribution board of the present invention
- Fig. 10b is a pivoting cover of the power distribution device for distribution board of the present invention. It is a side cross-sectional view showing the closed state and the open state of the rotation cover according to the embodiment of the other direction.
- the pivoting cover 30 of the power distribution device 1 for the distribution board according to the present invention is the second power supply for the distribution board to be connected in the state in which the upper housing 101 is opened.
- the connection terminal 11 of the distribution device 1 When the second end 112 of the connection terminal 11 of the distribution device 1 is connected to the connection hole 124 of the first distribution board power distribution device 1, it is opened, and after connection, the connection state is protected. can be closed
- the pivoting cover 30 has a first surface portion 34 extending longitudinally in a plate shape, and a plate-shaped second surface portion connected to the first surface portion 34 in an “A” shape. (35), and consists of a rotating surface portion 31 covering both sides by extending the width of the "a"-shaped cross section on both sides.
- the inside of the first surface portion 34, the second surface portion 35, and the rotational surface portion 31 form an open space that protects the terminals of the upper housing 101.
- Slip recesses 38 on which the rotational surface 31 is seated and slidably rotated may be formed on both inner sides of the base end of the upper housing 101 to cover and open the space.
- a hinge axis groove 37 and an angle fixing groove 39 are formed in the slip recess 38 .
- the slip recess 38 includes an angle fixing groove 39 for fixing the rotational angle of the pivoting cover 30 when the hinge shaft 32 rotates, and a hinge shaft groove 37 for supporting the hinge shaft 32.
- the angle fixing groove 39 may form a first groove 391 and a second groove 392 on both sides of the hinge shaft groove 37 as a center.
- the rotation surface portion 31 slips and rotates along the slip concave portion 38, and the first groove portion 391 and the second groove portion 392 are seated in the first groove portion 391 and the second groove portion 392 to fix the opening and closing state of the rotation cover 30 ) is formed.
- the hinge axis groove 37 is preferably formed in a vertical direction so as to rotate while moving up and down in a vertical section while the rotating surface portion 31 rotates.
- the rotational cover 30 of the power distribution device 1 for the distribution board of the present invention is connected to each other in a state in which the upper housing 101 is opened or only the rotational cover 30 is opened.
- the second end 112 formed at the connection terminal 11 of the second power distribution device 1 for a second distribution board among the two power distribution devices 1 for the first distribution board 1 When connecting to the connection hole 124, it is opened, and after connection, it is closed to protect the connection state.
- the rotational cover 30 of the power distribution device 1 for the distribution board of the present invention is the second end of the connection terminal 11 of the power distribution device 1 for the distribution board in the state in which the rotational cover 30 is opened as shown in FIG. 10B ( 112 are connected to the connection holes 124, and when the connection is completed, the rotation cover 30 is closed as shown in FIG. 10A, and the stop protrusion 33 is seated in the second fixing groove 392.
- the rotational cover of the power distribution device for distribution board of the present invention improves the problems of the conventional protective cover means for protecting the exposed terminals opened at the upper part of the upper housing, and the angle fixing groove (In the first fixing groove 391 and the second fixing groove 392 of 39), the stop protrusion 33 is seated to provide a rotating cover capable of maintaining a fixed angle.
- the connection part safety cover 50 of the power distribution device for distribution board includes a main circuit breaker 2 receiving power from a main circuit breaker and branch circuit breakers 3 distributing the power of the main circuit breaker 2 in different directions. , a circuit breaker for additional output terminals (3), and a power distribution device for distribution board (1) for distributing and connecting the power of the main circuit breaker (1) to the branch circuit breaker (3) and circuit breaker (4) for additional output terminals. .
- the power distribution device 1 for the distribution board of the present invention includes an upper housing 101, a lower housing 103 installed on the floor, and a connection module installed vertically on the side of the main circuit breaker 2 in the lower housing 103 ( 10) and a safety cover 50 that blocks the exposed portion of the output terminal at the newly exposed output terminal (first end of the connection module) side of the upper housing 101.
- connection module 10 may largely include a connection terminal 11, a connection member 12, a coupling member 13, a current fastening member 14, and a ring-shaped nut member 15.
- connection terminal 11 forms a first end 111 at either end side of both ends, and forms a second end 112 at the other end side of both ends.
- a plate-shaped surface having a predetermined width extends in the longitudinal direction, and several rivet holes 114 for coupling are formed on the plate surface between them. can be perforated.
- connection hole 113 is formed on the second end 112 side, but an inclined surface 112a is formed on the upper and lower surfaces, and the end between the inclined surfaces 112a forms a front end surface 112b. .
- the second end portion 112 is a curved portion 112c that is easy to insert into the connection hole 124 and preferably forms a smooth insertion structure.
- connection member 12 includes a first connection member 121 that is covered and coupled from above to form a connection hole 124 through which the second end 112 of the connection terminal 11 is connected and energized, and the connection terminal 11 ) is composed of a second connection member 122 supported and coupled from the bottom to form a connection hole 124 through which connection and conduction are conducted.
- the first and second connecting members 121 and 122 form opposite side edges 121a and 122a, a fastening hole 123, and a coupling hole 125, respectively, and the front and rear ends are open. Steps 124a and 124b may be formed. In the open ends 124a and 124b, the first and second connecting members 121 and 122 have the first end 111 of the connection terminal 11 in the center, and correspond in the upper and lower directions to the coupling hole ( The connection hole 124 may be formed by passing through the 125 and combining the coupling member 13 .
- the depth of the connection hole 124 may form an insertion length of 50% between the first end 111 and the second end 112 so that the second end 112 of the connection terminal 11 is inserted and fastened.
- the energization fastening member 14 penetrates the fastening hole 123 of the connecting member 12 and the fastening hole 113 of the first end 111 of the connection terminal 11 and is installed in the bottom enclosure 103 in a ring shape. It is fixedly installed to the nut member 15.
- the current fastening member 14 includes a stem portion 142 passing through the fastening holes 123 of the first connecting member 121 and the second connecting member 122, and a head hooked and supported by the fastening hole 123. It consists of part 141.
- the ring-shaped nut portion 15 forms a screw hole 151 into which the stem portion 142 of the fastening member 14 is screwed, and its outer edge forms a rectangular edge.
- the ring-shaped nut part 15 is embedded and fixed so that its upper part is exposed in the fastening groove part 103a formed at a predetermined position along the outer edge of the lower housing 103.
- the stem part 142 of the fastening member 14 for energization is connected to the ring-shaped nut part 15 fixed to the fastening groove part 103a, and the fastening hole 123 of the first connecting member 121 and the connecting terminal 11 It passes through the fastening hole 113 and the fastening hole 123 of the second connecting member 122 sequentially, and is fastened and fixed by screw fitting in the screw hole 151 of the ring-shaped nut part 15 of the fastening groove 103a.
- FIG. 11 is an exploded perspective view according to an embodiment of the safety cover for the connection part of the power distribution device for distribution board according to the present invention
- FIG. 12a is an excerpted perspective view of the safety cover for the connection part of the power distribution device for distribution board according to the present invention
- FIG. 12b is It is a side view of the safety cover of the connection part of the power distribution device for the distribution board of the present invention
- FIG. 12c is a bottom perspective view of the safety cover of the connection part of the power distribution device for the distribution board of the present invention, and is a cross-sectional view. A cross-sectional view of the cover installation.
- connection part safety cover of the power distribution device for distribution board includes a housing 1, a connection module 10 and It consists of a safety cover (50).
- the safety cover 50 may again include a front cover part 51, an upper surface cover part 52, and a fastening hole cover part 53.
- the front cover part 51 is formed in a plate shape so as to simultaneously cover several connection holes 124 on the front side.
- the top cover portion 52 is bent at right angles from the front cover portion 51 and protrudes in a fork shape by alternately forming seating holes 54 on the plate surface.
- the seating hole 54 forms a mounting surface 54a to be seated on the mounting jaw 101a of the upper housing 101 .
- the top cover part 52 having alternately formed seating holes 54 is fork-shaped, and the mounting surface 54a is stably placed and inserted in close contact with the mounting jaw 101a on the front side of the upper housing 101. .
- the structure of the safety cover 50 is seated in a form in which the fastening hole cover 53 under the upper surface cover 52 is removed. It would be preferable to implement a structure in which only the hole 53a is formed and the head portion 141 of the fastening member 14 can be closely adhered to.
- the power distribution device 1 for the distribution board of the present invention includes a main breaker 2 receiving power from the main breaker 2, branch breakers 3 that distribute the power of the main breaker 2 in different directions, and additional It may include a circuit breaker 3 for output terminals, and a power distribution device 1 for distribution board for distributing and connecting the power of the main circuit breaker 1 to the branch circuit breaker 3 and the circuit breaker 4 for additional output terminals.
- the power distribution device 1 for the distribution board of the present invention includes an upper housing 101, a lower housing 103 installed on the floor, and a connection module installed vertically on the side of the main circuit breaker 2 in the lower housing 103 ( 10) and the output terminal (first end of the connection module) side of the upper housing 101 that is exposed in the new direction, when the output terminal is connected, it is opened upward, and after connection, the pivot cover 30 that covers the side surface to protect ) may be included.
- connection module (10) of the power distribution device (1) for distribution board consists of a connection terminal (11), a connection member (12), a coupling member (13), a current fastening member (14), and a ring-shaped nut member. (15) may be included.
- connection terminal 11 forms a first end 111 at either end side of both ends, and forms a second end 112 at the other end side of both ends.
- a plate-shaped surface having a predetermined width extends in the longitudinal direction, and several rivet holes 114 for coupling are formed on the plate surface between them. can be perforated.
- connection hole 113 is formed on the second end 112 side, but an inclined surface 112a is formed on the upper and lower surfaces, and the end between the inclined surfaces 112a forms a front end surface 112b. .
- the second end portion 112 is a curved portion 112c that is easy to insert into the connection hole 124 and preferably forms a smooth insertion structure.
- connection member 12 includes a first connection member 121 that is covered and combined from above to form a connection hole 124 through which the second end 112 of the connection terminal 11 is connected and energized, and the connection terminal 11 ) is composed of a second connection member 122 supported and coupled from the bottom to form a connection hole 124 through which connection and conduction are conducted.
- the first and second connecting members 121 and 122 form opposite side edges 121a and 122a, a fastening hole 123, and a coupling hole 125, respectively, and the front and rear ends are open. Steps 124a and 124b may be formed. In the open ends 124a and 124b, the first and second connecting members 121 and 122 have the first end 111 of the connection terminal 11 in the center, and correspond in the upper and lower directions to the coupling hole ( The connection hole 124 may be formed by passing through the 125 and combining the coupling member 13 .
- the depth of the connection hole 124 may form an insertion length of 50% between the first end 111 and the second end 112 so that the second end 112 of the connection terminal 11 is inserted and fastened.
- the energization fastening member 14 penetrates the fastening hole 123 of the connecting member 12 and the fastening hole 113 of the first end 111 of the connection terminal 11 and is installed in the bottom enclosure 103 in a ring shape. It is fixedly installed to the nut member 15.
- the current fastening member 14 includes a stem portion 142 passing through the fastening holes 123 of the first connecting member 121 and the second connecting member 122, and a head hooked and supported by the fastening hole 123. It consists of part 141.
- the ring-shaped nut portion 15 forms a screw hole 151 into which the stem portion 142 of the fastening member 14 is screwed, and its outer edge forms a rectangular edge.
- the ring-shaped nut part 15 is embedded and fixed so that its upper part is exposed in the fastening groove part 103a formed at a predetermined position along the outer edge of the lower housing 103.
- the stem part 142 of the fastening member 14 for energization is connected to the ring-shaped nut part 15 fixed to the fastening groove part 103a, and the fastening hole 123 of the first connecting member 121 and the connecting terminal 11 It passes through the fastening hole 113 and the fastening hole 123 of the second connecting member 122 sequentially, and is fastened and fixed by screw fitting in the screw hole 151 of the ring-shaped nut part 15 of the fastening groove 103a.
- FIG. 13 is a plan view showing a housing alignment connection structure of the power distribution device for a distribution board of the present invention
- FIGS. 14a and 14b are enlarged views of main parts of a connected state showing the housing alignment connection structure of the power distribution device of the present invention, This is an enlarged lumbar view.
- the housing arrangement connection structure of the power distribution device for distribution board according to the present invention can be largely divided into the connection holder part 60, the female connection groove part 61 and the male connection protrusion part 62.
- the male connection protrusions 62 protrude on both sides of the front end of the housing 1, and form the tip 62a sharp at the connecting rod 63 protruding on the front end of the housing 1, and at the same time form a gap ("c ") are placed side by side and flexibly juxtaposed.
- the female connection member 61 is recessed at both sides of the rear end of the housing 1, and is coupled to each other by insertion of the male connection protrusion 62 to align the housings 1 vertically and horizontally.
- connection holder part 60 of the present invention configured as described above can connect several housings 1 in a continuous vertical direction.
- connection holder part 60 of the present invention As shown in FIG. 13, with the implementation of the connection holder part 60 of the present invention, the vertical connection state of the housings 1 is properly aligned.
- connection state of two consecutive housings 1 to the inside of the branch housing 3 and the additional housing 4 is shown as a circular line “A”, and this circular line “A” It is specifically shown in an enlarged FIG. 14B.
- the housing 1 may be pressed and inserted into the female mating connection groove 61 opened downward from the upper side.
- connection holder portion 60 is formed on the side of the housing 1 or the side of the branch housing 3 so that it can be stably connected even during continuous connection for alignment in the side direction that can be formed in various ways.
- description of specific application examples thereof is omitted.
Abstract
Description
Claims (6)
- 분전반용 전원 분배장치에 있어서,상기 분전반용 전원 분배장치의 상부를 보호하는 상부 하우징과,상기 분전반용 전원 분배장치의 하부를 지지,보 호하는 하부 하우징으로 이루어진 하우징;상기 하우징 내부의 공간에서 메인 차단기,분기 차단기의 전원이 통전되도록 접속단자들에 일체로 형성되는 접 속모듈; 및상기 접속모듈에 체결되어 전원을 분배하는 접속단자;를 포함하고,상기 접속모듈은,제1단부와, 제2단부를 형성하고, 이 제1단부와 제2단부사이는 소정 폭을 갖는 판상의 면으로 길이 방향 연장되 고, 그 사이의 판면에는 리벳 결합공들,연결공이 형성된 접속단자;상기 접속단자의 제2단부가 접속,통전되는 접속홀을 형성하도록 상,하방에서 덮여져 결합되는 제1연결부재와, 제2연결부재로 이루어지고, 제1,제2연결부재는 각각 대응하는 양측연부, 접속홀을 형성하는 개방단, 체결홀, 결합홀을 형성하는 연결부재;상기 연결부재의 결합홀과, 상기 접속단자의 리벳 결합홀들을 관통하여 고정시키는 결합부재;상기 접속홀에 상기 접속단자의 제2단부를 삽입하고 이 제2단부의 연결공과 상,하 체결홀들을 관통하여 체결하 는 통전용 체결부재; 및상기 하부 하우징의 체결홈부에 고정되고, 상기 통전용 체결부재가 상기 체결홀들과,상기 연결공을 관통하여 체 결,고정되는 링형 너트부재;를 포함하는 분전반용 전원 분배장치.
- 분전반용 전원 분배장치에 있어서,상기 분배장치의 외부를 커버하는 하우징;상기 하우징 내부의 공간에서 메인 차단기의 전원을 공급받도록 메인 차단기용 부스바 접속단자와 연결되는 접속모듈;접속모듈에 적층 결합되어 메인 차단기의 전원을 분기 차단기 및 추가 출력용 차단기로 분배하는 부스바 접속단자; 및상기 분기용 접속단자들의 서로 다른 단자높이에 따라 결합홈들이 형성되는 높이 조절지지대;를 포함하고,상기 높이 조절지지대는,상기 분기용 접속단자의 제1단자의 높이에 맞도록 제1면을 따라 형성된 제1결합홈과 제1결합돌기; 및상기 분기용 접속단자의 제2단자의 높이에 맞도록 제2면을 따라 형성된 제2결합홈과 제2결합돌기;을 포함하여, 제1단자의 높이에는 제1면의 제1결합홈,제2결합돌기들을 설치하고,제2단자의 높이에서는 제2면의 제2결합홈과 제2결합돌기들이 위치하도록 제1면과 제2면의 위치를 바꾸어 설치하는 것을 특징으로 하는 분전반용 전원 분배장치.
- 분전반용 전원 분배장치에 있어서,상기 분전반용 전원 분배장치의 상부를 보호하는 상부 하우징과,상기 분전반용 전원 분배장치의 하부를 지지,보 호하는 하부 하우징으로 이루어진 하우징;상기 하우징 내부의 공간에서 메인 차단기,분기 차단기의 전원이 통전되도록 접속단자들에 일체로 형성되는 접속모듈;상기 접속모듈에 체결되어 전원을 분배하는 접속단자; 및상기 하우징을 개방한 상태에서 분전반용 전원 분배장치의 접속단자의 제2단부가 다른 분전반용 전원 분배장치의 접속홀에 접속할 때는 회동하여 개방되고, 접속후에는 회동하여 폐쇄되는 회동커버;를 포함하고,상기 회동커버는,길이방향으로 판상 연장되는 제1면부;이 제1면부에서 "ㄱ"형으로 연결된 판상의 제2면부;상기 제1면부와 제2면부의 양측면을 커버하는 "ㄱ"형의 회동면부; 및상기 회동면부의 양측면이 회동가능하게 축고정되는 힌지축;을 포함하고,상기 하우징의 슬립요부에는,힌지축이 회전하도록 설치되는 힌지축홈;상기 회동커버의 개방,닫힘 상태를 고정하도록 멈춤돌기가 위치하는 제1홈부와 제2홈부를 형성하는 각도고정홈부;힌지축홈을 중심으로 상,하 양측에 제1홈부와 제2홈부를 형성하는 각도고정홈부;를 포함하는 분전반용 전원 분배장치.
- 분전반용 전원 분배장치에 있어서,상기 전원 분배장치의 외부를 커버하는 하우징;상기 하우징 내부의 공간에서 메인 차단기의 전원을 공급받도록 메인 차단기용 부스바 접속단자와 연결되는 접속모듈;접속모듈에 적층 결합되어 메인 차단기의 전원을 분기 차단기 및 추가 출력용 차단기로 분배하는 부스바 접속단자; 및상기 하우징의 전면측 접속모듈의 제1단부가 노출되는 재치턱부에 안착되어 접속모듈의 제1단부의 접속홀을 커버하는 안전커버;를 포함하고,상기 안전커버는,전면의 수개 접속홀을 동시에 커버하도록 판상으로 이루어진 전면커버부;상기 전면커버부에서 직각 절곡되고 판면에 안착홀부를 교호로 형성하여 포오크형으로 돌출되는 상면커버부;및상기 상면커버부의 직하방으로 체결부재의 헤드부를 밀착 커버하는 안착홀을 형성한 체결홀 커버부;를 포함하는 분전반용 전원 분배장치.
- 제2항에 있어서,상기 접속모듈은,제1단부와, 제2단부를 형성하고, 이 제1단부와 제2단부사이는 소정 폭을 갖는 판상의 면으로 길이 방향 연장되 고, 그 사이의 판면에는 리벳 결합공들,연결공이 형성된 접속단자;상기 메인 차단기용 접속단자의 제2단부가 접속,통전되는 접속홀을 형성하도록 상,하방에서 덮여져 결합되는 제 1연결부재와, 제2연결부재로 이루어지고, 제1,제2연결부재는 각각 대응하는 양측연부, 접속홀을 형성하는 개방 단, 체결홀, 결합홀을 형성하는 연결부재; 상기 연결부재의 결합홀과, 상기 메인 차단기용 접속단자의 리벳 결합홀들을 관통하여 고정시키는 결합부재; 상기 접속홀에 상기 메인 차단기용 접속단자의 제2단부를 삽입하고 이 제2단부의 연결공과 상,하 체결홀들을 관통하여 체결하는 통전용 체결부재; 및 상기 하부 하우징의 체결홈부에 고정되고, 상기 통전용 체결부재가 상기 체결홀들과,상기 연결공을 관통하여 체 결,고정되는 링형 너트부재;를 포함하는 분전반용 전원 분배장치.
- 제1항 내지 제4항중 어느 한항에 있어서,상기 전원 분배장치의 외부를 커버하는 하우징;상기 하우징 내부의 공간에서 메인 차단기의 전원을 공급받도록 메인 차단기용 부스바 접속단자와 연결되는 접속모듈;접속모듈에 적층 결합되어 메인 차단기의 전원을 분기 차단기 및 추가 출력용 차단기로 분배하는 부스바 접속단자; 및상기 하우징을 서로 연결하기 위하여 하우징의 전,후단에 돌출형성되는 접속홀더부;를 포함하고,상기 접속홀더부는,상기 하우징의 전단부 양측에 돌출 형성되고, 하우징의 전단측에 돌설된 지지대에서 선단부를 뾰족하게 형성함과 동시에 간격("c")을 두고 나란하게 병설된 x탄편으로 이루어진 숫합접속돌부; 및상기 하우징의 후단부 양측에 상방으로 개구되도록 요입 형성되어 상기 숫합접속돌부의 삽착으로 턱부에 걸려져 결합되는 암합접속홈부;을 포함하는 분전반용 전원 분배장치.
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