KR101270556B1 - Switchgear with enclosing structure reinforced by multi-bending - Google Patents

Abstract

PURPOSE: An enclosure structure reinforcement type power distribution board which is formed by a multi-bending mode is provided to increase the rigidity of a frame by including a multi-bent part in an outer frame. CONSTITUTION: An enclosure forms an internal space of a fixed size. An outer frame comprises a vertical frame(111) and a horizontal frame(112). A plate cover covers the outer frame in every direction. A frame support supports the outer frame. An instrument attachment plate(14) installs an adapter in the front side.

Description

Switchgear with Enclosing Structure Reinforced by Multi-Bending}

The present invention relates to an enclosure structure reinforced switchboard shaped by a multi-bending method, and more particularly, to increase the rigidity in the frame using a steel plate by increasing the bending point and shape when making the enclosure frame of the switchboard, The welding of external frame should be carried out with minimum welding, the frame support is installed on the external frame, the square frame and the circular groove are drilled at regular intervals on the external frame and the frame support so that the mounting bracket can be installed on any part. The present invention relates to an enclosure structure reinforcement switchgear shaped by a multiple bending method that allows the plate to be installed at any position.

In general, the switchboard is an electric facility that supplies industrial power to the users safely and is a device used for monitoring, controlling and protecting the electric system when power is sent from a power plant or substation to a customer.

The switchboard includes an enclosure forming an inner space of a predetermined size; It is installed inside the enclosure and consists of a distributor such as a bus bar, a air circuit breaker, a circuit breaker, and a relay, which are installed to distribute, control, and protect various electrical equipment systems.

The enclosure must satisfy the condition that the distributor can be safely stored, resistant to vibrations or external shocks, yet has a low manufacturing cost and looks beautiful inside and outside.

The frame structure for the switchboard disclosed in Korean Patent No. 10-0331890 forms a plurality of fastening holes at predetermined intervals in each frame constituting the skeleton of the switchboard, and covers the fixed end of the door in the frame to which the doors of the switchboard are coupled. And forming a plurality of embossed portions to be inserted into the fastening hole in the contact portion with the frame of the connecting piece for connecting the respective frames to form a shielding piece to connect the respective pieces of the connecting piece to the fastening hole of the frame It is different from the present invention in that the bonding strength is strengthened as the frame and the connecting piece are fastened by the bolt in the state where the embossed portion is inserted.

The electrical box frame, which is published as a utility model 20-0237840 (electric box frame), is bent at right angles to form a main surface, and both edge portions in the longitudinal direction of the main surface are bent several times to form an auxiliary surface. A main member having the plurality of fastening holes provided at equal intervals; The main member is formed in three axes on the joint portion to be coupled to each other in a three-axis direction at right angles to each other to be welded to the two axes and includes a connecting member to be fastened by a bolt with the other axis.

The frame for the switchgear enclosure disclosed in Korean Patent No. 10-1045187 has a length in the vertical direction and is formed in a flat center panel; An inclined panel extending from both sides of the center panel and bent forward; A bending panel that is bent from the inclined panel and extends to the rear of the center panel; And a rear panel extending from the bending panel and connected to the rear of the central panel, wherein the inclined panel includes a first inclined plate bent forward from the center panel and a second bent forward with respect to the first inclined plate Consists of a slope plate,

The bending panel includes a first bending plate bent rearward from an end of the inclined panel and a second bending plate bent at a right angle with respect to the first bending plate, and the second inclination plate, the first bending plate, and the second bending plate. The cross-sectional shape of the bent plate is trapezoidal and consists of one sheet material, but is different from the present invention.

The control cabinet frame disclosed in Korean Patent No. 10-1089092 includes a plurality of hollow frames; In order to connect the frames, first to third joining surfaces are formed in three axis directions perpendicular to each other, and at least one of the first to third joining surfaces has a shape corresponding to the hollow part of the frame and is inserted therein. A corner member having a fitting protrusion formed to be coupled to the other side and a fitting groove having a shape identical to that of the hollow part of the frame; A frame for a control cabinet having a shape corresponding to the hollow part of the frame and having one side inserted and coupled thereto, and the other side inserted into and coupled to the fitting groove of the corner member, wherein the frames are perpendicular to each other on a cross-section thereof. Adhering protrusions for close contact with the panel in a direction meeting each other are formed symmetrically with respect to the virtual central axis, respectively, the first coupling groove and the second coupling groove are formed on both sides of the contact protrusion, respectively, the first coupling groove Is formed by a first bent surface that is inclined at least 90 degrees with respect to the end face of the contact protrusion, and a second bent surface that is horizontal with the end face of the contact protrusion at the end of the first bent surface. It is coupled to wrap tightly, and further comprises a packing formed with first and second coupling protrusions corresponding to the first and second coupling grooves at both ends, but different from the present invention. The.

Stress reinforcement technology of a metal sheet angle or channel by multiple bending, which is published in Korean Patent Publication No. 10-2013-0010155, manufactures an angle or a channel in a single process using a bending mold of a special structure, or divides the stress into two processes by bending it. The present invention relates to a method of manufacturing a reinforced angle or channel, and more particularly, to a bending method, characterized by enabling multiple bending of a thick metal sheet (thick metal sheet).

The non-welded prefabricated distribution panel, which is published in the Utility Model No. 20-0464077, includes a bottom panel, a vertical panel formed at a predetermined height on the side of the bottom panel, a horizontal panel connected vertically to the vertical panel, and one of the vertical panels. A first bent frame extending at a side, a second bent frame extending at one side of the horizontal panel and connected at a corner with the first bent frame, and the first bent frame and a second bent frame A corner fastening portion into which a part of the portion is partially inserted, a bent support frame for preventing movement of the corner fastening portion, a plurality of plate nuts formed at regular intervals through the rear surface of the bottom panel, and the plate nuts And a mounting plate fixing bolt having a screw line on the surface thereof and protruding to a predetermined height, and having a screw line in one direction on one surface thereof, and one surface of the plate nut being fastened. Group on the other side a first bending-type frame and a second frame-shaped bending, but comprises a cable support which is fixed is different from the present invention.

The present invention for solving the above problems is composed of an enclosure and a distributor forming an internal space of a predetermined size, the enclosure forms an external shape of the rectangular parallelepiped shape; A plate cover covering the outer frame in all directions, including a door attached to the front and rear surfaces of the outer frame; A frame support installed between the outer frames to support the outer frames; It is coupled to the left and right or top and bottom of the frame support is composed of a device mounting plate that the distributor is mounted directly or the adapter is installed in the front, the outer frame is a vertical frame formed vertically, horizontal frame formed horizontally on the top and bottom The vertical frame and the horizontal frame has a structure having multiple bends in order to increase the rigidity of the frame, the horizontal frame and the vertical frame is joined by welding, in the rectangular space formed by the horizontal frame and the vertical frame meet In order to reinforce the coupling of the horizontal frame and the vertical frame, a weldable iron material is inserted into the hexahedron insert, and the upper and lower ends of the insert are welded to the horizontal frame and the vertical frame, and the center of the insert The lower plate cover or base frame of the enclosure; The present invention provides an enclosure structure reinforced switchgear shaped by a multiple bending method that is a structure in which a coupling hole for coupling is formed.

The enclosure structure reinforcement switchboard shaped by the multi-bending method of the present invention comprises: an enclosure forming an internal space of a predetermined size; It is installed inside the enclosure and consists of a distributor such as a bus bar, a air circuit breaker, a circuit breaker, and a relay, which are installed to distribute, control, and protect various electrical equipment systems.

The enclosure forms an outer shape and an outer frame having a rectangular parallelepiped shape; A plate cover covering the outer frame in all directions, including a door attached to the front and rear surfaces of the outer frame; A frame support installed between the outer frames to support the outer frames; Is coupled to the left and right or top and bottom of the frame support is composed of a device mounting plate that the distributor is mounted directly or the adapter is installed on the front.

The outer frame is composed of a vertical frame formed vertically, and a horizontal frame formed horizontally on the upper and lower, the vertical frame and the horizontal frame has a structure having multiple bends in order to increase the rigidity of the frame, and vertical to the horizontal frame The frame is joined by welding.

In the longitudinal direction of the vertical frame, a square groove and a circular groove are alternately formed on the inner four sides so that the frame support can be coupled to any position, and the vertical frame increases the frame rigidity and the square on the inner four sides. It has 16 multiple bends so that grooves and circular grooves can be formed.

Specifically, the vertical frame is produced by bending the plate in a symmetrical type when viewed in cross section, and after bending, both ends of the plate are formed at the center line of symmetry, and end joining portions formed by welding are formed. 1-1 135 ° bend, 1-2-2 90 ° bend, 1-3 90 ° bend, 1-4 90 A total of 16 bends are formed, including a bend, 1-5 90 ° bend, 1-6 90 ° bend, 1-7 90 ° bend, and 1-8 45 ° bend. The position of the frame support on the longitudinal surface between the 1-2 90 ° bend and 1-3 90 ° bend and between the 1-3 90 ° bend and 1-4 90 ° bend Square grooves and circular grooves are alternately formed on the inner side 4 so that they can be combined.

In detail, in the longitudinal direction of the horizontal frame, a square groove and a circular groove are alternately formed on two inner sides so that the frame support can be coupled to any position, and the horizontal frame increases the frame rigidity and the inner side 2. It has a structure having nine bent portions so that the square groove and the circular groove can be formed on the surface.

The horizontal frame is manufactured by bending a flat plate, one end of the flat plate is welded to an edge of the other end, and the horizontal frame has a 2-1 80 ° bend at a specific interval at one end of the flat plate, respectively. , 2-2 90 ° bend, 2-3-3 ° bend, 2-4 90 ° bend, 2-5 90 ° bend, 2-6 90 ° bend, 2-7 A total of nine bends are formed by a 90 ° bend, a 2-8 100 ° bend, and a 2-9 180 ° bend, and each of the 2-4 90 ° bends and the 2-5 90 ° Between the bends and between the 2-5 90 ° bends and the 2-6 90 ° bends, the square and round grooves are alternately arranged on the inner two sides so that the frame support can be engaged at any position. It is a structure to be formed.

In the rectangular space where the horizontal frame and the vertical frame are formed to meet, a weldable iron material is inserted into the rectangular space to reinforce the coupling of the horizontal frame and the vertical frame, and the upper and lower ends of the insert are inserted into the horizontal frame. And is welded to the vertical frame, the center of the insert is a structure in which a coupling hole for coupling with the lower plate cover or the base frame of the enclosure is formed.

The problem to be solved of the present invention can be solved by the enclosure structure reinforcement switchgear formed by the above-described multiple bending method.

According to the enclosure structure reinforcement switchgear shaped by the multi-bending method of the present invention, the rigidity of the frame is increased by placing multiple bent portions on the outer frame, and the mounting of the device by placing the square groove and the circular groove perforated on the outer frame and the frame support. There is no need for additional processing, and the labor cost of assembly is low, and the mounting bracket is installed on the frame support, so that the mounting plate of the machine can be installed easily and robustly, thereby reducing the installation cost and improving the strength of the enclosure. It is not exposed to the outside and the welded part of the horizontal frame and the vertical frame is not visible, so the beauty of the interior and exterior of the distribution box is also beautiful.

1 is a front view of the overall appearance according to the enclosure structure reinforced switchboard shaped by the multiple bending method of the present invention
Figure 2 is an overall internal side view according to the enclosure structure reinforced switchboard shaped by the multiple bending method of the present invention
Figure 3 is a perspective view of the enclosure according to the enclosure structure reinforced switchboard shaped by the multiple bending method of the present invention
Figure 4 is a perspective view of the outer frame according to the enclosure structure reinforced switchgear shaped by the multiple bending method of the present invention
Figure 5 is a perspective view of the frame support coupled to the outer frame according to the enclosure structure reinforced switchgear shaped by the multiple bending method of the present invention
Figure 6 is a perspective view of installing the frame support and the mounting plate on the outer frame of the enclosure according to the enclosure structure reinforced switchboard shaped by the multi-bending method of the present invention
Figure 7 is an exploded and combined perspective view of the vertical frame and horizontal frame coupling portion according to the enclosure structure reinforced switchboard shaped by the multi-bending method of the present invention
8 is a vertical frame and horizontal frame coupling description and flow chart according to the enclosure structure reinforced switchboard shaped by the multi-bending method of the present invention
Figure 9 is a vertical frame perspective view according to the enclosure structure reinforced switchgear shaped by the multiple bending method of the present invention
10 is a cross-sectional view of the vertical frame according to the enclosure structure reinforced switchboard shaped by the multiple bending method of the present invention
11 is a perspective view of a horizontal frame according to an enclosure structure reinforced switchboard shaped by a multiple bending method of the present invention
12 is a horizontal frame cross-sectional view according to the enclosure structure reinforced switchboard shaped by the multiple bending method of the present invention
Figure 13 is a perspective view of the insert according to the enclosure structure reinforced switchboard shaped by the multiple bending method of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In addition, the terms to be described later are defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or the operator, and the definition is defined by the "multiple bending method according to the present invention." It should be made based on the contents throughout the present specification that describes the "type switchboard".

Hereinafter, a preferred embodiment of the "enclosure structure reinforced switchboard shaped by a multiple bending method" according to the present invention will be described in detail.

The following examples are merely illustrative of the present invention and are not intended to limit the scope of the present invention.

1 is an overall external front view of an enclosure structure reinforced switchgear shaped by a multiple bending method of the present invention, and FIG. 2 is an entire inner side view of an enclosure structure reinforced switchgear shaped by a multiple bending method of the present invention. Figure 3 is a perspective view of the enclosure according to the enclosure structure reinforced switchgear shaped by the multiple bending method of the present invention, Figure 4 is an outer frame perspective view of the enclosure structure reinforced switchgear shaped by the multiple bending method of the present invention, Figure 5 is a perspective view of the frame support coupled to the outer frame according to the enclosure structure reinforced switchgear shaped by the multi-bending method of the present invention, Figure 6 is a perspective view of the enclosure according to the enclosure structure reinforced switchgear shaped by the multiple bending method of the present invention Figure 7 is a perspective view of the installation frame mounting frame and the device mounting plate to the outer frame, Figure 8 is a perspective view of disassembling and combining the vertical frame and the horizontal frame joints according to the enclosure structure reinforced switchgear shaped, Figure 8 is a description of the vertical frame and horizontal frame coupling according to the enclosure structure reinforced switchgear shaped by the multiple bending method of the present invention And a flow chart, FIG. 9 is a perspective view of a vertical frame according to an enclosure structure reinforced switchgear shaped by a multi-bending manner of the present invention, and FIG. 10 is a vertical view of an enclosure structure reinforced switchgear shaped by a multi-bending manner of the present invention. 11 is a horizontal cross-sectional view of an enclosure structure reinforced switchgear shaped by a multi-bending method of the present invention, and FIG. 12 is a horizontal frame perspective view of an enclosure structure reinforced switchgear shaped by a multi-bending method of the present invention. Frame sectional drawing, Figure 13 is an enclosure structure shaped by the multiple bending method of the present invention It is a perspective view of the insert according to the ganghyeong switchboard.

As shown in FIGS. 1 and 2, the enclosure structure reinforced switchboard shaped by the multi-bending method of the present invention comprises: an enclosure (1) forming an internal space of a predetermined size;

Distribution of the bus bar 21, the air circuit breaker 22, the wiring breaker 23, the relay 24, and the like, which are installed inside the enclosure 1 and are installed to distribute, control, and protect the electric system. It consists of the device (2).

The enclosure 1 has an outer shape and an outer frame 11 having a rectangular parallelepiped shape; A plate cover 12 covering the outer frame 11 in all directions, including a door 121 attached to the front and rear surfaces of the outer frame 11; A frame support (13) installed between the outer frame (11) to support the outer frame (11); Is coupled to the left and right or up and down of the frame support 13 is composed of a device mounting plate 14, the distributor 2 is mounted directly or the adapter 141 is installed on the front.

The outer frame 11 is composed of a vertical frame 111 formed vertically, and a horizontal frame 112 formed horizontally on the top and bottom, the vertical frame 111 and the horizontal frame 112 is the rigidity of the frame In order to increase the structure having a plurality of bends (1111, 1121), the vertical frame 111 and the horizontal frame 112 is joined by welding.

In the rectangular space 114 formed by the vertical frame 111 and the horizontal frame 112 meet each other, a weldable iron material and hexahedral inserts are formed to reinforce the coupling of the vertical frame 111 and the horizontal frame 112. 113 is inserted, and the upper and lower ends of the insert 113 are welded to the vertical frame 111 and the horizontal frame 112.

The frame support 13 has a structure in which a mounting bracket 131 is installed to couple and support the device mounting plate 14.

In the longitudinal direction of the vertical frame 111, the square groove 1112 and the circular groove 1113 are alternately formed on the four surfaces so that the frame support 13 can be coupled to any position.

The vertical frame 111 preferably has 16 multiple bent portions 1111 to increase the frame rigidity and to form the square grooves 1112 and the circular grooves 1113 on four inner sides.

In the longitudinal direction of the horizontal frame 112, the square groove 1122 and the circular groove 1123 are alternately formed on two inner surfaces so that the frame support 13 can be coupled to any position.

The horizontal frame 112 preferably has nine multiple bent portions 1121 to increase the frame rigidity and to form the square grooves 1122 and the circular grooves 1123 on two inner surfaces.

In the center of the insert 113 is a structure in which a coupling hole 1131 for coupling with the lower plate cover 122 or the base frame of the enclosure (1) is formed.

In the outer frame 11, 16 bents are arranged in the vertical frame 111 and nine bent parts are arranged in the horizontal frame 112, thereby increasing the rigidity of the outer frame 11, Square grooves 1112, 1122, and 132 and circular grooves 1113, 1123, and 133 formed in the frame 111, the horizontal frame 112, and the frame support 13 are formed to form the vertical frame 111 and the horizontal frame. The frame support 13 can be easily installed at any position on the 112, and the mounting bracket 131 can be installed at any position on the frame support 13, and the device is mounted on the mounting bracket 131. Since the mounting plate 14 can be easily and robustly installed, the installation cost can be reduced, the strength of the enclosure 1 can be improved, and the horizontal frame 112 and the vertical frame (not exposed to the outside of the bolt) The welded portion of 111 is also invisible, so the inside and outside of the distribution box A Beauty is also a magnificent advantage.

As shown in FIG. 2, the enclosure 1 forms an internal space having a predetermined size and is installed for the bus bar 21, the air circuit breaker 22, and the wiring, which are installed to distribute, control, and protect various electrical equipment systems. Distributors 2 such as a breaker 23 and a relay 24 are provided inside.

The enclosure 1 has an outer shape and an outer frame 11 having a rectangular parallelepiped shape; A plate cover 12 covering the outer frame 11 in all directions, including a door 121 attached to the front and rear surfaces of the outer frame 11; A frame support (13) installed between the outer frame (11) to support the outer frame (11); Is coupled to the left and right or up and down of the frame support 13 is composed of a device mounting plate 14, the distributor 2 is mounted directly or the adapter 141 is installed on the front, Figure 3 is the outer frame 11 The plate cover 12 covering the outer frame 11 in all directions, including the door 121 attached to the front and rear of the) is omitted.

As illustrated in FIGS. 4 and 5, the outer frame 11 includes a vertical frame 111 formed vertically, and a horizontal frame 112 formed horizontally on an upper portion and a lower portion, and the frame support 13. Is installed between the outer frame 11 to support the outer frame 11 and the device mounting plate 14 is coupled to the left and right or up and down.

The vertical frame 111 and the horizontal frame 112 has a structure having multiple bends (1111, 1121) in order to increase the rigidity of the frame, the vertical frame 111 and the horizontal frame 112 is joined by welding. .

In the rectangular space 114 formed by the vertical frame 111 and the horizontal frame 112 meet each other, a weldable iron material and hexahedral inserts are formed to reinforce the coupling of the vertical frame 111 and the horizontal frame 112. 113 is inserted, and the upper and lower ends of the insert 113 are welded to the vertical frame 111 and the horizontal frame 112.

As illustrated in FIG. 6, the outer frame 11 includes a vertical frame 111 formed vertically, and a horizontal frame 112 formed horizontally on the upper and lower portions thereof, and the frame support 13 is the outer frame. Mounting brackets 131 are installed between the frames 11 to support the outer frame 11 and to couple and support the device mounting plate 14.

In the device mounting plate 14, a plurality of device coupling holes 145 and four bolt coupling holes 144 coupled with the mounting bracket 131 are directly mounted or the adapter 141 is installed at the front. Is formed.

The mounting bracket 131 is coupled to the four bolt coupling holes 144 and the bolt 142 and the nut 143 formed on the device mounting plate 14 only when the mounting bracket 131 is installed in a set consisting of four pieces.

7-1 is an exploded view of the vertical frame and horizontal frame coupling portion and Figure 7-2 is an assembly view of the vertical frame and horizontal frame coupling portion, as shown in Figure 7 the vertical frame 111 and horizontal frame 112 Is a structure having multiple bends 1111 and 1121 to increase rigidity of the frame, and the vertical frame 111 and the horizontal frame 112 are joined by welding.

In the rectangular space 114 formed by the vertical frame 111 and the horizontal frame 112 meet each other, a weldable iron material and hexahedral inserts are formed to reinforce the coupling of the vertical frame 111 and the horizontal frame 112. 113 is inserted, the upper and lower ends of the insert 113 is a structure welded to the vertical frame 111 and the horizontal frame 112, the vertical frame 111 and the horizontal frame 112 Contact lines are also joined by welding.

In the center of the insert 113 is a structure in which a coupling hole 1131 for coupling with the lower plate cover 122 or the base frame of the enclosure (1) is formed.

As illustrated in FIG. 8, the outer frame 11 is composed of the combination of the vertical frame 111 and the horizontal frame 112. The joining method and the order are first contacted with the horizontal frame 112 at a right angle. The vertical frame 111 is erected on the triangle formed by contact, and the insert 113 is inserted into the rectangular space 114 formed by erecting the vertical frame 111 on the horizontal frame 112 and then the vertical frame ( 111 and the horizontal line 112 and the contact 13 in contact with the contact 13 is welded up and down to combine.

9 and 10, the vertical frame 111 is manufactured by bending a plate in a symmetrical type when viewed in cross section, and after bending, both ends of the plate meet at a symmetric center line 11119 and are welded. End bonding portion 1114 is formed to be bonded to.

The vertical frame 111 alternates the square grooves 1112 and the circular grooves 1113 on the inner side 4 so that the frame support 13 can be coupled to any position in the longitudinal direction of the vertical frame 111. Is formed.

The vertical frame 111 has 16 multiple bent portions 1111 to increase frame rigidity and to form the square grooves 1112 and the circular grooves 1113 on four surfaces.

As shown in the cross-sectional view of FIG. 10, the multiple bent portions 1111 are the first to the first 135 degrees bent portions 11111 and the first to the left and right sides at the ends of the center line 11119, respectively, at the same distance. 2 90 ° bend 11111, 1-3 90 ° bend 11113, 1-4 90 ° bend 11114, 1-5 90 ° bend 11115, 1-6 90 The bend part 11116, the 1-7th 90 degree bend part 11117, and the 1-8 45 degree bend part 11118 are equipped with 16 points in total.

Between each of the first and second 90 ° bends 11112 and the first and second 90 ° bends 11113, and the first and third 90 ° bends 11113 and the first and fourth 90 ° bends 11114 In the longitudinal direction between the) is formed square grooves 1112 and circular grooves 1113 alternately on the four sides so that the frame support 13 can be coupled to any position.

The first-third 90 ° bend 11113 and the first-fourth 90 ° bend 11114 are weld lines that are portions of the red line of FIG. 7-2 when the horizontal frame 112 and the insert 113 are coupled to each other. It is bent without the radius of curvature in order to lengthen the length and to strengthen the weld strength. If there is a radius of curvature, there is a small portion of the direct contact with the horizontal frame 112 and the insert 113 is joined.

The first-first 135 ° bend 11111, the first-second 90 ° bend 11111, the first-five 90 ° bend 11115, the first sixth 90 ° bend 11116, 1-7 90 ° bend 11117 and 1-8 45 ° bend 11118 are bent with a certain radius of curvature for the convenience and strength of bending, and the radius of curvature R is each bent. Can change according to wealth

11 and 12, the horizontal frame 112 is manufactured by bending a flat plate, and one end of the flat plate is joined by welding 1124 to the edge of the other end.

In the longitudinal direction of the horizontal frame 112, the square groove 1122 and the circular groove 1123 are alternately formed on two surfaces so that the frame support 13 can be coupled to any position.

The horizontal frame 112 has a structure having nine multiple bent portions 1121 to increase the frame rigidity and to form the square groove 1122 and the circular groove 1123 on two surfaces.

As shown in the cross-sectional view of FIG. 12, the multiple bent portions 1121 may be formed at second end portions of the flat plate 2-1 at 80 ° bends 11211, 2-2 at 90 ° bends 11212, and at second ends. 2-3 90 ° bends 11213, 2-4 90 ° bends 1214, 2-5 90 ° bends 1215, 2-6 90 ° bends 1162 1, 2- A total of nine places are provided with a 7-90 ° bend 11217, a 2-8 100 ° bend 11112, and a 2-9 180 ° bend 111219.

Between each of the 2-4 90 ° bends 1214 and the 2-5 90 ° bends 1215 and the 2-5 90 ° bends 1115 and the 2-6 90 ° bends 1162 In the longitudinal direction between the) is a structure in which the square groove 1122 and the circular groove 1123 are alternately formed on two surfaces so that the frame support 13 can be coupled to any position.

The 2-4 90 ° bend 1112, the 2-5 90 ° bend 1112 and the 2-6 90 ° bend 1112 are combined with the vertical frame 111 and the insert 113. In order to lengthen the length of the welding line, which is the red line portion of FIG. 7-2, and to increase the welding strength, the welding line is bent without a radius of curvature. If there is a radius of curvature, there is a small portion of the direct contact with the vertical frame 111 and the insert 113 is joined.

The 2-1 80 ° bend 11211, the 2-2 90 ° bend 1112, the 2-3 90 ° bend 1112, the 2-7 90 ° bend 111217, the second The 2-8 100 ° bend 1112 and the 2-9 180 ° bend 111219 are bent with a certain radius of curvature R1 for convenience and strength of bending, and the radius of curvature R1 is It can vary according to each bend.

As shown in FIG. 13, the insert 113 is installed in the rectangular space 114 shown in 2 of FIG. 8 formed by the vertical frame 111 and the horizontal frame 112 meeting each other, and the vertical frame ( 111) serves to reinforce the coupling of the horizontal frame 112, the weldable iron material is a hexahedral shape.

In the center of the insert 113 is a structure in which a coupling hole 1131 for coupling with the lower plate cover 122 or the base frame of the enclosure (1) is formed.

The weld line 1132 and the horizontal frame 112 are welded to the horizontal frame at the end of the insert 113, upper and lower ends, and the weld line 1133 and the vertical frame 111 to the vertical frame are welded.

According to the enclosure structure reinforcement switchgear shaped by the multi-bending method of the present invention, the rigidity of the frame is increased by placing multiple bent portions on the outer frame, and the mounting of the device by placing the square groove and the circular groove perforated on the outer frame and the frame support. There is no need for additional processing, and the labor cost of assembly is low, and the mounting bracket is installed on the frame support, so that the mounting plate of the machine can be installed easily and robustly, thereby reducing the installation cost and improving the strength of the enclosure. It is not exposed to the outside and the welded part of the horizontal frame and the vertical frame is not visible, so the beauty of the interior and exterior of the distribution box is also beautiful.

A: switchboard
1: enclosure 11: external frame
111: vertical frame 1111: multiple bends
11111: 1-1 135 ° bend 11112: 1-2-2 90 ° bend
11113: 1-3 90 ° bend 11114: 1-4 90 ° bend
11115: 1-5 90 ° bend 11116: 1-6 90 ° bend
11117: 1-7 90 ° bend 11118: 1-8 45 ° bend
R: radius of curvature 1112: square groove
1113: circular groove 1114: terminal coupling portion
112: horizontal frame 1121: multiple bends
11211: 2-1 80 ° bend 11212: 2-2 90 ° bend
11213: 2-3 90 ° bend 11214: 2-4 90 ° bend
11215: 2-5 90 ° bend 11216: 2-6 90 ° bend
11217: 2-7 90 ° bend 11218: 2-8 90 ° bend
11219: 2-9 180 ° bend 1122: square groove
1123: circular groove 1124: welding
113: insert 1131: coupling hole
1132: weld line with the horizontal frame 1133: weld line with the vertical frame
114: square space 12: plate cover
121: door 122: lower plate cover
13: frame support 131: mounting bracket
132: square groove 133: circular groove
14: device mounting plate 141: adapter
142: bolt 143: nut
145: appliance coupling unit 15: wire support
2: distributor 21: busbar
211: insulation bus bar lower support 2111: bolt
2112: nut 212: upper insulation bar support
2121: bolt 213: insulator
22: air circuit breaker 23: wiring breaker
231: coupling bolt 24: relay

Claims (4)

An enclosure 1 forming an interior space of a predetermined size;
In the switchboard (A), which is installed inside the enclosure (1), consisting of a booth bar (21) and a distributor (2), which are installed to distribute, control and protect with various electrical system.
The enclosure 1 has an outer shape and an outer frame 11 having a rectangular parallelepiped shape;
A plate cover 12 covering the outer frame 11 in all directions, including a door 121 attached to the front and rear surfaces of the outer frame 11;
A frame support (13) installed between the outer frame (11) to support the outer frame (11);
Is coupled to the left and right or up and down of the frame support 13 is composed of a device mounting plate 14, the distributor 2 is mounted directly or the adapter 141 is installed on the front,
The outer frame 11 is composed of a vertical frame 111 formed vertically, and a horizontal frame 112 formed horizontally on the upper and lower,
The vertical frame 111 and the horizontal frame 112 has a structure having multiple bends (1111, 1121) in order to increase the rigidity of the frame,
The vertical frame 111 and the horizontal frame 112 are joined by welding,
The rectangular space 114 formed by the vertical frame 111 and the horizontal frame 112 meet and is a weldable iron material to reinforce the coupling of the vertical frame 111 and the horizontal frame 112, the insert of the hexagonal shape (113) is inserted,
The upper and lower ends of the insert 113 is a structure that is welded to the vertical frame 111 and the horizontal frame 112,
The frame support 13 is an enclosure structure reinforcement switchgear shaped by a multiple bending method, in which a mounting bracket 131 is installed to couple and support the device mounting plate 14.
The method of claim 1,
In the longitudinal direction of the vertical frame 111, the square groove 1112 and the circular groove 1113 are alternately formed on the four surfaces so that the frame support 13 can be coupled to any position,
The vertical frame 111 has 16 multiple bent portions 1111 to increase the rigidity of the frame and to form the square grooves 1112 and the circular grooves 1113 on four inner sides thereof.
In the longitudinal direction of the horizontal frame 112, a square groove 1122 and a circular groove 1123 are alternately formed on two inner sides so that the frame support 13 can be coupled to any position.
The horizontal frame 112 has a structure having nine multiple bent portions 1121 to increase the frame rigidity and to form the square groove 1122 and the circular groove 1123 on two surfaces,
Enclosure shaped by the multiple bending method characterized in that the center of the insert 113 is a structure in which a coupling hole 1131 for coupling with the lower plate cover 122 or the base frame of the enclosure (1) is formed Structural Reinforced Switchgear
The method of claim 1,
The vertical frame 111 is produced by bending the plate in a symmetrical type when viewed in cross section, and after bending, both ends of the plate are formed at the center line 11119 of symmetry, and an end coupling part 1114 is joined by welding. ,
In the vertical frame 111, the first-first 135 degrees bent portion 11111 and the first-second 90 degrees bent portion 11112 at specific distances from both ends to the left and right sides, respectively, with respect to the center line 11119. ), The first 1-3 90 ° bent portion (11113), the first-4 90 ° bent portion (11114), the first-5 90 ° bent portion (11115), the first-6 90 ° bent portion (11116), A total of 16 multiple bends 1111 are formed by including the 1-7 90 ° bends 11117 and the 1-8 45 ° bends 11118.
Between each of the first and second 90 ° bends 11112 and the first and second 90 ° bends 11113, and the first and third 90 ° bends 11113 and the first and fourth 90 ° bends 11114 In the longitudinal surface between the square groove 1112 and the circular groove 1113 are alternately formed on the inner side 4 so that the frame support 13 can be coupled to any position,
The horizontal frame 112 is produced by bending the plate, one end of the plate is welded to the edge of the other end,
The horizontal frame 112 has a 2-1 80 ° bend 11211, a 2-2 90 ° bend 1112, and a second 90 ° bend at a specific distance from one end of the flat plate, respectively. (11213), 2-4 90 ° bend 1112, 2-5 90 ° bend 1112, 2-6 90 ° bend 1112, 2-7 90 ° bend 111217 ), The 2-8 100 ° bent portion (11218), the 2-9 180 ° bent portion (11219) is provided with a total of nine multiple bent portions (1121),
Between each of the 2-4 90 ° bends 1214 and the 2-5 90 ° bends 1215 and the 2-5 90 ° bends 1115 and the 2-6 90 ° bends 1162 In the longitudinal direction between the) is a structure in which the square groove 1122 and the circular groove 1123 are alternately formed on the inner side 2 surface so that the frame support 13 can be coupled to any position,
Enclosure shaped by the multiple bending method characterized in that the center of the insert 113 is a structure in which a coupling hole 1131 for coupling with the lower plate cover 122 or the base frame of the enclosure (1) is formed Structural Reinforced Switchgear
The method of claim 3, wherein
The 1-3 90 ° bend 11113 and the 1-4 90 ° bend 11114 are bent by lengthening the length of the welding line when the horizontal frame 112 and the insert 113 are coupled to each other.
The first-first 135 ° bend 11111, the first-second 90 ° bend 11111, the first-five 90 ° bend 11115, the first sixth 90 ° bend 11116, 1-7 90 ° bend 11117 and 1-8 45 ° bend 11118 are bent with a certain radius of curvature for convenience and strength of bending,
The 2-4 90 ° bend 1112, the 2-5 90 ° bend 1112 and the 2-6 90 ° bend 1112 are combined with the vertical frame 111 and the insert 113. Bending the length of the welding line,
The 2-1 80 ° bend 11211, the 2-2 90 ° bend 1112, the 2-3 90 ° bend 1112, the 2-7 90 ° bend 111217, the second The 2-8 100 ° bend 1112 and the 2-9 180 ° bend 111219 are structured to have a radius of curvature of a certain size for convenience and strength of bending. Shaped enclosure structure reinforcement switchboard

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