CN219046373U - Combined installation type integrated low-voltage power distribution cabinet - Google Patents

Abstract

The utility model discloses a combined installation type integrated low-voltage power distribution cabinet, and relates to the technical field of power equipment. The utility model comprises a top component, a bottom component and a separation component, wherein the bottom component is connected under the top component, the rear part of the lower side of the top component is connected with a rear component, and the front side of the rear component is connected with the separation component at equal intervals. According to the utility model, the number of locking components is reduced by arranging the top component and the bottom component, so that the working steps of assembling the low-voltage power distribution cabinet by a user are simplified, the workload of assembling the low-voltage power distribution cabinet by the user is reduced, and the separation component is arranged, so that the user can conveniently adjust the distance between adjacent separation plates, and the separation plates can be conveniently disassembled and assembled by the user, so that the damaged separation plates can be conveniently replaced by the user.

Description

Combined installation type integrated low-voltage power distribution cabinet

Technical Field

The utility model belongs to the technical field of power equipment, and particularly relates to a combined installation type integrated low-voltage power distribution cabinet.

Background

With the increase of the number of electrical appliances used by people, the amount of household electricity required to be used is increased, and power equipment such as: the transformer, the high-voltage power distribution cabinet, the low-voltage power distribution cabinet and the like, the rated current of the low-voltage power distribution cabinet is fifty hertz alternating current, and a power distribution system with rated voltage of three hundred eighty volts is used as power for electric energy conversion and control of illumination and power distribution.

Through retrieving, disclose a disjunctor formula low-voltage distribution cabinet with combination mounting structure in patent publication number CN210092627U, including first installation piece, the internally connected of first installation piece has the bottom plate, the internally connected of second installation piece has first side panel, the inboard of first side panel is provided with the mounting rail, the internally connected of locating hole has the dead lever, the rear side of first side panel is fixed with the rear panel, the top of first side panel is provided with first top panel, and the right side of first top panel is provided with the second top panel, the upper surface of second top panel is fixed with the guiding axle, the top of second top panel is fixed with the splice, the inside threaded connection of connecting piece has the second latch segment, the top of connecting piece is connected with rain-proof baffle. This disjunctor formula low-voltage distribution cabinet with integrated mounting structure has integrated mounting structure, and can effectual adjustment storage area, is convenient for play the waterproof function of pressure release moreover.

However, the following drawbacks still exist in practical use:

1. after the integrated low-voltage power distribution cabinet with the combined installation structure disclosed in the patent document with the patent publication number of CN210092627U is assembled, a plurality of first locking blocks and second locking blocks are needed to be locked and connected, so that the working steps of a user when the integrated low-voltage power distribution cabinet with the combined installation structure disclosed in the patent document with the patent publication number of CN210092627U is increased, and the workload of the user during assembly is increased;

2. the utility model discloses a disjunctor formula low-voltage distribution cabinet with combination mounting structure in patent publication number CN210092627U is through the installation rail, the locating hole that set up, dead lever and connecting block adjustment cut apart the distance between the panel, but the existence of installation rail and connecting block has limited the user and has dismantled and assembled and cut apart the panel, and then is inconvenient for the user to change impaired panel of cutting apart.

Therefore, an integrated low-voltage power distribution cabinet with a combined installation structure disclosed in patent publication No. CN210092627U cannot meet the needs in practical use, so there is an urgent need for an improved technology in the market to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide a combined installation type integrated low-voltage power distribution cabinet, which solves the problems that the workload during assembly is increased and the split panel is inconvenient to assemble and disassemble due to the arrangement of a top component, a bottom component and a separation component in the integrated low-voltage power distribution cabinet with a combined installation structure disclosed in patent document with a patent publication number of CN 210092627U.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a combined installation type integrated low-voltage power distribution cabinet which comprises a top component, a bottom component and a separation component, wherein the bottom component is connected under the top component, the rear part of the lower side of the top component is connected with a rear component, and the front side of the rear component is connected with the separation component at equal intervals.

Further, the bottom assembly includes a bottom plate and a lower U-shaped groove; the upper side of the bottom plate is provided with a lower U-shaped groove.

Further, the top assembly includes a top plate and an externally threaded post; the roof is located the bottom plate directly over, and U-shaped recess position corresponds with lower U-shaped recess position on the roof downside, and four corners of roof downside all are connected with the external screw thread post, and four external screw thread post downside run through bottom plate four corners respectively, and external screw thread post periphery downside threaded connection has the nut.

Further, the rear assembly includes a third insert and a rear plate; the back plate is connected with third inserting blocks in an up-down symmetrical mode, the two third inserting blocks are respectively inserted into the rear side of the upper U-shaped groove and the rear side of the lower U-shaped groove, and insertion holes are formed in the front side of the back plate in a rectangular array.

Further, one side of the upper part of the bottom component is connected with a left component, and the left component comprises a first inserting block and a left plate; the left plate is connected with first inserting blocks in an up-down symmetrical mode, the two first inserting blocks are respectively connected with one side of the upper U-shaped groove and one side of the lower U-shaped groove in an inserting mode, ventilation windows are connected in the middle of the outer side of the left plate, and limiting holes are formed in the front portion of the inner side of the left plate at equal intervals.

Further, the other side of the upper part of the bottom component is connected with a right component, and the right component comprises a second insertion block and a right plate; the right plate is connected with second inserting blocks in an up-down symmetrical mode, the two second inserting blocks are respectively inserted into the other side of the upper U-shaped groove and the other side of the lower U-shaped groove, a ventilation window is connected to the middle of the outer side of the right plate, and limiting holes are formed in the front portion of the inner side of the right plate at equal intervals.

Further, the separation component comprises a baffle plate and a rectangular block; rectangular grooves are formed in the front sides of the partition plates, rectangular blocks are connected to the middle portions of the inner sides of the rectangular grooves, transverse shafts are connected to the rectangular blocks in a bilateral symmetry mode, springs and hollow shafts are sleeved on the peripheries of the transverse shafts in sequence from inside to outside, the inner ends and the outer ends of the springs are connected with the rectangular blocks and the hollow shafts respectively, the outer sides of the two hollow shafts penetrate through the left sides and the right sides of the rectangular grooves respectively, inserting shafts are distributed on the rear sides of the partition plates at equal intervals, and the inserting shafts are inserted into the inserting holes.

Further, the four corners of the lower side of the bottom component are connected with moving components, and the moving components comprise universal wheels and square seats; four square seats are respectively connected with four corners positioned at the lower side of the bottom plate, and universal wheels are connected at the lower side of the square seats.

Further, a door body assembly is arranged right in front of the rear assembly, and the door body assembly comprises a handle and a door plate; the door plant is located the back board dead ahead, and equidistant distribution in door plant one side has the hinge, and hinge one side is connected with left board, and door plant front portion one side is connected with the handle.

The utility model has the following beneficial effects:

1. according to the utility model, the top component and the bottom component are arranged, so that locking components used by a user when assembling the low-voltage power distribution cabinet are reduced, further, the working steps of the user when assembling the low-voltage power distribution cabinet are reduced, the workload of the user when assembling the low-voltage power distribution cabinet is reduced, and the assembly efficiency of the user on the low-voltage power distribution cabinet is facilitated to be accelerated.

2. According to the utility model, the separation assembly is arranged, so that a user can conveniently disassemble and assemble the partition plates when adjusting the distance between the adjacent partition plates, and the damaged partition plates can be conveniently replaced by the user.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a combined installation type integrated low-voltage power distribution cabinet;

fig. 2 is a schematic diagram of an internal structure of a combined installation type integrated low-voltage power distribution cabinet;

FIG. 3 is a schematic diagram of the connection of the top and bottom assemblies;

FIG. 4 is a schematic diagram of the connection of the top and bottom assemblies;

FIG. 5 is a schematic illustration of the connection of the left component and the door body component;

FIG. 6 is a schematic view of the right component;

FIG. 7 is a schematic structural view of the rear assembly;

fig. 8 is a schematic structural view of the partition assembly.

In the drawings, the list of components represented by the various numbers is as follows:

1. a top assembly; 11. a top plate; 12. an upper U-shaped groove; 13. an external threaded column; 14. a nut; 2. a door body assembly; 21. a handle; 22. a door panel; 23. a hinge; 3. a moving assembly; 31. a universal wheel; 32. a square seat; 4. a base assembly; 41. a bottom plate; 42. a lower U-shaped groove; 5. a left component; 51. a first plug; 52. a ventilation window; 53. a left plate; 6. a right component; 61. a limiting hole; 62. a second insert block; 63. a right plate; 7. a partition assembly; 71. inserting a shaft; 72. a partition plate; 73. a hollow shaft; 74. a spring; 75. a horizontal axis; 76. rectangular grooves; 77. rectangular blocks; 8. a rear assembly; 81. a jack; 82. a third insert block; 83. and a rear plate.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1 to 8, the utility model discloses a combined installation type integrated low-voltage power distribution cabinet, which comprises a top component 1, a bottom component 4 and a separation component 7, wherein the bottom component 4 is connected under the top component 1, a rear component 8 is connected to the rear part of the lower side of the top component 1, and the separation components 7 are connected to the front side of the rear component 8 at equal intervals;

the user places the left part assembly 5 on one side of the rear part assembly 8, places the right part assembly 6 on the other side of the rear part assembly 8, aligns two first insert blocks 51 with one side of the upper U-shaped groove 12 and one side of the lower U-shaped groove 42, aligns two second insert blocks 62 with the other side of the upper U-shaped groove 12 and the other side of the lower U-shaped groove 42, aligns two third insert blocks 82 with the rear side of the upper U-shaped groove 12 and the rear side of the lower U-shaped groove 42, respectively, applies downward external force to the left part assembly 5, the right part assembly 6 and the rear part assembly 8 by the user, inserts one side of the left part assembly 5, the right part assembly 6 and the rear part assembly 8 on the upper side, the other side and the rear side of the bottom assembly 4 by the user, the left part assembly 5, the right part assembly 6 and the rear part assembly 8 are inserted into the lower part of the top assembly 1 from one side to the other side and the rear side, the external thread column 13 penetrates through the bottom plate 41, a user rotates the nut 14 anticlockwise, the top assembly 1 and the bottom assembly 4 are locked and connected, the user aligns the inserting shaft 71 with the inserting hole 81, an external force close to the direction of the rear part assembly 8 is applied to the partition assembly 7, the inserting shaft 71 is inserted into the inserting hole 81, the user releases the hollow shaft 73, the hollow shaft 73 penetrates through the rectangular groove 76 and is inserted into the limiting hole 61, the placement of the partition assembly 7 is completed, the user connects one side of the hinge 23 with the front part of one side of the left part assembly 5, the door assembly 2 is connected onto the left part assembly 5, the door assembly 2 is closed, and the assembly of the low-voltage power distribution cabinet is completed.

Wherein, as shown in fig. 3 and 4, the bottom assembly 4 comprises a bottom plate 41 and a lower U-shaped groove 42; the upper side of the bottom plate 41 is provided with a lower U-shaped groove 42;

the top assembly 1 comprises a top plate 11 and an external threaded post 13; the top plate 11 is positioned right above the bottom plate 41, the position of the upper U-shaped groove 12 at the lower side of the top plate 11 corresponds to the position of the lower U-shaped groove 42, the four corners of the lower side of the top plate 11 are connected with external thread columns 13, the lower sides of the four external thread columns 13 respectively penetrate through the four corners of the bottom plate 41, and nuts 14 are connected with the lower sides of the peripheries of the external thread columns 13 in a threaded manner;

the nut 14 is rotated clockwise by a user, the nut 14 is rotated clockwise and moves downwards to separate from the external thread column 13, the external thread column 13 is separated from the bottom plate 41 upwards by the user applying an upward external force to the top plate 11, and the detachment between the top component 1 and the bottom component 4 is completed; instead, the connection between the top module 1 and the bottom module 4 is completed.

Wherein the rear assembly 8 comprises a third insert 82 and a rear plate 83, as shown in fig. 7; the rear plate 83 is vertically symmetrically connected with a third inserting block 82, the two third inserting blocks 82 are respectively inserted into the rear side of the upper U-shaped groove 12 and the rear side of the lower U-shaped groove 42, and the front side of the rear plate 83 is provided with inserting holes 81 in a rectangular array;

the user aligns the third insert block 82 on the lower side of the rear plate 83 with the rear side of the lower U-shaped groove 42, applies downward external force to the rear plate 83, the third insert block 82 is inserted into the inner side of the lower U-shaped groove 42, the user aligns the rear side of the upper U-shaped groove 12 with the third insert block 82 on the upper side of the rear plate 83, applies downward external force to the top plate 11, and the third insert block 82 is inserted into the inner side of the upper U-shaped groove 12 to complete the connection among the top component 1, the rear component 8 and the bottom component 4; conversely, the disassembly between the top assembly 1, the rear assembly 8 and the bottom assembly 4 is completed.

As shown in fig. 5, a left component 5 is connected to one side of the upper part of the bottom component 4, and the left component 5 includes a first insert block 51 and a left plate 53; the left plate 53 is vertically and symmetrically connected with first inserting blocks 51, the two first inserting blocks 51 are respectively inserted into one side of the upper U-shaped groove 12 and one side of the lower U-shaped groove 42, the middle part of the outer side of the left plate 53 is connected with a ventilation window 52, and limit holes 61 are formed in the front part of the inner side of the left plate 53 at equal intervals;

the user aligns the first insert block 51 at the lower side of the left plate 53 to one side of the lower U-shaped groove 42, applies downward external force to the left plate 53, the first insert block 51 is inserted into the inner side of the lower U-shaped groove 42, aligns one side of the upper U-shaped groove 12 to the first insert block 51 at the upper side of the left plate 53, applies downward external force to the top plate 11, and the first insert block 51 is inserted into the inner side of the upper U-shaped groove 12 to complete the connection among the top assembly 1, the bottom assembly 4 and the left assembly 5; conversely, the detachment between the top assembly 1, the bottom assembly 4 and the left assembly 5 is completed.

Wherein as shown in fig. 6, the other side of the upper part of the bottom component 4 is connected with a right component 6, and the right component 6 comprises a second insert block 62 and a right plate 63; the right plate 63 is vertically and symmetrically connected with second inserting blocks 62, the two second inserting blocks 62 are respectively inserted into the other side of the upper U-shaped groove 12 and the other side of the lower U-shaped groove 42, the middle part of the outer side of the right plate 63 is connected with a ventilation window 52, and limit holes 61 are formed in the front part of the inner side of the right plate 63 at equal intervals;

the user aligns the second insert block 62 at the lower side of the right plate 63 to the other side of the lower U-shaped groove 42, applies downward external force to the right plate 63, inserts the second insert block 62 into the inner side of the lower U-shaped groove 42, aligns the other side of the upper U-shaped groove 12 to the second insert block 62 at the upper side of the right plate 63, applies downward external force to the top plate 11, inserts the second insert block 62 into the inner side of the upper U-shaped groove 12, and completes the connection among the top component 1, the bottom component 4 and the right component 6; conversely, the detachment between the top assembly 1, the bottom assembly 4 and the right assembly 6 is completed.

Wherein as shown in fig. 8, the partition assembly 7 comprises a partition plate 72 and a rectangular block 77; the front side of the partition plate 72 is provided with a rectangular groove 76, the middle part of the inner side of the rectangular groove 76 is connected with a rectangular block 77, the left and right sides of the rectangular block 77 are symmetrically connected with a transverse shaft 75, the periphery of the transverse shaft 75 is sequentially sleeved with a spring 74 and a hollow shaft 73 from inside to outside, the inner and outer ends of the spring 74 are respectively connected with the rectangular block 77 and the hollow shaft 73, the outer sides of the two hollow shafts 73 respectively penetrate through the left and right sides of the rectangular groove 76, inserting shafts 71 are distributed at equal intervals on the rear side of the partition plate 72, and the inserting shafts 71 are inserted into inserting holes 81;

the user applies external force to the hollow shaft 73 in the direction approaching to the rectangular block 77 by hand, the spring 74 is contracted, the hollow shaft 73 moves in the direction away from the limiting hole 61, after the hollow shaft 73 completely enters the inner side of the rectangular groove 76, the user applies forward external force to the partition plate 72, the inserting shaft 71 is separated from the rear plate 83 away from the inserting hole 81, and the separation between the separation assembly 7 and the rear assembly 8 is completed; instead, the connection between the partition assembly 7 and the rear assembly 8 is completed.

As shown in fig. 2, the four corners of the lower side of the bottom component 4 are connected with a moving component 3, and the moving component 3 comprises a universal wheel 31 and a square seat 32; four square seats 32 are respectively positioned at four corners of the lower side of the bottom plate 41, and universal wheels 31 are connected to the lower side of the square seats 32;

the user applies external force to the low-voltage power distribution cabinet by hand, the universal wheel 31 moves, the moving assembly 3 moves, the bottom assembly 4 moves, and the low-voltage power distribution cabinet moves.

As shown in fig. 5, the door body assembly 2 is arranged right in front of the rear assembly 8, and the door body assembly 2 comprises a handle 21 and a door plate 22; the door plate 22 is positioned right in front of the rear plate 83, hinges 23 are distributed on one side of the door plate 22 at equal intervals, one side of each hinge 23 is connected with the left plate 53, and one side of the front part of the door plate 22 is connected with a handle 21;

the user applies external force to the handle 21 in a direction away from the rear component 8 by hand, the door plate 22 gradually opens by taking a hinge 23 as an axis to perform circular arc movement; conversely, the door panel 22 is gradually closed.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (9)

1. The utility model provides a combination installation formula disjunctor formula low-voltage distribution cabinet, includes top subassembly (1), bottom subassembly (4) and separation subassembly (7), its characterized in that: the novel solar energy collection device is characterized in that a bottom assembly (4) is connected under the top assembly (1), a rear assembly (8) is connected to the rear portion of the lower side of the top assembly (1), and separation assemblies (7) are connected to the front side of the rear assembly (8) at equal intervals.

2. The combined installation type integrated low-voltage power distribution cabinet according to claim 1, wherein: the bottom assembly (4) comprises a bottom plate (41) and a lower U-shaped groove (42); the upper side of the bottom plate (41) is provided with the lower U-shaped groove (42).

3. The combined installation type integrated low-voltage power distribution cabinet according to claim 1, wherein: the top component (1) comprises a top plate (11) and an external thread column (13); the top plate (11) is located right above the bottom plate (41), the position of the U-shaped groove (12) on the lower side of the top plate (11) corresponds to the position of the lower U-shaped groove (42), four corners of the lower side of the top plate (11) are connected with the external thread columns (13), the four lower sides of the external thread columns (13) penetrate through the four corners of the bottom plate (41) respectively, and nuts (14) are connected to the lower side of the periphery of the external thread columns (13) in a threaded mode.

4. The combined installation type integrated low-voltage power distribution cabinet according to claim 1, wherein: the rear assembly (8) comprises a third insert block (82) and a rear plate (83); the rear plate (83) is vertically symmetrically connected with the third inserting blocks (82), the two third inserting blocks (82) are respectively inserted into the rear side of the upper U-shaped groove (12) and the rear side of the lower U-shaped groove (42), and the front side of the rear plate (83) is provided with inserting holes (81) in a rectangular array.

5. The combined installation type integrated low-voltage power distribution cabinet according to claim 2, wherein: a left component (5) is connected to one side of the upper part of the bottom component (4), and the left component (5) comprises a first inserting block (51) and a left plate (53); the left plate (53) is vertically symmetrically connected with the first inserting blocks (51), the two first inserting blocks (51) are respectively inserted into one side of the upper U-shaped groove (12) and one side of the lower U-shaped groove (42), the middle part of the outer side of the left plate (53) is connected with a ventilation window (52), and limiting holes (61) are formed in the front part of the inner side of the left plate (53) at equal intervals.

6. The combined installation type integrated low-voltage power distribution cabinet according to claim 2, wherein: the other side of the upper part of the bottom component (4) is connected with a right component (6), and the right component (6) comprises a second inserting block (62) and a right plate (63); the right plate (63) is vertically symmetrically connected with the second inserting blocks (62), the two second inserting blocks (62) are respectively inserted into the other side of the upper U-shaped groove (12) and the other side of the lower U-shaped groove (42), the middle part of the outer side of the right plate (63) is connected with a ventilation window (52), and limiting holes (61) are formed in the front part of the inner side of the right plate (63) at equal intervals.

7. The combined installation type integrated low-voltage power distribution cabinet according to claim 1, wherein: the separation component (7) comprises a partition plate (72) and a rectangular block (77); rectangular grooves (76) are formed in the front side of the partition plate (72), rectangular blocks (77) are connected to the middle of the inner side of each rectangular groove (76), transverse shafts (75) are symmetrically connected to the rectangular blocks (77), springs (74) and hollow shafts (73) are sequentially sleeved on the peripheries of the transverse shafts (75) from inside to outside, the inner ends and the outer ends of the springs (74) are respectively connected with the rectangular blocks (77) and the hollow shafts (73), the outer sides of the two hollow shafts (73) respectively penetrate through the left side and the right side of each rectangular groove (76), inserting shafts (71) are distributed on the rear side of each partition plate (72) at equal intervals, and the inserting shafts (71) are inserted into inserting holes (81).

8. The combined installation type integrated low-voltage power distribution cabinet according to claim 2, wherein: the four corners of the lower side of the bottom assembly (4) are connected with moving assemblies (3), and each moving assembly (3) comprises a universal wheel (31) and a square seat (32); four square seat (32) respectively with be located bottom plate (41) downside four corners, square seat (32) downside is connected with universal wheel (31).

9. The combined installation type integrated low-voltage power distribution cabinet according to claim 4, wherein: a door body assembly (2) is arranged right in front of the rear assembly (8), and the door body assembly (2) comprises a handle (21) and a door plate (22); the door plate (22) is located right in front of the rear plate (83), hinges (23) are distributed on one side of the door plate (22) at equal intervals, one side of each hinge (23) is connected with the left plate (53), and one side of the front portion of the door plate (22) is connected with the handle (21).

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