CN209948607U - Green matrix is used in low-voltage switch generating line overlap joint - Google Patents

Abstract

The utility model discloses a green die is used in low-voltage switch generating line overlap joint, insert the mouth including moulded case circuit breaker, setting at the master switch of moulded case circuit breaker outside center department, the multiunit of installing in moulded case circuit breaker bottom. The utility model discloses in, adopt horizontal formula coupling mechanism, it connects the top of export all to be vertical setting to install two sets of first concatenation connection pieces to be located the multiunit at moulded case circuit breaker's top, it is the level and is provided with main copper bar B looks to be at first concatenation connection piece and second concatenation connection piece simultaneously, can be according to the installation demand of reality, arrange first B looks outlet wire, main copper bar B looks and second B looks outlet wire are arranged, carry out the fixed processing of regulation of horizontal direction and vertical direction, arrange at first B looks outlet wire simultaneously, main copper bar B looks and second B looks outlet wire are arranged the outer surface wall and are all scribbled green insulating paint, carry out the coloring treatment to the module, both can increase the radiation capacity, do benefit to the heat dissipation, it can improve 12-15 to color the back allowwing load current simultaneously.

Description

Green matrix is used in low-voltage switch generating line overlap joint

Technical Field

The utility model relates to a low-voltage switch generating line overlap joint technical field especially relates to a green die is used in low-voltage switch generating line overlap joint.

Background

The low-voltage switch is roughly classified into an automobile low-voltage protection switch, a pressure control low-voltage switch and a power equipment low-voltage switch electrical appliance. The low-voltage switch is suitable for the fields of automobile industry, water purifier industry, electric power industry and the like, and has different meanings in different fields. There are low-voltage protection switch, pressure control low-voltage switch and low-voltage switch electric appliance of electric power equipment.

The existing matrix for lapping the low-voltage switch bus still has the defects that firstly, an integral connecting mechanism is adopted, the bus is inconvenient to lap, adjust and fix for use, meanwhile, smearing and coloring treatment is not carried out on the outer side of the matrix, the heat of the matrix is difficult to dissipate, the allowable load current is easy to reduce, secondly, a combined mounting structure is not arranged in the matrix, the combined mounting treatment of a circuit breaker is inconvenient, time and labor are wasted in mounting, and meanwhile, the mounting stability is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the green die for lapping the low-voltage switch bus is provided for solving the problems that the bus lapping is inconvenient to adjust and fix for use, the outside of the die is not coated and colored, the heat of the die is difficult to dissipate, the reduction of allowable load current is easy to cause, the combined installation treatment of a circuit breaker is inconvenient, and the installation is time-consuming and labor-consuming.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a green matrix for lapping a low-voltage switch bus comprises a molded case circuit breaker, a main switch arranged at the center of the outer side of the molded case circuit breaker, a plurality of groups of inlets arranged at the bottom of the molded case circuit breaker, a plurality of groups of outlets arranged at the top of the molded case circuit breaker and a fuse arranged at one side of the molded case circuit breaker, wherein two groups of first assembled connecting sheets are vertically and symmetrically arranged at the top of the molded case circuit breaker above the plurality of groups of outlets, a first B-phase wire outlet row is vertically and fixedly connected between the two groups of first assembled connecting sheets and the outlets, first filling pieces are fixedly connected to the outer sides of the two groups of first assembled connecting sheets through bolts, insulating covers are fixedly connected to the inner sides of the two groups of first assembled connecting sheets through bolts, two groups of insulating cover hole sites are vertically arranged on the outer sides of the insulating covers, and a main copper bar B-phase is horizontally and fixedly connected between the two groups of, the utility model discloses a fuse-free plastic shell circuit breaker, including main copper bar B looks, the top that the outside of main copper bar B looks is located the fuse is two sets of seconds of vertical fixedly connected with and assembles the connection piece, and two sets of seconds are assembled the connection piece inboard and are located fixedly connected with second B looks outgoing line row between the fuse, the installation piece is installed to plastic shell circuit breaker's inboard, one side that the outside of plastic shell circuit breaker is located the installation piece is provided with the mounting panel, the outside bilateral symmetry welding that is located the installation piece of mounting panel has two sets of spacing buckles that are.

As a further description of the above technical solution:

and green insulating paint is coated on the outer surface walls of the first B-phase outlet line row, the main copper bar B-phase outlet line row and the second B-phase outlet line row.

As a further description of the above technical solution:

the outer sides of the two groups of second assembling connecting sheets are fixedly connected with second filling pieces through bolts.

As a further description of the above technical solution:

first B looks outlet wire row and second B looks outlet wire row are parallel distribution, and first B looks outlet wire row and second B looks outlet wire row all are perpendicular distribution with main copper bar B mutually.

As a further description of the above technical solution:

the installation has all been seted up to four corners in the inside of mounting panel.

As a further description of the above technical solution:

the outside of two sets of spacing buckles all is that vertical slip has the spacing traveller who runs through spacing buckle, and elastic connection has extension spring between spacing traveller and the spacing buckle, the inside of installation piece is close to one side of spacing traveller and offers the spacing slide opening that the spacing traveller of cooperation used, and spacing slide opening and spacing traveller are transition fit.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, adopt horizontal formula coupling mechanism, it connects the top of export all to be vertical setting to install two sets of first concatenation connection pieces to be located the multiunit at moulded case circuit breaker's top, it is the level and is provided with main copper bar B looks to be at first concatenation connection piece and second concatenation connection piece simultaneously, can be according to the installation demand of reality, arrange first B looks outlet wire, main copper bar B looks and second B looks outlet wire are arranged, carry out the fixed processing of regulation of horizontal direction and vertical direction, arrange at first B looks outlet wire simultaneously, main copper bar B looks and second B looks outlet wire are arranged the outer surface wall and are all scribbled green insulating paint, carry out the coloring treatment to the module, both can increase the radiation capacity, do benefit to the heat dissipation, it can improve 12-15 to color the back allowwing load current simultaneously.

2. The utility model discloses in, inside is provided with combination formula mounting structure, inboard at moulded case circuit breaker is provided with installation piece and mounting panel, two sets of symmetries that lie in the installation piece in the outside of mounting panel are provided with two sets of spacing buckles that are F type structure simultaneously, when needs installation moulded case circuit breaker, pass through the bolt with the mounting panel and install after appointed position, alright slide in the inboard of two sets of spacing buckles with moulded case circuit breaker through the installation piece, upwards mention spacing traveller, when the installation piece slides in the inboard of two sets of spacing buckles, alright loosen spacing traveller, spacing traveller is under extension spring's effect, just can slide in the inboard of spacing slide opening, the built-up mounting of the circuit breaker of being convenient for of this kind of structure is handled, the intensity of labour when both having reduced the installation and handling, also promote the fixed stability of circuit breaker installation simultaneously.

Drawings

Fig. 1 is a schematic diagram of a green mold sheet for lapping a low-voltage switch bus according to the present invention;

fig. 2 is a schematic side view of the molded case circuit breaker according to the present invention;

fig. 3 is the internal structure diagram of the mounting block and the mounting plate of the present invention.

Illustration of the drawings:

1. a molded case circuit breaker; 2. a master switch; 3. an access port; 4. a receiving port; 5. a first assembled connecting sheet; 6. a first B-phase outlet line bank; 7. a first filling member; 8. b phase of the main copper bar; 9. a second splicing connecting sheet; 10. a second filling member; 11. a second B-phase outlet line bank; 12. a fuse; 13. an insulating cover; 14. an insulating cover hole site; 15. mounting blocks; 16. mounting a plate; 17. a limiting buckle; 18. mounting holes; 19. a limiting sliding column; 20. an extension spring; 21. and limiting the sliding hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a green diaphragm is used in low-voltage switch generating line overlap joint, including moulded case circuit breaker 1, the master switch 2 of setting in 1 outside center department of moulded case circuit breaker, install the multiunit of 1 bottom of moulded case circuit breaker and insert mouthful 3, install multiunit at 1 top of moulded case circuit breaker and connect export 4 and set up fuse 12 in 1 one side of moulded case circuit breaker, the top of moulded case circuit breaker 1 is located multiunit and connects the top of export 4 and all is vertical symmetry and install two sets of first connection piece 5 of assembling, and two sets of first connection piece 5 of assembling is the first B of vertical fixedly connected with line row 6 between the export 4, the outside of two sets of first connection piece 5 of assembling is all through first filler 7 of bolt fixedly connected with, the inboard of two sets of first connection piece 5 of assembling is all through bolt fixedly connected with insulating boot 13, and the outside of insulating boot 13 is vertical two sets of insulating boot hole sites 14 of installing, the inboard of first B line row 6 is located and is Arrange B looks 8, the connection piece 9 is assembled to two sets of seconds of vertical fixedly connected with in the top that main copper bar B looks 8 is located fuse 12, and the connection piece 9 inboard is assembled to two sets of seconds is located fixedly connected with second B looks outgoing line row 11 between fuse 12, installation block 15 is installed to moulded case circuit breaker 1's inboard, one side that moulded case circuit breaker 1's outside is located installation block 15 is provided with mounting panel 16, the outside bilateral symmetry welding that is located installation block 15 of mounting panel 16 has two sets of spacing buckles 17 that are F type structure.

Specifically, as shown in fig. 1 and 2, the exterior walls of the first B-phase line outgoing line row 6, the main copper bar B-phase line outgoing line row 8 and the second B-phase line outgoing line row 11 are coated with green insulating paint, and the exterior of the first B-phase line outgoing line row 6, the main copper bar B-phase line outgoing line row 8 and the second B-phase line outgoing line row 11 are coated with green insulating paint, so that the first B-phase line outgoing line row 6, the main copper bar B-phase line outgoing line row 8 and the second B-phase line outgoing line row 11 can form a green connection matrix, and meanwhile, the green matrix is painted, so that the radiation capacity can be increased, the heat dissipation can be facilitated, and the allowable load current can be increased after coloring.

Specifically, as shown in fig. 1, the outer sides of the two groups of second assembling connecting pieces 9 are fixedly connected with second filling pieces 10 through bolts, and the arrangement of the two groups of second filling pieces 10 improves the connection stability of the second assembling connecting pieces 9 and the second B-phase outgoing line row 11.

Specifically, as shown in fig. 1, the first B-phase outgoing line row 6 and the second B-phase outgoing line row 11 are distributed in parallel, and the first B-phase outgoing line row 6 and the second B-phase outgoing line row 11 are both distributed vertically with the main copper bar row B-phase 8, so that the first B-phase outgoing line row 6, the main copper bar row B-phase 8 and the second B-phase outgoing line row 11 can be conveniently adjusted and installed in the horizontal and vertical directions.

Specifically, as shown in fig. 3, mounting holes 18 are formed in four corners inside the mounting plate 16, and the mounting holes 18 are formed to facilitate the mounting plate 16 to be fixed on the outer side of the wall.

Specifically, as shown in fig. 3, the outside of two sets of limiting buckles 17 is vertical and is embedded with limiting slide post 19 that runs through limiting buckle 17, and elastic connection has extension spring 20 between limiting slide post 19 and the limiting buckle 17, limiting slide hole 21 that the limiting slide post 19 of cooperation used is seted up to one side that the inside of installation piece 15 is close to limiting slide post 19, and limiting slide hole 21 and limiting slide post 19 are transition fit, limiting slide post 19 and limiting slide hole 21's setting, the fixed stability of installation piece 15 and mounting panel 16 joint has been promoted, extension spring 20's setting simultaneously, be convenient for the processing of restoring after limiting slide post 19 outwards stimulates, thereby be convenient for limiting slide post 19 elasticity slides in the inside of limiting slide hole 21. First B-phase outlet line row 6 and second B-phase outlet line row 11

The working principle is as follows: when the device is used and the bus needs to be lapped, the colored first B-phase outgoing line row 6 is arranged between two groups of first assembled connecting sheets 5 at the designated position, the second B-phase outgoing line row 11 is arranged between two groups of second assembled connecting sheets 9, the horizontally distributed main copper bar B8 is adjusted and fixed between the first B-phase outgoing line row 6 and the second B-phase outgoing line row 11 according to the requirement of circuit laying, so that the lapping processing of the low-voltage switch bus is completed, meanwhile, when the molded case circuit breaker 1 needs to be installed, firstly, the installation plate 16 is fixed on the designated wall surface through bolts, then, the molded case circuit breaker 1 horizontally slides into the inner sides of the two groups of limiting buckles 17 through the installation block 15, secondly, the limiting sliding column 19 is stretched towards the outer side, when the installation block 15 slides into the position between the two groups of F-shaped limiting buckles 17, the limiting sliding column 19 can be loosened, and the limiting sliding column 19 can slide into the mounting block 15 under the action of the extension spring 20, so that the combined mounting processing of the molded case circuit breaker 1 is completed.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A green matrix for lapping a low-voltage switch bus comprises a molded case circuit breaker (1), a main switch (2) arranged at the center of the outer side of the molded case circuit breaker (1), a plurality of groups of access ports (3) arranged at the bottom of the molded case circuit breaker (1), a plurality of groups of access ports (4) arranged at the top of the molded case circuit breaker (1) and a fuse (12) arranged at one side of the molded case circuit breaker (1), and is characterized in that two groups of first assembled connecting sheets (5) are vertically and symmetrically arranged at the top of the molded case circuit breaker (1) above the plurality of groups of access ports (4), a first B-phase outgoing line row (6) is vertically and fixedly connected between the two groups of first assembled connecting sheets (5) and the access ports (4), the outer sides of the two groups of first assembled connecting sheets (5) are fixedly connected with first filling members (7) through bolts, and the inner sides of the two groups of first assembled connecting sheets (5) are fixedly connected, and two groups of insulation cover hole sites (14) are vertically arranged on the outer side of the insulation cover (13), the inner side of the first B-phase outlet line row (6) is positioned between two groups of insulation cover hole positions (14) and is horizontally and fixedly connected with a main copper bar B phase (8), the outer side of the main copper bar B phase (8) is positioned above the fuse (12) and is vertically and fixedly connected with two groups of second assembling connecting sheets (9), and the inner sides of the two groups of second assembling connecting sheets (9) are positioned between the fuses (12) and are fixedly connected with a second B-phase outlet wire row (11), the inner side of the molded case circuit breaker (1) is provided with an installation block (15), one side of the outer part of the molded case circuit breaker (1) which is positioned on the installation block (15) is provided with an installation plate (16), the outside of mounting panel (16) is located the bilateral symmetry welding of installation piece (15) and has two sets of spacing buckles (17) that are F type structure.

2. The green matrix for lapping the low-voltage switch bus bar is characterized in that green insulating paint is coated on the outer surface walls of the first B-phase outlet line row (6), the main copper bar B-phase (8) and the second B-phase outlet line row (11).

3. The green matrix for lapping the low-voltage switch bus bar is characterized in that the outer sides of the two groups of second splicing connecting sheets (9) are fixedly connected with second filling pieces (10) through bolts.

4. The green matrix for lapping the low-voltage switch bus bar is characterized in that the first B-phase outlet line row (6) and the second B-phase outlet line row (11) are distributed in parallel, and the first B-phase outlet line row (6) and the second B-phase outlet line row (11) are both distributed vertically with the main copper bar row B (8).

5. The green stamper for lapping the low-voltage switch bus bar according to claim 1, wherein the mounting plate (16) has mounting holes (18) at four corners inside.

6. The green die sheet for lapping the low-voltage switch bus bar according to claim 1, wherein the outer sides of the two groups of limiting buckles (17) are vertically embedded with limiting slide posts (19) penetrating through the limiting buckles (17) in a sliding manner, the limiting slide posts (19) and the limiting buckles (17) are elastically connected with tension springs (20), one side of the inner portion of the mounting block (15), which is close to the limiting slide posts (19), is provided with limiting slide holes (21) matched with the limiting slide posts (19) for use, and the limiting slide holes (21) and the limiting slide posts (19) are in transition fit.

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