CN114336473B - Bus duct based on surface coating protection - Google Patents

Abstract

The invention relates to the technical field of bus ducts, and discloses a bus duct based on surface coating protection, which solves the problem that a bus cannot be buffered when the bus is subjected to vibration at present, and comprises a shell, wherein a bus supporting mechanism is arranged in the shell, buses are equidistantly arranged in the shell and positioned at the top of the bus supporting mechanism, a bus isolation mechanism is arranged in the shell and positioned at the top of the bus supporting mechanism; according to the invention, the vertical block moves up and down along the upright post through the cooperation between the rotating rod and the vertical block, the third spring stretches and contracts, the bus drives the supporting plate to vibrate, the first spring stretches and contracts through the cooperation between the supporting column and the supporting cylinder, and then the force can be absorbed due to the elastic actions of the second spring, the third spring and the first spring, so that the bus can be buffered, and the protection effect on the bus is realized.

Description

Bus duct based on surface coating protection

Technical Field

The invention belongs to the technical field of bus ducts, and particularly relates to a bus duct based on surface coating protection.

Background

The bus duct is a closed metal device formed by copper and aluminum bus columns and is used for distributing larger power for each element of a dispersion system, the bus duct is used for replacing wires and cables more and more in the project of indoor low-voltage power transmission main line engineering, is popular in developed countries abroad, hong Kong, australian and the like of China, and is used for outgoing lines of building power distribution rooms with more than 12 layers in Guangzhou of China, namely more than 90% of main lines leading to floors; the 630KVA transformer to the power distribution cabinet uses a Bus duct, which is a new circuit mode called "Bus-Way-System" developed by the united states, and is a new type of conductor formed by taking copper or aluminum as a conductor, supporting with non-olefinic insulation, and then installing the conductor into a metal tank, and in japan, the actual practical application is in s-a 29, and since then, the Bus duct has been developed, and now, an indispensable wiring mode is being established in electrical equipment and power systems of high-rise buildings, factories and the like.

The protection measures of the bus carrier in the existing bus duct are not enough, so that the bus cannot be protected in an omnibearing and efficient manner, and the bus cannot be buffered when being vibrated, so that the service life of the bus is greatly reduced.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the bus duct based on surface coating protection, which effectively solves the problem that the bus cannot be buffered when the bus is vibrated at present.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a bus duct based on surface coating protection, which comprises a housing, the internally mounted of shell has bus supporting mechanism, the inside equidistance of shell installs the generating line, the generating line is located bus supporting mechanism's top, the internally mounted of shell has generating line isolation mechanism, generating line isolation mechanism is located bus supporting mechanism's top, generating line and generating line isolation mechanism are connected, the inner chamber both sides of shell all install the generating line centre gripping fixed establishment that is located bus supporting mechanism top, two spouts have all been seted up to the top both sides of shell, the guide way has all been seted up to the top both sides of shell, the spacing groove has all been seted up with the guide way intercommunication, the curb plate is all installed to the top both sides of shell, fixedly connected with upper cover between two curb plates, the equidistant fixed mounting in bottom of upper cover has the rubber sleeve plate, the movable joint in top of rubber sleeve plate and generating line;

the bus supporting mechanism comprises a supporting plate, a supporting column, a first spring, a radiating hole and a supporting cylinder, wherein the supporting plate is located inside the shell, the width value of the supporting plate is equal to the width value of an inner cavity of the shell, the bus isolating mechanism and the bus clamping and fixing mechanism are located at the top of the supporting plate, the radiating holes are equidistantly distributed at the top of the supporting plate, the bottom of the supporting plate is fixedly connected with the top of the supporting column, the supporting cylinder is movably sleeved with the supporting column, the bottom of the supporting column extends to the inside of the supporting cylinder, the bottom of the supporting cylinder is fixedly connected with the bottom of the inner cavity of the shell, the first spring is movably sleeved with the supporting column, the bottom of the first spring is fixedly connected with the top of the supporting cylinder, and the top of the first spring is fixedly connected with the bottom of the supporting plate.

Preferably, the bus isolation mechanism comprises two clapboards positioned at the top of the supporting plate, the bottoms of the two clapboards are attached to the top of the supporting plate, movable blocks are fixedly connected to two sides of the bottoms of the two clapboards, the two movable blocks on two sides are positioned on two sides of the supporting plate, a connecting shaft is movably connected to the inside of the movable blocks, mounting blocks are fixedly connected to two ends of the connecting shaft, the mounting blocks are fixedly connected with the supporting plate, clamping plates are mounted on two sides of the two clapboards, and the bus is attached to the clamping plates.

Preferably, the both sides of baffle all set up flutedly, the inside fixedly connected with horizontal pole of recess, and the outside activity of horizontal pole has cup jointed two sliders, and the equal fixedly connected with second spring of one side that two sliders kept away from each other, two second springs all cup joint with the horizontal pole activity, and one side of two sliders all rotates and is connected with the rotor plate, and the one end of two rotor plates all rotates with splint to be connected.

Preferably, the bus clamping and fixing mechanism comprises a stand column positioned in the chute, a vertical block is movably sleeved on the outer side of the stand column, the vertical block is movably clamped with the chute, a third spring is fixedly connected with the bottom of the vertical block and movably sleeved with the stand column, and the top of the vertical block is fixedly connected with the side plate.

Preferably, the inner chamber both sides of shell are all fixedly connected with two sleeves, and the movable rod has all been cup jointed to the equal activity of two telescopic interiors, and the one end fixedly connected with fly leaf of two movable rods, fly leaf are located the top of backup pad, and fly leaf and busbar laminating.

Preferably, one side of the movable plate is fixedly connected with two fixed blocks, a connecting column is fixedly connected between the two fixed blocks, two rotating rods are rotatably connected to the outer sides of the connecting columns, and the top ends of the rotating rods are rotatably connected with the vertical blocks.

Preferably, two equal fixedly connected with guide block in the middle of the bottom of curb plate, two guide blocks respectively with two guide slot activity joint, the bottom of guide block extends to the inside of guide slot, the equal fixedly connected with stopper in one side that two guide blocks kept away from each other, two stoppers respectively with two spacing slot activity joint, one side of stopper extends to the outside of shell.

Preferably, both sides of shell all fixedly connected with montant, two montants laminate with two stopper respectively, and the bolt is all installed in the front of two montants.

Preferably, the number of the buses is three, the buses in the middle are attached to the two clamping plates in the middle, and the two buses in the left side and the right side are attached to the movable plate and the clamping plates.

Compared with the prior art, the invention has the beneficial effects that:

(1) According to the invention, when the bus vibrates through the cooperation between the clamping plate and the rotating plate, the sliding block moves along the cross rod at the moment, the second spring stretches and contracts, the two movable plates move at the same time, the vertical block moves up and down along the upright post through the cooperation between the rotating rod and the vertical block, the third spring stretches and contracts, the bus drives the supporting plate to vibrate, the first spring stretches and contracts through the cooperation between the supporting column and the supporting cylinder at the moment, and the force can be absorbed due to the elastic action of the second spring, the third spring and the first spring, so that the bus can be buffered, and the protection effect on the bus is realized;

(2) According to the invention, through the cooperation between the upper cover and the side plate and between the vertical block and the upright post, the vertical block can move upwards, meanwhile, the third spring stretches, through the cooperation between the connecting post and the rotating rod and the cooperation between the sleeve and the movable rod, the two movable plates can move away from each other, and through the cooperation between the guide block and the limiting block and the cooperation between the vertical rod and the bolt, the position of the movable plate can be fixed, the bus can be placed in the shell, meanwhile, the bus is located between two adjacent clamping plates at the top of the supporting plate, and when the control of the movable plate is released, the third spring can reset the vertical block downwards, so that the movable plates at two sides can move and approach each other, and at the moment, the clamping and fixing of the bus can be completed, thereby facilitating the installation of the bus.

(3) According to the invention, through the cooperation between the movable block and the connecting shaft, the two partition plates can move transversely, so that the positions of the clamping plates can be changed, meanwhile, the bus can be placed at the top of the shell, and is positioned between the two adjacent clamping plates, and the clamping plates can be attached to the bus through the action of the bus clamping and fixing mechanism, so that the bus is clamped, at the moment, the two adjacent bus is isolated, and the short circuit caused by contact between the two adjacent bus is prevented, so that the bus is protected.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of an exploded construction of the present invention;

FIG. 3 is a schematic view of the structure of the housing of the present invention;

FIG. 4 is a schematic view of a bus bar support mechanism according to the present invention;

FIG. 5 is a schematic view of a bus bar isolation mechanism according to the present invention;

FIG. 6 is a schematic view of a separator structure according to the present invention;

fig. 7 is a schematic structural view of a bus clamping and fixing mechanism according to the present invention.

In the figure: 1. a housing; 2. a bus; 3. a bus bar supporting mechanism; 301. a support plate; 302. a support column; 303. a first spring; 304. a heat radiation hole; 305. a support cylinder; 4. a bus isolation mechanism; 401. a partition plate; 402. a clamping plate; 403. a mounting block; 404. a connecting shaft; 405. a movable block; 406. a rotating plate; 407. a cross bar; 408. a groove; 409. a slide block; 4010. a second spring; 5. an upper cover; 6. a side plate; 7. a bus clamping and fixing mechanism; 701. a column; 702. a limiting block; 703. a sleeve; 704. a connecting column; 705. a fixed block; 706. a movable plate; 707. a rotating lever; 708. a movable rod; 709. a guide block; 7010. a vertical block; 7011. a third spring; 8. a bolt; 9. a rubber sleeve plate; 10. a vertical rod; 11. a chute; 12. a limit groove; 13. a guide groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

1-7, the invention comprises a shell 1, wherein a bus supporting mechanism 3 is arranged in the shell 1, buses 2 are equidistantly arranged in the shell 1, the buses 2 are positioned at the top of the bus supporting mechanism 3, a bus isolation mechanism 4 is arranged in the shell 1, the bus isolation mechanism 4 is positioned at the top of the bus supporting mechanism 3, the buses 2 are connected with the bus isolation mechanism 4, bus clamping and fixing mechanisms 7 positioned at the top of the bus supporting mechanism 3 are arranged at two sides of an inner cavity of the shell 1, two sliding grooves 11 are formed in two sides of the top of the shell 1, guide grooves 13 are formed in two sides of the top of the shell 1, limit grooves 12 are communicated with the guide grooves 13, side plates 6 are arranged at two sides of the top of the shell 1, an upper cover 5 is fixedly connected between the two side plates 6, a rubber sleeve plate 9 is fixedly arranged at the bottom of the upper cover 5 at equal distance, and the rubber sleeve plate 9 is movably clamped with the top of the bus 2;

in the second embodiment, based on the first embodiment, the bus bar supporting mechanism 3 includes a supporting plate 301, a supporting column 302, a first spring 303, a heat dissipation hole 304 and a supporting tube 305, the supporting plate 301 is located inside the housing 1, the width value of the supporting plate 301 is equal to the width value of the inner cavity of the housing 1, the bus bar 2, the bus bar isolating mechanism 4 and the bus bar clamping and fixing mechanism 7 are all located at the top of the supporting plate 301, the heat dissipation hole 304 is equidistantly distributed at the top of the supporting plate 301, the bottom end of the supporting plate 301 is fixedly connected with the top of the supporting column 302, the supporting tube 305 is movably sleeved with the supporting column 302, the bottom end of the supporting column 302 extends to the inside of the supporting tube 305, the bottom end of the supporting tube 305 is fixedly connected with the bottom of the inner cavity of the housing 1, the first spring 303 is movably sleeved with the supporting column 302, the bottom end of the first spring 303 is fixedly connected with the top of the supporting tube 305, and the top end of the first spring 303 is fixedly connected with the bottom of the supporting plate 301;

through setting up backup pad 301, can play the effect of supporting to busbar 2 then, play the effect of supporting to busbar isolated mechanism 4 and busbar centre gripping fixture 7 simultaneously, make backup pad 301 can have the space of reciprocates simultaneously to can cushion effect to busbar 2 through busbar centre gripping fixture 7 and busbar isolated mechanism 4 and first spring 303, set up the louvre 304 simultaneously and can dispel the heat to busbar 2 that is located the backup pad 301 top.

In the third embodiment, on the basis of the first embodiment, the bus isolation mechanism 4 includes two partition boards 401 located at the top of the supporting board 301, the bottoms of the two partition boards 401 are attached to the top of the supporting board 301, two movable blocks 405 are fixedly connected to two sides of the bottom of the two partition boards 401, the two movable blocks 405 on two sides are located on two sides of the supporting board 301, a connecting shaft 404 is movably connected to the inside of the movable blocks 405, two ends of the connecting shaft 404 are fixedly connected with mounting blocks 403, the mounting blocks 403 are fixedly connected with the supporting board 301, clamping plates 402 are respectively mounted on two sides of the two partition boards 401, a bus 2 is attached to the clamping plates 402, grooves 408 are respectively formed in two sides of the partition boards 401, a cross rod 407 is fixedly connected to the inside of the grooves 408, two sliding blocks 409 are movably sleeved on the outer sides of the cross rod 407, two sliding blocks 409 are respectively fixedly connected with second springs 4010, the two second springs 4010 are movably sleeved on the two sides of the two sliding blocks 409, one sides of the two sliding blocks 409 are respectively rotatably connected with a rotating plate 406, and one ends of the two rotating plates 406 are respectively rotatably connected with the clamping plates 402;

firstly, the bus bar 2 is placed on the top of the supporting plate 301, meanwhile, the bus bar 2 is located between two adjacent clamping plates 402, the clamping plates 402 and the partition plates 401 are moved through the bus bar clamping and fixing mechanism 7, so that the clamping plates 402 can clamp the bus bar 2, the two adjacent bus bars 2 are isolated through the clamping plates 402, the two adjacent bus bars 2 are prevented from being contacted to cause a short circuit phenomenon, when the bus bar 2 vibrates, the clamping plates 402 and the partition plates 401 are driven to move, meanwhile, the sliding blocks 409 are driven to move along the transverse rods 407 through the rotating plates 406, the second springs 4010 are enabled to stretch and retract, and at the moment, the force is absorbed through the elastic action of the second springs 4010, so that buffering of the bus bar 2 can be achieved.

In the fourth embodiment, on the basis of the first embodiment, the bus clamping and fixing mechanism 7 includes a column 701 located inside a chute 11, a vertical block 7010 is movably sleeved on the outer side of the column 701, the vertical block 7010 is movably clamped with the chute 11, a third spring 7011 is fixedly connected to the bottom of the vertical block 7010, the third spring 7011 is movably sleeved with the column 701, the top of the vertical block 7010 is fixedly connected with a side plate 6, two sleeves 703 are fixedly connected to two sides of an inner cavity of the housing 1, movable rods 708 are movably sleeved inside the two sleeves 703, one ends of the two movable rods 708 are fixedly connected with a movable plate 706, the movable plate 706 is located at the top of the supporting plate 301, the movable plate 706 is attached to the bus 2, one side of the movable plate 706 is fixedly connected with two fixed blocks 704, a connecting column is fixedly connected between the two fixed blocks 705, two rotating rods 707 are rotatably connected to the outer side of the connecting column, the top end of the rotating rod 707 is rotationally connected with the vertical blocks 7010, guide blocks 709 are fixedly connected in the middle of the bottoms of the two side plates 6, the two guide blocks 709 are movably clamped with the two guide grooves 13 respectively, the bottom ends of the guide blocks 709 extend to the inside of the guide grooves 13, limiting blocks 702 are fixedly connected to one sides, away from each other, of the two guide blocks 709, the two limiting blocks 702 are movably clamped with the two limiting grooves 12 respectively, one side of each limiting block 702 extends to the outer side of the shell 1, two vertical rods 10 are fixedly connected to two sides of the shell 1, the two vertical rods 10 are respectively attached to the two limiting blocks 702, bolts 8 are respectively installed on the front faces of the two vertical rods 10, the number of buses 2 is three, the buses 2 positioned in the middle are attached to the two clamping plates 402 positioned at the middle, and the two buses 2 positioned at the left side and the right side are attached to the movable plates 706 and the clamping plates 402;

firstly, the upper cover 5 is moved upwards, the side plate 6 is driven to move upwards, the vertical block 7010 is driven to move upwards, the third spring 7011 is stretched, meanwhile, the two movable plates 706 move at the top of the supporting plate 301 and are far away from each other through the action of the rotating rod 707 and the connecting column 704, the guide block 709 moves in the guide groove 13, the limiting block 702 moves in the limiting groove 12, the limiting block 702 and the vertical rod 10 are fixed through the bolts 8, the positions of the movable plates 706 are fixed, the bus 2 is placed in the supporting plate 301, the bus 2 is located between the two adjacent clamping plates 402, the bolts 8 on the two sides are loosened, the third spring 7011 resets and drives the vertical block 7010 to move downwards, the two movable plates 706 are driven to move and approach each other, the bus 2 can be clamped and fixed, and finally the bus 2 is installed.

Claims (3)

1. Busway based on surface coating protection, including shell (1), its characterized in that: bus bar supporting mechanisms (3) are arranged in the shell (1), bus bars (2) are arranged in the shell (1) at equal intervals, the bus bars (2) are arranged at the top of the bus bar supporting mechanisms (3), bus bar isolating mechanisms (4) are arranged in the shell (1), the bus bars (4) are arranged at the top of the bus bar supporting mechanisms (3), the bus bars (2) are connected with the bus bar isolating mechanisms (4), bus bar clamping and fixing mechanisms (7) arranged at the top of the bus bar supporting mechanisms (3) are arranged at two sides of an inner cavity of the shell (1), two sliding grooves (11) are formed in two sides of the top of the shell (1), guide grooves (13) are formed in two sides of the top of the shell (1), limit grooves (12) are communicated with the guide grooves (13), side plates (6) are arranged at two sides of the top of the shell (1), an upper cover (5) is fixedly connected between the two side plates (6), a rubber sleeve plate (9) is fixedly arranged at the bottom of the upper cover (5) at equal intervals, and the top of the bus bar (2) is movably clamped;

the bus supporting mechanism (3) comprises a supporting plate (301), supporting columns (302), first springs (303), radiating holes (304) and supporting cylinders (305), wherein the supporting plates (301) are located in the shell (1), the width value of the supporting plates (301) is equal to the width value of an inner cavity of the shell (1), bus bars (2), bus bar isolation mechanisms (4) and bus bar clamping and fixing mechanisms (7) are located at the tops of the supporting plates (301), the radiating holes (304) are distributed at the tops of the supporting plates (301) at equal intervals, the bottom ends of the supporting plates (301) are fixedly connected with the tops of the supporting columns (302), the supporting cylinders (305) are movably sleeved with the supporting columns (302), the bottom ends of the supporting columns (302) are fixedly connected with the bottom of the inner cavity of the shell (1), the first springs (303) are movably sleeved with the supporting columns (302), and the top ends of the first springs (303) are fixedly connected with the bottoms of the supporting columns (301);

the bus isolation mechanism (4) comprises two partition boards (401) positioned at the top of the supporting board (301), the bottoms of the two partition boards (401) are attached to the top of the supporting board (301), two movable blocks (405) are fixedly connected to two sides of the bottom of the two partition boards (401), the two movable blocks (405) on two sides are positioned on two sides of the supporting board (301), a connecting shaft (404) is movably connected to the inside of the movable blocks (405), two ends of the connecting shaft (404) are fixedly connected with mounting blocks (403), the mounting blocks (403) are fixedly connected with the supporting board (301), clamping boards (402) are mounted on two sides of the two partition boards (401), and the bus (2) is attached to the clamping boards (402);

the two sides of the partition plate (401) are provided with grooves (408), the inside of each groove (408) is fixedly connected with a cross rod (407), two sliding blocks (409) are movably sleeved on the outer sides of the cross rods (407), a second spring (4010) is fixedly connected to one side, away from each other, of each sliding block (409), the two second springs (4010) are movably sleeved on the cross rods (407), a rotating plate (406) is rotatably connected to one side of each sliding block (409), and one ends of the two rotating plates (406) are rotatably connected with the clamping plates (402);

the bus clamping and fixing mechanism (7) comprises a stand column (701) positioned in the chute (11), a vertical block (7010) is movably sleeved on the outer side of the stand column (701), the vertical block (7010) is movably clamped with the chute (11), a third spring (7011) is fixedly connected to the bottom of the vertical block (7010), the third spring (7011) is movably sleeved with the stand column (701), and the top of the vertical block (7010) is fixedly connected with the side plate (6);

two sleeves (703) are fixedly connected to two sides of an inner cavity of the shell (1), movable rods (708) are movably sleeved in the two sleeves (703), one ends of the two movable rods (708) are fixedly connected with movable plates (706), the movable plates (706) are located at the top of the supporting plate (301), and the movable plates (706) are attached to the bus (2);

two fixed blocks (705) are fixedly connected to one side of the movable plate (706), a connecting column (704) is fixedly connected between the two fixed blocks (705), two rotating rods (707) are rotatably connected to the outer side of the connecting column (704), and the top ends of the rotating rods (707) are rotatably connected with the vertical blocks (7010);

two equal fixedly connected with guide block (709) in the middle of the bottom of curb plate (6), two guide blocks (709) respectively with two guide slot (13) activity joint, the bottom of guide block (709) extends to the inside of guide slot (13), one side that two guide blocks (709) kept away from each other is equal fixedly connected with stopper (702), two stopper (702) respectively with two spacing groove (12) activity joint, one side of stopper (702) extends to the outside of shell (1).

2. The bus duct based on surface coating protection of claim 1, wherein: two sides of the shell (1) are fixedly connected with vertical rods (10), the two vertical rods (10) are respectively attached to the two limiting blocks (702), and bolts (8) are arranged on the front faces of the two vertical rods (10).

3. The bus duct based on surface coating protection of claim 1, wherein: the number of the buses (2) is three, the buses (2) positioned in the middle are attached to the two clamping plates (402) positioned in the middle, and the two buses (2) positioned on the left side and the right side are attached to the movable plate (706) and the clamping plates (402).