阅读说明：本技术 一种10kV的拼装式母线桥架设备及其组装方法 (10kV assembled bus bridge frame equipment and assembling method thereof ) 是由 孙弘 赵正红 于 2021-08-04 设计创作，主要内容包括：本发明公开了一种10kV的拼装式母线桥架设备及其组装方法,属于母线桥架技术领域,包括桥架本体,桥架本体的一端焊接有扩口部,另一端为窄口部,桥架本体通过扩口部与窄口部连接,用于多段嵌插拼接,桥架本体的顶部沿长度方向开设有条形槽,桥架本体上安装有用于悬挂的支撑组件。本发明提出的一种10kV的拼装式母线桥架设备及其组装方法,通过多组的齿口与三角齿之间交错的连接,避免脱离；第一连杆和第二连杆可以绕第一滑块和第二滑块旋转,利用两侧斜面的推力推动第一夹板和第二夹板朝相反的位置移动,将弹簧拉长,直至限位杆完全插入第一夹板和第二夹板内,利用第一夹板和第二夹板夹住限位杆,提高装配的效率,并且连接具有一定的强度,避免脱离。(The invention discloses a 10kV assembled bus bridge frame device and an assembling method thereof, and belongs to the technical field of bus bridge frames. According to the 10kV assembled bus bridge frame equipment and the assembling method thereof, the separation is avoided through the staggered connection between the tooth openings and the triangular teeth; first connecting rod and second connecting rod can be rotatory around first slider and second slider, utilize the thrust on both sides inclined plane to promote first splint and second splint and move towards opposite position, elongate the spring, until the gag lever post inserts first splint and second splint completely in, utilize first splint and second splint to carry the gag lever post, improve the efficiency of assembly to the connection has certain intensity, avoids breaking away from.)

1. The utility model provides a 10 kV's pin-connected panel generating line crane span structure equipment, a serial communication port, including crane span structure body (1), the one end welding of crane span structure body (1) has flaring portion (2), and the other end is the tang portion, and crane span structure body (1) is connected with the tang portion through flaring portion (2) for the multistage inlays to insert the concatenation, and bar groove (11) have been seted up along length direction at the top of crane span structure body (1), installs supporting component (3) that are used for hanging on crane span structure body (1).

2. The 10kV assembled bus bridge frame equipment as claimed in claim 1, wherein the support assembly (3) comprises a left cantilever (31), a right cantilever (32), a supporting plate (33) and a wall plate (34), grooves (35) are formed in the opposite surfaces of the left cantilever (31) and the right cantilever (32), the top ends of the left cantilever (31) and the right cantilever (32) are welded with the wall plate (34), and a row of triangular teeth (351) are fixed on the two inner walls of each groove (35);

teeth (331) are welded at two ends of the top surface of the supporting plate (33), tooth mouths on two sides of the teeth (331) are complementary to the triangular teeth (351), the teeth (331) are inserted into the grooves (35), and tooth mouths on two sides are embedded into the triangular teeth (351) and used for fixing the supporting plate (33);

the left cantilever (31) and the right cantilever (32) are further processed with a limiting hole (36) communicated with the groove (35) along the length direction, the tooth (331) is processed with a screw hole (3311) which is not smaller than a group, wherein the screw hole (3311) is symmetrical to the limiting hole (36), and bolts on the outer sides of the left cantilever (31) and the right cantilever (32) penetrate through the limiting hole (36) to be meshed with the screw hole (3311).

3. The 10kV assembled bus bridge frame device as claimed in claim 2, wherein the caliber of the flared part (2) is larger than the caliber of the other end of the same bridge frame body (1), the later bridge frame body (1) is inserted into the flared part (2) of the previous bridge frame body (1) for splicing a plurality of bridge frame bodies (1), and a limiting component (4) is installed in the flared part (2) for improving the splicing firmness of the two bridge frame bodies (1).

4. The 10kV assembled bus bridge frame device according to claim 3, wherein the limiting assembly (4) is provided with four groups of limiting rods (41), a baffle (42), a limiting plate (43), a first sliding block (44), a second sliding block (45), a spring (46), a first clamping plate (47) and a second clamping plate (48), the limiting assembly (4) comprises a limiting rod (41), a baffle plate (42), a limiting plate (43), the first sliding block (44), the second sliding block (45), the spring (46), the first clamping plate (47) and the second clamping plate (48), the baffle plate (42) and the limiting plate (43) are fixed on the flared portion (2) beside the baffle plate (42), a pin shaft is further fixed on the flared portion (2), and one end of the first clamping plate (47) and one end of the second clamping plate (48) are penetrated through the pin shaft;

the two ends of the spring (46) are connected between the first sliding block (44) and the second sliding block (45), one ends of the first sliding block (44) and the second sliding block (45) are clamped into the sliding groove of the baffle (42), the first sliding block (44) and the second sliding block (45) are respectively and movably connected with a first connecting rod (5) and a second connecting rod (6), and the ports of the first connecting rod (5) and the second connecting rod (6) are movably connected with the outer walls of the first clamping plate (47) and the second clamping plate (48).

5. The split type bus bridge frame equipment of 10kV as claimed in claim 4, wherein the limiting rods (41) are fixed on four outer walls of the narrow opening of the bridge frame body (1), triangular tips (411) are fixed on end faces, facing the first clamping plate (47) and the second clamping plate (48), of the limiting rods (41), and triangular grooves for the triangular tips (411) to insert are formed at two contacted ends of the first clamping plate (47) and the second clamping plate (48).

6. The assembled bus bridge frame equipment of claim 5, wherein the bridge frame body (1) is made of linear, L-shaped and Z-shaped stainless steel components.

7. The method for assembling the 10kV assembled bus bridge frame device as claimed in claim 6, wherein the method comprises the following steps:

s1: measuring and determining the distance between the support assemblies (3), firstly fixing a row of left cantilevers (31) on a wall, and inserting one end of a supporting plate (33) into the left cantilevers (31) and fixing the supporting plate by using bolts;

s2: the right cantilever (32) is fixed at the other end of the supporting plate (33) to complete the assembly of the supporting component (3);

s3: the bridge body (1) at the later section is inserted into the bridge body (1) at the later section, wherein in the inserting process, the limiting rod (41) pushes the first clamping plate (47) and the second clamping plate (48) to be outwards opened, the first sliding block (44) and the second sliding block (45) oppositely slide along the limiting plate (43), and the spring (46) is stretched until the limiting rod (41) is inserted between the first clamping plate (47) and the second clamping plate (48);

s4: the multi-section bridge frame body (1) is inserted between the left cantilever (31) and the right cantilever (32) and is supported by the supporting plate (33).

Technical Field

The invention relates to the technical field of bus bridges, in particular to 10kV assembled bus bridge equipment and an assembling method thereof.

Background

And high-quality insulating materials are used in the bus bridge, so that the safety and reliability of the bus bridge are improved, and the whole system is more complete. The bus bridge frame is a novel distribution conductor, compared with the traditional cable, the bus bridge frame fully shows the superiority of the bus bridge frame during large current transmission, simultaneously, because of adopting new technology and new process, the contact resistance and the temperature rise at the joint of two end parts of the bus duct and the splicing part of the branching port which are greatly reduced are increased, along with the emergence of modern engineering facilities and equipment, the power consumption of all industries is rapidly increased, especially the appearance of numerous high-rise buildings and large-scale factory workshops, the requirements can not be met in the traditional cable large current transmission system serving as a transmission conductor, and the parallel connection of a plurality of cables brings inconvenience for field installation construction connection.

CN201821095403.9 has announced the high generating line crane span structure of joint strength, through last shrouding, side seal board and the square neck bolt that sets up, has guaranteed the joint strength of crane span structure shell, through the first mounting hole and the first long rectangular hole that set up for during the installation, avoid rectangular hole and the not corresponding phenomenon of mounting hole to take place, it is more convenient to use.

CN202020976728.9 has disclosed a bus bridge with safeguard function, will indirectly drive installation piece extrusion fixture block when moving through the button, at this moment, the fixture block will extrude compression spring, thereby can take out the arc fixture block from the inside of arc draw-in groove, can accomplish the dismantlement that the protection was filled up, during the installation, only need insert the inside of arc draw-in groove with the arc fixture block, make fixture block and logical groove accomplish the joint, can accomplish the installation that the protection was filled up, it is simple swift, staff's time has greatly been saved, and then make the holistic flexibility of device improve greatly.

There are the following problems:

the detachable bridge is connected in an assembling mode through bolts, and under certain humid environments, the bolts and the nuts are easy to rust, so that the bridge is inconvenient to detach.

The welded bridge frame needs to be cut on site during disassembly, so that the disassembly amount is increased.

Disclosure of Invention

The invention aims to provide 10kV assembled bus bridge frame equipment and an assembling method thereof, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a pin-connected panel generating line crane span structure equipment of 10kV, includes the crane span structure body, and the one end welding of crane span structure body has the flaring portion, and the other end is the slot portion, and the crane span structure body passes through the flaring portion to be connected with the slot portion for the multistage inlays to insert the concatenation, and the bar groove has been seted up along length direction in the top of crane span structure body, installs the supporting component who is used for hanging on the crane span structure body.

Furthermore, the supporting assembly comprises a left cantilever, a right cantilever, a supporting plate and a wallboard, grooves are formed in the opposite surfaces of the left cantilever and the right cantilever, the top ends of the left cantilever and the right cantilever are welded with the wallboard, and a row of triangular teeth are fixed on the two inner walls of each groove;

teeth are welded at two ends of the top surface of the supporting plate, tooth mouths on two sides of the teeth are complementary to the triangular teeth, the teeth are inserted into the grooves, and the tooth mouths on two sides are embedded into the triangular teeth and used for fixing the supporting plate;

the left cantilever and the right cantilever are further provided with limiting holes communicated with the grooves along the length direction, the tooth is provided with a group of screw holes, the screw holes are symmetrical to the limiting holes, and bolts on the outer sides of the left cantilever and the right cantilever penetrate through the limiting holes to be meshed with the screw holes.

Furthermore, the caliber of the flaring part is larger than that of the other end of the bridge body, the later bridge body is inserted into the flaring part of the former bridge body and used for splicing the multiple sections of bridge bodies, and the limiting assembly is arranged in the flaring part and used for improving the splicing firmness of the two sections of bridge bodies.

Furthermore, the limiting assembly is provided with four groups of limiting rods, a baffle, a limiting plate, a first sliding block, a second sliding block, a spring, a first clamping plate and a second clamping plate, the four groups of limiting components are respectively positioned on the four inner walls of the flared part, the baffle and the limiting plate are fixed on the flared part side by side, a pin shaft is further fixed on the flared part beside the baffle, and one end of each of the first clamping plate and the second clamping plate is penetrated through by the pin shaft;

the both ends of spring connect between first slider and second slider, in the spout of baffle is gone into to the one end card of first slider and second slider, swing joint has first connecting rod and second connecting rod respectively on first slider and the second slider, the port of first connecting rod and second connecting rod and the outer wall swing joint of first splint and second splint.

Furthermore, the gag lever post is fixed on the four outer walls of crane span structure body slot portion, is fixed with the triangle tip on the gag lever post towards the terminal surface of first splint and second splint, and the both ends of first splint and the contact of second splint form the triangle groove that supplies triangle tip male.

Further, the bridge frame body is a linear type, an L-shaped stainless steel component and a Z-shaped stainless steel component.

The invention discloses another technology, which comprises an assembling method of 10kV assembled bus bridge frame equipment, and comprises the following steps:

s1: measuring and determining the distance between the support assemblies, fixing a row of left cantilevers on a wall, and inserting one end of a supporting plate into the left cantilevers and fixing the supporting plate by using bolts;

s2: the right cantilever is fixed at the other end of the supporting plate to complete the assembly of the supporting component;

s3: the bridge body at the later section is inserted into the bridge body at the later section, wherein in the inserting process, the limiting rod pushes the first clamping plate and the second clamping plate to be outwards opened, the first sliding block and the second sliding block oppositely slide along the limiting plate, and the spring is stretched until the limiting rod is inserted between the first clamping plate and the second clamping plate;

s4: the multi-section bridge frame body is inserted between the left cantilever and the right cantilever and is supported by the supporting plate.

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

the invention provides a 10kV assembled bus bridge frame device and an assembling method thereof.A bridge frame body is connected with a narrow opening part through a flared part, and a row of triangular teeth are fixed on two inner walls of a groove; the separation is avoided through the staggered connection between the tooth openings and the triangular teeth; first connecting rod and second connecting rod can be rotatory around first slider and second slider, utilize the thrust on both sides inclined plane to promote first splint and second splint and move towards opposite position, first slider and second slider move towards opposite position, stretch the spring, until the gag lever post inserts first splint and second splint completely in, utilize first splint and second splint to carry the gag lever post, improve the efficiency of assembly, and the connection has certain intensity, avoid breaking away from.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 2 in accordance with the present invention;

FIG. 4 is a view of the tooth and triangular tooth connection of the present invention;

FIG. 5 is an assembled view of the spacing assembly of the present invention;

FIG. 6 is an assembled state view of the spacing assembly of the present invention;

fig. 7 is a structural view of the bridge body of the present invention.

In the figure: 1. a bridge frame body; 11. a strip-shaped groove; 2. a flared part; 3. a support assembly; 31. a left cantilever; 32. a right cantilever; 33. a support plate; 331. teeth; 3311. a screw hole; 34. a wallboard; 35. a groove; 351. triangular teeth; 36. a limiting hole; 4. a limiting component; 41. a limiting rod; 411. a triangular tip; 42. a baffle plate; 43. a limiting plate; 44. a first slider; 45. a second slider; 46. a spring; 47. a first splint; 48. a second splint; 5. a first link; 6. a second link.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, a 10kV assembled bus bridge apparatus includes a bridge body 1, one end of the bridge body 1 is welded with an expanded portion 2, the other end is a narrow portion, the bridge body 1 is connected with the narrow portion through the expanded portion 2, the expanded portion 2 is used for inserting the narrow portion for multi-section inserting and splicing, a strip-shaped groove 11 is formed in the top of the bridge body 1 along the length direction, and a supporting component 3 for hanging is installed on the bridge body 1.

Supporting component 3 includes left cantilever 31, right cantilever 32, layer board 33 and wallboard 34, processes fluted 35 on the opposite face of left cantilever 31 and right cantilever 32, and the top and the wallboard 34 welding of left cantilever 31 and right cantilever 32, wallboard 34 are used for being connected with the wall crown to there is the wall crown to connect through the expansion bolts who runs through, are fixed with one row of triangle tooth 351 on two inner walls of recess 35.

Referring to fig. 3-4, two ends of the top surface of the supporting plate 33 are welded with teeth 331, the teeth 331 are perpendicular to the supporting plate 33, tooth openings on two sides of the teeth 331 are complementary to the triangular teeth 351, the teeth 331 are inserted into the grooves 35, the tooth openings on two sides are embedded into the triangular teeth 351 to fix the supporting plate 33, the teeth 331 on two sides are inserted into the triangular teeth 351, and the tooth openings and the triangular teeth 351 are connected in a staggered manner to avoid separation.

The left cantilever 31 and the right cantilever 32 are also provided with a limiting hole 36 communicated with the groove 35 along the length direction, the teeth 331 are provided with a plurality of screw holes 3311, wherein the screw holes 3311 are symmetrical to the limiting hole 36, the bolts on the outer sides of the left cantilever 31 and the right cantilever 32 pass through the limiting hole 36 to be meshed with the screw holes 3311, the left cantilever 31 and the right cantilever 32 are fixed with the supporting plate 33 through the bolts, and the assembly is completed.

The caliber of the flaring part 2 is larger than the caliber of the other end of the same bridge body 1, the later bridge body 1 is inserted into the flaring part 2 of the former bridge body 1 for splicing the multi-section bridge body 1, and the limiting component 4 is installed in the flaring part 2 for improving the splicing firmness of the two bridge bodies 1.

Referring to fig. 5-6, the limiting assembly 4 is provided with four sets of four inner walls respectively located on the flared portion 2, the limiting assembly 4 includes a limiting rod 41, a baffle 42, a limiting plate 43, a first slider 44, a second slider 45, a spring 46, a first clamp plate 47 and a second clamp plate 48, the baffle 42 and the limiting plate 43 are fixed on the flared portion 2 side by side, a pin shaft is further fixed on the flared portion 2 beside the baffle 42, one end of the first clamp plate 47 and one end of the second clamp plate 48 are penetrated by the pin shaft, the first clamp plate 47 and the second clamp plate 48 can rotate around the pin shaft, and the length of the pin shaft is smaller than the thickness of the first clamp plate 47 and the second clamp plate 48.

The two ends of the spring 46 are connected between the first slider 44 and the second slider 45, one end of the first slider 44 and one end of the second slider 45 are clamped in the sliding groove of the baffle 42, the first slider 44 and the second slider 45 can slide in the baffle 42 without being separated, the first slider 44 and the second slider 45 are respectively and movably connected with the first connecting rod 5 and the second connecting rod 6, the first connecting rod 5 and the second connecting rod 6 can rotate around the first slider 44 and the second slider 45, the ports of the first connecting rod 5 and the second connecting rod 6 are movably connected with the outer walls of the first clamping plate 47 and the second clamping plate 48, and the first clamping plate 47 and the second clamping plate 48 can rotate around the first connecting rod 5 and the second connecting rod 6.

The limiting rod 41 is fixed on the four outer walls of the narrow opening part of the bridge body 1, the end faces, facing the first clamping plate 47 and the second clamping plate 48, of the limiting rod 41 are fixed with triangular tips 411, triangular grooves for inserting the triangular tips 411 are formed at two contacted ends of the first clamping plate 47 and the second clamping plate 48, the triangular tips 411 are inserted into the first clamping plate 47 and the second clamping plate 48, the first clamping plate 47 and the second clamping plate 48 are pushed to move towards opposite positions by thrust of inclined planes at two sides, the first sliding block 44 and the second sliding block 45 move towards opposite positions, the spring 46 is stretched until the limiting rod 41 is completely inserted into the first clamping plate 47 and the second clamping plate 48, the limiting rod 41 is clamped by the first clamping plate 47 and the second clamping plate 48, the assembling efficiency is improved, and the connection has certain strength and avoids separation.

Referring to fig. 7, the bridge body 1 is made of linear, L-shaped and Z-shaped stainless steel members, and is applied to corner and slope environments through a plurality of sets of bridge bodies 1.

An assembling method of 10kV assembled bus bridge frame equipment comprises the following steps:

the method comprises the following steps: measuring and determining the distance between the support components 3, firstly fixing a row of left cantilevers 31 on a wall, and inserting one end of a supporting plate 33 into the left cantilevers 31 to be fixed by bolts;

step two: the right cantilever 32 is fixed at the other end of the supporting plate 33 to complete the assembly of the supporting component 3;

step three: the bridge body 1 of the latter section is inserted into the bridge body 1 of the latter section, wherein during the insertion process, the limiting rod 41 pushes the first clamping plate 47 and the second clamping plate 48 to expand outwards, the first sliding block 44 and the second sliding block 45 slide along the limiting plate 43 oppositely, and the spring 46 is stretched until the limiting rod 41 is inserted between the first clamping plate 47 and the second clamping plate 48;

step four: the multi-segment bridge body 1 is inserted between the left cantilever 31 and the right cantilever 32 and is supported by the supporting plate 33.

In conclusion; according to the 10kV assembled bus bridge frame equipment, a bridge frame body 1 is connected with a narrow opening part through an expanding part 2, the expanding part 2 is used for inserting the narrow opening part and is used for multi-section inserting and splicing, a wall plate 34 is used for being connected with a wall top and is connected with the wall top through a penetrating expansion bolt, and a row of triangular teeth 351 are fixed on two inner walls of a groove 35; the separation is avoided through the staggered connection between the groups of tooth openings and the triangular teeth 351; the first link 5 and the second link 6 can rotate around the first slider 44 and the second slider 45, push the first clamping plate 47 and the second clamping plate 48 to move towards opposite positions by the thrust of the inclined surfaces at both sides, move the first slider 44 and the second slider 45 towards opposite positions, elongate the spring 46 until the limiting rod 41 is completely inserted into the first clamping plate 47 and the second clamping plate 48, clamp the limiting rod 41 by the first clamping plate 47 and the second clamping plate 48, improve the assembly efficiency, and have certain strength to avoid separation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.