CN115693557A - Energy-saving consumption-reducing type power transmission bus section bar and installation method thereof - Google Patents

Abstract

The utility model relates to an energy saving and consumption reduction type transmission of electricity generating line section bar relates to the field of bus duct, including casing, electrically conductive row and bellows, seted up the mounting hole in the casing, the mounting hole runs through the casing, electrically conductive row sets up to a plurality ofly, all overlaps on a plurality of electrically conductive row and is equipped with insulating skin, and a plurality of electrically conductive row pile up the range and pass the mounting hole, and the bellows cover is established on the kink portion of electrically conductive row, and the bellows setting is between two adjacent casings. This application has the effect of promoting the efficiency of laying sinuous circuit.

Description

Energy-saving consumption-reducing type power transmission bus section bar and installation method thereof

Technical Field

The application relates to the field of bus ducts, in particular to an energy-saving and consumption-reducing type power transmission bus section.

Background

Busways are closed metal devices made of copper or aluminum busway posts that distribute large power to the various components of the decentralized system. In the field of power transmission, bus ducts are widely used and are gradually replacing wires and cables.

Relevant bus duct structure includes the casing and leads electrical drainage, logical groove has been seted up at the casing middle part, the casing uses the metal material who has good heat conductivity to make, it uses the alloy of copper or aluminium to make to lead electrical drainage, it is the rectangular plate structure to lead electrical drainage, a plurality of lead electrical drainage pile up and set up in the logical groove of casing, it is provided with the insulating layer to lead electrical drainage outward, the insulating layer sets up between leading electrical drainage and leads electrical drainage and casing between, it plays the effect of carrying current to lead electrical drainage, the user of service sets up electrical apparatus through leading electrical drainage both ends, can make a plurality of lead electrical drainage in the casing play the effect of carrying current.

When a circuit is laid by using the bus ducts, when the extending direction of the bus ducts is changed, the two bus ducts are required to be arranged in an angle mode, and a conductor is required to be arranged between the two bus ducts, so that the time consumption of the operation of laying the circuit is large.

Disclosure of Invention

In order to improve the efficiency of laying a winding circuit, the application provides an energy-saving consumption-reducing type power transmission bus bar profile and an installation method thereof.

The application provides an energy saving and consumption reduction type transmission bus section bar adopts following technical scheme:

the utility model provides an energy saving and consumption reduction type transmission of electricity generating line section bar, includes the casing, leads electrical drainage and bellows, has seted up the mounting hole in the casing, and the mounting hole runs through the casing, leads electrical drainage and sets up to a plurality ofly, all overlaps on a plurality of electrical drainage to be equipped with insulating skin, and a plurality of electrical drainage pile up to arrange and pass the mounting hole, and bellows cover is established on the kink portion of leading electrical drainage, and the bellows setting is between two adjacent casings.

Through adopting above-mentioned technical scheme, through set up the casing outside electrically conductive row, the user can fix the casing on the wall body, establish the bellows through the cover on electrically conductive row, make the bellows play the effect of isolated electrically conductive row, can reduce the probability that the user contacted electrically conductive row, the user can measure the circuit and lay the circuit, thereby buckle electrically conductive row, establish the bellows again on electrically conductive row cover, fix the casing on the wall body at last, thereby make electrically conductive row can meander the setting on the wall body, be two electrically conductive row body couplings of angle mutually, can reduce the step of electrically connecting two electrically conductive rows, thereby promote the efficiency of laying the circuit.

Optionally, the casing includes a first sleeve piece and a second sleeve piece, the first sleeve piece and the second sleeve piece are detachably connected, through grooves are formed in the first sleeve piece and the second sleeve piece, and the through grooves of the first sleeve piece and the second sleeve piece are spliced to form the mounting hole.

Through adopting above-mentioned technical scheme, can dismantle the connection through making external member one and external member two, the user can buckle and lead electrical drainage and install the casing on leading electrical drainage, and the user can install the casing of different length on leading electrical drainage in proper order after confirming the length of a plurality of casings on leading electrical drainage through the measurement to facilitate the use.

Optionally, heat-conducting silica gel is arranged on the first sleeve piece and the second sleeve piece, the heat-conducting silica gel is arranged in the through grooves of the first sleeve piece and the second sleeve piece, and the heat-conducting silica gel is used for being attached to the electric conduction bar.

Through adopting above-mentioned technical scheme, through set up heat conduction silica gel on external member one and external member two, make heat conduction silica gel can solidify and form the filling layer, the user scribbles heat conduction silica gel back on external member one and external member two, install external member one and external member two on leading electrical drainage, can make the heat conduction silica gel laminating on leading electrical drainage, and then make the casing carry out the heat exchange through heat conduction silica gel with leading electrical drainage, can promote casing radiating efficiency.

Optionally, an insulating heat conducting fin is arranged between the conductive bars, the insulating heat conducting fin is arranged in the corrugated pipe, and the insulating heat conducting fin is connected with the shell.

Through adopting above-mentioned technical scheme, through set up insulating conducting strip between leading electrical drainage, make insulating conducting strip can carry out the heat exchange with leading electrical drainage, insulating conducting strip can be with leading the heat transfer that electrical drainage produced when circular telegram to the casing on, and then make the row that leads that is arranged in the bellows can dispel the heat through the casing.

Optionally, the conductive bar is sleeved with a non-woven fabric, the non-woven fabric is of a cylindrical structure and is located in the corrugated pipe, and the plurality of conductive bars are located in the non-woven fabric.

Through adopting above-mentioned technical scheme, establish the non-woven fabrics through at electrically conductive row overcoat, make the non-woven fabrics parcel outside electrically conductive row to make a plurality of electrically conductive rows can connect through the non-woven fabrics ligature, the user of service can use equipment buckle a plurality of electrically conductive rows simultaneously, the non-woven fabrics plays the effect that the electrically conductive row of protection, can reduce the probability that the electrically conductive row of moisture erosion in the air.

Optionally, an insulating heat conduction layer is arranged between the shell and the corrugated pipe, the insulating heat conduction layer is formed by solidifying heat conduction silicone grease, and the insulating heat conduction layer is connected with the insulating heat conduction sheet and the shell.

By adopting the technical scheme, the insulating heat conduction layer is arranged between the shell and the corrugated pipe, so that the insulating heat conduction layer can be connected with the insulating heat conduction sheet and the shell, and the insulating heat conduction sheet can exchange heat with the shell.

Optionally, the corrugated pipe is detachably connected with a clamping mechanism, the clamping mechanism comprises a connecting piece and a supporting piece, the connecting piece is connected with the supporting piece, the connecting piece is used for being installed on a wall body, the supporting piece is arranged to be of an arc-shaped plate structure, the supporting piece has elasticity, the arc formed by the supporting piece is an arc, and the supporting piece is used for being clamped on the corrugated pipe.

Through adopting above-mentioned technical scheme, through set up clamping mechanism on the bellows, the user can with support piece card on the bellows and install the connecting piece on the wall body to make clamping mechanism support the bent part of leading electrical drainage, and then make to lead electrical drainage can stable connection on the wall body.

The installation method of the energy-saving consumption-reducing type power transmission bus section bar adopts the following technical scheme:

an installation method of an energy-saving consumption-reducing type transmission bus section bar comprises the following steps:

s1: using personnel to examine the installation environment of the conductive bar to be laid on the spot, determining the installation position and the bending condition of the conductive bar, and further determining the lengths and the connection relations of a plurality of shells and corrugated pipes on the conductive bar;

s2: processing the shell to a specific length, installing the shell on the conducting bar, and arranging a corrugated pipe between adjacent shells to enable the shells and the corrugated pipe to wrap the conducting bar;

s3: the end part of the corrugated pipe is provided with an insulating heat conduction layer, so that the insulating heat conduction layer can be connected between the insulating heat conduction sheet and the shell;

s4: bending the conductive bar, mounting the shells on the wall body, and enabling the shells to be arranged at an angle with each other to bend the corrugated pipe to form a radian;

s5: and a clamping mechanism is arranged on the wall body, so that the clamping mechanism can be clamped on the corrugated pipe and supports the corrugated pipe and the conductive bar.

Through adopting above-mentioned technical scheme, through the extending direction and the extension length of measuring electrically conductive row, the user can buckle out the radian on the relevant position of electrically conductive row, and then make electrically conductive row can meander and set up and communicate on electrical apparatus, through set up a plurality of casings on electrically conductive row, user can be with casing fixed connection on the wall body, make the bellows cover establish the curved part at electrically conductive row, and then reduce the step of mutually connecting two electrically conductive rows, can promote the efficiency of construction.

To sum up, the beneficial technical effect of this application does:

1. the shell is arranged outside the conductive bar, a user can fix the shell on a wall body, the corrugated pipe is sleeved on the conductive bar, so that the corrugated pipe has the effect of isolating the conductive bar, the probability that the user contacts the conductive bar can be reduced, the user can measure a circuit laying line, the conductive bar is bent, the corrugated pipe is sleeved on the conductive bar, and finally the shell is fixed on the wall body, so that the conductive bar can be arranged on the wall body in a winding manner, the two conductive bars which are mutually angled are integrally connected, the step of electrically connecting the two conductive bars can be reduced, and the efficiency of laying the circuit is improved;

2. the first sleeve piece and the second sleeve piece are provided with the heat-conducting silica gel, so that the heat-conducting silica gel can be solidified and form a filling layer, a user coats the first sleeve piece and the second sleeve piece with the heat-conducting silica gel, then the first sleeve piece and the second sleeve piece are arranged on the electric conduction bar, the heat-conducting silica gel can be attached to the electric conduction bar, and then the shell and the electric conduction bar exchange heat through the heat-conducting silica gel, so that the heat dissipation efficiency of the shell can be improved;

3. through set up latch mechanism on the bellows, the user can with support piece card on the bellows and install the connecting piece on the wall body to make latch mechanism support the bent part of leading electrical drainage, and then make to lead electrical drainage can stable connection on the wall body.

Drawings

Fig. 1 is a schematic view of the overall structure of embodiment 1 of the present application.

Fig. 2 is a schematic view of a mounting structure of the nonwoven fabric according to embodiment 1 of the present application.

Fig. 3 is a schematic view showing a connection relationship between the conductive bar and the insulating heat-conductive sheet according to embodiment 1 of the present application.

Fig. 4 is a schematic structural view of a latch mechanism according to embodiment 1 of the present application.

Fig. 5 is a schematic structural view of a housing according to embodiment 2 of the present application.

Reference numerals: 1. a housing; 11. a first kit; 12. a second sleeve member; 13. mounting holes; 2. a conductive bar; 3. a bellows; 31. non-woven fabrics; 32. an insulating heat-conducting sheet; 33. an insulating heat-conducting layer; 4. a clamping mechanism; 41. a connecting member; 42. and a support member.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

Example 1

The embodiment of the application discloses energy saving and consumption reduction type transmission bus section bar, refer to fig. 1, including casing 1, a plurality of electrically conductive row 2 and bellows 3, casing 1 uses the metal material that has good heat conductivity and structural strength to make, and casing 1 can use the aluminum product to make. A mounting hole 13 is formed in the shell 1, the mounting hole 13 is a through hole, the cross section of the mounting hole 13 is rectangular, and the plurality of conductive bars 2 penetrate through the shell 1 through the mounting hole 13. The conductive bars 2 are mutually stacked and penetrate through the shell 1, a user fixes the shell 1 on a wall surface through bolts, and the end parts of the conductive bars 2 are connected to different devices, so that the purpose of laying a circuit is achieved. Be provided with a plurality of casings 1 on the row 2 of leading electricity, the bellows 3 cover is established on leading the row 2 of leading electricity, and the both ends of bellows 3 are connected respectively at two adjacent casings 1 tip. The user is the angle with adjacent casing 1 and installs on the wall body, can make casing 1 drive bellows 3 and lead electrical drainage 2 and buckle, and then makes things convenient for the user to adjust the extending direction who leads electrical drainage 2, can reduce the construction step, promotes the efficiency of construction. The corrugated pipe 3 is sleeved outside the conductive bar 2, so that the probability of contact between a user and the surface of the conductive bar 2 is reduced, and the probability of accidents caused by electric leakage of the conductive bar 2 can be reduced.

Referring to fig. 2 and 3, the conductive bars 2 are strip-shaped structures having a width, the surfaces of the conductive bars 2 are attached to each other, an insulating heat conduction sheet 32 is disposed between adjacent conductive bars 2, and the insulating heat conduction sheet 32 may be made of heat conduction silica gel. The insulating heat-conducting sheet 32 is cut into a rectangular sheet structure and is disposed between two adjacent conductive bars 2. The insulating heat-conducting fin 32 has an insulating effect, so that the probability that adjacent conductive bars 2 are connected with each other due to the damaged skin is reduced, and the insulating heat-conducting fin 32 can transfer heat generated by the conductive bars 2 due to electrification. The non-woven fabric 31 is sleeved outside the conductive bar 2, and the non-woven fabric 31 is rolled into a cylindrical structure and sleeved on the conductive bar 2, so that the corrosion of moisture in the air to the surface of the conductive bar 2 is reduced. The corrugated pipe 3 is sleeved outside the non-woven fabric 31.

Referring to fig. 2 and 3, an insulating heat conduction layer 33 is arranged between the corrugated tube 3 and the housing 1, the insulating heat conduction layer 33 is formed by solidifying heat-conducting silicone grease, a user applies the heat-conducting silicone grease on the end of the non-woven fabric 31 to make the heat-conducting silicone grease contact with the end of the insulating heat conduction sheet 32, and then the housing 1 is abutted against the heat-conducting silicone grease, so that the insulating heat conduction layer 33 formed by solidifying the heat-conducting silicone grease can be connected with the insulating heat conduction sheet 32 and the housing 1, and further the insulating heat conduction sheet 32 can conduct heat on the surface of the conductive bar 2 to the housing 1, so that the conductive bar 2 in the corrugated tube 3 can dissipate heat through the housing 1, thereby reducing the temperature rise of the conductive bar 2, further reducing the resistance of the conductive bar 2, and achieving the effects of saving energy and reducing consumption.

Referring to fig. 4, a clamping mechanism 4 is detachably connected to the corrugated pipe 3, the clamping mechanism 4 is used for being installed on a wall, and the clamping mechanism 4 is used for supporting and lifting the corrugated pipe 3 and the conductive bar 2. The latch mechanism 4 includes a connecting member 41 and a supporting member 42, and the connecting member 41 is connected to the supporting member 42. Connecting piece 41 is the platelike structure, has seted up a plurality of through-holes that are used for construction bolt on the connecting piece 41, and support piece 42 is the arc structure, and support piece 42 uses and makes with elastic material, and support piece 42 cross section is the pitch arc for the major arc, and support piece 42 is used for the joint on bellows 3.

The implementation principle of the embodiment of the application is as follows: through set up a plurality of casings 1 on leading electrical drainage 2, make adjacent casing 1 pass through bellows 3 and connect, the user of service can be the angle with a plurality of casings 1 according to the operating mode and install on the wall body, promotes the efficiency of construction, through set up non-woven fabrics 31 and insulating conducting strip 32 in bellows 3, can promote bellows 3 to leading electrical drainage 2's guard action, reduces the probability that 2 electric leakages of electrical drainage caused the accident.

Example 2

The embodiment of the application discloses energy saving and consumption reduction type transmission of electricity generating line section bar, refer to fig. 5, on embodiment 1's basis, casing 1 includes external member 11 and external member two 12, and the connection can be dismantled to external member 11 and external member two 12, and the user of service can be processed casing 1 for specific length and install on leading electrical drainage 2 according to the operating mode to can conveniently install casing 1 with different length on leading electrical drainage 2 fast.

Referring to fig. 5, grooves are formed in the first sleeve part 11 and the second sleeve part 12, and the mounting hole 13 can be spliced by the groove of the first sleeve part 11 and the groove of the second sleeve part 12. Be provided with heat conduction silica gel in the recess on first external member 11 and the second external member 12, heat conduction silica gel can fill the space between first external member 11 and the second external member 12 of external member and the row 2 that electrically conducts, and then makes first external member 11 and the second external member 12 of external member can closely laminate on electrically conducting row 2, makes the heat conduction efficiency promotion of electrically conducting row 2 and casing 1.

The embodiment of the application discloses an installation method of an energy-saving consumption-reducing type power transmission bus section bar, which comprises the following steps:

s1: using personnel to examine the environment of the conductive bar 2 to be laid on the spot, determining the installation position and the bending condition of the conductive bar 2, and further determining the lengths and the connection relation of a plurality of shells 1 and corrugated pipes 3 on the conductive bar 2;

s2: the shell 1 is processed to a specific length, the shell 1 is installed on the conductive bars 2, the corrugated pipes 3 are arranged between the adjacent shells 1, the shell 1 and the corrugated pipes 3 wrap the conductive bars 2, the effect of protecting the conductive bars 2 is achieved, the probability of damage to the surfaces of the conductive bars 2 due to friction is reduced, the conductive bars 2 are bent, the number of nodes for connecting the conductive bars 2 can be reduced, and the number of processes for connecting the conductive bars 2 can be reduced;

s3: an insulating heat conduction layer 33 is arranged at the end part of the corrugated pipe 3, so that the insulating heat conduction layer 33 can be connected between the insulating heat conduction sheet 32 and the shell 1, the insulating heat conduction sheet 32 can transfer the heat on the surface of the strip-shaped conductive bar 2 to the shell 1, and the shell 1 has a heat dissipation effect;

s4: bending the conductive bars 2, bending the conductive bars 2 sleeved with the non-woven fabrics 31 into a specific radian through a bending device, mounting the shell 1 on a wall body, enabling the shells 1 to be arranged at an angle, and bending the corrugated pipe 3 into a radian, so that the turning positions of the conductive bars 2 are wrapped by the corrugated pipe 3;

s5: and a clamping mechanism 4 is arranged on the wall body, so that the clamping mechanism 4 can be clamped on the corrugated pipe 3 and supports the corrugated pipe 3 and the conductive bar 2.

The implementation principle of the embodiment of the application is as follows: through set up a plurality of casings 1 on leading electrical drainage 2, set up bellows 3 between casing 1, make a plurality of casings 1 can be the angle setting on the wall body, and then make 3 covers of bellows establish on the leading electrical drainage 2 of buckling, constructor need not to set up the parcel structure in the leading electrical drainage 2 department of turning, makes leading electrical drainage 2 can buckle the setting on the wall body, reaches the effect that promotes the efficiency of construction.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An energy-saving consumption-reducing type transmission bus section bar is characterized in that: including casing (1), electrically conduct row (2) and bellows (3), seted up mounting hole (13) in casing (1), casing (1) is run through in mounting hole (13), electrically conduct row (2) and set up to a plurality ofly, all overlap on a plurality of electrically conduct row (2) and be equipped with insulating skin, a plurality of electrically conduct row (2) pile up and arrange and pass mounting hole (13), bellows (3) cover is established on the kink portion of electrically conducting row (2), bellows (3) set up between two adjacent casings (1).

2. The energy-saving and consumption-reducing type transmission bus bar sectional material according to claim 1, characterized in that: the shell (1) comprises a first sleeve piece (11) and a second sleeve piece (12), the first sleeve piece (11) and the second sleeve piece (12) are detachably connected, through grooves are formed in the first sleeve piece (11) and the second sleeve piece (12), and the through grooves of the first sleeve piece (11) and the second sleeve piece (12) are spliced to form a mounting hole (13).

3. The energy-saving consumption-reducing type transmission bus bar profile according to claim 2, characterized in that: be provided with heat conduction silica gel on external member (11) and external member two (12), heat conduction silica gel sets up in the logical groove of external member one (11) and external member two (12), and heat conduction silica gel is used for laminating on electrically conductive row (2).

4. The energy-saving and consumption-reducing type transmission bus bar sectional material according to claim 1, characterized in that: insulating heat-conducting fins (32) are arranged between the conductive bars (2), the insulating heat-conducting fins (32) are arranged in the corrugated pipe (3), and the insulating heat-conducting fins (32) are connected with the shell (1).

5. The energy-saving consumption-reducing type transmission bus bar profile according to claim 4, characterized in that: the corrugated pipe is characterized in that a non-woven fabric (31) is sleeved outside the conductive bars (2), the non-woven fabric (31) is of a cylindrical structure, the non-woven fabric (31) is located in the corrugated pipe (3), and the conductive bars (2) are located in the non-woven fabric (31).

6. The energy-saving and consumption-reducing type transmission bus bar section bar according to claim 5, characterized in that: an insulating heat conduction layer (33) is arranged between the shell (1) and the corrugated pipe (3), the insulating heat conduction layer (33) is formed by solidifying heat conduction silicone grease, and the insulating heat conduction layer (33) is connected with the insulating heat conduction sheet (32) and the shell (1).

7. The energy-saving consumption-reducing type transmission bus bar profile according to claim 6, characterized in that: can dismantle on bellows (3) and be connected with clamping mechanism (4), clamping mechanism (4) are connected with support piece (42) including connecting piece (41), and connecting piece (41) are connected with support piece (42), and connecting piece (41) are used for installing on the wall body, and support piece (42) set up to the arc plate structure, and support piece (42) have elasticity, and support piece (42) arc that is the major arc, and support piece (42) are used for blocking on bellows (3).

8. An installation method of an energy-saving consumption-reducing type transmission bus bar section bar according to claim 7, characterized in that: the method comprises the following steps:

s1: using personnel to investigate the installation environment of the conductive bar (2) to be paved on the spot, determining the installation position and the bending condition of the conductive bar (2), and further determining the lengths and the connection relations of a plurality of shells (1) and corrugated pipes (3) on the conductive bar (2);

s2: processing the shell (1) to a specific length, installing the shell (1) on the conducting bar (2), and arranging a corrugated pipe (3) between the adjacent shells (1) to enable the shells (1) and the corrugated pipe (3) to wrap the conducting bar (2);

s3: an insulating heat conduction layer (33) is arranged at the end part of the corrugated pipe (3), so that the insulating heat conduction layer (33) can be connected between the insulating heat conduction sheet (32) and the shell (1);

s4: bending the conductive bar (2), installing the shell (1) on a wall body, enabling the shells (1) to be arranged at an angle, and bending the corrugated pipe (3) to form a radian;

s5: and a clamping mechanism (4) is arranged on the wall body, so that the clamping mechanism (4) can be clamped on the corrugated pipe (3) and supports the corrugated pipe (3) and the conductive bar (2).

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