RU160076U1 - ELECTRIC DISTRIBUTION BUS - Google Patents

Abstract

1. An electric distribution bus containing a long elastic insulating body, along the entire length of the inner surface of which there are many grooves that are part of the housing and an insulating substrate, and one groove is made with the possibility of fixing a neutral core, and at least one of the remaining grooves is made with the possibility of fixing the conductive core, while the groove has a U-shaped section, the inner part of which is beveled down. 2. The tire according to claim 1, characterized in that its housing has a contact device with a grounding conductor located above the grooves of a U-shaped section. 3. The tire according to claim 1, characterized in that the end inner surfaces of the housing have locking grooves configured to fix the current collector. 4. The tire according to claim 2, characterized in that below the fixing grooves perpendicular to the inner surface of the housing are L-shaped tides that are part of the housing and configured to seal the contact of the current collector and the housing of the electrical distribution bus when fixing the current collector. 5. The bus according to claim 4, characterized in that the veins for transmitting signals of the network systems of intelligent buildings are located on the outer surface of the tides. The tire according to claim 1, characterized in that the casing has a U-shaped or I-section. Tire 1, 2, 5, characterized in that a copper conductor is used as a core. 8. The tire according to claim 1, characterized in that the veins of the grooves of the U-shaped section are made with the possibility of coupling through contact elements with the corresponding connecting elements of the current collector. The tire according to claim 8, characterized in that the contact

Description

Technical field

The utility model relates to electrical engineering, namely to electrical distribution systems designed for the distribution and delivery of electrical energy, communication signals or other signals.

State of the art

The number of electrical appliances, as well as their total power is constantly growing. Equipment constantly “moves” from place to place, and any design project begins with determining the location of electricity consumers and access points to the electricity grid.

When laying internal wiring, as well as for installing various wiring products, gating of walls and other building structures is required. As a result, there are large economic costs, energy and human resources are spent, and the user characteristics of such systems are limited.

In addition, different countries use different standards for electrical connections and there is a problem of their compatibility.

The closest analogue of the claimed utility model is the current distribution bus disclosed in US 3753209 A1, publ. 08/14/1973. Known from the closest analogue, the bus includes a rigid aluminum casing, long flexible conductors and an insulating coating. Conductors are phase conductors that are energized during active operation and supply current to electrical consumers.

The closest analogue has mainly the following advantages:

- free connection of current collectors without limiting their number

- safe use of systems and load connections

- lack of open current collector contacts

- the ability to simultaneously use current collectors of various types.

The possibility of incorrect switching is also excluded.

The disadvantages of the analogues of the claimed utility model include the formation of surface discharge currents on the metal body of the product, more weight and costs for production and processing.

Disclosure of invention

The objective of the proposed technical solution is to develop an electrical distribution bus providing a simple, quick and reliable connection to the conductor, the housing configuration of which allows it to be bent laterally, i.e. generally based on the elasticity of the body material and its ability to hold contact.

The technical result of the utility model is to increase the reliability of fixing the conductive core while reducing weight and maintaining structural strength.

The specified technical result is achieved due to the fact that the electric distribution bus contains a long elastic insulating casing, along the entire length of the inner surface of which there are many grooves that are part of the casing and the insulating substrate, and one groove is made with the possibility of fixing the neutral core, and, at least at least one of the remaining grooves is made with the possibility of fixing the conductive core, while the groove has a U-shaped section, the inner part of which is beveled down.

The housing has a contact device with a grounding conductor located above the grooves of a U-shaped section.

The end inner surfaces of the housing have locking grooves configured to fix the current collector.

Below the fixing grooves, perpendicular to the inner surface of the housing, there are L-shaped ebbs that are part of the housing and are configured to seal the contact of the current collector and the housing of the electrical distribution bus when fixing the current collector. On the outer surface of the ebbs there are cores for transmitting signals from network systems of intelligent buildings.

The case has a U-shaped, I-section.

As a core, a copper conductor is used.

The veins of the grooves of the U-shaped section are made with the possibility of coupling through contact elements with the corresponding connecting elements of the current collector.

Contact elements are made in the form of knife or spring contacts with support plates.

The contact device is configured to be connected to a current collector.

As the material of the tire housing used polymer.

Brief Description of the Drawings

FIG. 1 - electric distribution bus with four cores.

FIG. 2 - electric distribution bus with eight cores.

FIG. 3 - electric distribution bus with a current collector.

1 - housing; 2 - neutral core; 3 - conductive core; 4 - grounding core; 5 - groove of a U-shaped section; 6 - fixing groove; 7 - ebbs; 8 - cores for signal transmission network systems of intelligent buildings; 9 - current collector.

DETAILED DESCRIPTION OF THE INVENTION An electric distribution bus contains an elongated elastic insulating body (1) providing strength and low weight of the structure, along the entire length of the inner surface of which there are many grooves (5), which are part of the body and the insulating substrate. Moreover, one groove (5) is made with the possibility of fixing the neutral core (2), and at least one of the remaining grooves (5) is made with the possibility of fixing the conductive core (3). In this case, the groove (5) has a U-shaped section, the inner part of which is beveled down and ensuring the reliability of the veins.

The housing (1) has a contact device with a grounding conductor (4) located above the grooves (5) of a U-shaped cross-section, which facilitates the connection of the grounding contact before the connection of the current-carrying contacts, and the current-carrying contacts are separated before the grounding contact opens.

The end inner surfaces of the housing (1) have fixing grooves (6), made with the possibility of fixing the current collector (9).

Below the fixing grooves (6), perpendicular to the inner surface of the housing (1), there are ebbs (7) of the L-shaped section, which are part of the housing (1) and made with the ability to seal the contact of the current collector (9) and the body (1) of the electrical distribution bus when fixing the current collector (9). Fixing grooves allow you to hold the mass of the lamp (for example) not due to electrical connections, and the possibility of incorrect switching is eliminated.

On the outer surface of the ebbs (7) there are cores (8) for transmitting signals from the network systems of intelligent buildings.

Case (1) has a U-shaped, I-beam or other section.

As a core (2), (3), (4), (8) use a copper conductor.

The veins (2), (3) of the grooves of the U-shaped section are made with the possibility of coupling through contact elements with the corresponding connecting elements of the current collector.

Contact elements are made in the form of knife or spring contacts with support plates.

The contact device is configured to be connected to a current collector (9).

As the material of the tire housing (1), a polymer is used.

Tires are designed for rooms with normal operating conditions for installation or installation, or hanging on walls and ceilings. To prepare the electrical distribution bus for operation, the housing (1) of the busbar is mounted on a wall or ceiling. Along the entire length of the bus set the required number of current collectors (9) with connecting elements. Then, at each current collector (9), with the help of a locking lever, the connecting elements are rotated 90 °, which engage with the contact elements of non-neutral (2), conductive (3) and protective (4) cores, while the current collector (9) is securely fixed in the locking grooves (6) and ebbs (7) in the selected position. Then the bus is connected to the electrical network, after which the bus is in working condition and is ready to connect the load. As current collectors applied - adapters, elements used for electrical connection and mechanical fastening of the lamp to the bus.

Thus, the proposed utility model allows to obtain an electric distribution bus having increased reliability of fixing the conductive core while reducing weight and maintaining structural strength.

A utility model has been disclosed above with reference to a specific embodiment. For specialists, other embodiments of the utility model that do not change its essence, as disclosed in the present description, may be obvious. Accordingly, a utility model should be considered limited in scope only by the following utility model formula.

Claims (11)

1. An electric distribution bus containing a long elastic insulating body, along the entire length of the inner surface of which there are many grooves that are part of the housing and an insulating substrate, and one groove is made with the possibility of fixing a neutral core, and at least one of the remaining grooves is made with the possibility of fixing the conductive core, while the groove has a U-shaped section, the inner part of which is beveled down. 2. The tire according to claim 1, characterized in that its housing has a contact device with a grounding conductor located above the grooves of a U-shaped section. 3. The tire according to claim 1, characterized in that the end inner surfaces of the housing have locking grooves made with the possibility of fixing the current collector. 4. The tire according to claim 2, characterized in that below the fixing grooves perpendicular to the inner surface of the housing are L-shaped tides that are part of the housing and are configured to seal the contact of the current collector and the housing of the electrical distribution bus when fixing the current collector. 5. The bus according to claim 4, characterized in that on the outer surface of the ebbs there are conductors for transmitting signals from the network systems of intelligent buildings. 6. The tire according to claim 1, characterized in that the casing has a U-shaped or I-section. 7. Tire according to claims 1, 2, 5, characterized in that a copper conductor is used as a core. 8. The tire according to claim 1, characterized in that the veins of the grooves of the U-shaped section are made with the possibility of coupling through contact elements with the corresponding connecting elements of the current collector. 9. The tire according to claim 8, characterized in that the contact elements are made in the form of knife or spring contacts with support plates. 10. The tire according to claim 2, characterized in that the contact device is configured to be connected to a current collector. 11. The tire according to claim 1, characterized in that a polymer is used as the tire body material.

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