RU111360U1 - ENERGY DISTRIBUTION ITEM - Google Patents

Abstract

 1. An energy distribution unit including a mounting plate for metering and protection devices, a support for mounting a mounting panel, characterized in that it is made in the form of an elevator, the support of which is made of a moving part and a fixed part, the moving part being made in the form of a carrying box with panels for installation and placement of devices, and the fixed part is made in the form of a well and is designed to accommodate a movable part in it, a drainage layer is made at the bottom of the well, a shell with a bottom is installed in the well, and the bearing core b is equipped with a vertical movement mechanism and a base on which the rollers are mounted, and guides for moving the rollers are placed on the inner surface of the shell, the vertical movement of the carrier box being made in the form of a screw pair, and the shell bottom is made with drainage windows and placed on the drainage layer . ! 2. The power distribution point according to claim 1, characterized in that the vertical movement mechanism of the carrier box is made in the form of a threaded rod, which is rigidly fixed to the bottom of the shell, and a hollow shaft with a nut, which is located in the carrier box, and the base of the carrier box is placed on the nut hollow shaft. ! 3. The power distribution point according to claim 1, characterized in that the drive of the vertical movement mechanism of the carrier box is made electric, or hydraulic, or pneumatic, or in the form of a worm gear, or mechanical or manual chain.

Description

The utility model relates to the field of electrical engineering and electric power industry, in particular to distribution electric equipment, and can be used to power low-power distributed and remote consumers of residential areas and small industries in cities and rural areas, for seasonal installation in agricultural production, for farms, for individual power supply of elite development cottages, in places and areas with deep snow cover in difficult and inaccessible places, in th odskih conditions may be used advantageously for supplying fluids or energy:

gas, water, electricity, while controlling such a supply and / or measuring the quantities supplied. In particular, it is possible to use an electric traction vehicle for recharging batteries, at holiday venues or at markets, at campsites, at marinas of boats and yachts, in exhibition halls, at stadiums and other sports facilities, using a distribution network for liquids under pressure, for example, pneumatic or hydraulic, where gas or electric meters, parking time meters are used.

Known distribution point for US patent No. 5544003, CL. Н02В 1/04, 1996, made in the form of a shield, on which sockets and connectors are placed, to which a cable-conductor of electrical energy is connected, and the shield itself is mounted on a rack with wheels with the ability to move manually on the surface of the earth.

However, the shield in this design can be used to connect only electrical energy and only at the construction site, where a limited number of people are located, since it is unsafe when used with a large crowd of people.

The execution of a portable distribution center according to the certificate of the Russian Federation for utility model No. 35043, class. Н02В 1/52, 2003. An electrical safety device is installed on the installation panel of the distribution center, which contains a self-monitoring circuit of its operability, while the electrical safety device is connected to the main switch and secondary switches. The mounting panel is placed inside the housing with the door, the support is attached to the housing and is made with the possibility of carrying the housing in a vertical position. On the mounting panel there is a three-phase power bus and several power connectors, while the power bus is electrically connected to the main switch and power connectors. On the mounting panel there is a power outlet for connection to the primary energy source.

This design of the distribution point is suitable for use only at the construction site, moving it manually from one place to another. That is, its use is limited and unsafe for use in crowded places.

The technical task of the utility model is the creation of a stationary energy distribution point for long-term use, having an easy and uncomplicated design, reliable in operation.

The problem is solved in that in the proposed solution, the power distribution point is made in the form of an elevator, the support of which is made of a moving part and a fixed part, the moving part being made in the form of a carrier box with panels for installing and placing devices, and the fixed part is made in the form of a well and it is designed to accommodate a moving part in it, a drainage layer is made at the bottom of the well, a shell with a bottom is installed in the well, and the supporting box is equipped with a vertical movement mechanism and a base on which the rollers are installed, and on the inner surface of the shell there are guides for moving the rollers along them, the vertical movement mechanism of the bearing box being made in the form of a screw pair, and the shell bottom is made with drainage windows and placed on the drainage layer.

In addition, the mechanism of vertical movement of the bearing box is made in the form of a threaded rod, which is rigidly fixed to the bottom of the shell, and a hollow shaft with a nut, which is located in the bearing box, and the base of the bearing box is placed on the nut of the hollow shaft.

In addition, the drive mechanism of the vertical movement of the carrier box is made electric, or hydraulic, or pneumatic, or in the form of a worm gear, or chain mechanical or manual.

Figure 1 shows the power distribution point, a top view, the cover is not shown;

figure 2 - power distribution point in the off position, the movable part is recessed and placed in the fixed part;

figure 3 - power distribution point in the working position, the movable part is placed in the extended position above the fixed part.

An elevator-type energy distribution point is a construction in the form of a pencil case with its fixed part and moving part.

The fixed part of the canister includes a shell 1 and guides 2, a bottom 3 of a shell 1 and a threaded rod 4, a substrate 5 and a lodgement of the lid 6, and is made in the form of a one-piece non-separable structure.

The shell 1 is a cylinder in the form of a pipe. On the inner surface of the shell 1, guides 2 are placed and fixed by means of, for example, welding. The bottom 3 is welded to the shell 1 and is made with drainage windows 7. In the bottom 3 there is a central hole for vertical installation of the threaded rod 4, in which it is fixed and fixed by, for example, welding.

In a pre-prepared soil well, significantly exceeding both the diameter 1 and the depth of the shell 1 and with the channel 8 on the side for supplying energy, and with a layer of gravel or gravel laid to the bottom as a drainage layer 9, a collapsible formwork in the form of a cylinder with a diameter of a little more than the outer diameter of the shell 1, set the level and fill with concrete solution. In this way, a concrete well 10 ready for use is obtained for installation in it, after removing the formwork, the fixed part of the canister, or the fixed part of the canister can be used as a fixed formwork.

The fixed part of the pencil case assembled is installed in the prepared concrete well 10.

Then it is set according to the level, taking into account that the upper part of the pencil case will be strictly flush with the working platform 11. After this, this structure is fixed on the sides of the concrete well 10 with latches 12. Thus, the fixed part of the pencil case of the power distribution unit is ready for use.

The movable part of the case of the power distribution unit includes a carrier box 13 rigidly connected to the base 14 and the cover 15 by means of brackets 16 and 17, respectively. Inside the box 13, a hollow shaft 18 is installed with a nut 19 at the lower end, and a shank 20 is made on the upper end of the hollow shaft 18, which is brought out into the hole of the cover 15. Moreover, the hollow shaft 18 with the nut 19 is installed in the central hole of the base 14, which is supported by a bearing 21, located on the nut 19. In the carrier box 13, panels 22 are provided for installing and placing metering and protection devices, switches, sockets, connectors, etc. And in the base 14 there are holes 23 for passing the supply cables 24, and / or pipelines, and / or hoses.

The movable part of the case is made with the possibility of vertical movement relative to the fixed part by means of a vertical movement mechanism made in the form of a screw pair, which includes: a threaded rod 4 and a hollow shaft 18 mounted on it with a nut 19 and a shank 20.

In the inoperative position, the moving part of the pencil case is placed inside the fixed part. To bring the power distribution point into working position, we use a special tool 25 to rotate the shank 20, which, being rigidly connected to the hollow shaft 18, rotates it, and that rotates on the threaded rod 4 by means of a nut 19 mounted on its lower end therefore, by thread on the rod 4 it is rolled up from it and, thereby, rises upward along it, carrying on itself a supporting box 13 with a cover 15 and panels 22 installed in it with devices, switches, sockets and connectors to the level of the lodgement of the cover 6. To maintain the verticality of the lift and to avoid distortions, the rollers 26 are mounted on the base 14, and guides 2 are installed on the inner surface of the shell 1. The drive 27 of the vertical movement mechanism can be used, for example, an electric drive or a wire in the form of a worm gear, or mechanical or manual chain drive.

Make and collect the power distribution elevator type as follows.

At the location of the energy distribution point in the soil, a soil well is made in the shape of a shell 1, for example, round, which is technologically feasible with a drill, but significantly exceeding the shell 1, both in diameter and in depth. A drainage layer 9 is laid at the bottom of the soil well, and channels 8 are made at the side of the well, their number is selected as necessary for supplying energy carriers. In a pre-prepared soil well, a collapsible formwork is installed, in the form of a cylinder, with a diameter slightly larger than the outer diameter of the shell 1, set up and poured with a solution of concrete. Thus, a concrete well 10 ready for use is obtained for installation in it, after removing the formwork, the fixed part of the pencil case.

Then, in the prepared concrete well 10, the fixed part of the canister of the distribution point is installed, namely, the casing 1 with the bottom 3 on the drainage layer 9 with the threaded rod 4 previously fixed therein.

The fixed part of the canister is set according to the level, taking into account that its upper part will be strictly flush with the working platform 11. After this, this structure is fixed on the sides of the well 10 with latches 12. Thus, the fixed part of the canister of the power distribution point ready for use is obtained.

The movable part of the pencil case of the power distribution point is assembled separately. Before connecting it to the fixed part of the pencil box of the power distribution point, the power cables 24 passed through the channels 1 through the channels 8 pass through the openings 23 of the base 14 and connect them to the metering and protection devices, to switches, sockets, connectors through terminals.

Then, the assembled movable part of the pencil case of the power distribution point is installed by means of a nut 19 on the threaded rod 4, screwing it by turning the shank 20, the hollow shaft 18 is turned. At the same time, the rollers 25 located on the base 14 are rolled along the guides 2, thereby preserving the vertical lowering-lifting and eliminating distortions the moving part relative to the fixed part. Having screwed the hollow shaft 18 halfway onto the threaded rod 4, the cover 15 is laid on the supporting box 13 and fixed on the box using brackets 17 located on the lower plane of the cover 15.

Elevator type power distribution point is assembled, is in the initial non-working position. In the working position, the distribution point is brought about by rotating the shank 20.

Power distribution elevator type works as follows.

The initial position of the energy distribution point is the inoperative position when its movable part, namely the bearing casing with the panels, is recessed into the inside of its fixed part.

To bring the power distribution point to working position, a shank 20 and a hollow shaft 18 with a nut 19 are turned by means of a special key, which, moving along the thread of the threaded rod 4, rise vertically upward, thereby moving the carrier box 13 with the base 14 and the cover 15, and the rollers 25 moving along the guides 2, they ensure strict perpendicularity of the movement of the carrier box 13 relative to the shell 1. Raise the carrier box 13 to align the plane of the base 14 with the plane of the substrate 5 of the lodgement of the lid 6. Power distribution dividing point ready to go. After that, consumers installed on the panels 22, switches, sockets, sockets and the like are connected to the consumers of the supplied energy sources, including, for example, gas, water, electricity.

If water from rain or watering equipment gets inside the shell 1, it through the drainage windows 7 enters the drainage layer 9 and goes into the ground. The energy distribution center works - it supplies consumers with energy carriers.

If you want to curtail the work of the energy distribution point, first disconnect the consumers from it, then also turn the shank 20 to screw the hollow shaft 18 with the nut 19 onto the threaded rod 4, thereby lowering the carrier box 13 into the inside of the shell 1 until the cover 15 comes into contact with the lodgement 6. Energy distribution the item is again reset.

The use of the proposed technical solution allowed us to develop a process by which it became possible to create a distribution center of energy carriers that was technologically advanced in manufacturing and installation, of an easy and uncomplicated design, independent of external factors.

Claims (3)

1. An energy distribution unit including a mounting plate for metering and protection devices, a support for mounting a mounting panel, characterized in that it is made in the form of an elevator, the support of which is made of a moving part and a fixed part, the moving part being made in the form of a carrying box with panels for installation and placement of devices, and the fixed part is made in the form of a well and is designed to accommodate a movable part in it, a drainage layer is made at the bottom of the well, a shell with a bottom is installed in the well, and the bearing core b is equipped with a vertical movement mechanism and a base on which the rollers are mounted, and guides for moving the rollers are placed on the inner surface of the shell, the vertical movement of the carrier box being made in the form of a screw pair, and the shell bottom is made with drainage windows and placed on the drainage layer . 2. The power distribution point according to claim 1, characterized in that the vertical movement mechanism of the carrier box is made in the form of a threaded rod, which is rigidly fixed to the bottom of the shell, and a hollow shaft with a nut, which is located in the carrier box, and the base of the carrier box is placed on the nut hollow shaft. 3. The power distribution point according to claim 1, characterized in that the drive of the vertical movement mechanism of the carrier box is made electric, or hydraulic, or pneumatic, or in the form of a worm gear, or mechanical or manual chain.