Open the door 

Who legally pays for lighting the adjoining territory of an apartment building? Lighting of an apartment building - norms Luminaire for a staircase in a residential building


More economical lighting control
Sooner or later, and thoughts about energy saving, especially in the entrances and stairwells visit every citizen. In most cases, it turns out that the entrances are either dark or the lights are on around the clock. A lot of smart people worked to solve this pressing problem, and the so-called energy saving program initially appealed to many. In the entrance or in the corridor, in several places, "stop" and "start" buttons were installed, with the help of which the light control relay is turned on and off. The positive side of this solution is the simplicity of the scheme and minimal cash costs, you won’t find better for savings. The negative side is that in the dark you have to examine the wall for a long time in search of these buttons, and then, which is important for energy saving, do not forget to turn off the light.
Unfortunately, this solution to the issue was defeated due to the human factor. After analyzing the previous errors, engineering thought gives the next solution to the problem - the shutdown timer. Switches were also located near each apartment, and the direct switching off of the light occurred after a certain time, which was quite enough to go down several flights of stairs. Thus, the creators got rid of the influence of the human factor, but it was not possible to study the wall in the dark every day.
In the process of further work on energy saving in entrances and stairwells, the third solution to this problem came - a motion sensor. Several sensors turn on any number of light bulbs, as long as movement is observed within the sensor's range, it will be turned on, after movement has ceased to be observed, the timer starts counting down so that a person can open the door. Once the set time has elapsed, the sensors will turn off the light. As a result of such a device, the efficiency of energy saving increases several times, because as soon as a moving object enters the radius of action, the motion sensor will immediately turn on the light, and then turn it off itself. Motion sensors are successfully used in the corridors, on the landing, in the entrances.

Requirements for lighting stairwells of residential buildings
In houses with at least three floors, whose staircases have sources of natural light, artificial lighting should be carried out by turning it on for a certain time, and there should be enough time for a person to climb to the last floor. The same devices should also illuminate the corridors. As for evacuation lighting, lighting for elevators, areas in front of elevators, the first floor, entrances and approaches to the house, it should be provided from control rooms automatically or remotely after dark and turn off at sunrise.
Houses with more than five floors and built before 1990, as an exception, may not use energy saving systems, and use light without short-term switching on. At the same time, it is necessary to provide lighting from control rooms.
Whatever lighting control systems are used in the building, blocking must also be thought out, which makes it possible to turn on and off the evacuation lighting from the switchboard house at any time of the day or night.
Devices that turn on and off lighting should be located in easily accessible places. In addition, each landing must have a device to turn on short-term lighting on all floors. To control the lighting on the floor, you should have one device per three apartments.

Where: Housing Control Service and
construction supervision of the Krasnoyarsk Territory
660049, Krasnoyarsk, st. P. Kommuny, 33

From Surname First Name Patronymic
66ХХХХ, Krasnoyarsk,
st. Street, d. XX, apt. XX
tel. (XXX) XXX-XX-XX
E-mail :your-email @your-email

STATEMENT
on violation of the requirements for the maintenance of common property
in an apartment building

At the address Krasnoyarsk Territory, Krasnoyarsk, st. Street, building XX there is no lighting in the entrance No. 4 on the stairwells of floors 1,2,3,4. Thus, the management company "Management Company" LLC violates the Rules and Regulations technical operation housing stock (approved by Decree of the Gosstroy of the Russian Federation of September 27, 2003 No. 170), Rules for the maintenance of common property in an apartment building (approved by Decree of the Government of the Russian Federation of August 13, 2006 No. 491), the Housing Code of the Russian Federation in part 1 of Art. 161 LC RF, part 2, art. 162 ZhK RF.

In accordance with paragraph 4.8.14 of the Rules and norms for the technical operation of the housing stock (approved by the Decree of the Gosstroy of the Russian Federation of September 27, 2003 No. 170) staircase lighting must be in good working order. The rules and norms for the technical operation of the housing stock, determined by the Decree of the Gosstroy of the Russian Federation of September 27, 2003 No. 170, are mandatory for management organizations.

In accordance with Part 1 of Art. 161 of the Housing Code of the Russian Federation, the management of an apartment building must ensure favorable and safe living conditions for citizens, the proper maintenance of common property in an apartment building.

In accordance with Part 2 of Art. 162 of the Housing Code of the Russian Federation, on the instructions of the owners of premises in an apartment building, within an agreed period, for a fee, undertakes to perform work and (or) provide services for the management of an apartment building, provide services for the proper maintenance and repair of common property in such a house, carry out other activities aimed at achieving management objectives of an apartment building

In accordance with Part 1 of Art. 165 of the Housing Code of the Russian Federation, the payment for the maintenance and repair of a dwelling is set in an amount that ensures the maintenance of common property in an apartment building in accordance with the requirements of the law.

In accordance with paragraph 10 of the Rules for the maintenance of common property in an apartment building (approved by Decree of the Government of the Russian Federation of August 13, 2006 No. 491), common property must be maintained in accordance with the requirements of the law Russian Federation(including on the sanitary and epidemiological welfare of the population, technical regulation, consumer protection) in a condition that ensures compliance with the characteristics of reliability and safety apartment building; safety for the life and health of citizens, the safety of property of individuals and legal entities, state, municipal and other property; availability of use of residential and (or) non-residential premises, common areas; observance of the rights and legitimate interests of the owners of the premises, as well as other persons.

In accordance with the foregoing, the management company is obliged to maintain the common property in an apartment building in proper condition and has all the necessary resources for this.

In accordance with the Decree of the Presidium of the Supreme Arbitration Court of the Russian Federation No. 6464/10 dated September 29, 2010 “All current, urgent, mandatory seasonal work and services are considered provided for in the contract due to the norms for maintaining a house as an object and should be carried out by management companies, regardless of whether the contract mentions the relevant specific actions and whether there is a special decision on the need for their implementation general meeting home owners».

In accordance with paragraph 42 of the Rules for the maintenance of common property in an apartment building, managing organizations are responsible to the owners of the premises for violation of their obligations and are responsible for the proper maintenance of common property in accordance with the legislation of the Russian Federation and the contract.

In accordance with Art. 2 of the Regulations on State Housing Supervision (approved by Decree of the Government of the Russian Federation of July 11, 2013 No. 493), the tasks of state housing supervision are, among other things, the prevention, detection and suppression of violations by legal entities, individual entrepreneurs of the requirements established in accordance with housing legislation for the maintenance of the common property of owners premises in apartment buildings.

Based on the foregoing and guided by the Federal Law of May 2, 2006 No. 59-FZ “On the Procedure for Considering Appeals from Citizens of the Russian Federation”, as well as the Regulations on State Housing Supervision, I ask:

· conduct an on-site inspection based on the facts I have stated;

Many of us often had to return home at night. At such moments, a person understands how important lighting is inside and around an apartment building. But what to do if there is no light either in the entrance or in the yard? Who to contact and who is responsible for this? Let's take a look at this issue

In this article:

entrance lighting

With the onset of darkness in the entrance and on the stairwells of a residential building, the light must be turned on. First of all, this is necessary for the safety of residents. Lighting in the entrance of an apartment building must meet the following requirements:

  • in public spaces, a general lighting system is used;
  • if the house has more than 6 floors and more than 50 people live, then the building must be equipped with evacuation lighting;
  • evacuation lamps are installed in the main aisles and in front of elevators;
  • it is allowed to use incandescent lamps, halogen and LED lamps;
  • it is recommended to cover the lamp with anti-vandal, impact-resistant glass or metal mesh;
  • light intensity must comply with established standards.

Illumination standards are regulated by special regulatory documents, SNiP and GOST and are standardized according to VSN 59-88. Lux values ​​for common areas are shown in the table:

Residents have the right to complain to management company not only that there are no lamps, but also that their light is not intense enough.

Basement lighting

Special requirements are put forward for the organization of basement lighting due to the special microclimate inside the room. As a rule, it is always humid there, dampness can be observed, so the lamps must meet electrical and fire safety standards.

The power must be reduced to 42 W using a step-down transformer. The body of the lamp must be grounded. It is not recommended to connect copper and aluminum wires during cable laying, which react when exposed to moisture. The wiring is placed in special corrugated pipes, which is called a sleeve.

Outdoor area lighting

Before you figure out what standards lighting should meet adjoining territory and the yard of an apartment building, you need to figure out what is included in this concept - "house territory". According to the law, this is:

  • the land plot on which the house is built, its dimensions are determined by the cadastre;
  • landscaping elements (this includes, among other things, lamps);
  • objects intended for use at home ( heat points, transformer, children's and sports grounds, car parks).

Direct lighting of the courtyard of an apartment building can be carried out in three ways:

  1. Lantern under the canopy above the door to the entrance. This is convenient, because you can take a low-power lamp, you don’t need much light. The disadvantage is that only a small area in front of the door will be illuminated.
  2. Lantern over the entrance canopy. It is advisable to take a lamp with a luminous flux of at least 3500 lm and a circular luminous intensity. Placed at a height of 5 meters at an angle of 25 degrees to the horizon. But, despite the fact that the entire courtyard is illuminated in this way, the area next to the door remains in darkness.
  3. Combination of the two previous options. Most best way yard lighting, but it consumes a lot of electricity.

For lighting the adjacent territory, standards have also been developed, which are presented in the table:

Some residents insist on installing lighting fixtures with motion sensor to save energy. It makes sense to put such lamps inside the entrances, while on the streets they will not work quite correctly. On the street, the sensor can be triggered by the movement of the animal, and the light will turn on when it is not required.


Who is responsible for lighting the house?

According to Federal Law No. 131, local governments are responsible for the illumination of streets, roads and courtyards. But it is the responsibility of the residents of the house to maintain the performance of the lamps.

According to the Housing Code of the Russian Federation, responsibility for lighting inside residential buildings and in the local area lies with the management company with which the tenants have entered into an agreement. The text of the agreement itself spells out what services the UK provides, for which it is responsible, and what is the procedure for dealing with problems or disputes that arise.

What to do if the tenants find that there is no light in the entrance, common areas, in the basement or in the adjacent territory? They need to take the following steps:

  1. An act is drawn up in which the problem is described.
  2. The act is signed by at least 3 people. It can be neighbors, the head of the porch or the chairman of the house.
  3. Evidence of the existence of the problem is attached to the act. For example, a photo of the lack of light in the evening.
  4. Documents are transferred to the management company.
  5. Within seven days, the employees of the Criminal Code check and analyze the information, troubleshoot and draw up their own report on the problem.
  6. The document, which spells out all the actions taken to resolve the problem, is transferred to the applicants.

If the management company fails to fulfill its obligations, refuses to fulfill what is written in the contract, the tenants have the right to terminate the agreement with it and conclude an agreement with another organization.

Who pays for the lighting of the yard and entrances of an apartment building? According to the Federal Law, the area around the house, like the entrances, is a common property. Lighting and troubleshooting costs are borne directly by the residents of the building. Moreover, the costs are divided for each owner, depending on the area of ​​​​his apartment.

You should pay attention to whether it is documented that this particular house territory is the common property of this particular house. If there are no such notes, then the inclusion of payment for it in the receipt is illegal.

Lighting of multi-storey buildings is strictly regulated by laws and regulations. sanitary standards. If one of the important parameters is not observed - there is no light at all, it is not bright enough, the lighting is organized without taking into account the safety of the residents, then the residents of the house have the right to apply to the management company, the local administration or even to the court.

1. Overview of public lighting systems

As numerous observations show, the collective lighting system in multi-storey residential buildings is represented by incandescent lamps with an average power of 60 W. Lamps are usually installed without shades, which is a violation of fire safety requirements. The fire hazard of incandescent lamps is usually considered in two aspects:

Possibility of fire from contact of the lamp and combustible material;
the possibility of a fire from falling on the surrounding combustible materials of the incandescent elements of the lamp, which are formed during its destruction.

The first aspect is connected firstly with the fact that the temperature of the glass bulb of an incandescent lamp after 60 minutes of burning is from 110 to 360°C (with lamp power from 40 to 100 W). This explains the presence of dark sooty circles on the ceiling above the installed lamp.

Secondly, it is associated with improper operation, when one violation (the use of an open lamp without a diffuser (heat-resistant ceiling), which is removed by many residents so that “the lamp shines brighter”) is superimposed by another violation - non-compliance with the permissible approach distance of combustible materials. This phenomenon, quite often, occurs in cramped apartment vestibules, which residents use as improvised pantries.

Even having a sufficient distance does not guarantee safety - a fire can occur (second aspect) from hot metal particles formed during emergency conditions (lamp burnout) in defective lamps (melting of electrodes or inputs by arc discharges) and flying away from the lamp at a distance of about three meters. Vertically falling particles retain their incendiary ability even when falling from 8-10 m.

A common violation occurs when aluminum wires lengthen with copper wires using twists. As a result, a galvanic couple is formed, leading to electrochemical corrosion (destruction of the contact) and an increase in contact resistance, which in the end can also become a source of fire due to heating of the wire junction.
Among the main options for power supply, the following main ones can be distinguished:

The whole system is switched on without diodes;
the whole system is switched on using diodes (centrally, in the switchboard);
combined solutions (diodes are partially installed in lamps and switches).

Diode- an electronic component that has different conductivity depending on the direction of the current. In homes, it is used to reduce the effective voltage on incandescent lamps in order to reduce energy consumption and increase the life of incandescent lamps.

The installed diodes in the power supply circuit of the house lighting system lead to the fact that incandescent lamps begin to flicker noticeably, which causes additional discomfort to residents.
The operating voltage is reduced from 220 to 156 V, but it should be noted that due to the fact that the incandescent lamp is a non-linear element and its real power consumption is reduced only by 42%, and the luminous flux, which depends on the square of the normal voltage, decreases to 27%.

Light flow- physical quantity characterizing the amount of "light" power in the corresponding radiation flux. It is the main characteristic of the light source for evaluating the illumination created by this light source.

As a result, the lamps become less energy efficient: if the original version has a luminous flux of 800
lm at a power of 60 W (light output 13.3 lm / W), then at
using a diode, the luminous flux is 216 lm
at a power of 34.8 W (light output 6.2 lm / W).

energy efficiency- efficient (rational) use of energy resources. In the case of lighting, it is the use of less electricity to provide the same level of illumination.
Light output of the light source- the ratio of the luminous flux emitted by the source to the power consumed by it. It is an indicator of the efficiency and economy of light sources.

To compensate for the reduced luminous flux, residents install lamps of higher power, reaching up to 200 W, which leads to an increase in electricity for the needs of general house lighting.

Ultimately, the illumination of entrances and vestibules does not comply with SanPiN 2.1.2.2645-10 (the average illumination on landings, floor corridors, etc. should be at least 20 lux).

2. Overview of energy efficient light sources

Figure 1 - CLE device, where 1 - thickening of the tube; 2 - inner coating of the flask; 3 - electronic ballast; 4 - ventilation hole; 5 - base

The following energy-efficient light sources (EIS) suitable for use in residential buildings are widely available on the market: fluorescent lamps (including CLE (compact fluorescent with built-in electronic ballast (electronic ballast))), LED lamps and fixtures.

A significant disadvantage of fluorescent lamps is the presence of mercury vapor in their composition, which requires special disposal measures and the presence of a turn-on delay (the lamp reaches its nominal luminous flux after a noticeable period of time). The declared service life of 25,000 hours is usually not met due to the frequent burnout of tungsten electrodes. During operation, the lamp heats up to 60 ° C, and if they are used as part of any closed fixtures, then heat generation leads to overheating of the electronics and premature failure of the lamp. There is no warranty period for these lamps. When used in cold rooms, their luminous efficiency and service life are reduced. Also, the human factor cannot be discarded - the lamps can be stolen by residents in order to use them to illuminate the apartment.
The only and significant disadvantage of lamps with LED light source is their high market price. But this price is paid off by their significantly lower energy consumption, even in comparison with CLE. But when using this lamp in a standard luminaire, the light distribution on the illuminated surface may deteriorate, because This lamp produces a narrow beam of light. Thus, these lamps can only be effectively used when they are installed vertically towards the floor (for example, in a chandelier).


Figure 2 - The device of the LED lamp, where 1 is a diffuser; 2 - LEDs; 3 - circuit board; 4 - radiator; 5 - driver; 6- ventilation holes; 7 - base

Figure 3 - LED lamp SLG-HL8

When choosing between an LED lamp and an LED lamp, it is advisable to make a choice in the direction of the LED lamp, since the LED lamp has a similar human factor and the possibility of overheating of the electronics (as in CLE).
At the moment, there are two types of LED luminaires on the market that are acceptable for use in the housing and communal services sector - based on a driverless circuit and using a driver. The price range of fixtures is in the range of 500-700 rubles. without using a driver and 700-1600 rubles. for luminaires with driver.

The main purpose of the driver is to convert alternating current and high voltage of the primary circuit into a constant stabilized current and low voltage acceptable for powering LEDs. In addition to this main function, the driver provides protection against short circuits, protection against overheating of the driver and the luminaire as a whole, as well as stable operation of the luminaire in a wide range of input voltage. Reduced voltage of the secondary circuit ensures safety during electrical work and maintenance of the luminaire.

The essence of the driverless circuit is that the lamp uses a large number of(2070) LEDs low power(0.1-0.3 W) connected in series to supply them with high voltage (> 70 V). But any reliability technical system is inversely proportional to the number of elements used, and the burnout of any of the LEDs (when using cheap LEDs of dubious quality) leads to the failure of the lamp. There are no security systems.

As a result of the lack of a driver (switching power supply), the LEDs are not powered correctly, which leads to their rapid aging (the service life is reduced from 50,000 to 30,000 hours). Also, the main disadvantages of these lamps include a large ripple coefficient, which can be conditionally put up with due to the short stay of residents in the entrance.

3. Automation tools

To control the lighting system in an apartment building, in addition to standard switches, various motion sensors can be used as an automation tool.

A motion sensor (DD) is a sensor that tracks the movement of any objects. As a rule, a motion sensor is understood as an electronic infrared (IR) sensor that detects the presence and movement of a person and switches the load - an alarm if it is used as security system, or lighting systems when used as a means of reducing the energy consumption (by reducing the operating time) of these systems. After holding a certain period of time (usually - adjustable), DD turn off the load (in this case, the lamp).

A very useful feature built into most DDs is the presence of light sensors in them (DD will not work if the illumination in the room exceeds a certain level). Due to this, the lighting system does not turn on during daylight hours.


Figure 4 - The principle of operation of the infrared motion sensor

The disadvantages of IR DD is

Limited sector of coverage (review);
reduced sensitivity when installed at a height of more than 2 meters;
the impossibility of installation near strong heat sources (for example, radiators).

For example, when installing a motion sensor in a long corridor (about 6-8 meters), it only works when a person reaches approximately the middle of it, which causes certain inconveniences (the first third of the corridor has to be passed in the dark). Their viewing range (about 6 meters) is quite enough for use in the entrance.

The solution for a limited coverage sector can be the installation of 2 DDs using the following installation schemes:

At the beginning and at the end of the corridor on the walls, the DDs are directed towards each other;
uniform distribution of DD on the ceiling.

In both cases, the DD must be connected in parallel so that the operation of any of the sensors turns on the lamp. The disadvantage of this solution is the increased consumption of the DDs themselves, which, given their high market price (about 250 rubles), will lead to significant financial costs with dubious savings in the case of using energy-efficient light sources. For example, 2 DDs constantly consume more than 10% of the power of a working LED lamp. Also, one should not forget that there is also a significant complication of the switching system - it is necessary to lay a wire to each of the sensors in both directions.

There are also cheaper options for DD - sound (photoacoustic). These sensors are often already found in certain luminaires (see Figure 1.5). The presence of the word "energy-saving" in their name and a low market value of about 250 rubles. captivates many HOA and UK, but their serious drawback is the problem of setting the sensitivity to the sound level. If the sensitivity is set too high, for example, a resident wearing sneakers can walk past such a sensor and it will not work. Setting a low sensitivity leads to a lack of selectivity on the signal - DDs are triggered by almost any sound.


Figure 5 - Energy-saving lamp housing and communal services-03

A common disadvantage of any motion sensors is that the luminaire undergoes a much larger number of cycles during operation. on-off, which reduces its life of the installed light source. For example, incandescent lamps burn out in 90% of cases at the moment of switching on with a concomitant current surge. In the case of CLE, the interval between switching on, established by the warranty conditions to achieve the required operating time, may be more than two minutes (this is due to the operation simple circuits preheat). The use of soft starters in their composition does not allow the use of CLE and LED lamps.

The cost of saved electricity justifies the premature failure of light sources only in the case of using incandescent lamps, which have a relatively low market value. Also, motion sensors cause some discomfort to residents, especially if installed incorrectly.

The only area where the use of DD in a residential building is economically feasible are places of rare use, for example, an emergency fire escape.

As observations have shown, no more than 1 person per week uses the fire escape. Taking into account the number of storeys of houses where this staircase is present, it is possible to determine the energy savings in the case of using incandescent lamps and EIS.

In the case of using incandescent lamps, the energy savings in terms of power consumption is 60-0.5 \u003d 59.5 W, where 60 is the power of the LON-60 incandescent lamp, W .; 0.5 - DD power consumption in standby mode, W. In a month, when working around the clock, the savings will be: 0.0595 24 29.4-42 kWh (here 0.0595 is the released power, kW; 24 is the number of hours in a day; 29.4 is the average number of days in a month ). At a price for electricity of 2.367 rubles / kWh, the established DD at a price of 250 rubles. and the cost of installation is about 150 rubles. each, the DD equipment project will pay off within (250 + 150) / (42x2.367) -4 months.

In the case of using an EIS (see clause 1.2) with an average power of about 8-15 W, the released power is (15 ... 8) -0.5 \u003d 14.5 ... 7.5 W (here 15 is the power of the CLE, analogue of an incandescent lamp 60 W; 8 - the power of the LED lamp SLG-HL8, also an analogue of LON-60). At the same time, the average monthly energy savings will be (0.0145.,.0.0075) -24-29.4 \u003d 10.2 ... 5.6 kWh. The payback period is (250 + 150) / ((10.2 ...5.6)x2.367)~17...30 months, or one and a half to three years.

Thus, it is not economically feasible to install motion sensors complete with EIS - an incandescent lamp is enough. The only drawback of this decision is the ban on the production and sale of incandescent lamps in Russia in 2014.

The scheme for installing DD in emergency stairs is recommended to be non-standard (wall-mounted), since it provides coverage of two flights of stairs at once (see Figure 1.6). As practice shows, DD with this scheme works only when a person approaches in the middle of the landing (in front of the stairs itself), which, with a low intensity of use of the fire escape, can be attributed to an insignificant drawback.


Figure 6 - Application of motion sensors on the emergency stairs

4. Characteristics of the SLG-HL8 luminaire

LED luminaires of the SLG-HL8 series (Silen-LED Group, for House Light 8 W) are intended for general illumination of housing and communal services. They are specially designed according to lighting calculations for energy-saving lighting of technical and public premises provided by housing and communal services: entrances of residential buildings, stairs and stairwells, elevator shafts, corridors, vestibules, areas of residential buildings and other public premises.
Luminaires of this series can be used for duty and emergency lighting of any non-residential premises of public and private buildings, in addition, they are suitable for outdoor lighting under a canopy - under the canopies of entrances (there is a special version for outdoor use with increased characteristics of anti-vandal protection and resistance to temperature extremes).
The luminaire in a classic economical design is produced in the NPB 1301 housing with a degree of protection IP54, which allows installation on walls and ceilings. The body is made of aluminum alloy, which contributes to the removal of heat from the lamp, and is covered with borosilicate frosted glass to limit the glare from the LEDs. At the request of the customer, it is possible to develop and manufacture a lamp in other cases.
Luminaires are manufactured in Barnaul, undergoing comprehensive quality control. In the manufacture, various machine-building templates and conductors are used.
All luminaires have a 3-year warranty, during which there is a free replacement of failed luminaires. It should be noted that this period exceeds the maximum payback period for fixtures.

Table 1 - Characteristics of SLG-HL8

5. Installation of LED lamps

Since LED luminaires have a certain directionality, installing LED luminaires in places where incandescent lamps were installed is not the right solution. This is explained by the fact that the main "working surface" in the entrance is the floor, and if the lamp is installed on the wall, the main luminous flux will fall on the opposite wall to the installation site. As a result, the floor will be illuminated only by reflected lighting, which will reduce the required illumination. For this reason, the luminaires are installed on the ceiling (exceptions are cases when the installation of the luminaire on the ceiling is not possible).

Despite the fact that the installation becomes more complicated, since it is necessary to lay a long connecting cord from the connection point to the luminaire, this method, in addition to increasing the average illumination, improves light distribution and also reduces the human factor - the luminaire is located at a maximum height, which makes it difficult to freely access to it, reduces glare and the possibility of accidental damage.


Figure 7 - Scheme of a typical installation of LED lamps in the entrance of a house of 97 and 121 series

Installation of fixtures is made in the working days. In exceptional cases, installation can be carried out on Saturday. The day of installation is notified at least 24 hours in advance. Preparatory work for residents who have installed doors in vestibules, they come down to cleaning things that are afraid of dust and providing access to the vestibule on the specified day.
The work is carried out by a specially trained installer, device aware and rules for the installation of LED lamps, which also conducts explanatory work with residents. The connection to the electrical network of the house occurs through the public lighting line without the need to open the electrical panels. Be sure to carry out work to identify and eliminate installed diodes, which can reduce the life of LED lamps.

Electrical installation is reduced to the following operations:

Removal of the old lamp;
installation of a new junction box;
installation of LED lamp on the ceiling;
cable laying to the lamp;
connection (depending on the type of wire) through specialized clamps for lighting equipment to the wires.


Figure 8 -Typical installation LED lamp

The average installation speed is about 30 fixtures per day, which corresponds to 1 entrance of a 9-storey building.

6. Economic calculations

The payback period in the case of lighting systems is understood as the period of time that has passed after the purchase and installation of more energy-efficient light sources, during which the price of saved electricity will exceed the price of the lamp, taking into account its installation.

Payback \u003d Investment / Annual Savings (1.1)

The initial option is a working LON-60 lamp in 2 main versions (see clause 1.1) - using a diode in the power circuit and without it. It is necessary to determine how much it costs to operate this light source in both options.
We will carry out calculations for the following replacement options (through a dash - the abbreviation adopted below):

Compact fluorescent lamp SPIRAL-econom with a power of 12 W, 600 Lm (manufactured by ASD) - KLL12.
LED lamp with a power of LED-A60-standard with a power of 7 W, 600 Lm (ASD) - LL7.
LED lamp SPP-2101 with a power of 8 W, 640 Lm (ASD) - LED8
LED lamp SLG-HL8 with a power of 8 W, 660 Lm (Silen-Led) - SLG-HL8.

Light sources were selected according to the principle of equality of the luminous flux of an incandescent lamp of 60 W (600 Lm).
To assess the payback period, it is necessary to have initial data for calculations, which include the price for electricity (since 2015 for houses equipped in the prescribed manner with stationary electric stoves - 2.5 rubles) and the average daily operating time - 14 hours;

6.1 Operating costs of incandescent lamps

The consumed electricity per year R el can be calculated using the following formula:

R el \u003d R light / T day * 365 (1.2)

Where P light is the power of the lamp, W; T days - average daily operating time, h; 365 is the number of days in a year.

According to clause 1.1, if an incandescent lamp is connected through a diode, then its power consumption is reduced by 42%. Accordingly, for LON-60 connected through a diode, this power will be 60 - 42% \u003d 35 W.

Let us designate this design case in further calculations as an option for using an incandescent lamp with a power of 35 W (LON35). A lamp turned on without using a diode will be designated as LON60.

R el LON35 \u003d 35 * 14 * 365 \u003d 178.85 kW * h (1.3)
R el LON60 \u003d 60 * 14 * 365 \u003d 306.6 kW * h (1.4)

In monetary terms, the cost of consumed energy can be calculated using the following formula:

C el \u003d R el * Ts kWh (1.5)

Where C kWh is the cost of a kilowatt-hour, rubles / kWh.

According to this formula, for the given design cases, the cost of consumed electricity will be:

S el LON35 \u003d 178.85 * 2.5 \u003d 447.12 rubles (1.6)
S el LON60 \u003d 306.6 * 2.5 \u003d 766.5 rubles (1.7)

It should be noted that lamps switched on without a diode work in the nominal mode, and they burn out during operation, and lamps switched on using a diode practically do not burn out.

So it is necessary to determine how much is spent per year to replace burnt out lamps. This C replacement cost is the cost of the lamp multiplied by the number of replacements.

C deputy \u003d Ts l * n s (1.8)

Where Ts l - the cost of the lamp, rub.; n s - the number of replacements, pieces / year;

The number of replacements n s for can be determined based on the average daily operating time of the light source T days and the average life of the light source T sl.

N s \u003d (T day * 365) / T sl (1.9)

Where T day is the average daily operating time h, T sl is the average life of the light source, h.
The average service life for an incandescent lamp with a rated power of 60 W (for example, B220-230-60-1) is given in GOST 2239-79 and is 1300 hours.
For llama LON-60, the number of replacements is:

N z LON60 \u003d (14 * 365) / 1300 \u003d 3.9 pieces (1.10)

For this lamp, the average price in Barnaul for 2014 was 13.3 rubles. Hence, annual expenses to replace lamps are:

With deputy LON60 \u003d 3.93 * 13.3 \u003d 52.28 rubles (1.11)

In total, we find that the annual cost of operating a 60 W incandescent lamp is:

RUB 485.45 - in case of using diodes;
766.5 + 52.28 \u003d 818.78 rubles. - without their use. At the same time, these calculations do not take into account the cost of the work to replace them.

6.2 Payback periods for replacement options

To determine payback periods for various options replacing LON-60 with EIS, according to formula 1.1, two main parameters are determined - the cost of purchase (investment) and annual savings.

C s \u003d C EIS + C mon (1.12)

Where C EIS - the cost of EIS, rub.; C mon - the cost of dismantling old lamps and installing new ones, rub. This cost refers to capital costs.

Annual energy savings Сecon can be calculated using the following formula:

C econ \u003d C el LON + C el EIS (1.13)

Where Ts el LON is the annual energy consumption of an incandescent lamp in (in both design options), kWh; C el EIS - annual energy consumption of EIS, kWh.

If the purchase cost (see formula 1.12) is divided by the annual savings (see formula 1.13), then you can determine the payback period in years:

T payback \u003d C s / C econ (1.14)

To translate the resulting value from the resulting fraction, you need to subtract the whole part - these will be whole years - and multiply the remainder by 12 to get months.
It should be noted that the calculations do not take into account inflation and the annual increase in the electricity tariff, which lead to an additional reduction in the payback period.

Replacement option for CFL 12 W:

C s KLL12 \u003d 130 + 100 + 100 \u003d 330 rubles

Here 130 is the cost of a 15 W CLE with an E27 base, rub.; 100 - the cost of the most popular lamp NBB 64-60 with diffuser RPA-85-001, rub.; 100 - cost of replacement work, rub.

R el KLL12 \u003d 12 * 14 * 365 \u003d 61.32 kW * h
C el KLL12 \u003d 61.32 * 2.5 \u003d 153.3 rubles
n s KLL12 \u003d (14 * 365) / 8000 \u003d 0.64 pieces
With deputy KLL12 \u003d 0.64 * 130 \u003d 83.2 rubles

Also, to this cost, it is necessary to add the cost of disposing of a failed mercury-containing lamp (12 rubles), which, taking into account delivery, will cost about 20 rubles.

In case of violation according to Art.8.2. Citizens of the Code of Administrative Offenses of the Russian Federation will have to owe from 1 to 2 thousand rubles, officials - from 10 to 30 thousand rubles, entrepreneurs - from 30 thousand to 50 thousand rubles (or an administrative suspension of activities for up to ninety days), and legal entities- from 100 thousand to 250 thousand rubles (or administrative suspension of activities for up to ninety days).

With deputy + utility KLL12 \u003d 83.2 + 20 * 0.64 \u003d 96 rubles
C exploit KLL12 \u003d 153.3 + 96 \u003d 249.3 rubles
With economy \u003d 818.78 - 249.3 \u003d 569.48 rubles
With economy diode = 485.45 - 249.3 = 236.15 rubles
T payback \u003d 330 / 569.48 \u003d 0.58 \u003d 7 months
T payback diode \u003d 330 / 236 15 \u003d 1.4 \u003d 1 year 5 months

Replacement option for a 7W LED lamp:

C z LL7 \u003d 200 +100 +100 \u003d 400 rubles

Here 200 is the cost of a 7 W LED lamp with an E27 base, rub.; 100 - cost of the lamp NBB 64-60 with diffuser RPA-85-001, rub.; 100 - cost of replacement work, rub.

R el LL7 \u003d 7 * 14 * 365 \u003d 35.77 kWh
C el LL7 \u003d 35.77 * 2.5 \u003d 89.43 rubles
n z LL7 \u003d (14 * 365) / 30000 \u003d 0.17 pieces
With deputy LL7 \u003d 0.17 * 200 \u003d 34 rubles
C exploit LL7 \u003d 89.43 + 34 \u003d 123.43 rubles
With economy \u003d 818.78 - 123.43 \u003d 695.35 rubles
With eco diode = 485.45 - 123.43 = 362.02 rubles
T payback \u003d 400 / 695.35 \u003d 0.58 \u003d 7 months
T payback diode \u003d 400 / 362.02 \u003d 1.1 \u003d 1 year 1 month

Replacement option for the lamp SPP-2101:

C s LED8 = 500 + 200 = 700 rubles
here 500 is the cost of the SPP-2101 LED lamp, rub.; 200 - cost of replacement work, rub. The increase in the cost of installation is due to the fact that the lamp is not placed in its original place, but on the ceiling (see Figure 8)

P el LED8 = 8 * 14 * 365 = 40.88 kWh
C el LED8 = 40.88 * 2.5 = 102.2 rubles
n z LED8 \u003d (14 * 365) / 30000 \u003d 0.17 pcs
With deputy LED8 = 0.17 * 500 = 85 rubles

Here it is more appropriate to use the term not “replacement cost”, but “depreciation deductions”, since the lamp is an integral part of the light source and the entire complex has to be replaced.

C exploit LED8 \u003d 102.2 + 85 \u003d 187.2 rubles
With economy \u003d 818.78 - 187.2 \u003d 631.58 rubles
With eco diode = 485.45 - 187.2 = 298.25 rubles
T payback \u003d 700 / 631.58 \u003d 1.11 \u003d 1 year 1 month
T payback diode \u003d 700 / 298.25 \u003d 2.35 \u003d 2 years 4 months

Replacement option for SHG-HL8:

C s SG-HL8 = 750 + 200 = 950 rubles

Here 750 is the cost of SLG-HL8, rub.; 200 - cost of replacement work, rub.

R el SG-HL8 = 8 * 14 * 365 = 4°, 88 kWh
C el SG-HL8 \u003d 4 °, 88 * 2.5 \u003d 1 ° 2.2 rubles
n s SG-HL8 \u003d (14 * 365) / 50000 \u003d 0.1 pcs

In the case of the SLG-HL8 LED luminaire, at the end of the service life of 50,000 hours, with the expected good condition of the ceiling, it is possible to replace the light module without replacing the ceiling itself and cooling systems. The price of these works is 500 rubles.

With deputy SG-HL8 \u003d 0.1 * 500 \u003d 50 rubles
C exploit SG-HL8 \u003d 102.2 + 50 \u003d 152.2 rubles
With economy \u003d 818.78 - 152.2 \u003d 666.58 rubles
With econom diode \u003d 485.45 - 152.2 \u003d 333.25 rubles
T payback \u003d 950 / 666.58 \u003d 1.43 \u003d 1 year 5 months
T payback diode \u003d 950 / 333 25 \u003d 2.85 \u003d 2 years 10 months

7. Conclusions

Let's bring it all together specifications and the obtained economic data for the considered lamps in a single table. Luminaires are listed in the order in which they are described.

Table 2 - Characteristics of light sources

Options

Specifications

Luminous flux, lm

Power consumption, W

Light output, lm/W

Average service life, h.

Presence of mercury

Price characteristics

Lamp price, rub.

Lamp price, rub.

The price of the kit with installation, rub.

Payback, months

without diodes

with diodes

Performance characteristics

Number of replacements, pcs.

Annual consumption, kWh

Probability of theft

Based on the study, we will give a brief description of each light source, indicating its main advantages and disadvantages.
60 W incandescent lamp. Typical lighting system for entrances of apartment buildings. It has the highest power consumption and the lowest light output and service life. Fire hazardous. When used with diodes, it does not provide rated illumination. The main advantage is the low price of the lamp.

12W compact fluorescent lamp. Contains mercury in its composition, which requires special measures for its disposal (and, as it should, disposal costs). The main advantage is improved light output and service life at a moderate cost and ease of replacement.

7W LED lamp. Provides the lowest power consumption. Most cheap option LED light source. But at the same time, the probability of theft is maximum (or the installation of a special lamp is required). The main advantage is the shortest payback period and ease of replacement.

LED lamp SPP-2101 (8 W). Variant of the LED lamp in the luminaire housing. Due to the high price, the payback period is 2 times longer. The main advantage is the reduced probability of theft compared to the LED lamp.

LED lamp SLG-HL8 (8 W). The most expensive replacement option. Version of the LED lamp in a metal case. The longest payback periods. Repairable, while repairs are carried out in Barnaul. The main advantage is that the payback period in all cases is less than the warranty period of operation (3 years).

8. An example of the modernization of lighting systems in an apartment building in Barnaul

The object of modernization was a panel residential building of the 97th series for 205 apartments.

Average illumination index 8.7±0.1 lux

Illumination measurement results according to GOST R 54944

The house has been managed by the homeowners association (HOA) "Altai" since 1997. At the meeting of the Board on April 7, 2011, it was decided to replace the collective lighting system, presented in the form of 170 incandescent lamps installed in the entrances and vestibules, with energy-efficient light sources. All lamps were centrally (in the switchboard) turned on through power diodes. The ceiling height is 2.63 m. The walls are half painted with light paint, the upper part of the walls and the ceiling are whitewashed. The results of measuring the illumination in the floor corridor are presented below.

As an EIS of light, an LED lamp of the brand SLG-HL8 was chosen. The cost of carrying out the work is 170,000 rubles. The term of performance of works - 2 months.

According to the calculated data, the payback period was 2 years. After carrying out the work, to verify the calculation data, a log was taken to register the readings of electric meters, based on the results of which a graph was built, shown in the figure below. For improved visualization, a stepwise approximation of the obtained data was carried out.

Figure 9 - Energy consumption at home for 2010-2013

The graph shows that after November 2011, when the work was completed, the cost of lighting from 45005500 kWh decreased to 1000-1200 kWh, and the total energy consumption decreased by 2 times (from 8000 to 4000 kWh). The energy consumption of elevators has remained unchanged, but in the future plans have been developed to carry out energy saving works in elevators as well.
Figure 10 is another data visualization option designed to show the structure of overall energy consumption.

Figure 10 - The structure of energy consumption at home for 2010-2014

From the above diagram it can be seen that before the modernization, the cost of lighting was 2/3 of the ODN, after the modernization it was less than 1/3. At the same time, the average annual energy savings is about 4000-12 = 48,000 kWh, which in monetary terms in electricity prices for 2011 is 48,000 1.79 = 85,920 rubles. With energy saving costs, the payback period was 1 year and 10 months. The reduction in the payback period is justified by bringing all the lamps to a single face value - many residents installed up to 200 W instead of standard 60 watt lamps to improve illumination. Lighting control systems - switches - were also restored. The introduction of automation tools partially played a role - motion sensors were installed on the emergency stairs.
A prerequisite was to bring the level of illumination in the entrances to the standard. The results of the illumination measurement after the upgrade are shown in the figure and table below.

The average indicator of illumination is 25.3±0.1 lux. Illumination results after modernization

An important feature of the measurements is that they were taken in 24-hour increments at the same time and with the same camera settings.

As the above data show, the average in both cases exceeds 20 lux and averages 22 lux. These readings fully comply with SanPiN 2.1.2.2645-10. This confirms the correct choice and LED lamps.

In 2014, incandescent lamps were replaced with LED lamps in elevator batches and in elevator cabins. It also reduced the energy consumption of the house, bringing it down to 25% of the original value (from ~8000 to ~2000 kWh).