Rounds of time for maintenance of kipia. Enlarged time standards for maintenance, repair and metrological support of control and measuring instruments and automation

Modern industrial enterprises in their production process do not cost without the use of instrumentation and automation. Automation is introduced both at enterprises of heavy engineering, and in the production of food. In the life of the installation is used to account for water consumption, electrical and thermal energy. The main purpose of the devices is the exact definition of the physical size. Timely repairs I. maintenance Pig Guarantee the accuracy of devices.

Characteristics of measuring instruments

High requirements for quality characteristics and accuracy of measurements produced are presented to control and measuring devices. They form several groups:

• Devices for pressure measurement;
• Devices for measuring the volume of bulk and liquid substances;
• Devices for determining switching costs;
• Protection devices.

You can determine the readings of the physical size on the scale and installation pointer, they are classified by the location of the scale. According to the location of the scale indicators, the devices are determined by two types: one-sided and bilateral. Unilateral include devices whose scale with the beginning of the testimony is located on the left side and is limited to one direction. Bilateral installations include devices whose zero location of the scale is located in the center and values \u200b\u200bare determined from the right and left side relative to the center.

Views repair work

Eliminate the emergency situation in production can be applied by the recommendations of the Regulation maintenance and repair of kipia. The TIR system determines the types of repair and list of repair work, periodicity of maintenance of instruments of kipia, consumption rate of materials and spare parts. The planning and warning repair system includes testing measuring instruments, capital and current repairs, also maintenance of kipia instruments.

Equipment of the enterprise involved in the production process stop on scheduled repair, but emergency stops arise. At the time of emergency stop, repair operations are made that cannot be performed when equipped. Planned stops are carried out on the basis of a plan schedule that is formed with accounting. maintenance periodicity of kipia.

The content in the working condition of the equipment ensures the holding of a monthly one - 1, quarterly-2, annual - 3. During the period of planned stops, dismantling of measuring structures, also means of automation, pipe and cable wiring. The duration of the repair period is determined on the basis of rounds of time for maintenance of kipia.

List of requirements for work performers

Provide performance of control and measuring instruments and automation, specially trained workers. Given the complexity of automation systems, engineers, specialists with profile education are engaged in the production of installations. Production activities of the enterprise depends on the performance of the equipment.

Maintenance of kipia Perform employees of the enterprise or specialists of the contracting organization, which have documents certifying the right to manufacture repair work of measuring funds. Contracting organization should have:

• Prepared personnel;
• Repair base;
• Regulatory and technical documentation.

In fact, the mastered volume of repair work is drawn up in a two-way procedure for the commission of completed work.

The main purpose of the implementation of preventive repair work is to increase productive efficiency of the enterprise, ensure the safety of the production process. Also carry out control of production technology, ensure the safety of labor and environmental safety, equipment efficiency. The stability of the manufacturing process of the enterprise depends on the introduction of measures aimed at introducing new technique and replacing outdated equipment. The trouble-free production process provides planned warning repairs. Their planning is made by learning maintenance instruments of kipia.

Verification of instrumentation and automation are carried out to determine the conformity of characteristics. state standards and technical conditions. The production of metrological surveillance is regulated by GOST. Depending on the purpose of the measured measuring instrument, the verification can hold the public service or a departmental metrological organization.

Time norms on the adjustment of instrumentation devices and A, technological protection and alarms on thermal power plants

A COMMON PART

1. These time standards on the adjustment of the KAP and A devices, technological protection and alarms on thermal power plants are recommended for use in the enterprises of the Ministry of Energy of the Russian Federation and are intended for issuing normalized tasks to working volunteers and units to workers.

2. To develop time standards;

Photochronometric observations;

Technical calculations;

Technical descriptions and instructions for instructions, drawings developed by manufacturers;

Methodical guidelines for the normization of labor in the energy sector (indication of the Ministry of Energy and Electrification of the USSR of 10.05.76 No. NC-6594);

The results of the analysis of the organization of labor and measures to improve it on thermal power plants of the USSR Ministry of Energy.

3. Time norms are calculated by the formula:

where: T. OP - operational time for surgery, person-hour.;

a. about - time to maintain the workplace, percentageoperational time;

a. PZ. - time for preparatory and final work, the percentage of operational time;

a. otl - Time for rest and personal need, the percentage of operational time;

a. PT. - time for technological breaks, the percentage of operational time;

4. Time norms are set to commissioning work performed at least two performers in the conditions of existing workshops, and are indicated inhuman-hours (person-hour).

5. Rounds taken into account time on:

Preparatory and final work - 5.7% of the operational time;

Maintenance of the workplace - 3.0% of the operational time;

- rest and personal need - 10% of the operational time;

Technological breaks - 3.0% of the operational time;

Contractor transitions within the working area at a distance of up to 50 m and when performing work at an altitude of up to 1.5 m.

The time spent on the preparatory and final work and maintenance of the workplace includes time to:

Obtaining tasks for work, tools, devices, technical, documentation;

Briefing about the procedure for performing work;

Passing devices, tools, technical documentation;

Workplace service.

6. The standards are not taken into account on:

Registration of the outfit;

Tolerance;

Closing of the outfit;

Dreasing;

Transitions of workers for a distance of more than 50 m.

7. When cable lines with a number of cable lines, it lived above 10 times of time to apply with the following coefficients: 1.30 with an amount of over 10 to 19 lived; 2.30 - Over 19 to 37 lived; 3.00 - Over 37 lived.

8. In the scope of work on the adjustment of instrumentation devices and A, technological protection and signaling includes:

Familiarization with technical documentation, drawings;

Inspection of the circuit;

Checking the reliability of contacts;

Single chains;

Tested electrical strength and determination of insulation resistance;

Checking individual elements and replace faulty;

Laboratory check of regulators;

Static adjustment of regulators;

Setting the parameters of the dynamic adjustment of the regulators;

Enabling regulators to work and adjust the settings;

Testing of individual chains and a comprehensive test of the scheme;

Adjustment of the mechanical part of regulating, managers and otherexecutive bodies;

Adjustment of the ISU control system;

Paperwork.

9. Name of the profession "Electrosist for repairing devices for thermal mechanical control and automation of thermal processes" (hereinafter referred to as the electric surveyor) and the discharges of the workers are indicated in accordance with the "single tariff-qualifying reference book of works and workers' professions." Vol. 9., Moscow, 1985. The name of the Profession Engineer and Test Engineer (hereinafter referred to as the engineer) are indicated in accordance with the "qualifying reference book of managers, specialists and employees." Moscow, Economics 1989.

10. Performance of works by workers whose qualification discharges do not comply with the discharges of the workers given in these standards cannot serve as a basis for changes in the norms of time on these works.

11. If the norms of length, time, etc. are given with the word "before", it is necessary to understand "inclusive."

12. On work not provided for by these norms, local technically sound norms are established.

13. Prior to the introduction of these standards of time, it is necessary to conduct organizational and technical conditions in the workshops, at production sites and workplaces (labor organization, equipment, etc.) in accordance with these norms and carry out the production instrument of workers.

14. When introducing enterprises more perfect than this provision, the organization of production, labor, technological work, equipment, machinery, equipment, or typical projects for the organization of workplaces, etc., providing a higher level of labor productivity workers, are developed by the method Technicallocal standards are put into operation in the prescribed manner, local time of time.

15. With the introduction of these standards of time, all previous norms for relevant work, except for more progressive, are canceled.

Characteristics of used equipment

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Ministry of Energy and Electrification of the USSR

Approve
Deputy Minister
Energy and electrification of the USSR
V.L. Smirnov

Enlarged standards of time
For repair and modernization of means and systems of technological control, automatic regulation, protection, alarm, computing equipment, electricity, telemechanics and communications

Coordinated: the Central Committee of the Trade Union of Power Stations of the Electrotechnical Industry (Resolution No. 23 of 19.10.88).

A COMMON PART

1. Real integrated time standards for repair and modernization of technological controls, automatic regulation, protection, alarm, computer equipment, Electric automatics, telemechanics and communications are designed for typical volumes of work on the basis of differentiated sectoral standards of the time given in Appendix 1 to this collection.
2. The use of enlarged norms does not cancel the actions of the sectoral norms listed in Appendix 1. The current sectoral standards along with the enlarged are used to adjust the enlarged norms in cases where the work is performed in volumes differing from typical, for which enlarged norms are calculated.
3. Enlarged time standards are recommended for use in the enterprises of the USSR Ministry of Energy to organize labor and IER, through issuing normalized tasks and outfits, with collective forms of organization and remuneration, in the calculations of the regulatory number of personnel of units that perform work included in the collection.
4. The basis of the development of enlarged standards of time is the following materials:
- indication of the USSR Ministry of Energy from 10.11.87 No. BC-697-14;
- methodical instructions on the standardization of labor workers to repair control and measuring instruments (standards publishing house, Moscow, 1976);
- Methodical instructions on labor rationing in the energy sector of 05.05.1976 No. NS-5694;
- existing sectoral, inter-sectoral and local time standards for repair of devices and devices;
- technical and economic analysis and summarizing experience of repair and maintenance work with SoyuznergoAutomatomatic enterprises, Soyuznergoremont, TPP and other energy enterprises;
- Regulatory and technical documentation for instruments, control and control systems.
5. Enlarged time standards take into account independent completed types of work and contain a consolidated list of basic operations for specific types of work. Detailed lists of technological operations taken into account by enlarged complex time standards are given in the relevant collections of sectoral standards of time (see Appendix 1).
6. Enlarged time standards (further than the norm of time) are given for I, II, III groups of complexity of repair and repair and commissioning, as well as maintenance of instruments and devices.
7. Typical scope of work on the III group of complexity of repair includes the following main technological operations:
a) preliminary defectation of the product;
b) cleaning and washing devices, nodes and parts;
c) disassembling the product, nodes on the elements;
d) defecting the elements and nodes of the product;
e) repair of the mechanical part of the product;
e) repair of the electrical part of the product;
g) repair (painting) of the hull, chassis of the product;
h) assembly and adjustment of nodes and products in general;
i) setting up nodes and products in general;
k) technological tests (standing in the device);
l) acceptance tests (surrender SP);
m) presentation in verification (for measuring systems to be calibrated);
n) registration of acceptance documentation;
o) Familiarization and study of NTD when developing new types of devices.
8. The scope of work performed according to I and II groups of complexity includes only a part of the type of work contained in the group III complexity.
9. In addition to the main repair and repair and commissioning works on devices, devices, control and management systems, time standards are taken into account:
- time for preparatory and final work and maintenance of the workplace;
- time to receive, pass, move the equipment and materials, as well as time for transitions of performers within the working area of \u200b\u200bsites, workshops and laboratories;
- Time for rest and personal need within the existing standards;
- time to hold organizational and technical measures, including: decorated brigade tolerances in the conditions of existing shops of energy enterprises, as well as management work on ensuring the performance of work in accordance with the requirements of PTE, PUE, PTB, PRB, PPB, and other instructions.
10. When repairing and passing devices (measuring instruments), the coefficient K \u003d 0.95 is applied to the customer without presenting their dospital to the norms of time.
11. When performing work for the first time by repaired imported equipment, as well as domestic equipment made in the manner of prototype (parties), the coefficient K \u003d 1.2 is used to the norms of time.
12. When performing work on existing electrical installations under voltage over 1000 K, the coefficient K \u003d 1.2 is used to the time standards.
13. The time standards of this collection are installed per unit of equipment (device, device, kit, scheme, system, etc.).
14. The qualification composition and the actual number of performers are established by a responsible leader of the work in accordance with the current "single tariff-qualifying reference book of works and professions of workers" (Issue 1, 2, 9. M. Mechanical Engineering, 1985) and COP positions of managers, specialists and employees (issue 1, economy, 1986)
15. The collection presents the average category of work, despite this, in the normalization and determination of the executors, it is necessary to take into account the availability of engineering work when performing work on any section and on average for engineering work on sections is:

01, 07, 03, 08, 09 - 15%
02, 04, 05 - 25¸30%
06 - 35¸40%
10 - 60%
16. The enlarged standards of time are developed on the nomenclature, the composition and volume of work of the final repairs of the price list 26-06-19.
With the difference between the composition and scope of work from those adopted in the price list and enlarged norms (differences in the state of equipment, repair technologies, etc.), enterprises on the database of enlarged norms, as well as differentiated norms can develop and apply local enlarged time standards.
17. When implementing more advanced forms of labor organization, production, equipment, equipment, equipment, or more advanced projects for organizing jobs, providing a higher level of labor productivity and ITR, are developed and entered in the prescribed manner, more progressive norms of time.
18. When implementing the rules of time, the conditions for the production of work in the workshops, at production sites and workplaces are given in accordance with the requirements for repair and repair and commissioning work for each type of instruments, devices, control systems and control.
19. The time standards for the repair of devices and devices given in the collection are applied to the repair of equipment in production conditions of energy enterprises and specialized repair enterprises (centralized repair).

LABOUR ORGANIZATION

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One of the current collections that contains maintenance standards and allows you to determine the number of personnel, as well as the cost of maintenance of security systems.
We present the excerpts of their this document, which is called:

"Labor standards for auxiliary work in housing and communal services"

Status:	suitable
Date of introduction:
Designed in:	CJSC "Center of Municipal Economics and Right" 101000, Moscow, Mospochetamt ", and 348 OJSC "Center of Municipal Economics" 101000, Moscow, ul. Myasnitskaya, d. 13, p. 3
Approved in:	OJSC "Research Center of the Municipal Economy" (01.01.2006)
	OJSC "Center of Municipal Economics" No. 2006
Area and conditions of application:	This collection contains labor standards for auxiliary work carried out in the provision of housing and communal services (goods) by enterprises and organizations of any organizational and legal forms. Recommendations are intended to determine the complexity of the work and the regulatory number of employees of housing and communal services, on the basis of which labor costs are calculated in economically sound tariffs for housing and communal services.

2.6. Maintenance and maintenance of radio television equipment and low-current equipment

2.6.1. Installation and repair of individual receiving antennas *

Approximate list of works. Definition and preparation of an antenna installation location of the antenna to the roof of the building, an antenna assembly, the attachment of the decline cable, connect the antenna to the lightning protection device, laying the roof cable, enclosure of the room into the room, plugging the plug, turn on the TV and antenna orientation for the best image Work.

Check the absence of voltage on the mast and delay. Weakening and removing derailings, antenna descent and repair, checking the reliability of the decline and fastening cable and fastening the elements, setting an antenna with a delay fastening, turn on the TV and an antenna antenna orientation. Check the quality of the TV.

Cast: radiomonter receiving television antennas.

Table 2.6.1.

Views of antennas	Time norms on one antenna, hour		№ norma
	installation	repairs
Reception television antenna meter wave range, single-channel, single-five-element	2,46	1,78
Reception television antenna of a meter wave range, two-channel, four-six-element	2,46	1,93
Reception television antenna of a meter wave range, multichannel, one-two-element	2,50	1,88
Reception television antenna of a meter wave range, multichannel, seven-element	2,31	1,82
Reception television antenna of the decimeter range of waves, multichannel, multi-element	2,57	1,70

Notes:
1. Time norms for the installation of antennas do not take into account the construction of lightning protection devices.
2. The time standards for the repair of antennas do not take into account the replacement of the reduction cable.
Individual receiving antennas include: the antennas of the meter and decimeter range of waves, single-channel and multichannel.

2.6.2. Television equipment

2.6.2.1. Replacing the cable reduction of the receiving television antenna

Approximate list of works. Check the absence of voltage on the mast and delay. Weakening or removal of detentions, descending antenna. Replacing the reducing cable to a new, installation of antenna, turning on the TV and antenna orientation for the best image. Checking the TV.
The composition of the performers: radiomonter of adoptive television antennas.
The rate of time per 1 antenna is 1.65 hours.

2.6.2.2. Laying the subscriber television cable with connecting to the distribution box and TV

Approximate list of works. Marking and preparation of the route for laying the cable, gasket and cable mount, connecting the cable to the distribution box, seal the plug, network voltage measurement. Turning on the TV to the network and check its work.
Cast: radiomonter receiving television antennas.
The rate of time per 10 m of the cable is 1.22 hours.

2.6.2.3. Connecting a subscriber cable to a distribution box (without cable laying) and small repair of the subscriber removal

Approximate list of works.Check the absence of voltage on the mast and delay. Checking the correctness of the subscriber cable laying, connecting the cable to the distribution box, seal the plug. Disabling a subscriber cable with removal or without a cable removal, plugging, cable connection from several pieces and other small repair of the subscriber removal. Checking the TV.

The composition of the performers: radiomonter of adoptive television antennas.
The rate of time per 1 connection is 0.91 hours.

Note:
Time norms of points 2.1.7.1.-2.1.7.2. Installed taking into account the implementation of work on the installation and repair of external receiving antennas with the height of the mast up to 3 meters.
In cases of installing and repairing the specified types of antennas with the height of the mast more than 3 to 6-meters or 2-storey (bunk) antennas to the time standards of the specified sections, 1 hour is added.

2.6.3. Installations of fire extinguishing, security, fire and security and fire alarm

Exemplary Profession List: adjuster of instrumentation and automation, mechanic for measuring instruments and automation, electrician for repair of electrical equipment, security and fire alarm system.

Table 2.6.3.

equipment identification			Norma number
Automatic thermal switch maximum action switch	0,56
Block Fire Signal Startling	2,39	0,45
Sensor contactless electromagnetic	0,17	0,05
Sensor block contact	0,75
Sensor inertial magnetocontact	0,19	0,19
Sensor magnetocontact	0,36
Sensor for infrared radiation	0,67	0,68
Sensor shock-position contact	0,30
Sensor electrocontact	1,10
Call-Ruong	0,23
Detector automatic security	1,49	0,65
Detector Automatic Security Fire	6,84	0,96
Radioisotope smoke detector	1,20	0,79
Announcer photoelectric smokeelectric	0,39	0,16
Combined detector	1,44
Detector Security and Fire Opto-Electronic	4,80	0,79
Detector Security and Fire Surface Ultrasonic	5,43
Detector of security alarm	5,80	4,49
Fire detector	0,17	0,05
Detector Fire Maximum Differential Bimetallic Automatic	0,37
Fire Magnetic Fire Detector	0,29
Manual fire detector	0,20	0,97
Light detector	1,62
Fire alarm detector	0,0087
Detector	1,90	0,58
Thermal detector is automatic	4,56	4,25
Thermal detector with a light-smelting lock	0,29
Intrinsically safe device	3,87	1,13
Concentrator	8,20	0,97
Male capacitance concentrator	1,17	0,08
Concentrator receiving and control stop-fire	6,27	1,59
Concentrator signal-starting fire	3,20	0,22
Linear block of alarm		0,21
Linear device unit	14,4	0,38
Microswitch
Intermediate executive organ	5,95
Security alarm device	0,44	0,71
Receiving-control device	6,87	0,51
Device receiving-control security fire		0,96
Device-signaling device:
- on 1 linear kit
- for 9 sets	4,52
Device-alarm		0,61
Security alarm device		3,19
Piezoelectric Device	0,17
Device-signaling device radio wave		0,92
Device Signaling Piezoelectric Single
Remote Control	6,99	1,15
Remote Control Fire Alarm	2,45	1,44
Signalizer	2,00	0,59
Sirena signaling	0,31
Station apparatus	4,28	1,37
Fire alarm station	18,06	0,63
Terkener in Explosion Protection	4,95
Installation Radioisotope Security and Fire	20,47	1,43
Installation of alarm smoke fire	8,67	1,64
Installation Alarm Complex Fire	56,00	1,10
Device for the destruction of glazed designs	2,00	2,07
Device object receiving-control	5,14
Device of security television signaling	5,66	0,77
Device intermediate receiving-control	1,04	0,26
Signal device	0,56	0,21
Photoelectric device	3,00	1,66
Single-page and multi-read alarm (5 m)	0,02	0,72

Note :
1. The costs of the number provides for the performance of the maintenance of the concentrator with one block. When applying an additional five-beam block, the standard increases by 60%.
2. The normative of the number provides for the performance of the maintenance of a station with one 10 radiation block. When applying an additional block, the standard increases by 40%.
3. The regulatory of the number provides for maintenance of maintenance of the installation with one BLC-1 unit. When applying an additional BLC-1 unit, the standard increases by 70%.

2.6.4. Chemical, Automatic Gas, Water and Foam Fire Extinguishing

Approximate list of works (maintenance).

External inspection, control of the technical condition (operationally unequivocal, is well-defective) with the help of senses and, if necessary, the means of control, the nomenclature of which is established by the relevant documentation, i.e. Determination of the technical condition of installations and individual technical means Sightstate.

Checking the performance: determining the technical condition by controlling the execution by technical means and installation as a whole, or all the functions defined by them defined.

Cleaning the outer surfaces of technical means, checking the technical condition of their internal installation (internal surfaces), cleaning, trimming, lubricant, soldering, replacing or restoring elements of technical means that have developed a resource or rejected, adjustment, adjustment of instruments, testing and testing them.

Approximate list of works (maintenance). Cleaning the outer surfaces of technical means, partial disassembly, replacement or repair of equipment of individual nodes, parts, linear cable structures, etc. Conducting measurements and testing equipment, with the inconsistency of these data, measures are taken to eliminate defects. Cleaning, trimming, lubricant, soldering, adjustment, adjustment of instruments, testing and checking them.

Approximate list of professions: adjustable instrumentation and automation, repairman, electrician for repair of electrical equipment.

Table 2.6.4.

equipment identification	Regulations of the number of workers employed by the maintenance of equipment, people. per 100 unit. Equipment	Time standards for the current equipment repair, person / hour per unit. Equipment	Norma number
Six-bed battery (8-ball)		0,13
Vators MEMBRAND MEMBRATED WITH ELECTRICAL FLANT CA		0,75
Flanged Cast iron valves	0,25
Valves shut-off with electromagnetic drive and electromagnetic latch flange cast iron	0,62
Gates shut-off with electric flange cast iron and steel	0,54
Generator	0,24
High-warm foam generator	0,14	0,04
Double Stretcher Generator	0,08	0,04
Evolvent Generator	0,02
Valves wedges with retractable spindle, flange steel	0,93	1,51
Valves Wedge with retractable spindle, flange steel with electric drive in explosion-proof version	5,31	1,51
Latch parallel with retractable spindle flange cast iron	0,92	1,51
Covers with electric drive	1,77	1,51
Reverse Reception Valve With Flange Castlet Mesh	1,96
Valve incentive cable	1,54	1,49
Swivel single cast iron flange valve	0,39	1,99
Hand-action valve	0,20
Valve trial-starting gland brass	0,15
Compressor	10,88	9,08
Connecting lines (100 m)
Pump	4,89
Water sprinkler and dramet	0,29
Foam Sprinkler Sprinkler, Evolvent	0,23
Air distributor	1,23	0,15
Section set to batteries	4,00	0,20
Universal pressure warning device	1,39	0,20
Fluid flow signaling	6,00	0,63
Dosing alarm
Charging station	3,33	0,42
Installation automatic gas fire extinguishing	2,66	0,13
Installation of refrigerated fire extinguishing	4,55	3,84
Alarm and Management Shield	7,36
Cabinet power supplies	16,95
Fire extinguishing cabinet with hose and fools	1,98
Cabinet control	18,93
Cabinet control of electric motors valves	20,28
Electromagnetic pressure gauge	0,33

2.6.5. Fire automatic equipment

External inspection, control of the technical condition (operationally unequivocal, is well-defective) with the help of senses and, if necessary, the means of control, the nomenclature of which is established by the relevant documentation, i.e. Determination of the technical condition of installations and individual technical means for competent features.

Checking the performance: determining the technical condition by controlling the execution by technical means and installation as a whole, or all the functions defined by them defined.

Purification of external surfaces of technical means, checking the technical condition of their internal installation (internal surfaces), cleaning, trigger; Lubrication, soldering, replacement or restoration of elements of technical means that have developed a resource or encouraging, adjustment, adjusting devices, testing and checking them.

Cleaning the outer surfaces of technical means, partial disassembly, replacement or repair of equipment of individual nodes, parts, linear cable structures, etc. Conducting measurements and testing equipment, with the inconsistency of these data, measures are taken to eliminate defects. Cleaning, triggering, lubricant, soldering, adjustment, adjustment of instruments, testing and checking them.

repairman, electrician electrician for repair of electrical equipment.

Table 2.6.5.

equipment identification	Regulations of the number of workers employed by the maintenance of equipment, people. per 100 unit. Equipment	Time standards for the current equipment repair, person / hour per unit. Equipment	Norma number
Pump for pouring pumps	5,00	0,07
Automatic two-bale battery with electric start	6,20	0,27
Two Balon Battery	2,50	0,15
Battery with automatic and pneumatic launch	6,60
Capacity horizontal (hydro-pneumobac)	7,20	2,39
Foaming Storage Capacity	4,40	1,58
Indoor-launcher with switchgeal valve	5,70	0,98
Water sprinkler installation control unit with valves	4,48	1,66
Sprinkler set control unit with valves	5,12	1,66
	17,00	1,66
Air-water sprinkler installation unit with valves	10,00	1,66
Hydraulic start-up control unit with valve	9,37	1,66
Detercore control unit with pneumatic start with valve	8,50
Detercore control unit (sprinkler) installation with valve
- sprinkler installation of an air-water system of fire extinguishing or drainage installation with pneumopus taking into account the number of vehicles included in the control unit	6,60
- Node of control of the Drencher Installation with hydraulic launch, taking into account the number of vehicles included in the control node	4,80
- node of the control of the sprinkler installation of the water system, taking into account the number of vehicles included in the control node	4,70
Sprinkler installation control unit with valve	2,70	3,35
Distribution device (taking into account the number of vehicles included in the device)	3,30	0,58

Note: To determine the regulatory number on the performance of maintenance and repair work, which are produced at an altitude of more than 5 m on the floor, respectively coefficients are applied:

from 5 to 8 m - 1.05

from 8 to 15 m - 1,10

from 15 to 30 m - 1.25

2.6.6. Communication equipment

Approximate list of works (maintenance).

External inspection, control over the technical condition of communication equipment, eliminating detected defects, carrying out electrical changes in certain sections of station, linear, feeder and other constructions of communication.

Approximate list of works (maintenance).External inspection, partial disassembly, replacement, repair of parts and components, linear cable structures, measurement and testing equipment testing, electrical measurements in separate areas of station, linear, feeder and other communication facilities.

Approximate list of professions:electrician of sewer facilities Communication, electrician linear structures telephone communication and radics, electrical unit of station equipment of the radio, the electrical unit of telephone communication equipment, the electromonctor of station radio equipment.

Table 2.6.6.

equipment identification	Meter	Regulations of the number of workers, people			Norma number
		total	including:
			those. service	maintenance
Cable lines:
Communication lines with type cable:
ISS 1? 4 and all low-frequency cables	10 km Cable	0,21	0,19	0,02
ISS 4? 4	-«-	0,23	0,20	0,02
ISS 7? 4, VTPP	-«-	0,24	0,22	0,03
Inter-cables connecting lines:
Seal up to 30 channels	10 km Cable	0,21	0,19	0,02
Seal over 30 channels	-«-	0,23	0,20	0,02
Cables are unposted on inter-interstant connecting lines	-«-	0,06	0,05	0,06
Subscriber lines and radio lines	-«-	0,05	0,04	0,05
Radio cables	-«-	0,021	0,18	0,023
Cable lines GTS:
With medium capacity up to 50 couples lived	10 km of couple lived	0,005	0,004	0,0005
With medium capacity Over 50 pairs	-«-	0,003	0,002	0,0003
Sewer devices	channel Channel	0,025	0,022	0,003
Radio Translation Points	100 Radiot	0,016	0,014	0,002
Loud-speaking communication alert equipment	100 instruments	1,16	1,03	0,13
Direct communication telephone	100 devices	0,06	0,05	0,005
Telephone ATC	-«-			0,012
Telephone	-«-	1,44	1,28	0,16
Telephone prefix	100 consoles	1,21	1,08	0,13
PBX December step-by-step system with a capacity of 100 or more rooms	100 monitored numbers		0,18	0,02
PBX coordinate system	-«-	0,09	0,08	0,01
Elershots	100 Elershots	1,15	0,92	0,23

Note:
1. With an increase in the average channel, the standard is reduced at the rate: for every 0.5 channel by 10%.
2. For 2-3-software networks, the standard rises by 10%.

An example of calculating the number of workers engaged in the maintenance and current repair of radiotelevision equipment and low-current equipment

Paragraph number on the collection	The composition of the work	Scope of work	Time rate, person-hour	Annual regulatory labor intensity, person-hour
2.6.2.1.	Installing the receiving television antenna of the decimeter wave range	157 Antennas	2,57	403,49
2.6.2.2.	Laying subscriber television cable		1,22	383,08
2.6.3.	Current repair of the flue photoelectric detector		0,16	9,12
2.6.4.	Current repair of automatic gas fire extinguishing installation		0,13	9,88
TOTAL				805,57

The list of workers engaged in the maintenance and current repairs of radiotelevision equipment and low-current equipment is:

(805,57/1992) ?1,12 \u003d 0.45? 0.5 people.

where: 1992 - the annual working time fund;

1,12 - The coefficient of planned nebodas.

2.8. Other auxiliary work

2.8.3. Regulations of the number of watchdis

Approximate list of works.Duty at the input door of a protected object, checking the integrity of a protected object (locks and other locking devices), the presence of a seal, the health of the alarms, telephones, lighting, the prevention of fire inventory.

To determine the number of watchdis, you must install:
the required and rational number of posts in the building, which depends on the number of cases, insulated inputs, etc.;
The number of shifts of each post.
Regulatory of the number of watchmen in shift at 1 post - 1 person.

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A complete list of basic compilations on the security systems includes the following documents:

- MTS 81-98 and TSN-2001.14-15 Collection 15. Technical operation of communications, video surveillance systems, motion control, security and fire alarm system
- RTM. 25 488 —82 Ministry of Protection of the USSR. Fire extinguishing installations automatic and installation of fire and security, and fire alarm. Regulations of the number of personnel involved in maintenance and current repairs.
- Price List # 2661 00192. "System of maintenance and repair of technical means and fire extinguishing systems, smoke removal, security, fire and fire alarm systems. Wholesale prices for technical oversmit and repair ", developed and implemented by MGO" Protection "(Tver). The price list is released at prices for 1991 and put into action from 01.04.92.g;
- GESNMT 81-03-42-2001Collection No. 42 Maintenance, repair and modernization of equipment integrated integrated security systems.
- VESNMT CBR with change from 6.07. 2006Maintenance of engineering and technical protection (a copy of GESNMT-42 is only with the other name).
- RD 08.00-60.30.00-KTN-016-1-05 "Order of conduct, technological maps, single standards and rates of regulatory work on the maintenance of engineering and technical means of protecting enterprises in the group of Transneft.
- Instructions MVD. RF on the organization of operation of technical means of protection for objects protected by private security
- OESN-81-26-09-2003Technological control systems, regulation, protection and management. Alarms, computing equipment, telemechanics and communications.

All specified documents can be obtained in information base maintenance and repair of security systems complete with a program to automatically calculate the estimated value of TIR.

In 2009, a state examination was held and a new collection is preparing for printing, which contains technological maps, time standards and examples of documentation for maintenance and repair of security systems. Detailed information On this collection, we will give additionally in the coming months as soon as the collection will be released in the printed edition. Watch out for publishing or for prompt information in automatic mode from our site.