RU11624U1 - COMBINED TEST "HERMES" V.I. NIKHAEVA FOR FIRE DETECTORS (KIPI "HERMES") - Google Patents

Abstract

1. Combined tester for fire detectors (KIPI), including means of verification (SP) of fire heat detectors (PTI) and SP of smoke fire detectors (PDI), in which SP PTI and SP PDI are made in the form of test heads mounted on rods, which are working cameras, moreover, an electric heating element in the form of a spiral and a fan connected to a power source and a temperature sensor are placed in the working chamber of the joint venture ПTI and a smoke generator with a smoke concentration regulator is placed in the working chamber of the joint venture; SP PTI is made in the form of a hollow pipe with wires laid inside, connecting the heating element and the fan to the power source by means of a power button mounted in the lower part of the rod, characterized in that the control and measuring instrument is designed as a universal means of quantitative tolerance control of the performance of PTI and PDI with the possibility of changing on one rod of the test head PTI on the test head PDI, while the working chamber SP SPI is made in the form of a thermostat with a heating element placed in it, the fan and the temperature sensor, the SP PTI is equipped with a remote control and control unit (BDUK), configured to control the temperature of the thermostat and connected to the temperature sensor and the heating element, the heating element and the fan are placed in the working chamber of the SP PDI, moreover, as a smoke generator and a regulator of its concentration in the JV PDI, a heating element was used, on which a smoke-forming liquid was applied in an amount that ensured a given smoke density. 2. KIPI under item 1, characterized in that the BDUK i�

Description

However, functional joint ventures do not provide the necessary reliability and reliability of the control of fire detectors.

TaK.ie is known for a number of joint ventures of quantitative tolerance control, for example, joint venture PDI / 3.4 / and joint venture PTI / 2 /.

The joint venture ПТй in the working case (head) contains an electric heater and a fan connected to a power source and a control unit, as well as a heat flux equalization unit in the form of a grid, while the test ПИ and temperature sensor are connected to recording devices.

Test head SP PD1 / 1 contains / 3 / smoke generator, fan and smoke concentration regulator, made in the form of a cover with adjustable holes.

However, the known devices / 2 / and / 3 /, intended only for specific tasks: / 2 / - for testing PTI, and / 3 / for monitoring, are not combined, and their design, in some cases, does not provide the necessary reliability of quantitative monitoring the thresholds of sensors).

As the practice of operating pairwise signaling devices / 1,6, iu / shows, a combined tester should be used to control PTI and PDI 0, since a number of structural elements are the same for PTI and PDI (holding rod, electric heating element, fan, unit power supply) and they differ only in the execution of test heads (for fire fighting equipment or for fire fighting equipment). The design of a joint venture in the form of one combined device is most rational for the operational monitoring of fire sensors installed in maritime transport. An example of such a joint venture is the combination / I / SP PTI and SP PdI) used in a fire alarm system, including both heat and smoke detectors.

The well-known combined test detector of fire detectors (W / 1Gsh) / 1 /, adopted for the prototype, includes SI G1TI and SP PDI, which are made in the form of test heads mounted on the rods, which are working chambers. An electric heating element in the form of a spiral is placed in the working Kaiviepe SP IPI and a fan connected to a power source, and a temperature sensor. A smoke generator with a regulator of its concentration is placed in the working chamber of the SP PDI. In this case, the SP PTI rod is made in the form of a hollow pipe with wires laid inside, connecting the heating element and the fan to the power source via the power button mounted on the bottom of the rod.

The advantage of the well-known KJ / SHI / I / is its simplicity, but its reliability, in some cases, is insufficient, and the reliability of determining the quantitative threshold of sensors is low and cannot be considered acceptable for modern means of pairwise signaling. Like other analogues, lU / ini / I / I / does not allow due to the lack of versatility to rationally monitor the sensors, since it does not provide for an adequate measurement of the thresholds for the operation of PTI and PDI).

Therefore, the desire to simplify the design / I / is in conflict with the need for high requirements for the accuracy and reliability of the sensors of fire alarm systems / 8, iO /.

The resolution of this contradiction requires a special design and adequate construction of means of production control

health of fire detectors) °,

The essence of the proposed utility model is to create such a combined tester for fire detectors, which, by means of a special constructive design of the device, would allow an adequate and correct check of the fire detector and, including reliable and accurate determination of the thresholds for the operation of fire detector and ilAi / i, including the control panel for a given smoke density. In this case, the design of the new device should provide potentially possible indicators according to the criterion of complexity - cost - accuracy - effect tivities).

The main technical result of the proposed TEPivjec SLI device is to increase the reliability and reliability of the control of fire detectors, including accurate quantitative measurement of their thresholds, as well as the synergistic effect of the design of quantitative tolerance control with the versatility of SP PTI and SP PDy for sensors of any type when installing SP directly at the site of installation of IPT and.

The technical result is achieved as follows.

Ki / ini / I Hermes includes means for checking the SP PTI and SP PDI, made in the form of test chambers mounted on the rods, which are working chambers, and in the working chamber of the SP nTti there is an electric heating element in the spiral inlet and a fan connected to the power source, and temperature sensor. A smoke generator with a smoke concentration regulator is placed in the working chamber of the SP PDI, and the rod of the SP PT is made in the form of a hollow pipe with wires laid inside, connecting the heating element and the fan to the power source by means of a power button mounted in the lower part of the bar.

Distinctive features of the MPI Hermes is that the MGS is designed as a universal means of quantitative tolerance control of the performance of PTI and PDI with the possibility of changing the PTI test head to the PDI test head on one rod, while the working chamber of the SP PTI is made in the form of a thermostat with a heating an element.

A bentilator and a temperature sensor. The SP ПTI is equipped with a remote control and control unit (BDUK) made with the B031 temperature control unit for the thermostat and connected to a temperature sensor and a heating element. A heating element and a fan are placed in the working chamber of the joint venture, and B is used as a smoke generator and a regulator of its concentration Used uil Go used a heating element on which a smoke-forming liquid is applied in an amount that provides a given smoke density.

In addition, the Hermes wM is distinguished by the fact that the BD / K is a unit for quantitative tolerance control of the operation of the PTI and is equipped with a device for setting the thermostat temperature (UUTT) set in a certain interval and a thermostat temperature indicator, the temperature indicator being connected to the temperature sensor and connected to the heating element, housed in a thermostat.

It is possible to set the temperature of the thermostat in the range from 10 to 150 ° C with an error of 0.5 - 0.6 ° C.

B the particular case of the implementation of the BDUK is additionally equipped with light and sound indicators of the threshold value of the temperature of the IPT.

A distinctive feature of ШШ. It is also that the test head of the SP PTI in the lower part is equipped with a cooling unit containing a radiator and a cooled / sh fan, and the cooling unit case has ventilation windows.

In addition, the test heads SP PTI and SP PDI have protective mesh-mixers located between the heating elements and sensitive cameras PTI and PDI, and safety nets located between the fans and heating elements.

Yu / 1Py Hermes, in addition, is distinguished by the fact that the application of a smoke-forming liquid to the heating element of the OP remote control is done by a dispenser made with the possibility of creating a given density of dry gray smoke from 2.5 to 60% with a change of 0.5 - 1 (about.

The non-personal rod, in the upper part of which the test head ПTI or the head ПДй is fixed, is made of a multi-sectional assembly and contains a lower support section, a switching section with a button for connecting the heating element and fan to the power source, as well as one or more intermediate sections, to the upper which test heads PTi and IDI,

When n. the support section of the rod is equipped with a retractable stop device secured by a screw clamp and provided with a rubber heel at the base, and the upper intermediate section, to which the test heads PT1 / 1 and PDI are attached, is equipped with a device for changing the angle of the test head relative to the axis of the rod, made in the form of a hinge unit, fixed by a clamping screw.

In FIG. a schematic of the Hermes silos with the test head of the joint venture PTI fixed to the rod; in FIG. - diagram of the test head SP PDI; Fig. 3 illustrates the construction of the BDUK.

1ShPi Hermes LI.Pihava (Fig.1-3) contains the test head I SP JT I (Fig.1) with a working chamber-thermostat 3, an electric heating element in the form of a spiral, fan 5, temperature sensor b, cooling unit 7 , radiator 8, cooling fan 9, ventilation windows 10, mesh mixer II, safety mesh 12, test head 13 SP PDI 1 (Fig. I) with a working chamber 15, heating element-smoke generator 16, fan 17, mesh-mix Ib, safety

a grid i.9, a power supply lu with wires 21 and a power button iZ, BDUK 23 of FIG. 3), which contains the UTI 2, temperature indicator 25, light indicator 26, sound indicator 27, multi-section rod 28, including the lower support section 29 with a retractable stop device 30, a screw lock 31 and a rubber heel 32, as well as a switching section 33 and intermediate sections 34, the upper of which is equipped with a device 35 for changing the angle of the test head and a hinge unit 36 with a screw.

SHH Hermes works as follows.

During the PTI test, the test head I covers 1 Ш1 2, Tei.i the most sensitive chamber П1 1 2 is placed in the working chamber-thermostat 3. Turning on the power supply 20 with button 22 ensures the operation of the heating element-spiral 4 and fan 5, which is uniformly through the mixer 11 distributes the heated air over the volume of the working chamber-thermostat 3. The temperature value in the thermostat 3 is measured by the sensor 6 and is indicated in the BDUK 23 on the indicator 25./UTT 24 sets the temperature in the thermostated volume to the set temperature in the interval ale from 10 to 150 ° C with an error of 0.5 t 0.6 ° C) °.

At a given temperature, a warning light 26.Gzel 7 of cooling with radiator b and a fan 9 through the windows 10 remove heat from the rod 28 at high temperatures. The grid 12 serves to protect the sensitive element of the PTI 2 from accidental damage. allows you to accurately set the thermostat in thermostat 3, and therefore on the sensor 2, and indicator 25 reliably (with an accuracy of 0.5 -t 0.6 ° C) measure the threshold OTj / i 2, as indicated by the sound indicator 27 BDUK 23.

a head 13 with a working chamber 15, in which a smoke-generating liquid d / w is created on the heating element-smoke generator 16 with a dispenser to create a given density of dry gray

from 2.5 to 60/0). When the power source 20 is turned on by the button 22, the element 16 heats up, evaporating the liquid applied to it and forming a smoke of a given density, and the fan 17 distributes the smoke through the mixing chamber 18 through the working chamber 15, providing uniform density. Grid 19, as well as grid 12, case 1 sieve for mechanical protection of the sensitive element Пдй 14.

The universal multi-section rod 28 provides the liJ / fflj / i for checking the ПTI 2 and ГЩ 14 directly in the place of their installation (up to a height of 6 m or more), and the lower support section 29 with a retractable stop device 30 allows you to fix the rod 28 in the working position in the form spacers) with a screw lock 31 with an emphasis on the heel 32 B, the half-switching section 33 installed above the section 29 provides the convenience of turning on the button 22. The devices for 33 changing the angle of the test head with the swivel joint Зв and the screw allows you to check the sensor if necessary and located in inaccessible places outside the line of sight.

Thus, due to the rational implementation of the design, ШШй Hermes is a versatile and easy-to-use fire tester that allows you to check any type of sensors, while ensuring adequate and accurate measurement of the threshold values of both ПТй and ПДИ directly at the installation site. test heads SP PT and SP ISh have a number of identical structural elements, which is an additional advantage when meeting the potential criterion of complexity - cost - accuracy - E1.) eKT BNOST

NOTE

Notes are given as additional material for examination and do not constitute a mandatory part of the description.

I. Functional SPs allow to carry out obtuity monitoring of PTs and OTDs (alternative is good - not good), quantitative tolerance control SPs imply control of thresholds, speed and other quantitative estimates of sensors of maximum, differential and maximum differential action (see / 1 , p. 7i-71), such as, for example, / b.7/. Functional joint ventures are simpler, but do not provide measurements of thresholds of sensors and assess the compliance of the main parameters with the required technical conditions pits, so the reliability of the joint venture is limited functionality. Verification of the quantitative tolerance tolerance 1-1: new control is more laborious, these devices are more complex, however, they provide high reliability of control with the assessment of metrological parameters nTi / i and

id / 1 special compositions of burned vegetable oil are also used, and, in some cases, the simplest OP Sm cigarette smoke / I, p. 76; 8, p. 145-146 /.

3. The control unit of the joint venture PTY in / 2 / has not been structurally disclosed, and the use of a fan heater (hair dryer), for example, with a graduation of 50,70,100 and 130 ° С (GM. / I, p. 74 /) is very rude; m control and only with a big stretch can be called controllable.

Using the mechanical damper in / 3 / to control the concentration of smoke is also not sufficient for precise control and requires careful preliminary laborious calibration.

Kristall /1/.11 fire alarm while using a smoke generator in the form of a cotton wick with its prostate cannot provide the required (several p) concentration accuracy.

5. In essence, the SP PTI and SP PDy / I / serve only d / w tests of sensors of maximum action and can be attributed to functional control devices. Moreover, although they are combined into one set of crystal systems, they are essentially two autonomous devices .In addition, SP / I / provides only an indirect (approximate) check for operation without measuring the value of the smoke concentration, since the smoke generation of the burned cotton wick requires complex metrological control /I ,c.76; II/.

6. Examples of specific performance of heat detectors are given in / 6 /, smoke detectors - in / 7 /, design features of PTI and PDI are described in / 5, -J /. The established test tests for sensors are given in / I /.

7. The empirical concept of the expediency of using devices of maximum efficiency, - sensitivity, reliability, accuracy and reliability - with the minimum possible complication and allowable labor and cost.

B. The design and controlled operation of a thermostated chamber is known and described, for example, in / II /; the range is from 10 to 150 ° C and the accuracy of keeping the temperature at 0, 6 ° C is due to the design of the PTI of maximum, differential and maximum-differential (combined) action / I /.

9. Smokiness is determined by the initial value of the smoke density threshold in i, 5; b, the required step of changing the smoke density is 0, L-1.0 / o at the maximum dosed smoke density of 60 / over the entire volume of the smoke generator / 1.8-9 /.

In this case, Gii PDI must be subjected to mandatory metrological control i calibration) at a special stand according to the established measurement procedure / I, p.7b; j.i /.

SOURCES BY LEVEL OF TECHNOLOGY

I. prototype and analogues:

1, Stumpf E.P., Shteling V.N. Tuning of ship's fire alarm systems. -L. Shipbuilding, 19b8.-bc. prototype: s. 7U-77).

Prop.RF it 2II0843, IPC EOB BI7 / 00, publ.: ABOUT the invention, 1998, te 13, p. 388 (analogue).

3. Pat.RF fe 2029376, IPC G08 BI7 / 00, publ.: ABOUT the invention, 1995, ii: 5, p.202 (analogue).

P. additional sources of prior art:

4.A.S. SSOR No., IPC Gi38 B29 / 00, publ.: ABOUT the invention 1985, No. 34, p.226.

5.Sv-in No. 5664, ZhK (708 BI7 / 00, publ.: ABOUT PZhO,,

B2 12, p. 49.

6..s. USSR 1% 1795492, MKI Qi) 8 BI7 / 06, publ.: Obzentratsii, 1993,, p. 198.

7.A.S. SSOR fe II79402, IPC & 08 BI7 / iO, publ.: OB Inventions, 1985, ii2 34, p.226.

8. Fire safety on ships: Per. from English.- L.: Shipbuilding, 1985, 407 pp. (p. 145-146).

9.Guskov Sh.G., Glozman M.K. Fire protection of Ura ships (design issues).-L.: Shipbuilding, 1974,

p. 92-114.

10.Martynenko V.I. Fire safety in shipbuilding: Handbook.-L.: Shipbuilding, 1987, p. 253-261.

11.Typical rules for the technical maintenance of fire automatics installations.-M, Rosselkhozizdat,.-26s.

Claims (10)

1. Combined tester for fire detectors (KIPI), including means of verification (SP) of fire heat detectors (PTI) and SP of smoke fire detectors (PDI), in which SP PTI and SP PDI are made in the form of test heads mounted on rods, which are working cameras, moreover, an electric heating element in the form of a spiral and a fan connected to a power source and a temperature sensor are placed in the working chamber of the joint venture ПTI and a smoke generator with a smoke concentration regulator is placed in the working chamber of the joint venture; SP PTI is made in the form of a hollow pipe with wires laid inside, connecting the heating element and the fan to the power source by means of a power button mounted in the lower part of the rod, characterized in that the control and measuring instrument is designed as a universal means of quantitative tolerance control of the performance of PTI and PDI with the possibility of changing on one rod of the test head PTI on the test head PDI, while the working chamber SP SPI is made in the form of a thermostat with a heating element placed in it, the fan and the temperature sensor, the SP PTI is equipped with a remote control and control unit (BDUK), configured to control the temperature of the thermostat and connected to the temperature sensor and the heating element, the heating element and the fan are placed in the working chamber of the SP PDI, moreover, as a smoke generator and a regulator of its concentration In the JV PDI, a heating element was used, on which a smoke-forming liquid was applied in an amount that ensured a given smoke density.  2. I&C according to claim 1, characterized in that the BDUK is a unit for quantitative tolerance control of the operation of the PTI and is equipped with a device for setting the thermostat temperature (UUTT) set in a certain interval and a thermostat temperature indicator, and the temperature indicator is connected to the temperature sensor, and the UUTT is connected to the heating an element placed in a thermostat. 3. KIPI according to claim 2, characterized in that the UUTT is configured to set the temperature of the thermostat in the range from 10 to 150 ^{° C.} with an error of 0.5 - 0.5 ^° C.  4. Instrumentation equipment according to claim 2, characterized in that the BDUK is additionally equipped with light and sound indicators of the threshold value of the temperature of operation of the PTI.  5. KIPI under item 1, characterized in that the test head of the SP PTI in the lower part is equipped with a cooling unit containing a radiator and a cooling fan, and the cooling unit body has ventilation windows.  6. KIPI according to claim 1, characterized in that the test heads of the joint venture and joint venture PDI have protective mesh-mixers located between the heating elements and the sensitive chambers PTI and PDI, as well as safety grids located between the fans and heating elements.  7. KIPI according to claim 1, characterized in that the application of the smoke-generating liquid to the heating element of the joint venture of the remote control is made by a dispenser configured to create a given density of dry gray smoke from 2.5 to 60% with a step of 0.5 - 1.0% .  8. KIPI according to claim 1, characterized in that the universal rod, in the upper part of which the test head of the test instrument or test head is fixed, is made of a multi-sectional assembly and contains a connected lower support section, a switching section with a button for connecting the heating element and the fan to the power source , as well as one or more intermediate sections, to the upper of which the test heads of PTI or PDI are attached.  9. KIPI according to claim 8, characterized in that the lower supporting section of the rod is equipped with a retractable stop device, fixed with a screw clamp and provided with a rubber heel at the base. 10. KIPI according to claim 8, characterized in that the upper intermediate section, to which the test heads are attached, is equipped with a device for changing the angle of the test head relative to the axis of the rod, made in the form of a hinge assembly secured by a clamping screw.