RU2045044C1 - Smoke density indicator - Google Patents

Abstract

FIELD: instrument engineering. SUBSTANCE: smoke density indicator is provided with spars, which are disposed between gas inlet pipe and case and between the sealing, which is placed at input of gas inlet pipe from outside. EFFECT: improved quality. 3 dwg

Description

 The invention relates to instrumentation and may find application for measuring the smoke of diesel engines.

 There are various devices for measuring smoke (see, for example, US patent N 4719360, CL G 01 N 15/06, 1988, ed. St. USSR N 1448249, CL G 01 N 21/53, published. 1988, N 1203409 , CL G 01 N 21/53, 1983, N 1203410, CL G 01 N 21/53, 1983). The last of the listed analogues is the closest, since it has the maximum number of essential features common with the proposed technical solution. The main of these features is that in the known and proposed inventions, the device comprises a gas inlet, arranged in series with a light source, a measuring channel, a photodetector and a recording device.

 The disadvantage of the prototype is the increased energy consumption for ensuring the operation of a source of compressed air and increased consumption of materials due to the bulkiness of the structure (the presence of an additional exhaust pipe).

 The aim of the invention is to reduce energy consumption and material consumption.

 For this, in a smoke meter containing a gas inlet pipe, a light source, a measuring channel, a photodetector and a recording device arranged in series, the gas inlet pipe is provided with guide spars and is made with a seal.

 In FIG. 1 shows the proposed smoke meter, section; figure 2 electronic device for measuring smoke; figure 3 section aa in figure 1.

 The smoke meter contains an inlet pipe 1 (gas inlet pipe) with a sealing ring 2 (seal) to prevent exhaust emissions. The inlet pipe 1 is equipped with four guide spars 3 attached to the housing 4 by welding. A protective glass screen 5 is placed inside the housing 4 in the form of a cylinder fixed by a nut 6. Two brackets 7 are attached to the pipe 1 (by welding), attached by screws 8 to the detachable handle 9, inside which an electronic circuit (measuring channel) is placed.

The electronic circuit contains a power supply 10, which is connected to the button 11, to the transistors V ₁ , V ₂ , V ₃ and through the resistance R ₃ to the transistor V ₂ , the photodiode D ₁ (photodetector), to the lamp L ₁ with a reflector 12. Button 11 connected to transistor V ₃ through a milliammeter MA and an adjustable resistor R _n , with transistor V ₂ , with lamp L ₁ and with transistor V ₁ through resistance R ₁ . The photodiode D _{1 is} connected through a capacitor C ₁ to the transistor V ₁ and to the resistance R ₂ . Transistor V _{1 is} connected to transistor V ₂ . On the milliammeter scale MA, marks of permissible current values corresponding to the restrictive smoke density are made. Lamp L ₁ is a light source. Milliammeter MA recording device.

 The smoke meter works as follows.

The smoke meter inlet pipe 1 (Fig. 1) is inserted into the exhaust pipe of a running diesel engine (not shown) all the way into the O-ring 2. The smoke passing through pipe 1 carries along the laminar flow of ambient air and moves along the guide spars 3 around pipe 1 thereby creating a protective layer that prevents contamination of the glass screen 5 and the photodiode D ₁ , which ensures the reliability of observation on the scale of the device milliammeter MA. Button 11 is activated by pressing the trigger of the smoke meter. The lamp L ₁ lights up, the luminous flux of which, through a reflector 12, passing through the smoke stream of the inlet pipe 1 of the laminar air flow along the inner walls of the housing 4 and the glass screen 5, enters the photodiode D ₁ , which is transmitted through a low-frequency amplifier (C ₁ , R ₂ , V ₁ , R ₁ , V ₂ , R ₃ , V ₃ , R _n ) directs the current to the mA milliammeter, the readings of which correspond to a specific smoke density.

 The proposed smoke meter ensures long-term cleanliness of the glass screen through the use of a protective laminar air flow around the smoke stream. The design does not require the use of a compressed air source, which saves energy. Small-sized execution (gas inlet pipe at the same time serves as a gas outlet pipe) reduces material consumption.

Claims (1)

 A DIMMER containing a housing, a gas inlet pipe, a light source and a measuring channel arranged in series along the radiation, a photodetector connected to a recording device, the light source and a photodetector on the measuring channel side being closed by a glass screen, and a gas inlet pipe connected to a measuring channel, characterized in that, in order to reduce energy consumption and reduce material consumption, the device is equipped with spars located between the gas inlet pipe and the housing, and the seal, azmeschennym gases entering inlet tube with its outer side.

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