RU196596U1 - SMALL EXPERIENCE POOL - Google Patents

Abstract

The utility model relates to the field of experimental technology for the comprehensive examination and diagnosis of outboard motors for harmful exhaust emissions, noise, and for the experimental pool with the possibility of determining their quantitative composition entering the atmosphere and hydrosphere, determining power, fuel consumption. The device contains a rectangular bowl filled with water, is equipped with a sealed cover in which LED lights are built in, in the upper part of the housing, on the side, a siphon gas outlet is installed that separates condensate from the exhaust gases, the device has a gas analyzer installed separately from the main device and connected to the siphon gas outlet by a metal a probe. In the lower part of the pool, a heat exchanger is installed, rigidly fixed to the bottom, in which there are sewage and drainage drains, there is a water pipe connected to the body, the pool is equipped with a thermometer. A ventilation device is installed on top of the pool above the pool, the device housing is equipped with an inspection window and a movable transom mounted on the sealed pool cover. The device is equipped with a screw stop sensor installed in the upper part of the pool casing, it is supplied with fresh air ventilation in the form of an axial fan installed in the pipeline and connected to the engine, a water level gauge in the pool bowl fixed on the pool wall, a weight sensor measuring the amount of fuel in the fuel tank connected to the engine by a flexible pipe. The device is equipped with a movable bar with a built-in protractor to control the deflection angle, rigidly fixed on the pool wall and sound level meter, fixed on the bar. The technical result consists in increasing the accuracy of determining at different operating modes the quantitative composition of harmful exhaust emissions. 1 ill.

Description

The utility model relates to the field of experimental technology for the comprehensive examination and diagnosis of outboard motors for harmful exhaust emissions, noise, and for the experimental pool with the possibility of determining their quantitative composition entering the atmosphere and hydrosphere, determining power, fuel consumption.

Known test tank, made in the form of a rectangular bowl filled with water, equipped with a hydraulic lifting handle. The lift allows the specialist to work with the carburetor, ignition and perform other operations to adjust the outboard motor without physical stress. Internal partitions practically exclude cavitation. This design is designed to test outboard motors with standard propellers. (see internet link http://www.specialtymotorsmfg.com/outboard testtanks.htm)

The closest in technical essence is a small test pool containing a rectangular bowl filled with water, equipped with a sealed cover, which has LED lights, in the upper part of the housing, on the side, a siphon gas outlet is installed that separates condensate from the exhaust gases, the device has a gas analyzer installed separately from the main device and connected to the siphon gas outlet with a metal probe, a heat exchanger is installed in the lower part of the pool, which is rigidly fixed to the bottom, in which there are sewage and drainage drains, there is a water pipe connected to the hull, the pool is equipped with a thermometer, a ventilation device is installed on top of the pool on the pull-out console, an outboard motor speed sensor mounted on the pool transom board is installed on the outer pool wall, the device body is equipped with an inspection window (see RF patent No. 182049, 2017).

However, such a pool does not have the technical ability to determine the power and fuel consumption of an outboard motor, it does not have a device for measuring the noise level at a certain angle to the noise source, it does not modulate air blowing of the motor, there are no logistic controllers, and there is no water level meter in a small experimental pool.

The technical task of the utility model is to create a device that allows to determine, by improving the design of the pool, the quantitative composition of harmful emissions and the noise level of the outboard motor when modulating operation under different loads, taking into account fuel consumption.

EFFECT: increased accuracy of determining the quantitative composition of harmful exhaust emissions in different operating modes.

It is achieved by the fact that the known device containing a rectangular bowl filled with water, is equipped with a sealed lid, in which LED lamps are built in, in the upper part of the housing, a siphon gas vent is installed on the side that separates the condensate from the exhaust gases, the device has a gas analyzer installed separately from the main device and connected to the siphon gas outlet with a metal probe, a heat exchanger is installed in the lower part of the pool, which is rigidly fixed to the bottom, in which there is a sewer and drainage drains, there is a water pipe connected to the casing, the pool is equipped with a thermometer, a ventilation device is installed on top of the pool on the pull-out console, the casing of the device is equipped with a viewing window and a movable transom mounted on a sealed pool cover, the device is equipped with a screw stop sensor installed in the upper parts of the pool casing, equipped with forced ventilation in the form of an axial fan installed in the pipeline and connected to the engine, a water control level gauge in the pool bowl, fixed on the pool wall, with a weight sensor measuring the amount of fuel in the fuel tank, connected to the engine by a flexible pipe, the device is equipped with a movable rod with a built-in protractor for controlling the deflection angle, rigidly fixed on the pool wall and sound level meter, three logistic controllers installed separately from the main device and cables connected to the personal computer and the pool.

A personal computer that analyzes data from logistics controllers. Currently, the design of the experimental pool is very relevant, since the need for such devices is high at ship repair workshops, manufacturers of outboard motors. Thanks to the improved design of the pool, it became possible to measure the propeller stop sensor and the tachometer sensor with further processing by the logistic controllers of the outboard motor power in various operating modes and to monitor fuel consumption in the fuel tank by the weight sensor in conjunction with the logistic controller in real time, data from controllers are reduced to a personal computer for data processing by the TestMotor program which tracks the set period of time motor bots. Fresh air ventilation is modulated by an axial fan built-in in the pipeline to blow the motor in natural conditions, the level gauge controls the height of the water column for motors with different transom heights, installing a sound level meter on the boom allows you to evaluate the noise level of the motor, and the built-in protractor creates the boom angle corresponding to the test program of regulatory and legislative documentation. The advanced design allows testing outboard motors for compliance with the requirements imposed by environmental authorities and transport services.

The drawing shows the proposed device (Fig. 1 - General view).

The device has a pool 1 filled with water, an outboard motor 2, a movable transom 3. On the outer wall of the pool 1 there is a screw stop sensor 4 and a water level meter 5, a heat exchanger is installed at the bottom of the pool 6. A weight sensor 7 is installed separately for measuring the amount of fuel on which the fuel tank 8 is installed, supplying fuel through a flexible pipe 9 to the engine. A gas analyzer 10 is also installed separately, which is connected through a probe to a gas outlet 9, through a siphon gas outlet 11. Separately from the main device, a logistic controller for stop screw 12, a weight logistic controller ¹ 13, and a logistic controller for tachometer 14 connected via cables 15 to the sensor for stop screw 4 are installed , a weight sensor 7, a tachometer sensor 16 connected to the high-voltage wire of the first spark plug of the engine. Logistic controllers 12-14 are connected to a personal computer 17 via cables 18. A personal computer 17 processes data from logistic controllers using the TestMotor program (see certificate on state registration of a computer program No. 20186185338).

A sewage drain 19 is provided for removing water from the test pool, and a drainage drain 20 is used for water sampling. Inside the pool 1 there is a thermometer 21 mounted on the wall. The top of the device is tightly closed by a sealed cover 22 with integrated LED lights 23. Using a water pipe 24 filling the pool bowl with water. The device casing is equipped with a viewing window 25. An exhaust ventilation device 26 is installed on top of the pool, on a pull-out console. The device is equipped with a supply ventilation pipe 27 with an axial fan 28 installed inside. A pivot rod 29 is installed on the outer wall of the pool, with a sound level meter 30, and a protractor 31 .

The proposed device operates as follows. The small test pool is filled with water according to the marks of the level gauge 5. Before starting the outboard motor 2 mounted on the movable transom 3 of the test pool 1, which is closed by a sealed cover 22 with built-in LED electrical safety lights 23. The fuel tank 8 mounted on the weight sensor 7 is connected to the motor flexible pipe 9, tachometer sensor! 6 connect to the high-voltage wire of the first spark plug of the engine. A sound level meter 30 is installed on the rod 29, for measuring the noise level at different operating modes of the motor. After starting the engine, include a ventilation device 26, which removes exhaust gases and ensures the safety of staff, also include an axial ventilation fan 28 for modulating airflow under natural conditions. To modulate the season of operation of the outboard motor, the heat exchanger 6 is turned on. The thermal regime of water in a small experimental pool is monitored by the readings of thermometer 21.

When the engine is operating in split modes, the movable transom 3 focuses on the sensor 4, the data from the sensor are processed by the logistic controller 12 and transmitted for analysis to a personal computer 17, the weight sensor 7 monitors changes in the weight of the fuel, the data are processed by the logistic controller 13 and transmitted for analysis to personal computer 17, the tachometer sensor 16 monitors the engine speed, data is processed by the logistic controller 14 and transmitted for analysis to the personal computer 17.

In the process of the engine operation, harmful emissions together with the exhaust gases enter the water of the test pool, most of which enters the siphon gas outlet 11 and is analyzed by a gas analyzer 10 through a probe (quantitative analysis of atmospheric pollution). A water sample is taken from the drainage runoff 20 for laboratory analysis to determine the quantitative analysis of the harmful emissions remaining in the water (hydrosphere), the noise level is measured by the sound level meter 30 mounted on the rotary rod 29 at an angle according to the protractor 31. To monitor the bubbling and movement of engine exhaust gases a viewing window 25 is provided.

The proposed small experimental pool helps to improve the accuracy of the quantitative composition of harmful emissions and the noise level of the outboard motor when modulating operation under different loads, taking into account fuel consumption. Also, the device can measure the power developed by the outboard motor.

Claims (1)

A small test pool containing a rectangular bowl filled with water, equipped with a sealed lid, in which LED lamps are built in, in the upper part of the housing, on the side, a siphon gas outlet is installed that separates condensate from the exhaust gases, the device has a gas analyzer installed separately from the main device and connected to a siphon gas outlet with a metal probe, in the lower part of the pool a heat exchanger is installed, rigidly fixed to the bottom, in which there are sewer and drainage st oki, there is a water pipe connected to the casing, the pool is equipped with a thermometer, a ventilation device is installed on top of the pool on the pull-out console, the casing of the device is equipped with a viewing window, characterized in that the casing of the device is equipped with a movable transom mounted on a sealed pool cover, the device is equipped with a sensor the stop of the screw installed in the upper part of the pool casing is provided with fresh air ventilation in the form of an axial fan installed in the pipeline and connected to the motor with a water level meter in the pool bowl fixed on the pool wall, a weight sensor measuring the amount of fuel in the fuel tank connected to the engine by a flexible pipe, the device is equipped with a movable rod with a built-in protractor to control the deflection angle, rigidly fixed on the pool wall and sound level meter, rigidly fixed on the bar.

Images