SU1049790A1 - Device for testing filter - Google Patents

Abstract

1. DEVICE FOR TESTING FILTERS, including dust 1): amer, W / 3 dust meter connected to the dust chamber entrance, absolute filter placed at the dust chamber exit, fan, measuring collector connected by its outlet to the fan, and micromanometers, characterized in that, in order to improve accuracy and speed up testing by eliminating the flow of compressed air, it is equipped with an additional camera installed between the absolute filter and the measuring collector placed at its entrance, and one of the pressure gauges Dinen its measuring ends with a dimensional collector and an additional camera. 2. The device according to claim 1, of which is I, in that the dust chamber is anabrhened by the fan. (L 3. The device according to claim 1, of which the dust metering device is equipped with an ejector connected with its outlet to the dust chamber. --About

Description

The invention relates to a device for testing filters and can be used in the technique of air conditioning and ventilation in vehicles. A device for tested filters, a mechanical dust metering device, a measuring manifold, a dust chamber, a fan, providing the necessary air flow for micromanometers and dust collecting pipes C13, are known. The drawbacks of the device are the poor quality of studies of air transport filters due to the impossibility of creating conditions for operation of these filters that are close to those filters, which are characterized by a large amount of dust concentration of a certain dispersed composition and low air velocities supplied to the filter (0.5-1 , 0, m / s), the presence of compressed air consumption., Increased metal intensity Due to the classifier's litchi and relatively long pipelines and air ducts. Closest to the invention is a device for testing filters containing a mechanical dust metering unit, a measuring manifold, a dust chamber, a fan that provides the necessary air flow, an absolute filter, and 2 micromanometers. The disadvantages of this device are the low quality filter research due to the absence of the possibility of creating conditions close to the operating conditions. of these filters on the concentration of dust in the air with a certain dispersed composition of dust at small soon St x air flow (0.5-1.5 m / s) and the presence of the flow of compressed air. The purpose of the invention is to improve the accuracy and speed up the tests by eliminating the flow of compressed air. The aim is to ensure that the device for testing filters, including a dust chamber, a dust meter connected to the inlet of the dust chamber, an absolute filter placed at the outlet of the dust chamber, a fan, measuring the collector, connected by its output to the fan, and micromanometers, is equipped with an additional chamber, installed between the absolute filter and the measuring collection, placed in not its own entrance. The gauges are connected by their measuring ends with a measuring collector and an auxiliary chamber. In this case, the dust chamber is equipped with a fan. Moreover, the dust metering device is equipped with an ejector connected with its outlet to the dust chamber. The drawing shows a General view of the device, a longitudinal section. The proposed device contains a mechanical dust metering device 1, a measuring manifold 2, a dust chamber 3 in which vacuum is created with the help of a fan 4 providing the necessary air flow, an absolute filter 5, weighed before and after tests, micromanometers 6 on the test filter and measuring a manifold, an additional chamber 7, an additional fan 8 with a variable speed, a branch pipe 9 with an ejector and throttle flaps 10. The device operates as follows. When the fan 4 is turned on, a vacuum is created in the dust chamber 3 and the nozzle 5 with the ejector. The air flow is regulated by the throttle valves 10 on the pipe 9 and the valve on the fan 4. The dust through the mechanical metering device 1 and the ejector in the pipe 9 is sucked into the dust chamber 3. With the help of an additional fan 8 a vertical air flow is created with a certain speed that depends on fan speed 8. By selecting the required number of revolutions, the dust particles are in a positive state, and the higher the fan revolutions, the larger the dust particles are in a suspended state, t. -e It is possible to regulate the dispersion of dust entering the filter under test. In addition, the dust field created in the dust chamber brings bench testing to the operating conditions of the filters on vehicles. The amount of dust passed through the test filter is retained by an absolute filter 5. Air flow is measured by a pressure gauge 6, connected to measuring manifold 2 and an additional chamber 7. The dispersion of dust supplied to the spun filter is determined by means of analytical AFA filters on the corresponding fan speeds 8. A positive effect when using the proposed device is to improve the quality of research, eliminate compressed air consumption, reduce metal consumption, the possibility of supplying the test filter with dust of a certain dispersed composition. Compared with known filter testing devices

E1049790

air flow rate up to 1000 m3 / h, to control compressed air consumption

The proposed device disappears. Besides this, for the proposed

the need for a source; the device can create conditions

obtaining compressed dry air (com-similar to operating conditions

pressor and sump) devices for filters on transport means.

Claims (3)

1. A FILTER TEST DEVICE, including a dust chamber, <a dust meter connected to the input of the dust chamber, an absolute filter located at the outlet of the dust chamber, a fan, a meter manifold connected to its output with a fan, and micromanometers, characterized in that, with In order to increase the accuracy and speed up the Tests by eliminating the flow of compressed air, it is equipped with an additional chamber installed between the absolute filter and the measuring manifold placed in it by its inlet, and one of the manometers is connected by its and measuring ends with a measured collector and an additional chamber. 2. The device according to claim 1, wherein the dust chamber is equipped with a fan. 3. The device according to p. ^ Characterized in that the dust dispenser is equipped with an ejector connected by its output to the dust chamber. SU „, 1049790>