SU22530A1 - Device for automatic signaling when the ventilation pipes are clogged - Google Patents

Description

The main patent describes a device for the automatic signaling of clogged ventilation pipes, | in which a Pitot tube is used, connected to a manometer; According to the invention, the Pitot tube connected to the crankshaft pressure gauge is placed in the ventilation duct near the pressure fan and faces at an angle of about 90 ° to the air flow, and the pressure gauge on its open knee is fitted with a metal cylinder that is installed at the desired depth from the poles of the signal circuit, the other pole of which is connected to a conductive liquid poured into a pressure gauge. The proposed modification of the described device is that the contact liquid manometer, which serves to turn on the signal circuit, in the case of pressure ventilation on one side and exhaust ventilation on the other, is connected by means of a tee with a Pitot tube, and both these tubes are fixed in ventilation duct.

In FIG. 1 depicts the scheme | devices; FIG. 2-scheme of the dust collector. j

To control the flow rate of the gaseous medium in the ventilation duct or air duct 1 by means of two pitot tubes 2 and 3 fixed in this duct facing in opposite directions, two vessels 6 and 7 with liquid are used, communicating with each other by means of a rubber tube 8 and connected to the ends of the tubes 2 and 3, rubber tubes 5. To measure the difference in the levels of the vessels B and 7, a movable scale 9 is used, set before starting the measurement with a zero point at the level of the liquid in the vessel 6. For constant recording of The float 9 is placed into the vessel 7 with a hollow metal cylindrical 10 inserted along its axis. At the ends of the inner surface of the cylinder 10 there is a cut for two hairpins, the top of which has a vertical hole. An iron rod 12 was passed through the hole in the upper hairpin with support rings 11, 11, which were fixed by means of cotter pins in such a way that some very small gap remained between these support rings (upper and lower) and the studs screwed into the cylinder. Due to this, the float, when it is raised, moves the rod 12 to its lower part, and when lowered, the upper part and, thus, the possibility of tilting of the float is eliminated. The rod 12 passes through the harmonic 14, worn on the narrowed part 13 of the vessel 7 and made of rubber or other breathable material. Harmonic stretching should be sufficient to fluctuate fluid levels. The upper part of the rod 12 is fastened by means of a system of levers 15, 16 with a floating device 17, 18, which records the speed of the flow with the aid of a feather 18 and is attached to the cylinder 19, which is rotated by means of a clock mechanism. The vessel b for a more illustrative change in velocity in the diagram should be of a larger diameter than vessel 7. The clock mechanism of the cylinder 19 is conveniently provided with a winding mechanism once a week. Then, with an appropriate calculation of gears, the cylinder will make one revolution within 24 hours, or one revolution during the week l, depending on this, will give either a daily or seven-day chart. With the help of a tee 21 in the case of injection ventilation, the pitot tube 3, and in the case of exhaust ventilation, the pitot tube 2 is connected to the device 20, equipped with a pressure tube with a fixed contact K and a movable scale in it. This device serves to signal when the duct is clogged. With an exhaust system, the contact K and the wire P immersed permanently in a liquid (water acidified with sulfuric acid to a specific weight equal to, for example, 1.05) must be rearranged one in place of the other.

According to the difference between the levels AND of water, acidified with sulfuric acid, measured by the mobile scale 9, at any given moment the speed of movement of air in the air duct 1 can be determined according to the table (see description of patent No. 5178) using the formula:

I- (l, ll.M 0 .. fi -Vh -V-7731, 05.2f /

where 1.05 is the specific weight of acidified sulfuric acid water, H is the height of the raised water in tank 7, from where

, 82y / L

In order to avoid clogging, the tube 5 is equipped with glass tubular inserts 4, 4, with cotton wool placed on them which retains penetrating dust and can be replaced with new one from time to time. In addition, in channel 1, especially during exhaust ventilation, in order to avoid clogging of the Pitot tube that is constantly in the current of dusty air and the associated prefixing of the control device, a dust collector 22 should be installed near the Pitot tube (Fig. 2). The dust collector is connected by means of a rubber sleeve 25 to a tube 21 extending into an opening of a channel 1 located adjacent to an opening for a pipe 2; the tube 21 ends with two branches 2S and 26, the first of which is closed by a rubber stopper, and the second, with the gyumosch, and the rubber sleeve 24, is articulated with tube 2.

Dust, chips, etc., coming along with the airflow into channel 1 (but in the direction of the arrow) fall into the opening of tube 2 and by inertia fly into the sprout 26 of tube 21; this is also facilitated by the fact that the end of the tube 27, which communicates with the control vessel, is somewhat in the air flow K-pc (Fig. 2). Through the pipe 21, the dust is poured into the dust collector 22, from where it can be periodically removed. Thus, the proposed device can simultaneously serve for the purpose of: signaling, recording and controlling ventilation, blower and compressor installations. If necessary, at any time, at any time, from different rooms where such devices are installed, it is possible to get diagrams and compare the change that occurred ventilation operation, if such was the case.

The subject matter of the invention.

1. Modification of an automatic alarm device for clogging described in patent No. 5178

ventilation pipes, characterized in that the contact liquid mano. The meter used to turn on the electric circuit is connected via tee 21, in the case of pressure ventilation, to the Pitot tube 3: and, in the case of exhaust ventilation, to the Pitot tube 2, which Pitot tubes 2 and 3 are fixed in ventilation duct 1.

2. In the device described in item 1, in order to control and record the flow rate of the gaseous medium, use connected to tubes 2 and 3; The pitot communicates with each other by means of a tube 8 of vessels 6 and 7 with a liquid, to measure the level difference of which in vessels (5 and 7 serves as a movement 1a of the cheek 9, on the surface of a liquid in the vessel 7 floats 9, float 9 through the harmonic 14, and the system of levers with the fixture 17, 18 squeezing on the rotating cylinder 19.

3. When characterized in clauses. 1 and 2, in the case of exhaust ventilation, use, in order to prevent the Pitot tube 2 from clogging, of the dust collector 22, connected by tube 21 to tube 2 placed in the ventilation duct 1, facing the gas flow in the duct into which the air flow 2 the end of the tube 27, which is connected to the liquid manometer and whose end is facing in the direction of the gas in channel 1.