SU1047531A1 - Apparatus for selecting samples from sprayed liquid torch - Google Patents

Abstract

DEVICE FOR SELECTION OF SAMPLES. FROM A TORCH OF A SPRAYED LIQUID, containing a pipe for receiving and discharging a liquid with inlet and outlet openings, mounted on a rotary axis with the possibility of vertical movement, so as to improve the accuracy of sampling , the inlet side of the inlet is made in the form of a truncated pyramid forming the receiving chamber, and the inlet is arcuate with a radius in the center of the rotary axis, while the nozzle is provided with bent plates placed in the receiving chamber parallel to the inlet Steen sent by one party to the inlet, and the other to vyhodnomu.S

Description

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F1P.1 The invention relates to the technique of spraying devices, designed to collect fluid samples to measure plume parameters, such as dispersed characteristics, and can be used both in laboratory and in laboratory. and in the industrial practice of testing spray devices. The following is known: a sampling device from a torch sprayed liquid containing a funnel with a diverter tube / installed with the possibility of reciprocating Cl. The disadvantage of this design is that it eliminates vertical displacement of the nozzle, which is often necessary when testing sprayers with a different torch root angle (the smaller the angle of the torch, the greater the distance from the measuring plane ). The raven in this device is unable to move vertically, and when the nozzle is removed from it, some of the liquid will fall, mine, raven, into the measurement zone, and c. distort the measurement results. A test of this design showed that, at high performance of the nozzles, the funnel tube should have a very large section (otherwise it cannot cope with the discharge of fluid, last, fill the entire funnel, spill over its edge and cause large measurement heights). The design of the funnel becomes The closest to the proposed technical essence and the achieved effect is a device for sampling from the torch of the sprayed liquid, containing a pipe for receiving and discharging Bays with inlet and outlet openings, mounted on a rotary axis with the possibility of vertical movement Sz. / However, this device does not provide a high accuracy of sampling, as it allows the ejection of droplets reflected from the bottom walls through the inlet opening, which has In addition, a portion of the liquid flows to the outside of the nozzle and the resulting splashes also distort the picture in the sample. The purpose of the invention is to improve the accuracy of sampling. This goal is achieved by the fact that in the device for sampling from a spray of sprayed liquid containing a nozzle for receiving and draining liquid with inlet and outlet openings mounted on the rotary axis with the possibility of vertical movement, the nozzle from the inlet side is made a truncated pirage tidl forming the receiving chamber, and the inlet opening is arcuate with a radius in the center of the rotary axis, while the nozzle is provided with bent plates placed in the receiving chamber - parted to the entrance to the orifice and, directed by one side to the entrance hole, and the other - to the exit. In Fig.1 schematically shows the proposed device, General, type; in Fig.2 - the same, top view, fig.Z - section A-L in Fig, 1. The device contains a pipe 1. DL. receiving, and drainage of fluid with an inlet 2 and an outlet 3. The socket 1 on the side of the inlet 2 is made in the form of a truncated pi-shdy forming the receiving chamber 4, and the inlet aperture 2 is made arc-shaped with a radius in the center of the rotary axis 5 on which the branch pipe 1 .. is installed. . The nozzle 1 is provided with curved plates b placed in the receiving chamber 4 parallel to the inlet and directed one side to the inlet 2, and the other to the output side 3. The nozzle 1 is fixed on the axis 5 with the possibility of vertical movement and fixing its position with a screw 7 the flange 8 with respect to axis 5. The axis 5, in turn, is supported on the ball bearing 9 and can freely rotate in the supports 10 and 11 placed in the expansive tank 12. At the upper end of the axis the lever 13 is rigidly fixed, connected through 14 to 14 heart 15 solenoid. The core 15 of the solenoid is connected to the end switch 16 of the start of the electric stopwatch (not shown). The spring 17 serves to return the nozzle 1 after its rotation on the axis 5 to the initial position ... The device works as follows. After installing the nozzle 18 to:. the required distance from the measurement plane loosen the screw 7 and move the nozzle along axis 5 so that the distance from the nozzle 18 to the inlet 2 is minimal (35 mm). Then, a liquid is supplied to the nozzle, which through the opening 2 enters the receiving chamber 4 and meets with the plates 6, which spread the flare into separate jets, ensure their smooth entry into the channel of the nozzle and prevent liquid from being ejected through the opening 2. The same the shape of the entrance chamber in the form of a truncated cone. / The fluidity at the nozzle 1 is diverted out of the measurement zone through the opening 3.

When the system enters the mode (or another power of time assigned by the tester, a current is applied to the coil of the solenoid, the core .15 is drawn in, through the pull 14 and the lever 13 rotates the axis along with the nozzle 1 and leads it out of the torch. After the required exposure, the springs from the solenoid are removed and the spring 17 returns the tubing to its initial position. To prevent liquid from entering the inclined walls of the entrance chamber 4 from the outside Version 2 is in the form of a part of a ring with a center on an axis.

In the proposed device, the presence of the receiving chamber, which forms the inlet of the nozzle, in the form of a truncated pyramid reduces the size of the inlet hole to the clay angle and practically eliminates the release of splashing from the impact of the jet on the walls of the nozzle.

The implementation of the inlet arcuate c-radius in the center of the axis

rotation ensures that the nozzle axis coincides with the middle of this inlet, otherwise part of the liquid will fall on the outer walls of the receiving chamber and the nozzle, and the resulting splashes will distort the picture in the sample.

The presence of curved plates eliminates the penetration of plugs to the bottom of the nozzle, i.e. a smooth impact is ensured. The liquid enters the nozzle. Placing the plates parallel to the inlet provides such a liquid inlet at any position of the nozzle as it rotates.

The presence of a turning mechanism in the device ensures reproducibility (by the time of turning the sampling and thereby increasing the accuracy of sampling.

The use of the proposed device improves the accuracy of the selection of pro and thus the accuracy of single measurements of spray parameters, which allows reducing the number of parallel measurements. Therefore, the continuity and labor intensity of injector testing is reduced.

Claims (1)

. DEVICE FOR TAKING SAMPLES FROM A SPRAY LIQUID TORCH, Containing a nozzle for receiving and discharging liquids with inlet and outlet openings, mounted on a rotary axis with the possibility of vertical movement, with the aim of increasing sampling accuracy, the nozzle on the inlet side is made in the form of a truncated pyramid forming a receiving chamber, and the inlet is arched with a radius in the center of the rotary axis, while the nozzle is equipped with parallel to the inlet opening located in the receiving chamber stiyu curved plates, one directed to the inlet side and the other - _with the outlet. © SU „. 1047531