SU4598A1 - Water jet pump - Google Patents

Description

In devices for determining the percentage of carbon dioxide and carbon monoxide in the gaseous products of combustion, it is necessary to pass through the receiver a stream of test gas at a constant speed, which is usually achieved using a water jet pump with a vacuum meter (barometer), according to which it is adjusted by hand.

The proposed water jet is designed to automatically adjust and maintain the required pressure difference, and hence the gas flow rate through the measuring device independently, regardless of pressure fluctuations in the hog, or pressure fluctuations in the water supply network.

In FIG. 1 shows a general schematic arrangement of all parts of the pump, FIG. 2 is a vertical section of a water jet pump; FIG. 3 and 4 are modifications of the proposed pump.

Gaseous products of combustion enter through the tube / into the tube 2, washed by the water of the refrigerator X, into which water from the water supply system flows through the tube 5 (Fig. 1). From the cooler tube 2, the cooled gases enter the filter /, and then through the tube 4 into the receiver A of the electric gas analyzer. Pass last, the gases enter chamber B through tube 6, nozzle 5 and channel 7 (Fig. 2). The nozzle 8 and the nozzle 9 of the water jet apparatus are placed in the chamber B, and the chamber is filled to the water up to the level of the orifice of the nozzle 8. The process 10 of the gas supply tube (i.e., almost reaching the bottom of the chamber) enters the same chamber.

The operation of the device is as follows.

The water from the refrigerator under pressure in the water supply network flows through the channel // through the nozzle 9 into the nozzle 8, and from there through the tube / 2-out. In the interval between the nozzle 9 and the nozzle opening 8, the injection effect of the jet takes place, which carries gas with it into the nozzle and forms the required vacuum in chamber B. Under the influence of the latter through tube b, 5, 7, gases are sucked into chamber B, which are thus forced to pass from the bore through filter F and receiver A of the gas analyzer at a known speed. At the same time, due to the pressure difference in the tube -Z and in chamber B, gas bubbles through the water rise in the chamber into the space above the water. As a result, the degree of vacuum in chamber B will always be equal only to the height of the column from the lower end of the tube Yu to the level of the liquid in chamber B, regardless of pressure fluctuations in the hog, or pressure fluctuations in the water supply system.

In order to make the height of this column constant, there is a side opening 13 in the nozzle 9 through which a small additional amount of water enters the chamber B in a thin stream, replenishing its possible loss, and the water flows through the nozzle 8. In FIG. Figure 3 shows a modified water jet pump device in which the tube 10, immersed in water and reaching almost the bottom of the dilution chamber B, opens into the atmosphere, and is not an extension of the tube (supplying gaseous products of combustion) (Fig. 3).

In the modification of the water jet pump, shown in FIG. 4, to tube b, supplying gas to a water jet pump, attached

I using a connecting tube I 7 a closed reservoir B filled to some extent with water or, even better, some kind of difficult evaporating liquid, for example, glycerin, oil, mercury or the like. The tube 10 is immersed in this liquid to a depth h , the free end of which is coherent with the atmosphere. The water jet pump must be of such a force that the vacuum in chamber C with I itself weak pressure of water in the water supply exceeds the height h of the tube immersed in the liquid 10. Then through this tube all the time I will enter the air into the chamber B, and therefore the pressure: in the latter, at any vacuum, the SRI in chamber C will be unchanged: the equal height A of the liquid column in chamber B, with the only difference is that with a pressure drop in the water supply system in chamber B, fewer bubbles will rise through the liquid, and with increasing pressure great e.

The subject of the patent.

1. A water jet pump to teach an unchanged degree of vacuum, characterized in that tube 1 (Fig. 1), supplying: gas through the tubes into its vacuum chamber B, is equipped with a branch 10, a submerged inlet, filling said chamber B about the edges of the outlet the nozzle 5, as a result of which the degree of vacuum in chamber B depends on the height of the water column above the outlet of the tube 10, whereby the level of this water is provided by an additional inflow through the side opening 13 in the nozzle 9.

2. Alteration of the water-jet pump described in paragraph 1 to obtain a constant degree of dilution, characterized in that the tube submerged in the water of the vacuum chamber 5 / O (figure 3)

does not branch off from the gas supply | The swarm of the tube 10 is placed in the separate tubes 1, and opened in the atmospheric reservoir B (Fig. 4), the compass sphere. using a tube with 7 s

3. Modification of the characteristic tube 6, which connects the chamber of the pump in Section 2, which differs in vacuum C with a rarefied space that is connected to the atmosphere of A.

Figl.