DE422692C - Flow pyrometer with measuring tube located in the boiler room and device for sucking the gas flow through the measuring tube - Google Patents

Description

Flow pyrometer with measuring tube and device located in the boiler room for sucking the gas flow through the measuring tube. The present invention relates a flow gas pyrometer, in which a measuring tube located in the heating room enters Gas stream is sucked through under constant pressure.

The invention consists in the fact that the change in the flow rate of the gas flow as a result of heating in the boiler room, not through pressure measurement, but through it takes place that the time is measured within which a certain amount of Liquid flows out of a Mariott vessel, which is used to suck the gas through is used by the measuring tube in the boiler room. This facility enables it, using electrical signals at the beginning and at the end of the Flow of a certain volume of gas through the device can be given that Transferring the measuring device to long distances with great ease, where the period of time is a function of temperature or density.

An embodiment of the subject invention is on the Drawing shown.

Fig. I is a vertical section. Fig.2 is an elevation.

The device is provided with a tube i, which at one of its Ends a nozzle with a very small flow opening in relation to the pipe diameter z wears. The other end of this tube is through a flexible line 3 with a Connected suction device described below. The tube i is in a second Pipe q. of larger diameter attached, which is closed on the side of the nozzle z is. The distance between the two tubes i and, l is determined by a number of spacers 5 secured, which allow the air or gases used, freely in the between to flow the two tubes located annular space.

You can provide this device with an air filter, which the calibrated opening is prevented from clogging by the dust particles that have been carried along while still allowing the air to enter the annular space freely. For example, it can consist of a simple wire mesh.

The tubes i and q. can be made of a refractory metal or a consist of such an alloy, e.g. B. made of nickel, chrome-nickel, special steel, steatite, Porcelain, fused or pressed silicon, carborundum, etc.-The nozzle 2 consists also from one of these substances.

The tube 3 is connected to the immersion tube 9 from a Mariott vessel 7 existing suction device 7 connected. On one of the sides of the container 7 Marks can be provided to delimit a certain amount of liquid. If you want to set up the device to act actively, you can close it of the brands two levers provided with floats 17 and 18, which to corresponding Axes 17a and i 8a can oscillate.

The sealing of the through openings of the levers 17 and 18 in the wall of the vessel is secured by flexible jackets 23 (made of rubber), on the one hand are tied on the levers and on the other hand attached to the wall of the vessel 7. This device preserves the levers their great freedom of movement.

To increase the sensitivity and accuracy of the device, one can narrow the cross-section of Mariott's vessel at the level of the swimmers. You can also use floats, which take up a large part of the free cross-section take at the height of the lines.

The free end of the levers 17 and 18 can be mechanical, hydraulic or actuate the pneumatic transmission device, which enables a Dial or chroncg: -aphen provided with a registration device. Incidentally, this chronograph can display the temperatures immediately.

In most cases, however, the transmission is electrical Ways happen because in this way it is possible that Chronograph can be operated from any distance. What kind of transmission device Be that as it may, you will always be able to use them by means of levers, pistons or electromagnets to control the taps and flaps of the suction device.

Flexible tongues 38 and 39 are attached to the lever ends. A carrier 40 is also provided with such tongues. All tongues are in one circuit 41, 42 turned on so that they touch and close the power when the floats are at the desired height.

The liquid used to fill Mariott's vessel is admitted through a line 24, which is provided with a tap 25, the rotatable part of which sits on an axis 26. The liquid reaches Mariott's vessel 7 through a line 27 extending from the cock 25. As soon as this is completely filled, the liquid flows off through a line 28 and arrives at a cock 29, the rotatable part of which is also seated on the axis 26. The two taps 25 and 29 are connected in such a way that they are always opened or closed at the same time. The liquid flowing through the line 28 flows through an opening 3o and pours into the compartment 31 of a tilting device 32. If this compartment is filled, the tilting device turns to the left and takes the by means of a pin 33 and a link lever 3.1 Axis 26, which then closes the taps 25 and 29. In addition, the vessel 7 is provided with an outlet tap for the gas.

During this process, the axis 26 opens the cock 35, through which then the liquid contained in Mariott's vessel drains off. This is done by the line 9 sucked in gas, and the measurement can be made. The results this measurement are transmitted through the closed circuits, their conclusion was effected by the levers connected to the floats 17 and 18.

As soon as the vessel 7 is almost completely emptied, the compartment 36 becomes the Tilting device 32 be filled with liquid, and this tilts as a result to the right, which returns the device to its initial position.

It will be advantageous to have either a flap or a flap on the line 9 to attach a gooseneck 37 to prevent the liquid in dis Pipe 3 penetrates in the event that the feed pressure would be too high. The illustrated Switches are very simple, but have the disadvantage that they are practical work with little accuracy. They can be activated in an advantageous manner by means of a trigger switch replace, as they are used for electrical clocks.

It must be noted that the device according to the invention does not is necessarily self-acting. The operator actually becomes himself can operate the taps as soon as the container is full and as soon as the liquid level has passed the lower streak while sinking. The tilting device could in this case omit. If it is also not required, the information The two swimmers can transmit to a distance with their electric Contacts are also omitted. The operator will then be satisfied, for example with a hand chronograph the time of the drop in the liquid level between measure the two marks in vessel 7.

Claims (2)

PATENT CLAIMS: i. Flow pyrometer with measuring tube in the boiler room and devices for sucking the gas stream through the measuring tube and for measuring the changes occurring in the gas flow, characterized in that for sucking through of the gas a Mariottsches vessel (7) is provided, the arrangements for delimitation has a certain amount of liquid and is connected to devices, by which the outflow time of this amount of liquid for the purpose of determining the boiler room temperature can be determined. 2. Flow pyrometer according to claim i, characterized in that that the Mariottsche vessel (7) with inlet and outlet cocks (25, 35) for the liquid and an outlet cock for the gas is provided, which cocks by a known one Tilting device (34 36) can be operated while the amount of liquid flowing out is determined by floats (17, 18) on electrical contact devices act, by means of which the beginning and the end of the liquid outflow the vessel (7) and thus also the duration of the flow of the gas, which is with the Temperature changes and is used for measurement, in a manner known per se in a any distance is transmitted.