DE341150C - Soldering device with water jet blower - Google Patents

Description

Soldering device with water jet fan. The invention relates to a Device for soldering with gas: In such devices, it is known to Using a water jet blower to suck in the gas to generate high temperatures. The mixed jet of the same in one. to introduce a single-chamber compressed air tank, to which an overflow line is connected has already been proposed. Of the In this known device, however, the mixed jet strikes the Water surface, the whole size of which is in contact with the compressed air; he naturally pulls a relatively large amount of air into the water, the gets mixed up with air bubbles in the overflow. On the other hand, the splashing water - the compressed air heavily impregnated with water and - the water level set in motion in such a way that the column of air starts to vibrate, which is a restless one Suction of the gas # and therefore also an unsteady burning of the flame, result must have. Furthermore, the proposal has already been made for water drum blowers for the purpose of separating the water from the air, the vertical down into a chamber emanating. Water jet over the bottom of the same onto a horizontal baffle to direct. The in the upper part de. The compressed air that collects in the room is connected to a large body of water in contact. and is also made by the whole of the above Water splashing around part of the room is heavily enriched with moisture.

In contrast, the subject matter of the invention differs in that that the compressed air tank is provided with two chambers lying one above the other, of which the top with the bottom, which has an overflow of a known type, through a dip tube reaching close to the bottom of the lower chamber is connected, in which the pressure line coming from the water jet blower opens so that the Mixed jet hits the wall of the immersion tube perpendicularly, whereby the air The water can flow immediately into the upper chamber and the lower chamber without hindrance: The compressed air in the upper chamber stands with a relatively small water surface in contact, which do not come into a strong surge and therefore. the compressed air column also cannot vibrate ... The separation of water and air is one perfect as a result of the free fall of the water contained in the mixed jet within of the immersion tube. As a result of this training the present facility is except an excellent efficiency achieves the advantage that the device is very handy and can be easily set up or hung up even in small workshops can. -In the drawing is an embodiment of the subject of the invention shown. Fig. Z is a partial view. partly a cut through the same.

Fig. 2 shows a detail of the same on a larger scale.

A vertically arranged, bulging ends of a closed pipe z is about halfway up through an intermediate floor 2 into two superposed chambers 3 and q. divided. From the intermediate floor 2 protrudes a wide one below. and open top tube 5 down to close to the bottom 6 of the chamber [, which thus communicates with the upper chamber 3 only through the pipe 5. A pipe 7 is introduced through the upper chamber into the tube 5 and in the same, approximately at 1/3 height of the same, bent at right angles so that the mouth is close to the wall of the tube 5 and is directed perpendicular to the same. At its upper, about the end protruding from the lid base, the tube 7 carries a funnel-shaped attachment 8 (Fig. 2) with air inlet openings 8 'and built-in water nozzle g, in which from above a water pipe opens out. The water nozzle has a hollow one Insert ii, which is helically corrugated on its circumference and in the Has a fine, axially arranged tube 12 in the middle. The pressurized water flows through the screw thread closed on the outside by the wall of the water nozzle of the insert piece i1 downwards and thus receives a vortex movement underneath it, as a result of the fine jet of water emerging from the tube 12 downwards in the nozzle mouth g 'is steered and' thus no stagnation below the insert piece ix can cause. The water emerging from the nozzle mouth g 'forms below the same a scattering cone, through which a powerful suction effect in the funnel is effected. The air entrained in the process is carried along with it when it exits the pipe 7 the water thrown against the wall of the pipe 5. While the air naturally immediately rises, the water falls down and flows out of the pipe 5 out into the chamber 4. In the same protrudes from below a drain pipe 13, which in the upper Part of the chamber 4 ends so that the water flowing into the latter up to the top Mouth of the tube 13 must rise in order to be able to flow away. In practice this will be represent a water column of, for example, 30 to 40 cm. The one in tube 5 after Air flowing at the top collects in chamber 3, on the lid of which there is a shut-off valve 14 is connected. If this is closed, the air in the is compressed Chamber 3, this compression can be carried out until through the Air pressure the water that has risen in the pipe 5 to the lower end of the pipe 5 is displaced and air can pass through it into the chamber ¢, However, so that no compressed air is formed in the same, i.e. any air that has entered can escape again immediately, the Kampier q stands. through one up through the Chamber 3 through tube 15 in communication with the outside air. The water will therefore go through unhindered and calmly even with the highest permissible air pressure the pipe 13 drain. An air jet blower 16 is connected to the shut-off valve 14; its housing through a pipe socket 17 with a gas line, not shown, z. B. an acetylene gas generator. communicates. On the air jet fan is one end of a hose 18 connected, the other end of which is connected to a one Soldering iron ig carrying burner tube 2o sits. When you open the shut-off valve 14 occurs the air jet blower 16 in operation, so 'that when opening said gas line Gas is sucked in that is with the air emerging from the air jet blower mixed and flows out of the burner tube 2o as a gas-air mixture, where it is ignited.

Tests have shown that even with half an atmosphere water pressure A sufficiently strong air pressure can be generated to last with a soldering iron to be able to work. Of course you can use the described device a distribution pipe a larger number of soldering irons can be operated. The described The facility has the advantage that it can be connected to any water pipe can manage with a small amount of water and a small pressure gradient and therefore from Presence of electrical power or a mechanical drive device independently is. Furthermore, only one supply hose to the soldering iron is required. Also is the power consumption is considerably lower than with a blade or piston blower.

Claims (1)

PATENT CLAIM: Soldering device with water jet fan and compressed air tank, characterized in that the compressed air tank has two chambers lying one above the other (3, 4) has, of which the upper with the lower through a close to the bottom of the the latter reaching immersion tube (5) is in connection, against the wall of which at right angles bent end of a pipe (7) connected to the water jet blower is so that the water jet hits the pipe wall perpendicularly, and the air Unhindered flow immediately into the upper chamber and the water into the lower chamber can.