DE627500C - Method of introducing a thin, low strength wire into a confined space - Google Patents

Description

Method of inserting a thin wire with low strength In a limited space If a wire has a low absolute strength, e.g. a Train £ esti'glccit VOU 409 or less, so it is very difficult and usually even impossible to push such a wire without pulling it, e.g. through a pipe, move on.

Such pushing may be desirable when it is difficult to access the To pull the wire further with an organ holding it. This is e.g. B. the case if one wishes to provide a hollow body with a filling made of such wire, and especially if one makes the requirement that the wire filling as possible MUST be evenly distributed inside such a hollow body.

According to the invention, the introduction of such wires takes place with less Festiglmit in a limited space in a simple and safe way by the fact that the wire is guided by a liquid or even better gaseous medium.

The invention can be used for metal wires as well as for wires other material, e.g. B. glass wire or rayon wire can be used.

If the wire is evenly distributed in the space of a hollow body is desired, excellent results can be obtained using such a wire is attached in the crimped state in the hollow body. It should be noted that the Means carrying the wire exert such a stretching effect on it can that: the curling ability of the wire while it is being carried no difficulties needs to prepare.

One particular application of the invention is in manufacturing of flashlights that emit a thin, actinic light when burned radiating wire are to be fitted.

Excellent results can be achieved with the invention if the wire together with the means moving it through one in the limited space opening tube is passed through, its introduction opening for the wire and the means deraxt with respect to the end of the tube opening into this space is designed so that the flow rate of the agent inden upon entering Space is reduced.

Usually such thin wires have sufficient internal tension, so that the wire has the desired Kxäuseluxig when entering the pre-runner room attained and maintained. If there is insufficient internal tension in a wire Obtain this desired crimp, so you can Provide the necessary internal tension to the wire beforehand, e.g. by uller an angular body is drawn.

The invention is illustrated by an exemplary embodiment with reference to the drawing explained in more detail.

Fig. I is a side view and Fig. 2 is a plan view of a section along line: II. A glass bulb is designated with i, which is to be filled with a thin wire2 with an absolute tensile strength of 259 . The DTaht2 is first inserted sufficiently far through the funnel-shaped narrow opening 3 over the guide tube 4, after which compressed air can be supplied through the line 5 . This introduction can be done by using a suitable length of wire, the internal stresses and consequently the tendency to crimp, for magnesium wire z. B. by Eitzung up to 300 or 4000 C for about 5 seconds. be removed. The stretched part of the DrakeS-2 is now inserted so far through the narrow opening 3 into the guide tube 4 that when compressed air enters, the wire 2 is moved further, the wire reel 7. being set in rotation. The compressed air flows into the ridges -itung - de #. Arrows # that the tube 4 has a much larger cross-section than the insertion opening 3 . The fast air flow leads the wire 2 in the direction towards the piston i and at the same time stretches this wire in the tube 4 in such a way that no jamming of the wire can occur as a result of wire plug formation in 1 RO1r4. Such wire plugs can be formed if there should be significant friction between the wire and the pipe wall. In veins he. Weiterten'End 6 of Rdhzes 4, the air flow speed is reduced so that a regular § filling of the. Piston x is possible. - The wire 2 is wound on .the befmdet Dra'ht-r-ol 7 acting on the jack on'S - is pushed '. This - socket, forms a whole with the pulley 9, which is pressed by the compression spring 7 # i on a brake block io - who the-can. The socket. 8 and the disk 9 with the wire reel 7 attached to it can rotate around the fixed shaft 13 , just like a: uch the rope loop 14. 7, the arm 22 is stationary, the DrucIdagger 15 is provided in between. DIE Seilscheihe 14 must be at standstill of Drahtrolle7, with the washer 9, - can turn, and -the Buchee 8 and is provided for this purpose with the thrust bearing sixteenth The shaft 13 is fastened in a bearing bracket and is held in place with a set screw 20. The Scheibeg I <nTin together with the wire roll 7 against the action of the compression spring 17 are pushed over the shaft 13, so that the friction surface 1 8 the disk 9 together with the wire roll 7. takes with the rotation. The style disc 14 can be driven by means of a motor not shown in the drawing. The rotation of the drift roller 7. together with the Scheibeg takes place by pressing the I ## nlOPfes 24, which with the rod 23 and the arm 22 f est is connected. When the button 24 is pressed in, the parts 15, 7_ and 9 adjustable on the shaft 13 are taken along by the arm 2 against the action of the compression spring 17. As a result, the smaller diameter part - 5 of the rod 23 gets in front of the channel -26, and as a result compressed air is blown through the channel 26 and line 5 into the guide tube 4. When the II'-nOPfes24 is pressed in further, the disk is pressed against the friction surface of the continuously driven disk 14 and thereby the disk 9 with the bush 8 and the disk roller 7 are rotated.

At this moment the wire feed begins and: - s # omit da-, filling of the piston i. The supply of air is not influenced by the mentioned further impressions of the KnOPfles24, since - the length of the . Part 2 5 larger than the diameter of the IZ- #. s is 26 . - The unwound from the roller 7 of the wire is -unbeweglichen, but introduced through the gap 3 2 eins.tellbazen pin 34 across the surface of Rollev8 by the Einführungsöffnung3 INDAS guide tube. 4 , Which by A-position of the slot 32 by rotation of the pin 3 to 4 - takes place its longitudinal axis, the wire, the desired crimpability can be given. The roller 2 is driven by the 8 Seilscheihe 14 such that the Unifangsgeschwindigkeit the surface of the roll - z. 8 B. io to 15% greater than the speed at which the wire 2 leaves the wire roll 7. As a result, the force with which the wire is unwound from the roll 7 is increased in such a way that this unwinding is ensured and takes place at the desired speed. The Rolle28 is attached to the Mutter33 fixed to the shaft 29R "# cheibe 27 on which also the rope is arranged fixed to shaft 29 with the nut 33, the roller 28 and the sell disc -... 7, in a block. 30 , which is fixedly arranged on the base plate 31. - - - After the piston i has been filled with the desired amount of wire, the button is released so that the compression spring 17 engages the coupling between the disk 14 and the disk 9 interrupted, the disk 9 is braked immediately by the brake block io and furthermore a little later the air supply is shut off. Then the filled piston is moved to the right and the wire is clinched the length of the tube 4 and, the velocity of the air therein, and the inner diameter and the length of the portion 6 and also the exhaust of the measurements and Kolhens i. the bulb neck ii affect the final d the procedure described there. These ratios will have to be suitably selected in connection with the properties of a particular type of wire if such a filling is desired that there are no nodes or bundles in the twist filling or, in other words, that the density of the filling is practically the same throughout the piston and that furthermore the wire filling rests resiliently against the piston wall, so that the wire filling unlocked, so to speak, immovably. is.

Assuming a wire 35 microns in diameter, made of an aluminum alloy with 8 % magnesium, and if you put io ni of this wire in a flask - with a volume of approximately 100 cm2 and one outer diameter of 5 5 ni rn accommodate wishes, the neck length is about 5o mrn and the outer diameter of the neck is about 3o mm, we obtain excellent ER- results of using a guide tube 4 with a total length of i v7 mm, the extended End 6 has a length of 40 mTn '. The diameter of the Einführungs5ffnung 3 is o, iz mm, which is the tube 4 1.9 mm, and the extended öffhung Endes6 is 13mTn. Under these circumstances, compressed air with an excess pressure of 2Atm. can be used, where the speed at which the wire advances is i in per second. With a bulb with wire filling obtained in this way, excellent flashlight lamps can be produced, of which in Fiü. 3 an embodiment is shown.

The plunger 35 includes the aforementioned material consisting of the wire filling 3 6, further comprising the Poldrghte 3 # 7, the one egg-na inflammatory mass 39 containing filament 38trag, en. The Kolhen 35 also contains a gas filling consisting of oxygen with a pressure of about 1/3 of an atom. A flash lamp made in accordance with the present invention has several advantages. At first the combustion is very complete, so that. a maximum yield of actinic light is obtained. This very complete combustion also avoids a phenomenon that often occurs with incomplete combustion, namely the formation of chopped, unburned metal particles which are thrown against the piston wall - and can cause the piston to burst - an incomplete combustion can occur The use of more oxygen, off gas per unit weight of actinic substance can be prevented, but with the flashlight lamps described here, the excess of oxygen does not need to be so great that a relatively low gas pressure is permissible, due to the risk of bursting Piston as a result of the high gas pressure occurring in id-er combustion came to be avoided.

Furthermore , with such a flash lamp, not only a short flash time, for example 1/40 sec., But also a very short so-called contact time, e.g. B. of 1/25 sec., Because the contact time also proves to be very constant in the mass production of such lamps. With »contact time« is meant the time that elapses between the moment the power is supplied and your moment in which the actinic light emission begins.

Claims (2)

PATENT CLAIMS-. i. Method of inserting a thin wire with low strength in a limited space, thereby. marked that the Wire from a liquid medium or, even better, from a gaseous one. middle carried along and in a ruffled state, preferably as evenly as possible in the limited space is distributed. 2. The method according to claim i, characterized in that d-em wire prior to insertion, the internal stresses required for crimping are given, for. B. by the fact that it is pulled over einmi edged body. 3. A device for carrying out the method according to claim i or 2, characterized in that a guide tube (4) opening into the limited space is provided, the insertion opening of which for the wire is narrowed and whose opening for the insertion means into the space are designed so widened that the Stilö, -mung speed of the introduction means is reduced before and when you step into the room. 4. Apparatus for carrying out the method according to claim i or 2, characterized in that a metal twist (: z) with a circumference of less than about 300 milmon is used as the wire. 5. Apparatus for carrying out the method according to claim i or 2, characterized in that the wire (2) consists of eüiem material emitting strong ancient light when it is burned, e.g. B., magnesium, aluminum or an alloy of these metals. 6. The device according to claim 3, da-, by gekeimzeicbnet that a preferably adjustable, angular member (32) is arranged in front of the insertion tube (4), over which the wire (2) is pulled to give it a tension.