DE272623C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 272623 CLASS 38 d. GROUP

Addition to patent 251966.

Patented in the German Empire on August 27, 1912. Longest duration: May 1, 1926.

In the known method for the production of tubular cells according to patent 251966 a ceiling made of tubular stalks is attached to stretched strips lying next to each other, whereupon the strips are notched at the bending points and together with their cover be brought into the cell shape. The invention is a machine that it - enables this procedure to be carried out in a particularly expedient manner. the Machine is based in its training on the well-known machines for the production of Folding boxes, insofar as they have a core around which the shell of the hollow body forming plate is laid around. The plate is placed between the frame of the machine and a core movable against the frame is inserted and with the core in the frame pulled down, with fixed parts of the frame covering the side surfaces of the finished Fold the parts of the tube plate corresponding to the cell onto the core.

According to the invention, these are initially fixed parts stored in the frame inevitably moves against the core as soon as it approaches its lowest position. This will make the side panels with. a relatively high pressure against the core pressed, and as a result will be in the finished. Cell generates moments of tension that make them suitable for their application in construction relatively high stresses to record.

The one generated during the inevitable approach of the pressing members against the core Pressure can also be used in an expedient manner to provide cross bars for stiffening between the frame strips of the cells to attach the cells. These cross bars are inserted into the core, the is hinged to one side on the machine frame and in a known manner consists of mutually movable parts. When the core is folded up, the movable ones Parts automatically pushed together parallel to each other, with the incidental am Frame of the cell attached stiffening bars are released.

An embodiment of the subject matter of the invention is shown in FIGS. 1 to 7, namely, the machine is to be used for the production of four-sided cells.

Fig. Ι is a side view,

Fig. 2 is a plan view,

Fig. 3 is a longitudinal section along line EF of Fig. I. In

Fig. 4 shows the folded-up core on a larger scale.

FIG. 5 is a cross section along line GH in FIG. 4.

Fig. 6 shows a detail. In

Fig. 7 is a side view, partly in section, illustrating the machine in the position in which the tube plate is collapsed to form a cell.

The table of the machine consists of one

middle field 20, which corresponds to the bottom area of the cell, the two fields 21, the Side faces of the cell correspond, and the field 22, which corresponds to the top face of the cell. The fields are connected to one another by hinges 23. The core 24 is rotatably fastened to the central field 20, to be precise the 'connection is designed so that the core in the folded up position (Fig. 4) stop. To produce a cell, the one in Fig. 1 by dash-dotted lines Lines indicated tube plate 25 on 'placed on the table, in such a way that the Biegcstellen of the strips 1 come in the correct position to the hinges 23. - Then the Core pressed down against the table top and rotatable by means of the field 20 of the The rail 26 attached to the table is locked. In this way, the tube plate is on the Table held by the core.

The cell is manufactured by

that one of a suitable drive element

. down from the middle of the table together with the core in the machine frame pulls, whereby the side panels 21 of the table are folded against the core. as In the exemplary embodiment shown, a drive element which is keyed onto the shaft 27 is used Hand lever 28. Instead of the lever could, for. B. also a crank wheel through which the AVelle 27 is rotated, find use. A pull lever 29, which engages a rod 30, is attached to the shaft 27 on each side. This rod is through the elongated holes 31 of the pull lever 29 and through the elongated holes 32 of the guide pieces 33 passed through, which are attached to both sides of the central field 20 and can move up and down in the vertical guides 34 of the machine frame. If the hand lever is 28 in If the arrow is turned upwards, the pull lever 29 and the rod 30 will create the middle field 20 together with the core 24 is pulled down in the machine frame. This movement is facilitated by the fact that the ends of the Rod 30 run in curved guides 35.

With the downward movement of the center field 20, the side fields 21 of the table by the shafts 36 fixed in the frame meanwhile around their hinges upwards rotated and moved towards the core, the provided on the underside of the fields 21 Wedge pieces 37 slide away over shafts 36. On each side of the frame are the two Shafts 36 by two arms 38, which are stretched in the rest position, to a pull lever 39 connected, which is attached to the 40 on a hollow shaft. Lever 41 articulated is. The hollow shaft 40 is pushed onto the shaft 27 and is provided there on the shaft 27 Pin 42 reach through slots 43, the hollow shaft 40 takes on one Part of the rotation of the shaft 27 as soon as the pins 42 bear against the walls of the slots 43. This occurs when the core 24 in the machine frame almost all the way down is pulled down so that the side surfaces are folded fairly close to the core. As soon as the hollow shaft 40 begins to rotate, as a result of the lever transmission 39j 41 the previously stretched arms 38 bent downwards. As a result, move the shafts 36 in the lateral Guides 44 run inward and press against the wedge pieces 37 by the pressure Lateral surfaces of the cell sharply against the nucleus. Instead of having the arms 38 operated by one derive from the shaft 27 from moving hollow shaft, could, for. B. also the lever 29 by a stop "take the lever 41 with you at the appropriate time.

If the core has reached the lowest position, it is fastened to the field 22 by means of the Handle 45 folded over the top surface of the cell and nailed the cell together the lasts and gagging the ends of the binding wire closed. In order not to interfere with this work, this is Field 22 kept narrower than the top surface of the cell. When the cell is ready, you hit the lever 28 back, whereby the core with the finished cell is lifted upwards and the fields of the table are spread out again. After locking the 26 of the core has loosened, one lifts it on one side, whereby the height of the Core is reduced. The core consists of frame parts that can move relative to one another 46, 47, which are connected to one another by struts 48. The struts 48 are articulated in the manner of a toggle lever, and at the joints engages a rod 49, which with one end on the Arm 50 of the midfield is attached. When folding up the core around its swivel joint 51 are the toggle connections between the two movable frame parts buckled and therefore moved the two frames against each other, with the movable Frame part 46 slides on the guide 52 so that it moves parallel to itself. The finished cell can easily be removed from the contracted core.

When producing larger cells, the core also serves to stiffen them to wear the cross rods required for the cell so that they are immediately introduced into the cell when the cell is folded. For this purpose, grooves 55 are provided in the rails 53 and 54 of the core, in which the cross sticks are inserted. the

The arrangement of the rails 53, 54 on the core is such that when the core is spread apart and is pulled down in the machine frame to lie at the same height as the webs 56 of the table side panels 21 come, as shown in FIG. 7 can be seen. If then the side panels through the mediation of the AVeIl en 36 are pressed firmly against the core, so the cross bars can at the same time 57 connected to the strips 1 by nails will. These nails are attached to the appropriate before joining the cell Chipped places through the strips so that their tips protrude over the strips, or, instead of through the strips 1, they are previously inserted into the stiffening rods at each end 57 knocked in with one blunt end so that when the. Side panels the protruding tips of the Penetrate nails into the strips 1. To prevent the Side parts push the nails out backwards, the webs 56 are at the pressure points reinforced by metal disks 58. Since when the core is folded up, the frame parts, in which the cross sticks were inserted, move them in parallel so that the Cross bars are released from the core, and the finished cell can be removed without Difficulties occur.

Claims (3)

Patent Claims: 1. Machine for the production of tubular cells according to patent 251966, in which a Tube plate inserted between the frame and a core that can move against the frame and is pulled down with the core in the frame, with fixed parts of the frame forming the side surfaces Fold parts of the tube plate corresponding to the finished cell up to the core, characterized in that the initially fixed parts (36) which are mounted in the frame are inevitably against the Core are moved as soon as it approaches its lowest position. 2. Machine according to claim 1, characterized in that the core with holding devices is equipped for cross bars (57) to stiffen the cell, which under the pressure effect of the parts (36) be attached between the frame strips. 3. Machine according to claim 1 with one of mutually movable parts formed core, characterized in that when folding up the core hinged to one side on the frame the moving parts by toggle lever action ο. Like. Automatically pushed together will. 1 sheet of drawings.