DE2321243C3 - Device for rotating frames, in particular spacer frames for double-pane insulating glass - Google Patents

Description

The invention relates to a device for rotating frames, in particular spacer frames for double-pane insulating glass. Spacer frames for double-pane insulating glass consist of individual profile rods, which are joined together by corner connectors to form a spacer frame. To maintain tightness and to ensure that the corner connectors do not slip out of the profile bars and the spacer frame falls apart, it is necessary to solder profile bars and corner connectors together. This happened in previous operational practice in the course of a Dip soldering, whereby the corners of the spacer frames were first dipped in flux and then in solder, to be cleaned afterwards. For this purpose, the spacer frames were placed in a clamp socket over and into the bath with the flux, then over and into the bath with the solder and finally through Cleaning brushes driven. Because only one corner of the spacer frame is soldered in this way can be, the spacer frames have been removed from the socket by operators and turned by hand to solder the next corner and then reinserted into the socket. The version served only as a fixation tool for the individual corners, so that they would not during the Soldering process can be rotated and moved. The previously operational soldering requires one disproportionately large use of manpower, especially when double-pane insulating glass are produced in series production on special production lines.

Based on this prior art, the invention is based on the object of providing a device for

Rotating frames, in particular spacer frames, for double-pane insulating glass to indicate when on rinn use of operators is dispensed with and which works largely automatically. ^ The solution to this problem is one • irhtune which is marked by a against <■ virSk sloping sliding surface for the frame, Your other lower limit of the sliding surface arranged transport rollers and two between the Transport rollers arranged at a distance from one another Hai ollen Such a device forms the Requirement for a largely automated frame that can be in any position certain frame part can be edited like that 7 B is the case when the corners of the spacer frames of double-pane insulating glass are immersed in a solder bath should be. The spacer frames will lay the sliding surface about 10 ° from the vertical can be inclined, placed and on the transport rollers f Places, from the transport rollers to the area the adhesive rolls transported, recorded by them and turned between the adhesive rollers until one Fcke of the spacer frame has reached its lowest position in relation to the transport level and m a solder bath can immerse. By appropriately controlling the drives of the adhesive rollers, all Corners of the spacer frame brought into this setting and be telötft. Although the adhesive rolls are not there carry out continuous, but discontinuous movement and at times the distance frame is not in the SimTe unroll a development on the adhesive rollers,, st nevertheless the workflow is reproducible

According to a preferred embodiment of the invention should the adhesive rollers centering flange for the frame This ensures that the frame cannot tilt away from the sliding surface and its Location is always controllable. This can be achieved particularly easily in that the Zentr.erflansche as Magnetic shoe are formed, which are directly attached to the metallic (magnetizable parts of the spacer frame be liable. ,, ...

With the device described can in principle Frames of any dimensions can be rotated The bottom size of the frame is only limited by the distance between the adhesive rollers, which need only be slightly smaller than the smallest Length of the spacer frame. The frame can be swiveled into the transport level between the adhesive rollers Be arranged support roles. The swiveling support rollers are only used when first drive over the distance between the adhesive rollers. This ensures that all four Rotate the corners of a frame in the same way. In support of the turning of the very large frames, it can be useful to mount them on swiveling supports between the transport rollers To arrange support rollers that pivot when the frame is rotated and the support rollers to the Press on the profile bars of the spacer frame and thereby support the rotary movement. In kinematic Particularly simple is an embodiment in which the carrier is about the axes of the adhesive rollers are pivotable. This simplifies the control of the swivel movement and ensures a uniform Installation of the profile bars of the frame on several support rollers. . ,

The advantages achieved with the invention are summarized in the fact that manual work is largely dispensed with for turning frames can because with the device described frame

can be rotated of any type and fixed in any position so that appropriate machining operations can be made to the frame. The one described is particularly advantageous Device can be used in the course of the production or soldering of spacer frames for double-pane insulating glass, and not only when working with conventional dip soldering, but also and especially when working with watch-sonic soldering, because it is not with ultrasonic soldering It is necessary to first immerse the parts to be soldered in flux, there is also no need to clean the soldering points. So here only one device for turning is required, which can also be designed in this way can that the spacer frames are transported hanging. In addition, the device described can be largely automated and is therefore relatively easy to use in the work flow less automated production lines can be integrated.

In the following the invention is illustrated by means of a drawing which shows only one exemplary embodiment explained; it shows the figure schematically the view of a device for rotating spacer frames for double pane insulating glass.

The device shown in the figures consists in its basic structure of one against the Vertical inclined sliding surface 1 against which the spacer frames 2 to be machined are placed. the Spacer frames 2 consist of profile bars 3 and corner connectors 4.

Below the sliding surface 1 there are transport rollers 5, namely a total of eight transport rollers 5, the are arranged in two groups of four transport rollers 5 each. Between the two groups of Transport rollers 5 are adhesive rollers 6, 7, which are arranged at a distance from each other, so that a lifting and the lowerable solder bath 8 can be moved between the adhesive rollers 6, 7, as will be done below is explained in detail.

Between the adhesive rollers 6, 7 additional support rollers 9 are arranged, which with the help of a Cylinder piston assembly 10 pivoted into the transport plane of the spacer frame 2 or out of this can be swiveled out.

There are also between the transport rollers 5 of each group of support rollers 11, three of which are mounted on a carrier 12,13, around the Axes of the adhesive rollers 6, 7 are pivotable. The pivoting movement of the carrier 12, 13 is through Cylinder piston assemblies 14, 15 causes which are controlled according to the funcioning sequence of the device will.

The device described works as follows: A spacer frame 2 is placed on the transport rollers 5 at A and against the sliding surface! placed. Then the drive for the transport rollers 5 is switched on by a switch (not shown) and the spacer frame 2 is moved beyond the adhesive roller 6, the support rollers 3 and the adhesive roller 7. For this purpose, transport rollers 5 and adhesive rollers 6, 7 are driven at the same peripheral speed. Magnetic shoes designed as centering flanges 19, which hold the spacer frame 2, are located on the hard rollers. The support rollers 9 are now pivoted out of the transport plane of the spacer frames 2 with the aid of the cylinder piston arrangement 10.

After the rear vertical profile rod 3 of the spacer frame 2 in the transport direction one in the area has actuated the switch 16 attached to the adhesive roller 6, the peripheral speed of the adhesive rollers 6, 7 steplessly regulated down until the profile bars 3 of the spacer frame 2 are at an angle of 45 ° condition. An angle measuring device, not shown, ensures that the drive of the adhesive rollers 6, 7 is switched off when a 45 ° position of the profile bars 3 is reached.

To support the rotary movement with very large frames and to overcome the dead center Using non-magnetic corner elements, the carrier 12, 13 with the aid of the cylinder piston assemblies 14, 15 pivoted out approximately synchronously with the rotary movement, with the support rollers 11 rest against the profile rods 3 and the pivoting movement in accordance with the angular position of the spacer frame 2 is controlled.

When the spacer frame 2 has reached the position marked L in the figure, in which the profile bars 3 are arranged at 45 °, the solder bath 8 can be moved between the adhesive rollers 6, 7 by a drive, not shown in detail, so that the profile bars 3 are soldered to the corner connectors 4. In the embodiment shown in the figure, this involves ultrasonic soldering, so that pretreatment of the corners with flux and subsequent cleaning is not necessary.

After completion of the soldering, the drive of the adhesive rollers 6, 7 is switched on again and the spacer frame 2 is rotated further until the next corner is in a position suitable for soldering. After all corners of the spacer frame have been soldered and the front profile rod 3 of the spacer frame in the transport direction has actuated a switch 17, the peripheral speed of adhesive rollers 6, 7 and transport rollers 5 is increased so much that the profile rods 3 of the spacer frame 2 are easily removed from the adhesive roller 7 solve. After actuating another switch 18, the drive is switched off, the automatic control is returned to its starting position and the spacer frame 2, which is now at E , can be removed from the transport rollers 5 or the sliding surface 1.

1 sheet of drawings

Claims (5)

Patent claims: 1. Device for rotating frames, in particular Spacer frames for double-pane insulating glass, on which I oilings are carried out should, characterized by a sliding surface (1) for the frame that is inclined relative to the vertical (2), several, on the lower boundary of the sliding surfaces (1) arranged transport rollers (5) and two adhesive rollers (6,7) arranged at a distance from one another between the transport rollers (5). 2. Apparatus according to claim 1, characterized in that the adhesive rollers (6, 7) have centering flanges (19) for the frame (2). 3. Device according to claims I and 2, characterized in that the Zcntrierllansche (19) are designed as magnetic shoes. 4. Device according to claims 1 to 3, characterized in that between the adhesive rollers (6, 7) arranged in the transport plane of the frame (2) pivoting support rollers (9) are. 5. Device according to claims 1 to 4, characterized in that / wipe the transport rollers (5) support rollers (11) mounted on pivotable carriers (12, 13) are arranged. b. Device according to claims 1 to 5, characterized in that the carriers around the Axes of the rollers (6,7) are pivotable. 30th