DE1303136C2 - LIFTING DEVICE FOR PERMEABLE TISSUE PARTS - Google Patents

Description

The invention relates to a lifting device for permeable GeuebesHicke or the like. From a stack by means of a blow nozzle design.

Stacks of pieces of material come from the Kon! Vktionsh.Tstellimg and at laundries, for example when cutting a multilayer StolTstapcls or with automatic ironing machines. Here, the pieces of material often have to be stacked a subsequent operation, for example for sewing or folding, again individually from the stack be removed. To work at all from a stack wlu an automatically continuous one To be able to carry out finished.mg, it must be ensured that only one piece of security is taken becomes, because if two or even three pieces are conveyed accidentally, the subsequent production line is immediately brought into disorder or individual production areas are even destroyed be able.

Aul there of the invention is therefore to create a device for automatic operation. which also with difficult / u handling materials, like highly drained, fine fabrics, more or less permeable to cord. patterned fabrics. Knitted or> I: '.! .. especially also for ear pains. a safe capture and further transport ever- Go because there is always only one fabric or piece of fabric * guaranteed.

Machines for removing individual sheets from a stack are / was known from the animal paper industry, in which the stack is blown with air from the side and the top sheet is at the same time by means of We lifted off by suction. Such devices are not for separating pieces of fabric suitable because these stick together more strongly than sheets of paper due to their higher surface roughness and the suction force acting from above is insufficient due to the air permeability of the pile of fabric, to lift the uppermost piece of soffit. There are also devices for separating sheets of paper known (e.g. from the German Auslegeschriften 1 060 874 and 1 065 430), in which from a nozzle air exits, which by means of a to the exit direction of the air is substantially perpendicular Guide plate is deflected perpendicular to the exit direction when the nozzle is together with the guide plate is placed above the stack of paper. By between the guide plate and the top sheet of paper flowing air creates a negative pressure in the space in between, due to whose top sheet of paper can be lifted.

Surprisingly, it has been shown that this principle can also be used for separating pieces of fabric from a stack can be exploited. Here, however, the function differs from that of the isolation of paper sheets.

A lifting device for permeable pieces of tissue is therefore required to solve the stated issue Od. The like. From a stack by means of a blow nozzle arrangement, characterized in that over the stack a nozzle plate against its own weight, displaceable over the stack surface is supported, the effective area of the nozzle plate being a substantial part of the stacking area and the nozzle cross-section occupies a substantial part of the area of the blow nozzle plate.

By means of the lifting device according to the invention, almost any type of highly flexible fabric parts, practically any shape, can be lifted from a stack without having to take into account the edge felting that occurred during the cutting process: here only the topmost lifted piece is flawless, that is, without The rest of the pieces underneath were taken along by an acceptance verification or further conveying device! and can be fed to a subsequent process. The air blown out of the nozzle is fed to the piece of material from above and only partially flows between the nozzle plate and the topmost piece of material of the stack. The other part of the blown air flows through the uppermost piece of fabric, escapes under it to the side and lifts it from below, while in contrast to this, when separating a stack of paper sheets, the air comes from the side under the paper sheet to be lifted. No highly compressed or compressed air is required for this, but you can work with essentially uncompressed air, the total pressure of which is below 0.35 kp'cm ² and is generated with commercially available blowers, for example with Vlaushnltssinubsaugcrn.

With the abhcbcw.rrichiung according to the invention, a / a Sioffstück can be detached and separated from a stack by the action of two different but interacting effects. A lifting force acts on J ... the topmost piece of fabric. that a small part of it strb away at an angle to the face of the stack ¹ . while air at a wink! flows against and through ilen protruding part without affecting the protruding part

Pushes back the stack. The air thus gets through the porous material between the top piece and the pile. The low air pressure created in this way between the top piece and the stack and the current is sufficient to prevent the second piece from lifting off. Against that top piece lifted up from the second piece. If this effect along a full Circular arc is generated, the piece of tissue assumes a shape that in cross section a Vulkar.krater resembles.

The aforementioned two effects are preferably achieved by means of forced air, with some of the Air flows at high speed so that a zone of lower pressure is created around the aforementioned Bring small part of the tissue into the protruding position, while the other part of the air, preferably at the base of this part, flows against and through the protruding part. This part of the air moves slower and therefore has higher pressure. Whenever the stroke effect of the fast flowing Lower pressure air has the flattening and repressing effect of the slower flowing air When air exceeds high pressure, the protruding part of the tissue remains erect and becomes air continues to flow through it in the desired manner.

The desired effects can be achieved by means of a single air duct and an associated one Blow nozzle plate or can also be achieved separately.

In advantageous developments of the invention, the nozzle plate can have flexible side parts be provided, or the outer areas of a rectangular shape The nozzle plate can be curved. Furthermore, the nozzle plate can be used in a manner known per se a downstream conveyor belt.

The invention is based on preferred embodiments explained in more detail below. Ls shows

Fig. 1 is a simplified sectional view of a preferred one Embodiment of the invention,

F i g. 2 a to 2 c perspective views of different embodiments of the invention. moderate nozzle plate,

F i g. 3 a and 3 b a side and plan view of a Embodiment with a convex blow molding plate.

f ι g. FIG. 3 is a perspective view of one of FIGS. 3 a and 3 b similar embodiment,

F i g. 4 and 5 show a side view and top view, respectively, of an embodiment of a removal device, in which the Blasdüscnplalte according to Fi g. 2 b used is,

F i g. 6 is a vertical sectional view through a second receiving device which can be used in connection with a lifting device according to the invention can be used,

F i g. 7 is a plan view of the embodiment the F i g. 6,

8 is a perspective view of another Embodiment of the lifting <oi ι direction according to the Invention and

F i g. 9 is a vertical sectional view of the embodiment the F i g. 8th.

In the case of the in FIG. 1, a fan is connected to a vertical line 14 on which a nozzle 16 with a blow nozzle plate 20 is loosely displaceable. Below the nozzle and plate is a table 21 on which a stack of pieces of fabric 22 rests. The diameter of the nozzle can be about 41 mm and the gaps in FIG. 1 have a length L of about 46 cm.

The air flows in the direction of arrow 26 downwards. A portion ^ 4 of the top piece of fabric 22 'becomes

ίο pressed in by the air, and it imagines Cone 27 of dammed air of relatively high pressure.

When the piece of fabric is subjected to the action of the nozzle and the guardrail, the following initially happens: first, the air 27 pushes down on the stack. Next, the plate 20 rises a little so that a narrow lateral passage is created for the plate 20 and the piece of material 22 '. Third, air flows at high speed laterally through the narrow space as shown by arrow 28; this creates a vacuum that tends to lift part b of the piece of fabric. Outside the nozzle 16, the first fast-flowing air slows down, causing you

^ 5 Pressure increases and an upward pressure is exerted on the nozzle plate, which keeps it at a certain distance from the pile of material. Fourth, a central, annular part C of the stole piece rises and stands like a wall at an angle to the surface of the Siapels in the space between the stack and the plate. Fifthly, while the middle part C rises, air flows in at the same time as 30 gcgei! and through the piece of fabric forming the central part C of an air zone 27 and 29 of relatively low speed and high pressure Movement effect tending to push the part C back onto the stack is minimal. Sixth, there is an increase in pressure under your topmost piece of fabric, which bends the slack and soft piece in a considerable area; u'id lifts, whereas the next piece unt.-r de? "Effect of this weak pressure downwards

• 15 is pressed. In this way, an expanded air pocket 39 can be formed and the frictional force fit between the uppermost piece 22 'and the stack 22 can be greatly reduced. Seventh, turbulence occurs when the rapid LaItstrom becomes veiiangal at 29. This causes the piece of fabric 22 'to flutter at 31 and waves 33 are created which run outwards, loosen the piece and loosen its connection with the stack. The forces that form the protruding part of the central part Γ and the air pocket 39 exert an inward pull on the outer parts of the piece. which move inward despite the air 28 flowing in the opposite direction. This contributes to the formation of the middle part ”. C at. If the fabric isn't stretchy, the edges of the piece will migrate inward.

The distance between the nozzle plate and the stack is set under the effect of the air flow one. since the plate 20 is freely displaceable and is pressed against the table 21 by its weight. Before the air flow begins, the plate rests on the stack and, during operation, the plate rises then about 1.2cm above the stack. When the plate

This or other measures set form has a curved nozzle plate 50 with a it should be noted that the plate does not have such an air-dissipating surface that is essentially may be printed below that the top fabric runs parallel to the plane of the stack 54; a piece is flattened. The plate must be much longer or a narrow edge 56 with a small more at such a distance above the stack 5 radius, for example 3.2 mm is tied upwards, that the fabric wall C can form. arc. Air 60 flows from a nozzle 58 in one

Furthermore, there is a considerable flow of air very angled downwards over the top of the arched

advantageous. A single nozzle with a diameter blowing nozzle plate 50 to the edge 56.

ser before? about 38 mm. the full delivery rate of a curved part forms a zone proportionally

Ordinary 1.5 HP household vacuum cleaner with tensile high pressure and the air flows through a slot

which is about Oi kp / cm ² static air pressure 68. The flow through the lowest part of the slot 68

supplies, if it is held shut, is for example in mende air exerts a relatively high pressure

capable of making 35.5 x 76.2 cm hand holes without hitting the fabric and indenting it while the

to raise another. Air through the upper part of the slot 68 with high

If the air pressure is increased considerably, the speed can flow 15 and a part of the violin disturbing phenomena occur: the raised webes? in a protruding middle part to-pressure the trapped air tends to make the lift strive. This part of the air gets through Part Γ to be leveled; the stack is then removed from the nozzle under the curvature of the nozzle plate 16 deeply indented, the friction between the steered.

top piece 22 'and the stack increases and it 20 which goes over the surface of the domed air nozzles excessive air flowing in the comparatively precious plate moves in the direction of the Air that is under higher pressure is lost when following arrow 62 at the highest speed the nozzle plate is not tight against the stack above, whereby the negative pressure at the point 64 is compressed will. However, such pressing would be increased. It is therefore a small part 66 of the be detrimental to the desired effect. Which 25 piece of fabric towards the curved narrow edge 56 Printing is particularly suitable. depends on many shifted, by the curvature of the narrow Parameters, e.g. B. the type of fabric and the edge there is also space for the part 66 to lift off measurement of the selected parts. Essential to the present. When lifting part 66 of the StoiTstück Invention, however, is that air arises from a rotating for the through the Schiit ?; 68 flowing air Fan is very effective and much cheaper 3 ° a resistor; the air must therefore in the direction of the can be generated, as more highly compressed air, for which an arrow 69 with higher pressure through the slot and Compressor required: approx. In the case of the part of the opened by the slot in FIG Embodiment provided, the pressure should flow under the tissue. This under higher pressure under no circumstances should it exceed 0.35 kgf / cm =. stagnant air passing through the tissue

The second piece of fabric pushes away in order to detach it in all directions. Closing 68 is

range, the outflow direction of the nozzle should be narrow enough, e.g. 4.8mm, so that the flow through the

»Run at least approximately vertically and the leading force exerted under higher pressure

plate should surround the nozzle. is unable to. the part 66 on the St.: pel54

F i g. 2 a shows an annular nozzle plate 20 'to be pushed back. especially because the

the highest air pressure in all directions by a bit after 40, as in the case of that shown in FIG. 1

extends outside, which is slightly smaller. as the through embodiment, at the base of the standing: ¹ . Part

knife of the nozzle. Such a plate is suitable for 66 de * tissue occurs, so that its leverage effect

square pieces of fabric work well and the loosening effect is smallest.

extends about 25 cm radially in all directions. If in this embodiment the bearing 66

Tn F i g. 2b is a rectangular blow nozzle plate 20 "45, it acts like a valve that shows more air at a higher speed, the long edges of which flows at the next speed in the direction of arrow 62. The points are at a distance from the nozzle that is approximately the thickness of the narrow edge 56 is preferably very small to half the diameter of the blow nozzle, e.g. 0.38 mm. so that the tissue speaks in the next, while the next distance of the close proximity and with the greatest force to the fast-flowing kanteti about that The separation of the upper amounts to two and a half times the diameter 50. The long side of the plate is arranged transversely to the long piece of fabric from the second piece is also arranged by bending the part 66 around the small radius D'a promoted the flow paths of the fast flowing narrow rim 56.
Air in the direction of the middle of the long edges on Fig. 3c is similar to Figs. 3a and 3b: the extension pieces are shortest, most of the air flows there and 55 56 'is a surface of revolution around a vertical axis and has the greatest lifting effect there : also are the air axis and the air flows radially in all directions i pocket 39 and the fluttering in these directions at the.: nd passes through a number of slits to cröStcn. lifting weave. .

In Fig. 2 is the plate 20 "of FIG. 2b with thin layers. In FIGS. 4 and 5, a machine is shown, ie nen. flexible, impermeable and smooth side 60 is not the subject of the invention and which the Ab

parts 23 which, for example, comprise one of the long lifting devices of FIG. With her could

Can be made of plastic film attached to the edges. individual pieces quickly from a stack 82 abc

Be taken between these side parts 23 and the fabric. The stack 82 is on a Ttsc

the turbulent air is trapped, so that the SO. which is slidably reinforced with a leg 84 at eini flutter, while the side parts 23 S ₅ , frame 86 is mounted so that its height is in the middle

the air flow can only be adjusted by a resistance of a lifting device87. A.

oppose. a Gebiiiscrohr 90 is a vertical air nozzle Ϊ

The embodiment shown in Fig. 3a and 3b can be mounted; in which case a blow nozzle!

plate 92 is attached. Da.-, pipe is connected to the outlet of a fan 96. The top piece of the stack can be released by the effect described above and taken up by a suitable element. This can be done, for example, by a circumferential take-off / cylinder 99 (which is also not the subject of the invention) which is mounted over an edge 85 of the topmost piece of fabric 82 '. Conveyor belts 102 run above the cylinder 98 and are lifted from this at the point of attack with a conveyor belt 100 .

The pieces have at which the removal device 98 opposite side edges gcfaltcic 93. When the negative pressure draws the edge of the cloth piece 85, it is pulled through a knife edge not shown in detail. The edge: the piece of fabric then bends around the edge. If the knife edge moves to the left, the piece of tissue is pulled more firmly around the knife channel by the resistance it opposes to the movement.

From the F i g. 4 and 5 it can be seen that the air flowing through the lifting and releasing devices 88, 90 and 92 in practice breaks the frictional connection between the top piece and the second piece of the stack, and that the removal device 98 grips the edge 85 and the pulls upper lace over the pile. The next layer connected to the top layer is peeled off without disrupting the stack.

peel off individual pieces at their edge

To the individual suickc to ».. ^

to be able to do every single part of the first piece peeled off the stack before the next Piece of the artery receiving vorricnuing is exposed.

In FIGS. 4 and 7, a device for receiving towels similar to FIG. 4 is shown, which again is not the subject of the invention. A hollow cylinder 105 connected to a vacuum source is rotatably supported in bearings 107. On the cylinder intake manifolds are mounted 115 α. The tubes 115 a rotate in FIG. b clockwise and in their lowest position they suck the loosened edge 85 of the uppermost piece of fabric 82 ' at the lower ends, which then hugs the profile of the pipe ends. A number of rollers 109 run on the cylinder 105 , over which conveyor belts 100 'are guided. These bands support the pieces of fabric while the suction tubes 115 a rotate about an axis 117; they then take the pieces of fabric from the suction pipes as they run off the rollers and convey them for further processing to 118. To ensure that the top of the stack is at the correct height with respect to the surrounding suction pipes, the position of the nozzle 88 is determined by means of a spring-loaded microswitch 180 , which controls the setting of the lifting device 87. This Mikroschallcr is attached to the lifting device 87 and controls its drive via its contacts.

In order to be able to remove pieces of fabric or towels of various lengths from the stack and to be able to transport the removed towels in close succession on the conveyor belts 100 'running at constant speed, the vacuum tubes 115 η run during part of their revolution at different speeds so that they always when a piece of the conveyor belts corresponding to the length of the particular stack has passed, they are again in the lowermost position in order to grasp the next towel. The machine can thus contain, for example, a variable-speed drive 119 for the cylinder 105 and a slip clutch 121 , so that the cylinder 105 rotates during one revolution either completely or partially at a lower speed than the drive 119 when a force is applied to the cylinder can. A plate 124 running parallel to the cylinder can be gchaltert through the tubes 115 a and arranged in a larger radius than the circumference of the rollers 109 .

When the suction pipes 115 a rotate a bit. while the belts are not on the rollers 109 , the variable speed drive mechanism 119 controls the speed of the suction pipes 115 a. However, when the tubes 115 ο reach the point where the belts are back on the rollers, the belts will press on the plate 124 and exert such a force. that the clutch slips 121 and e d'suction tubes 115 are a 'to the belts 100 rotate certain Drchgcsrhwind'gkeit' uncoupled with by the running speed of the belts 100 again by the rollers. The speed of the drive 119 is adjusted according to the length of the pieces to be removed. It is sufficient if the cylinder 105 makes cim revolution per handle length; when the tubes 115 α in the revolution reach a point Y before they engage the towels, a circumferential part 97 can actuate a valve 126 which causes air to be blown against the edge 85 of the towel, so that a possibly folded end straightening the towel again.

In the F i g. 8 and 9, a lifting device is shown which has a blow nozzle plate 20 α, as in FIG. 2 b shown contains; it is arranged near the edge of the topmost piece of the stack and has air nozzles 16 α of the type described above. The plate 20 α is, however, provided with downwardly bent parts 20 / ■> which press on the edge of the stack. A frictionally engaging device 140, e.g. B. a cylinder covered with shark skin engages the topmost piece along a line of action running between the air nozzles. The device 14f pulls on the top fabric piece, the b under the NaCl bent down portions 20 hindurchglcilct, while the underlying pieces remain exactly ausgerichtc lying on the stack.

1 sheet of drawings

Claims (5)

Patent claims: 1. Lifting device for permeable pieces of tissue or the like. From a stack by means of a Blow nozzle arrangement, characterized in that that above the stack (22) a nozzle plate (20) can be displaced over the stack surface against its own weight is approximated, being the effective area of the nozzle plate (20) takes up a substantial part of the stack surface and the nozzle cross-section (16) takes up a substantial part of the area of the blow nozzle plate. 2. Lifting device according to claim 1, characterized in that the blow nozzle plate (20 ") is provided with flexible side parts (23). 3. Lifting device according to claim 1, characterized in that outer regions (20 b) of a rectangular blow nozzle plate (20 α) are curved downward a ^ (F i g. 9). 4. Lifting device according to claim 1, characterized in that the outer Hereiche (56) of a blow nozzle plate (50) curved upwards and backwards and provided with radial slots (68) are. 5. Lifting device according to one or more of the preceding claims, characterized in that the blow nozzle plate (20, 20 o, 50) is connected downstream in a manner known per se eiiu further conveying device (140).