DE3717647A1 - Spinning can - Google Patents

Abstract

In a spinning can having a cylindrical can wall (12) limited downwards by a can foot (10) and open upwards, a plate (16) for receiving the sliver-like spinning material is arranged in the can interior (14) so as to be vertically displaceable counter to the force of a spinning-can spring (18) between an upper end position and a lower end position. Located, furthermore, in the can interior (14) is an axially oriented telescopic guide (20), the lower part (20') of which is fastened to the can foot (10) and the tubular upper part (20'') of which is guided so as to be vertically displaceable on the bar-shaped lower part (20'). The plate (16) is mounted on the telescopic upper part by means of a guide sleeve (22) so as to be displaceable between an upper and a lower limit stop (24, 32). These measures ensure that the plate (16) is oriented horizontally over the entire lifting height as a result of the telescopic guide (20), and that, in the upper end position of the plate (16), a prescribed height can be set with a predetermined prestressing force. <IMAGE>

Description

The invention relates to a spinning can with an up receiving plate for the spinning material and a spring insert the genus specified in the preamble of claim 1.

Spinning cans are used to hold spun material, that of a loose non-woven tape made of stretched parallelized fibers. The spinning material is from filled into the sliver can by the at the exit of the line, the belt moves back and forth and the jug is turned. This creates a kind Loops on top of each other on the spring-loaded plate the spinning can be put down. Under the influence the weight of the deposited spinning material moves Plate gradually against the force of the spinning can spring down, with the level of the spinning material inside the jug is retained regardless of the filling quantity. The jug is filled when the plate is at the bottom of the jug strikes and the spinning can spring to its smallest Dimension is compressed. Depending on the size of the ver The spinning can used is the filling weight of the spinning material between about 5 and 70 kilograms. That way Filled spinning can is then the spinning machine sets. There the tape runs in the opposite direction withdrawn from the spinning can and ver to a thread spinning. The plate moves under the influence the spinning can spring gradually upwards, so that The level from which the spinning material is withdrawn is constant remains. The plate is on the simple spinning cans without additional precautions only on the Spider can spring on. Especially when using high However, power lines are a certain preload the spinning can spring prescribed. In addition, the Plates extended by a certain height  measure over the edge of the jug. To achieve this has already been suggested using at least the spring a rope between the jug bottom and the plate is attached to bias. A disadvantage of this measure can be seen in the fact that the compulsory horizontal Aus The direction of the plate is eliminated as soon as the preload overcome when lowering the plate. It happens often to a certain inclination of the plate, so that the filled spinning material rubs against the can wall and can be shifted and / or roughened. There the rope can hang when lowered, it can happen during the peeling process that the plate not always moving up reliably.

The invention has for its object a spinning can to create, in which a defined bias is turned on sets and the plate lifting is limited exactly upwards can be and in addition a horizontal Plate alignment guaranteed over the entire lifting height is.

To solve this problem, that in claim 1 specified combination of features proposed. Further advantageous refinements and developments of Invention result from the subclaims.

The solution according to the invention is based on the knowledge that that the usual axial guidance of the plate alone on the inside surface of the chamber wall for the necessary Keeping the plate horizontal over the entire lifting height not enough. It was also recognized that when filing of the spinning material in the jug in the central area of the Tellers creates a space that is suitable for the sub  bring additional guide means. Outgoing of which it is proposed according to the invention that in Inside the chamber at least one axially from the jug base pointing upwards over part of the can height extending lower part of the telescope and one on the lower part of the telescope part between an upper and a lower end position Height-adjustable telescopic upper part arranged is that the plate on the upper part of the telescope an upper and a lower end position bar is guided, and that the spinning can spring in the upper end position of the upper part of the telescope and the plate has a defined bias.

According to an advantageous embodiment of the invention the telescopic guide is centered in the can axis aligned, while the plate is preferably centered arranged guide opening or guide sleeve for the Has telescopic upper part.

According to a further advantageous embodiment of the Invention has the upper part of the telescope and preferably also a lower limit stop and is in its lower end position on the telescope below part or in the area of the jug base under the ent the load of the spinning material acting on the plate locks into place automatically. When removing the spun material in the spinning machine is the snap connection of the telescope according to the invention under the action of the spider can spring again automatically detachable.

With the measures according to the invention it is achieved that the plate due to the telescopic guide over the entire Lifting height is aligned horizontally and that in the upper End position of the plate with the prescribed height  predetermined preload is adjustable. The dish is on the appropriately tubular teles head, led with one at its upper end radially protruding shoulder at the same time the lifting height of the plate limited.

In modern high-performance systems with high belt speeds There is often a requirement that the plate along the route to a certain size above the edge of the can is set with a predetermined preload. When the jug is full, the plate should be on the spinning machine but only to a certain extent under the edge of the can getting high. According to a preferred embodiment of the Invention this is achieved in that the plate from one on the upper part of the telescope under the influence of Sliver can spring sliding plate base and one the receiving surface for the spinning material, opposite the lower part of the plate between an upper and a lower Ren end position slidable top plate is that between the lower part of the plate and the upper part of the plate auxiliary spring designed as a compression coil spring is arranged and that the plate upper part in its lower Ren end position by bridging the auxiliary spring with the Lower plate part releasably connectable, preferably on this can be snapped into place. These measures ensure that the receiving surface of the plate or the surface of the Spinning material on the plate in the upper end position of the upper part of the plate by a predetermined amount above and in the lower end position of the upper plate sometimes by a predetermined amount below the edge of the can is arranged.  

The upper part of the plate is advantageously opposite Press the force of the auxiliary spring against the lower part of the plate bar and connectable to it when pressed while at least one engagement opening on the top plate Loosening the connection is arranged.

The tension of the spinning can spring is at least in compressed state expediently much larger than the tension force of the auxiliary spring at against the plate lower part of the pressed top plate selected. Continue it is advantageous if the pretensioning force of the spinning can spring in the upper end position of the plate and Telescopic upper part larger than the preload of the auxiliary spring but less than the clamping force of the auxiliary spring is chosen.

In the following the invention based on the in the drawing tion illustrated embodiments explained in more detail. Show it

Fig. 1a and b a vertical section through a spinning jug with telescopic guide in the empty and filled state;

Fig. 2 shows a vertical section through a spinning can according to Fig. 1 with a two-part plate.

The spinning cans shown in the drawing essentially consist of a cylindrical can wall 12 which is delimited by a can base 10 and is open at the top, preferably made of vulcanized fiber (layer material on paper basis) or of plastic (for example polyethylene), one in the inside of the can 14 between an upper end position ( Fig. 1a) and a lower end position (Fig. 1b), vertically displaceable arranged plate 16 for receiving strip-shaped spinning material and between the Kannenfuß 10 and the plate 16 clamped spring as the compression coil spring 18 can spin formed. Inside the can there is also an axially aligned telescope 20 , the lower part 20 'attached to the can base, preferably screwed on and the tubular upper part 20 ''is guided on the rod-shaped lower part 20 ' vertically displaceable. The upper part of the telescope 20 '' engages with its upper end through a centrally arranged, axially aligned guide sleeve 22 of the plate 16 and forms with its shoulder 24 an upper limit stop for the plate 16th The shoulder 24 is located at bruised plate 16 in the countersink 26, so that the end face 28 of the telescopic upper part upwardly facing support surface 30 of the plate 16 is aligned in this position with the. At its lower end, the upper part of the telescope is delimited by a latching body 32 which, in the lower end position of the upper part of the telescope ( FIG. 1b), engages in a latching opening 34 arranged on the can base 10 . With its shoulder 36 pointing upwards, the latching body 32 also serves as a stop surface against which the plate 16 in its lower end position strikes with the lower edge 38 of its guide sleeve 22 .

When using the spinning jug on the line, the spinning material, not shown, is placed in the form of loops from above on the plate 16 , which, under the action of the spinning material load, is initially guided downwards together with the telescopic upper part 20 '' against the force of the spinning material spring 18 becomes. As soon as the plate 16 has approximately reached the center of the jug, the telescope upper part 20 'snaps with its latching body 32 in the latching opening 34 on the jug base 10 . In the further filling then the plate 16 slides with its guide sleeve 22 along the telescoping upper part 20 '', until the bottom end position, the guide sleeve 22 with its lower edge 38 against the shoulder 36 of the latch body 32 abuts (Fig. 1b). When the spinning material is deposited, a central free space 40 with a diameter of about 10 cm remains above the plate, in which the part of the telescope 20 which protrudes up to half the height of the can can be accommodated without interference or damage to the spinning material surrounding it.

When the filled spinning can is placed on the spinning machine, the spinning material is drawn off from above. The plate 16 moves under the action of the spinning cans spring 18 upwards, so that the deduction is always from the same level. The latching 32 , 34 of the telescopic upper part 20 '' causes the plate 16 initially slides up with its guide sleeve 22 on the telescopic upper part 20 '' up to the upper end stop 24 . During further tape take-off, the locking connection 32 , 34 is released under the action of the force of the spinning can spring 18 , so that the plate 16 from there together with the telescope part 20 'guided telescope upper part 20 ''slides up until the emptying is complete not shown upper end stop of the telescope is reached.

The embodiment shown in Fig. 2 of a spinning jug differs from the embodiment of FIG. 1 essentially in that the plate 16 to form a lower plate part 16 'and a plate upper part 16 ''is divided into two. The two plate parts 16 'and 16 ''are connected via the guide sleeves 22 ' and 22 '' telescopically to each other and to the telescopic upper part 20 ''. Between the two plate parts 16 'and 16 ''there is also an auxiliary spring 42 designed as a compression coil spring, which is shown in FIG. 2 in its compressed position when the plate parts 16 ', 16 '' are pressed against one another. A between the two sleeves 22 'and 22 ''acting Rastver connection ensures that the two plate parts can be connected to each other by bridging the auxiliary spring 42 in their mutually pressed end position. The release from the latching connection takes place by pulling off the plate upper part 16 '' at specially provided engagement openings 44th In this case, the upper part of the plate comes from the end position located by the dimension y below the can edge 46 into the end position located by the dimension x above the can end 40 , shown in broken lines in FIG. 2. In this way, a requirement can be taken into account in high-performance systems that the plate is set to a certain dimension x above the edge of the can with a predetermined pretensioning force, while when the can is full it only reaches a predetermined dimension y below the edge of the can on the spinning machine.

Claims (12)

1. Spinning can with a downwardly limited by a can foot and open at the top, preferably cylindri's can wall, a height-adjustable plate inside the can between an upper and a lower end position for receiving ribbon-shaped spinning well and at least one clamped between the can base and plate, preferably Spinning can spring designed as a compression coil spring, characterized in that in the can interior ( 14 ) at least one telescopic lower part ( 20 '), which extends axially upwards from the can base ( 10 ) and extends over part of the can height, and one on the lower part ( 20 ') between an upper one and a lower end position vertically displaceably guided telescopic upper part ( 20 '') is arranged so that the plate ( 16 , 16 ', 16 '') on the telescopic upper part ( 20 '') is guided between an upper and a lower end position, and that the Spinning can spring ( 18 ) in the upper end position of the telescope Upper part ( 20 '') and the plate ( 16 , 16 ', 16 ''), has a defi ned bias. 2. Spinning can according to claim 1, characterized in that the existing telescope lower and upper part telescope ( 20 ) are aligned centrally in the axis of the can. 3. Spinning can according to claim 1, characterized in that the plate ( 16 ) has a preferably centrally arranged guide opening or guide sleeve ( 22 ) for the telescopic upper part ( 20 ''). 4. Spinning can according to one of claims 1 to 3, characterized in that the telescopic upper part ( 20 '') extends over the telescopic lower part ( 20 ') tubular. 5. spinning can according to one of claims 1 to 4, characterized in that the telescopic upper part ( 20 '') has an upper and preferably also a lower limit stop ( 24 , 36 ) that the telescopic upper part ( 20 '') in its lower end position on the telescopic lower part ( 20 ') or in the area of the can base ( 10 ) can be snapped in and that the snap connection ( 32 , 34 ) of the telescopic upper part ( 20 '') can be released automatically under the action of the spinning can spring ( 18 ). 6. Spinning can according to one of claims 3 to 5, characterized in that the telescopic upper part ( 20 '') at its end through the guide opening or sleeve ( 22 ) passing through an upper limit stop for the plate ( 16 ) forming shoulder ( 24 ) having. 7. spinning can according to one of claims 1 to 6, characterized in that the plate from a telescopic upper part ( 20 '') under the action of the spinning can spring ( 18 ) displaceable lower plate part ( 16 ') and one of the receiving surface ( 30 ) for that Forming spinning material, opposite the lower plate part ( 16 ') between an upper and a lower end position displaceable upper plate part ( 16 '') is that between the lower plate part ( 16 ') and the upper plate part ( 16 '') a preferably designed as a compression spring benfeder auxiliary spring ( 42 ) is arranged, and that the plate upper part ( 16 '') in its lower end position by bridging the auxiliary spring ( 42 ) with the plate lower part ( 16 ') releasably connectable, preferably can be snapped onto this. 8. spinning can according to claim 7, characterized in that the receiving surface ( 30 ) of the plate ( 16 ) or the surface of the spinning material on the plate in the upper end position of the plate upper part ( 16 '') by a predetermined amount ( x ) above and is arranged in the lower end position of the plate upper part ( 16 '') by a pre-given dimension ( y ) below the can rim ( 46 ). 9. Spinning can according to claim 7 or 8, characterized in that the plate upper part ( 16 '') against the force of the auxiliary spring ( 42 ) against the plate lower part ( 16 ') can be pressed and connected to it when pressed, and that on the plate upper part ( 16 '') at least one engagement opening ( 44 ) is arranged for releasing the connection. 10. Spinning can according to one of claims 7 to 9, characterized in that the tensioning force of the spinning can spring ( 18 ) at least in the compressed end state is substantially greater than the tensioning force of the compressed auxiliary spring ( 42 ) when pressed against the plate lower part ( 16 ') plate upper part ( 16 '') Is. 11. Spinning can according to one of claims 7 to 10, characterized in that the biasing force of the auxiliary spring ( 42 ) is less than the biasing force of the spinning can spring ( 18 ). 12. Spinning can according to one of claims 7 to 11, characterized in that the clamping force of the compressed auxiliary spring ( 42 ) is greater than the biasing force of the spinning can spring ( 18 ).