DE1602648A1 - Needle machine - Google Patents

Description

43-Essen, April 4th 196-7 PiPLInO-Ap _t 17 "OO9Sp / B

rissen, Mmanstr. 31
Telephone 772008

Kr a fit & Schüll, 516 Düren-Rhld ,, Rurdammweg 1 Oa

"Needle machine"

The invention relates to a needle machine in which the Wire to be processed via a straightener, a feed cartridge, a wire guide rigidly attached to the machine frame, a retraction lock, another wire guide, a Cut-off sleeve j a load holder arrives at an upsetting punch, a cutter is controlled depending on its movement is, with the needles being fed to a grinding roller after the cut has been made.

In the case of the previously known loading machines of the aforementioned type all units are arranged one behind the other, with the Wire feed the same. Requires time - like the actual one Manufacture of the needles, i.e. the shaping of the needle head. and cutting off. In other words, this means that with one revolution of the main drive shaft both the wire feed as well as the actual work cycle each take half a turn. The main disadvantage of this known arrangements is that, based on the energy and construction effort, only a comparatively low one

BAD ORiQSNAL ^ - - "* : ^Λ

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Ejection is possible.

Proceeding from this prior art, the object of the invention is to create a needle loom which with a slightly larger construction effort, but with the same energy requirement about twice the amount of needles in the same time unit.

According to the invention this is achieved in that on the Frame of two Made! Machines arranged side by side in parallel are, which are driven by a common drive in such a way are that during the wire feed on one machine on the other the needle is formed. In principle, there are two production units, which are shared by one Drive are operated so that two needles are formed with one full revolution of the drive shaft.

According to a further feature of the invention, the main drive shaft is designed to be divided, the two parts being detachable are coupled to one another, so that one side of the machine can be shut down independently of the other and repaired if necessary can.

The two parts of the main drive shaft are each with one Secondary shaft in drive connection, on which eccentrics or the like.

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are arranged for actuation of the individual units. Consequently results in an extremely simple and compact design. . -, "" ■ - ". ■". .-. "". "" ■ -.-. "" -. . ". -

According to a further proposal of the invention, a positively actuated wire feed is proposed * which is independent of the elasticity of the wire. To this Purposes, the carriage of the feed cartridges are linked to a driven disk via a cam rod, which has a guideway for the cam that is designed to that the wire executes a linear feed movement.

Another proposal of the invention goes as follows> that the countershaft driving the grinding shaft once in one, pivotable bearing and on the other hand is mounted in a displaceably arranged bearing, the latter by means of an eccentric is detectable. In this way it is possible to change the grinding shaft quickly and easily.,:

The needles are fed to the grinding roller by means of rulers, whereby it is proposed according to the invention, the TraäEiportlineal on needle bearings or the like. to attach, which are adjustable. In this way it is achieved that a lower Wear takes place, in addition, by the adjustable Attachment achieved an optimal positioning of the transport line can be.

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The invention will be explained in more detail using an exemplary embodiment, namely shows:

Pig. 1 is a top view of the invention

Needle machine,

Pig. 2 a view of the positive wire feed,

Pig. 5 the drive of the grinding shaft, Pig. 4 the attachment of the countershaft for

the drive of the grinding shaft, Pig. 5 is a view of the transport ruler and Pig. 6 shows a section along the line A B of FIG Pig. 5.

When executing according to Pig. 1 the wires 1 run through the Straighteners 2, which have their own drive 3 and are no longer dependent on the main drive. After exiting the straightener 2, the wires 1 run through the so-called feed cartridges, which are attached to slide 4. The carriages 4 are reciprocally moved, namely via eccentric not shown. At 5 one is rigid denotes wire guide attached to the machine frame. Subordinate to this wire guide are the so-called retraction locks 6, which the wires only pass through in one direction permit. In the opposite direction the passage is the

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Wires locked. On the retraction lock 6 get the Wires into a further wire guide 7 and from these into the cutting sleeves 8, to which the cutter 9 is assigned are.

The wires then become the holders from the cutters 9 10 and fed from these to the actual upsetting punches 11. These upsetting punches 11 are controlled by the eccentrics 21 during half a revolution of the main drive shaft 19 moved back and forth three times in the longitudinal axis of the wire entry.

The wire 1 now hits the upsetting punch at that point in time 11 when this is in its furthest position from the apparatus has taken. As soon as the wire hits the upsetting punch 11, closes at the same time the holder 10 and blocks the wire. The wire feed 4 does not remain, however stand, but continues to lead wire, so that under the Wire guide 7 is a wire loop that can be determined in terms of its size forms. The upsetting die 11 now goes in the direction of the calibration device and thereby upsets the first part of the pin head. Has the upsetting punch 11 its the Riohtapparaten reached the closest position, the load holder 10 opens so that when the upsetting die goes back 11 by the tension formed under the wire guide 7 Wire loop the first upset wire end to the upsetting

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-S-

stamp 11 follows in its movement. After closing the load holder 10, the second upsetting process takes place, the one in the a third follows in the same way. Simultaneously with the completion of the third upsetting process, the cutter 9 enters Action and cuts off the headed needle. This needle falls into a groove 13 from which it passes through a inclined feed to the grinding rollers, which cause the tips to be sharpened.

During the work cycle described above, the other Side of the machine the needle wire is inserted. The introduction is then again followed by a working cycle in the manner described above.

The cutter 9 are via the eccentric 24 and the plague holder 10 actuated via the eccentric 23. The main drive is provided by an electric motor via the countershaft 16, the flat belt 17 on the drive pulley 18 of the main drive shaft 19 The main drive shaft 19 is divided into two parts which are releasably connected to one another by a coupling 20, so that one side of the machine can be shut down independently of the other. About the bevel gear 22, the rotational movement of the Main drive shaft 19 transferred to two auxiliary shafts on which the eccentrics 23 and 24 are arranged.

Contrary to the pre-determined! Level working method, in which the

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Wire feed to compress the heads by forming a If there is a loop, an inevitably actuated wire feed can also be used used as it is based on the Iig> 2 is explained in more detail.

The wire 1 passes through the gate cartridge 25, which is via the Bracket 26 is attached to carriage 4. The sled 4- is arranged displaceably in the guide 27. By rotation the eccentric 28 in the specified direction of rotation is the Nooke 29 inevitably guided in the guide track 30 of the disc 28. With a suitable Euryenform of curling, a linear movement that is suitable for a wire feed that is independent of the wire elasticity is generated and via the corner rod 31 transferred to the carriage 4.

In the known types of needle machines, the flat belt, which transmits the movement from the advance shaft to the grinding shaft, held under tension by a belt tensioner. If the grinding shaft is to be replaced, what is required more often is ,, so the belt tensioner is relieved and that Replacement can take place. However, the belt tensioner has one result in very high belt wear, which is a very significant one Disadvantage. "■" '".,'

To eliminate these disadvantages, the

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Invention proposed a solution as shown in FIGS and 4 is shown in more detail.

From the flat belt pulley 32 of the drive motor is the Transfer movement to the flat belt pulley 33 of the countershaft. From here find a translation of the Flat belt pulley 34 of the countershaft on the flat belt pulley 35 of the grinding shaft instead. In addition, the flat belt pulley 37 seated on the countershaft 36 drives The one connected to the main drive shaft 19 via a flat belt 3? Salmon belt pulley 18 on. The countershaft 36 is mounted in the pivotable bearing 37 and in the counter bearing 38. Should now the flat belt 39 to replace the grinding shaft are released, the eccentric 40 is rotated until the spring 41 pushes the bearing 38 out of its original position, wherein the bearing 37 is pivoted about the pivot point 42. During the countershaft a deflection A in the horizontal direction experiences, the flat belts 43 and 44 remain practically in the same tension. .

In the known needle looms, the transport ruler which, by appropriate reciprocation transporting the needles between the transport ruler and the counter ruler on the ^e abrasive roll over, embedded in rectangular sliding bearing. With these plain bearings, which must be fitted very carefully in order to prevent any tilting of the Traaeport rulers

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avoid is the wear »due to the resulting Sonleif dust, comparatively large.

To eliminate these disadvantages, a device is now proposed according to the invention, as described in the Pig. 5 and 6 is shown.

The transport ruler 45 is now on the needles 48 of the Needle bearing 49 run, which is a significantly lower Wear than the previously common plain bearings. The needles 14 are positioned between the transport rule 45 and the counter ruler 46 passed the sole if roller 47, namely, the transport ruler 45 performs a back and forth movement, as indicated by the arrow drawn is*

The needle bearings 49 are by the adjusting screws 50 so against the G-egenhalteplatte 51 adjusted that an optimal storage of the Traneport ruler 45 can be achieved. It This eliminates the tedious spotting and messaging of the Trans ρ ort line ale 45 after a certain period of time.

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Claims (7)

- TO- Claims 1J needle machine, in which the wire to be processed Via a straightener, a feed cartridge, a wire guide rigidly attached to the machine frame, a retraction lock, another wire guide a cutting sleeve, a plague holder, arrives at an upsetting punch, depending on a cutter is controlled by its movement, the needles being fed to a grinding roller after the cut has been made are, characterized in that two needling machines on the frame are arranged parallel next to each other, which are driven by a common drive (19) such that while the wire is being fed on one machine on the other the needle is shaped. 2. Needle machine according to claim 1, characterized in that the two straighteners (2) have their own drive (3). 3. Needling machine according to claim 1 and / or 2, characterized in that that the main drive shaft (19) is designed to be divided, the two parts being detachably coupled to one another. 4 * needle machine according to claim 1 and one or more of the following, characterized in that the two parts of the 009819/0242 - ti - Main drive shaft each with a secondary shaft in drive connection stand on which eccentrics (25,24) or the like. to operate the individual units "are arranged. 5. Needling machine according to claim 1 and one or more of the following, in which the feed cartridges - each on one Carriages are attached, which performs a reciprocating movement, characterized in that the carriage (4) are articulated to a driven disk (28) via a cam rod (31)> which has a guide track (30) for the cam (29) which is designed so that the wire a executes linear feed movement. 6. Needling machine according to claim 1 and one or more of the following, in which the Vorgel'egewelle the grinding shaft drives, characterized in that the countershaft gears (36) on the one hand in a pivotable bearing (37) and on the other hand in a displaceably arranged bearing (38), -which ! the latter can be determined by means of an eccentric (40). x 7. NadelmasiShine according to claim 1 and one or more of the following, in which the needles by means of rulers of the sanding roller are fed, characterized in that the transport ruler (45) is attached to needle bearings (49) or the like, • which are adjustable » 009819/024