DE2237420B2 - Hole-forming punch - has tool on end of rod joined to screwed spindle and working in sleeve - Google Patents

Abstract

The punch is for producing holes in accurate positions in paper, cardboard, plastic sheet etc., the tool being a tube with a sharpened end sliding at right angles to the surface of the paper, fed forward and rotated manually when working. The tool (23) is fitted to one end of a feed rod (20) working in a cylindrical sleeve (18). The rod is joined at the end furthest from the tool to a screwed rod (25). Both the rod and a but (17) separate from it screwed onto the spindle are solidly fixed to a housing, preferably sliding along a transverse measuring beam on a lighting table and lockable in position on it. The manually-operated rotary drive acts directly on the free end of the screwed spindle.

Description

Need to become.

This object is achieved according to the present invention, starting from a hole cutter of type mentioned at the beginning, characterized in that the cutting tube is guided at the end of a cylinder sleeve cylindrical feed rod is attached, which at the end facing away from the cutting tube with a Threaded spindle is connected, as is known per se, that both the cylinder sleeve and one of her separate nuts screwed onto the threaded spindle are rigidly attached to a housing, the preferably on a measuring beam of a light table that can be moved transversely to itself in the longitudinal direction of the measuring beam is displaceably guided and lockable, and that the manual rotary drive directly on the threaded spindle attacks at the free end.

An advantage of the hole cutter according to the invention is that the alignment of the guide surface the cylinder sleeve and supporting flanks of the thread can be easily achieved. It is sufficient, for example, that the To attach the cylinder sleeve and the nut in a pre-fixed position on the housing. The equiaxiality is in achieved in a very cost-effective manner that a teaching in both the cylinder sleeve and the nut at the same time engages and enforces the exact position, which is after the attachment of the parts to the housing no longer changes. As a result, the reject rate in the production can be reduced significantly, because neither one Alignment of the cylinder sleeve and nut still of the feed rod and threaded spindle during manufacture! treatment is required. So it is not important that the cylinder surfaces and the threads in the the same restraint. This has a cost-saving effect in production. The advantages of the subject of the application are not only in technical production improvements, but also in the mode of operation of the device made possible by the configuration according to the invention. Through the rigid fastening of the nut to the housing, which is fixed in the direction of advance of the punching tool, and by the nature of the drive system it is achieved that during the working movement the cutting tube in the The material to be cut is already rotating. As the rotational movement increases The beginning of a work cycle is generated, it is ensured that the cutting edge of the cutting tube at Hitting the surface of the cut material is already rotating. This creates a clean cut the top layer is achieved, which is not possible in the same way with known hand holes, because the rotational movement is only generated there by pressing the cutting tube onto the material to be cut. The cutting edge is first pressed against the material to be cut and only then rotates offset. As a result, there is a squeezing first and only 5 $ then a pulling one (in the longitudinal direction of the cutting edge seen) cutting movement instead. In contrast, it is advantageous in the case of the hole cutter according to the invention so that when it hits the surface there is no squeezing, but rather a pulling one immediately Cutting movement, which ensures better dimensional accuracy of the hole produced. This success is achieved without the previously common drive motor, which means that niciu only requires the effort for this drive motor can be saved, but also either a reinforcement of the light table or the Avoid using a flexible shaft.

The guidance of the cylindrical feed rod in a cylinder sleeve results in a high level of positional accuracy of the cutting tube, which is maintained over very long periods of use and which is practically free of play. This is an essential prerequisite for accurately incorporating the Perforations. The exact guidance of the cutting tube and the generation of the helical movement are separated from each other. This separation makes it possible to achieve the desired high level with little effort Achieve accuracy and maintain it over long operating times.

The hole cutter according to the invention can be used both on its own and together with others Use fixtures and equipment. For example, the measuring base can be placed over a rigid cast plate to be appropriate; The advantage here is that very large formats can be implemented, since such Metal plates are inherently very stiff. In a preferred embodiment of the invention, the Hole cutter as an additional device for fastening to the measuring beam of a light table, in particular one Assembly light table, designed, which is used to produce film assemblies for multi-color printing. At A wide variety of processing devices can be attached to the measuring bar of such light tables be, such as measuring angles, line drawing devices and the like appropriately trained hole cutter according to the invention can be used. This has the advantage that taking advantage of the accuracy made possible by the measuring bar guide in the films and foils with precise positions Perforations can be incorporated. These perforations can be independent of contact edges and similar fixed points in any exact position within the usable area of the assembly table turn drilled.

In preferred embodiments of a hole cutter according to the invention for light tables are provided in which measuring bars and measuring bar guides with scales to determine the position are provided, reading devices are provided, which in the direction of movement of the measuring beam and in Direction of relative movement between hole cutter and measuring beam on the pipe axis of the cutting pipe are aligned so that the values determined on the reading devices the exact position of the Show pipe axis in coordinate dimensions. If the hole cutter is attached to one on the measuring beam Guide attached, which is anyway provided with a reading device, so the attachment is so aligned so that it meets the above conditions. A second reading device for determining is on the guide carriage attached to the outside of the measuring beam the position of the pipe axis is provided if the reading device provided anyway is not connected to the corresponding Place is arranged, but is aligned, for example, aul bar center or bar edge.

It is also possible to determine the position of the pipe axis by using perforated strips and index bolts set reproducibly; it's the leaders Provide the bars on which the measuring bar runs with inserted perforated strips. In the stelk given on incorporated holes are index bolts that determine the position of the measuring beam. Dazi the measuring table on the guide beam supporting wagons to the index bolt or they can assault with fitting holes be through which the index bolts in the holes dei

Perforated strip can be inserted. In the same way, the Position of the carriage running on the measuring beam can be set exactly and easily reproducible.

After several work processes, perforated plates collect in the cutting tube, which are made from the maleria! exist. For example, an ejector can now be provided which is attached to the housing and engages in the cutting tube. With each upward movement, the perforated plate located in the cutting tube is ejected by this rod. In a preferred embodiment of the invention, on the other hand, the feed rod and the threaded spindle are provided with an axially continuous bore for diverting the perforated plates. This bore is preferably somewhat larger in diameter than corresponds to the plate diameter. During the work process, the perforated plate is pressed into the cutting tube and gradually moves upwards there. In the subsequent enlarged hole, the perforated blanks j _{0 are} gradually conveyed upwards and emerge at the top or can be poured out from time to time.

The hole cutter according to the invention can be driven in different ways. It is true that a drive with auxiliary energy can also take place, for example by means of an electromagnet, which is designed as a lifting or rotary magnet, or by means of hydraulic or pneumatic working cylinders. A great advantage of the hole cutter according to the invention, however, is that it can be operated manually without external energy. For this purpose, in a preferred embodiment, a rotary or crank handle is attached to the end of the threaded spindle facing away from the feed rod. The threaded spindle is rotated by a pivoting movement of this rotary or crank handle, thereby generating both the downward stroke and the rotational movement of the cutting tube. By appropriately designing the pitch of the threaded spindle! it can be ensured that the size of the ^ ₀ swivel angle of the rotary or crank handle can be used with a comfortable size for the use of the device. The rotary or crank handle can act directly on the upper end of the threaded spindle. In a preferred embodiment of the invention, the rotary or crank handle is provided with a hood that overlaps and covers _{the 4J nut.} This once ensures that the nut and the threaded spindle are covered and that dust and foreign bodies cannot easily penetrate and that the hole _{cutter according} to the invention also has an attractive, closed appearance.

As a result of the screwing movement of the cutting tube when the hole is machined, a tangential force is inevitably exerted on the material immediately adjacent to the cutting tube. This force can cause _5J, that the material poses at the machining point and arches, particularly when processed in not very rigid plastic, or when the cutting edge of the cutting tube is not more very sharp after prolonged use. In preferred execution _fo approximately embodiments of the invention is therefore slidably mounted on the feed rod formed in a manner of a sewing machine Füßchens hold-down in the longitudinal direction of the feed rod against spring force. The hold-down device can also be _rotated relative to the feed rod. it being non-rotatable relative to the cylinder sleeve and the housing and thus also relative to the material to be processed. When working out a hole, the hold-down device comes first to de; Surface of the material to the system and is durct during the feed movement of the feed rod! increasing spring force against the surface de; Material pressed, whereby this is held in its position in the immediate vicinity of the processing point. The rotating cutting edge of the cutting tube then reaches the surface of the material to be processed and cuts into it. The pulling and pushing movement of the cutting edge relative to the material to be processed creates a very favorable cutting effect, which is particularly beneficial in the case of plastic films that are more resistant to a punching cut than to a pulling cut. When the cutting tube moves back, the hold-down only lifts off the perforated material when the cutting edge of the cutting tube is already above the surface of the material.

The hole cutter according to the invention can be designed so that it is opposite to the measuring beam in the height is adjustable. In general, however, this is not necessary because of the height difference between Table surface and measuring beam is constant and because the thickness of the material to be cut is not very varies greatly. This variation in the thickness of the material to be cut can be done without any adjustment work be taken up by the hole cutter according to the invention. The stroke of the hole cutter is convenient constant, as it always reaches up to or just in front of the table surface. Only the stroke of the hold-down device depends on the thickness of the material to be cut. Since the hold-down device is spring-loaded anyway is. it is able to absorb relatively large differences in altitude. However, it may be necessary to use the Distance between the cutting edge of the cutting tube and the table surface in the end position of the cutting edge to limit different values. This can be done either by the mother in Height direction is displaceable and fixable attached to the housing or that adjustable stops are provided for the rotary movement of the rotary or crank handle.

A preferred embodiment of the invention is shown in the drawing and will subsequently explained. It shows

Fig. 1 shows a light table with a measuring beam on which a hole cutter according to the invention is attached displaceably and fixable. in side view,

F i g. 2 shows the plan view of the arrangement according to FIG. 1 and

3 shows a section along the line HI-III in FIG. 2, in a greatly enlarged view.

On an underframe 1, a flat box 2 is attached, in the interior of which a not shown Lighting device is housed and "the surface of which is covered with a frosted glass pane 3. On the side of the box 2 two parallel guide bars 4 are provided on which car sex act are guided longitudinally. A scale 11 is on at least one of the two guide bars 4 appropriate. The carriage 5 running over this scale 11 is provided with a reading device, for example a magnifying glass 6 rr.with crosshairs. The carriages 5 are guided by ball or roller guides 7 easily displaceable and practically free of play. The carriages 5 detectable. Em measuring beam 9 connects the two

Car 5 with each other. On its upper side is the bending and torsionally rigid measuring beam 9 with a scale 10 Mistake. The measuring beam 9 is perpendicular to the two mutually parallel guide bars 4 aligned.

A carriage 12 is practical on the Mcßbalken 9 Mounted so as to be displaceable free of play, which can be locked in its position by a clamping screw 13. To the Carriage 12 is a reading device in the form of a magnifying glass 14 with crosshairs attached, which allows reading of the Scale 10 allowed. The carriage 12 is guided to be easily displaceable on the measuring beam 9 by roller guides 15.

A device according to the invention is attached to the carriage 12 Hole cutter 16 attached detachably or non-detachably. The hole cutter 16 includes one on the carriage 12 or 12 an intermediate bracket attached to a nut 17 and also on the carriage 12 or an intermediate bracket attached cylinder sleeve 18, the axis angularly to each other are aligned. The cylinder sleeve 18 forms a long and precise guide for one with a longitudinal bore 19 provided feed rod 20. At the lower end facing the frosted glass pane 3 is in the Feed rod 20 inserted the punching tool in the form of a cutting tube 21. The cutting tube 21, the its lower end is given away by an internal recess 22 with a cutting edge 23. points at its upper End of a Hülsenansa'z 24, which is inserted into a corresponding recess of the feed rod 20 is. The sleeve attachment 24 is also pierced longitudinally, this bore being the same or a larger one Has a diameter like the clear diameter of the cutting tube 21. At the cutting tube 21 facing away from the upper end of the feed rod 20, a threaded spindle 25 is non-rotatably attached, which in the Mother 17 is running. Between the threaded spindle 25 and the feed rod 20 are a disk 26 and a ring 27 attached. The attachment of the threaded spindle 25 to the feed rod 20, for example, of two Pieces are made can be done by shrink fitting or soldering or pinning. The ring 27 can be slotted and removable: it then serves as a stop for the downward stroke movement, if it comes to rest with its end face on the end face of the cylinder sleeve 18 adjacent to it. It the ring 27 can also be screwed onto the feed rod 20, whereby an adjustable Realize stop. When the ring 27 is designed to be interchangeable, the setting can be different Feed depths are carried out by rings 27 of different heights.

At the end of the spindle 25 facing away from the feed rod 20, a mandrel 28 connects to which a Nut 17 hood-shaped overlapping head part 29 is attached. On the head part 29 is a radial extending, upwardly inclined rod 30 attached, at the free end of a ball handle 31 is attached. Of the Rod 30 with the ball handle 31 forms a rotary or crank handle for operating the inventive Hole cutter.

With the feed rod 20 displaceable in the axial direction, but otherwise non-rotatable with respect to the Cylinder sleeve 18, a hold-down device 32 is provided which a flat foot 33 which is U-shaped in plan view and which is guided towards the cylinder sleeve 18 Has holder 34. The holder is laterally offset in such a way that it is outside the area for the cutting tube 21 required cross-sections'. A helical compression spring 35 surrounds the holder 34 and the cutting tube 21. The helical compression spring 35 ensures that the hold-down device 32 is always in its lowest position.

At a side edge s parallel to the measuring beam 9 is a suspension device on the upper side of the box 2 36 attached, which has a plurality of pins 37, in the recesses of a standing arch 38 and / or are hung from mounting foils. Films with color separations are placed on the mounting foils and

ίο aligned provisionally fixed, the picture laces 39 have. Individual or multiple image fields 39 can be attached to a film section.

By means of the hole cutter according to the invention, holes are now incorporated by eye or by setting according to the coordinates to be read on the magnifying glasses 6 and 14. The carriage provided with the magnifying glass 6 is preferably provided with a further magnifying glass 40 which is precisely aligned with the axis of the cutting tube 21. Likewise, the attachment of the hole cutter according to the invention to the carriage 12 is such that the crosshairs of the magnifying glass 14 and the axis of the cutting tube 21 lie in a plane to which the direction of movement of the carriage 5 is exactly parallel. As a result, the coordinates of the cutting tube 21 can be read directly on the magnifying glass 40 and the magnifying glass 14. This is of particular advantage when several arrangements 38, 39 are to be drilled off one after the other with great accuracy.
After the hole cutter according to the invention is adjusted either by eye or, if precise work is required, by adjusting the carriages 5 and 12 by means of the reading magnifiers 40 and 14 and fixed by the clamping screws 8 and 13. the threaded spindle 25 is screwed down in the fixed nut 17 by pivoting the rod 30. First of all, the hold-down device 32 is moved downwards until it rests on the surface of the uppermost film 41 lying on the standing sheet 38. The hold-down 32 does not perform any rotary movement in addition to its feed movement. As the unit consisting of cutting tube 21, feed rod 20 and threaded spindle 25 continues to advance, the helical compression spring 35 is tensioned and, with increasing force, presses the hold-down device 32 against the film 41, whereby the film 41 and the standing arch 38 between the foot 33 and the frosted glass plate 3 be pinched. Then the cutting edge 23 of the cutting tube 21 hits the surface of the film 41, which is scored and severed by the advancing and rotating movement. The feed movement ends either when the ring 27 hits the cylinder sleeve 18 or when a stop attached to the head part 29 hits a stop attached to the nut 17 or the carriage 12. This end of the feed movement can be dimensioned in such a way that the cutting edge 23 is located directly above the surface of the glass plate 3. The stop can also be set up in such a way that, although the grooves 41 are cut, the standing arch 38 is not cut or only cut into. When the rod 30 is subsequently pivoted back, the cutting tube 21 is moved upwards again together with the feed rod 20 and the threaded spindle 25 and the hold-down device 32 is also lifted off the film 41 again; the hold-down device 32 then assumes its end position, which is limited by a stop (not shown), as shown in FIG. 3 is shown.

It goes without saying that the invention does not apply to the

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illustrated embodiment is limited, but deviations are possible without the To leave the scope of the invention. In particular, individual features of the invention can be used for themselves or can be used in combination with several. For example, the drive can also be generated in another way be. The stroke can be generated by an eccentric that is pivoted by means of a hand lever and

10

in the axial direction of the feed rod 20 on this acts. Radially protruding pins with inclined guide surfaces in Engagement, which is attached to the cylinder sleeve 18 are, whereby the screwing movement characteristic of the present hole cutter of the cutting tube 21 is achieved.

For this purpose 2 sheets of drawings

Claims (7)

Patent claims: 1. Hole cutter for dimensionally accurate and positionally accurate punching of paper and cardboard sheets as well as plastic foils and similar materials, with a holder that carries a punching tool that can be moved approximately perpendicular to the plane of the material to be punched in the form of a cutting tube with a circular cutting edge that is sharpened at its end is held rotatably in a guide and is manually given a rotary and a feed movement during the operation, characterized in that the cutting tube (2C) is attached to one end of a cylindrical feed rod (20) guided in a cylinder sleeve (18) which is attached to the end facing away from the cutting tube is connected to a threaded spindle (25), as is known per se that both the cylinder sleeve and a separate nut (17) screwed onto the threaded spindle are rigidly attached to a housing (12), which is preferably on a transversely movable measuring beam (9) of a light table in the longitudinal direction of the measuring beam ng is displaceably guided and lockable, and that the manual rotary drive (29, 30, 31) acts directly on the threaded spindle (25) at its free end. 2. Hole cutter according to claim 1, characterized in that it is used as an additional device for Fasten a light table, in particular an assembly light table, to the measuring beam (9) is designed, which is used to produce film assemblies for multi-color printing. 3. Hole cutter according to claim 1 or 2, for light tables, in which measuring beam and measuring beam support are provided with measuring rods for determining the position, characterized in that the Housing (12) of the hole cutter is provided with a reading device (14), which in the direction of movement of the measuring bar (9) is aligned with the tube axis of the cutting tube (21), and that on the Measuring beam carriage (5) a reading device (40) is provided, which in the direction of movement of the Housing (12) is aligned with the tube axis of the cutting tube (21) so that the reading devices (14 and 40) determined the exact position of the pipe axis in coordinate dimensions represent. 4. Hole cutter according to one of claims 1 to 3, characterized in that the feed rod (20) and the threaded spindle (25) with an axial through hole (19) are provided for deriving the perforated boards. 5. Hole cutter according to one of claims 1 to 4, characterized in that a rotary or crank handle (29, 30, 31) is attached to the end of the threaded spindle (25) facing away from _{the 5J feed rod (20).} 6. Hole cutter according to claim 5, characterized in that the rotary or crank handle with a hood (29) which overlaps and covers the nut (17). 7. Hole cutter according to one of claims 4 to 6, characterized in that on the feed rod (20) a hold-down device (32) designed in the manner of a sewing machine foot in the longitudinal direction of the Advance rod (20) is attached displaceably against spring force. The invention relates to a hole cutter for dimensionally accurate and positionally accurate perforation of paper and cardboard sheets as well as plastic films and similar materials, with a holder that holds an approximately Perforating tool in the form of a movable piercing tool at right angles to the plane of the material to be punched End of sharpened cutting tube with circular cutting edge that rotates in a guide is held and is given a manual rotation and a feed movement during the operation. Such a hole cutter is known (US-PS 22 14 665). In this known hole cutter are on the holder two guide rods guided longitudinally, on which in turn a threaded spindle, the is attached to a spindle holder, is guided longitudinally. A two-armed grips the spindle holder Lever, one end of which is formed on the actuator and the other end of which is formed on one the device is hinged to the articulated handlebar. This allows the spindle holder with the spindle in Move the longitudinal direction of the guide rods and thus give the punching tool the feed movement. The piercing tool is provided at the lower end of the threaded spindle, at its upper end a Actuating button is attached. However, this known device requires two-hand operation without that the exertion of an even pressure during the cutting process is guaranteed. It depends on this however, above all, whether such a hole cutter can be attached to the measuring beam of a light table can, because the surface of a light table, against which the item to be punched rests, is not yet resilient is. In addition, this known device is very expensive to manufacture because it has a large number of Has sliding guides that are produced with the required accuracy only at considerable cost can be. There is also a punch known (CH-PS 3 71 947) that is suitable for index cards. It is used to punch out index cards at certain points to attach, which serve as sensing holes and are scanned in a machine to a specific location to signal the index card. The requirements for the accuracy of the hole are not very high here, because deviations in the range of V2 to 1 mm do not yet play a role. In contrast to this one Punch with hand drive has also become known a punch for a light table (DT-Gbm 71 21 407), the has a rotating punching head set in rotation via a flexible drive shaft. The punch head is attached to a measuring beam of the light table so that it can be moved across its surface. Thanks to the flexible The drive shaft is the punching head with a drive motor provided in a stationary manner above the light table in drive connection. However, the effort involved in such an arrangement is due to the electrical Drive motor and the flexible drive shaft relatively high. In addition, the drive motor, which should be arranged as centrally as possible above the light table, is often in the way and disturbs. aside from that such a flexible drive shaft generally has only a very limited service life. The object of the present invention is to provide a manually operated, inexpensive one to create manufacturable hole cutter, which is suitable for on a mobile measuring beam a Light table to be attached and used without the light table and measuring beam being reinforced