JP3221875U - Device to adjust the print head - Google Patents

Abstract

An adjustment device for a print head is provided which operates precisely. An apparatus for adjusting a print head 2 includes a holder 3 and a screw 4 having a tapered portion 7. The screw 4 is screwed into the holder 3. The print head 2 has a tapered portion. It is assigned to 7. A spring 16 is provided to reduce the play of the thread between the holder 3 and the screw 4 and a locking device 9 is provided so that the step width when turning the screw 4 is It is supposed to be decided. [Selected figure] Figure 3

Description

  The present invention is an apparatus for adjusting a print head, comprising a holder and a screw having a tapered portion, the screw being screwed into the holder, and the print head being in contact with the tapered portion Related to the device.

  In print bars having an array of print heads, these print heads must be coordinated with one another. For that purpose, an adjusting device is used which is provided with screws each having a tapered portion. In the taper, each print head is applied directly or indirectly via an intermediate member. The taper forms a wedge-shaped pressure transmission, which converts the axial movement of the screw into a movement of the print head, which is radial to that movement.

  Such a conditioning device is described in U.S. Patent Application Publication 2009/147048 (US 2009/0147048 A1). The accuracy is impaired by the play of the thread, ie between the external thread of the screw and the internal thread of the holder.

  Furthermore, since the screwing is performed steplessly, the accuracy is lost so that the user can not always avoid over- or under-control during adjustment.

  The object of the present invention is to provide an adjustment device for a print head which operates precisely.

  The subject is an apparatus for adjusting a print head, comprising a holder and a screw having a tapered portion, the screw being screwed into the holder, and the print head being held against the tapered portion Is solved by the device. The device according to the invention is provided with a spring so as to reduce thread play between the holder and the screw, a locking device is provided and the steps in turning the screw It is characterized in that the width is to be determined.

  The device according to the invention works very precisely. The spring compensates for the play between the external thread of the screw and the internal thread of the holder.

  An additional advantage of the spring lies in its action as a fastening device for the screw against an unexpected screwdriver. The spring increases the friction of the thread, which dampens the screw so that the screw can not rotate on its own.

  Unexpectedly, the stepper or step-type screwdriver, which is realized by the locking device, allows a more precise adjustment than the stepless screwdriver adjustment in the prior art. The locking device brings about the possibility of transmitting a very precise adjusting movement with a tactile response at each locking step during manual operation. This ensures that over-control and under-control are avoided.

  In most applications, only one of the two technical components, which is a spring and a locking device, may be sufficient to guarantee the required adjustment accuracy.

  Various refinements are possible.

  The head of the screw may form a locking disc of the locking device.

  The locking device may have a groove extending axially parallel to the screw.

  The spring may be arranged to act axially on the screw.

  To that end, the spring may be fitted on a screw.

  According to another refinement, the spring is arranged to act radially on the screw.

  To that end the holder may have a clamp bush which is biased by a spring.

  Modifications are apparent from the following description of the embodiments and the accompanying drawings.

1 shows a printing press with a print bar for inkjets. Fig. 3 shows a first embodiment of a printing head of a printing bar and an adjustment device for the printing head. 2 shows a second embodiment of a print head and an adjusting device.

  FIG. 1 shows a printing press provided with a plurality of print bars 1 for inkjet printing based on a substrate made of paper or cardboard. The substrate may have the form of a sheet, but may have the form of a web. Since these print bars 1 have the same structure, only one print bar 1 need be described. The print bar 1 comprises a plurality of print heads 2 arranged in a row, the row extending perpendicularly to the drawing plane of FIG. The rows of print heads 2 extend across the format width of the substrate, and the print bar 1 is used for printing the page width.

  An adjustment device is associated with each print head 2, and the adjustment device can adjust the position of the print head 2 relative to the print head 2 adjacent thereto. The alignment movement of the printing head 2 which is excited by the alignment device may be a translational movement or a rotational movement.

  The embodiment shown in FIG. 2 and the embodiment shown in FIG. 3 of the adjusting device have in common the points described here. The same reference numerals are used for components corresponding to each other in FIGS. 2 and 3.

  The adjusting device of FIGS. 2 and 3 has a holder 3 in which a screw 4 is screwed. The screw 4 has a tapered portion 7 which is a conical portion, and the print head 2 is held to the tapered portion 7 via an intermediate member. The screw 4 has a head 8 which is used as a grip or turn knob for turning the screw 4 without a tool.

  A locking device 9 is provided, which comprises a spring-loaded pressing member 11, for example a ball and an index recess. The locking device 9 is a multiple locking device. The pressing member 11 enters into another index recess each time the screw 4 is turned. Thus, the screw 4 is very precisely controlled and turned per index recess. The row of index recesses is machined around the circumference of the locking disc, which is a locking disc, wherein the index recesses are evenly distributed at a certain angular distance from one another. The locking disc is formed by the head 8 of the screw 4.

  Preferably, the head 8 has two functions, on the one hand a grip for turning the screw 4 and on the other hand a locking disc of the locking device 9.

  The index recess is configured as a groove 10 and is hereinafter referred to as a groove 10. The groove 10 extends in the longitudinal direction parallel to the axis of rotation of the screw 4. Each groove 10 is longer than the maximum axial alignment distance of the screw 4 during adjustment. The groove length compensates for the difference in distance resulting from the screwing of the screw 4 into the holder 3. The pressing member 11 can enter into the groove 10 independently of how deeply the screw 4 is screwed into the holder 3.

  The groove 10 is machined in the head 8 and thus enhances the grip of the rotary knob formed by the head 8, which is advantageous.

  A certain amount of thread play is present between the external thread 5 of the screw 4 and the internal thread 6 of the holder 3 into which the external thread 5 is screwed. In order to minimize this thread play, a clamping device is present, which is different in both embodiments, and thus subsequently separately from each other in FIGS. 2 and 3. explain.

  In the embodiment of FIG. 2 the clamping device comprises a clamping jaw or clamping bush 12 formed on the holder 3. For this purpose, the holder 3 is machined with a slit 13 which extends parallel to the axis of rotation of the screw 4. By means of the slits 13 the wall of the bore, which is machined into the holder 3 for receiving the screw 4 is interrupted. The slit 13 has an open end which leads to the edge of the aforementioned wall. Furthermore, the slit 13 has a closed end, at the closed end the slit width is expanded in a circle, which forms a kind of bending joint.

  A spring 14 biases the clamp bush 12 radially towards the screw 4. By means of the spring 14, the clamp bush 12 is pressed together, with the two side walls of the slit 13 getting somewhat closer to one another. Thus, the internal thread 6 narrows around the external thread 5, which minimizes the play of the thread. The spring 14 is supported at one end by the clamp bush 12 and at the other end by a screw 15. The screw 15 is screwed into the holder 3 laterally to the screw 4. The spring 14 is a coil spring to which a compressive load can be applied, and is fitted on the body of the screw 15. By turning the screw 15, the preload of the spring 14 can be adjusted.

  According to the embodiment of FIG. 3, the clamping device is formed by a spring 16. The spring 16 is supported at its one end on the head 8 of the screw 4 and at the other end on the holder 3. The spring 16 is a coil spring capable of applying a compressive load, and is fitted on the screw 4. The screw 4 is inserted through the spring 16. The spring 16 acts axially on the screw 4 and tries to push the screw 4 out of the holder 3. As a result, the external thread 5 of the screw 4 is pressed against the internal thread 6 of the holder 3, whereby the play of the thread between the two threads is minimized.

  According to the advantage of the embodiment of FIG. 2 over the embodiment of FIG. 3, in the embodiment of FIG. 2, the clamping force generated by the spring 14 is of the same magnitude at every threading depth of the screw 4 is there.

  According to the advantage of the embodiment of FIG. 3 relative to the embodiment 2 of FIG. 2, the embodiment of FIG. 3 requires fewer components to support the spring 16. This is because the body of the screw 4 which is present is used anyway.

Reference Signs List 1 print bar 2 print head 3 holder 4 screw 5 male thread 6 female thread 7 taper portion 8 head 9 locking device 10 groove 11 pressing member 12 clamp bush 13 slit 14 spring 15 screw 16 spring

Claims (7)

An apparatus for adjusting the print head (2),
With the holder (3)
A screw (4) having a tapered portion (7);
The apparatus wherein the screw (4) is screwed into the holder (3) and the print head (2) is applied to the taper (7),
Springs (14, 16) are provided to reduce thread play between the holder (3) and the screw (4), and a locking device (9) is provided. Device for adjusting a print head (2), characterized in that the step width in turning the screw (4) is determined.   2. Device according to claim 1, characterized in that the head (8) of the screw (4) forms the locking disc of the locking device (9).   3. Device according to claim 1 or 2, characterized in that the locking device (9) comprises a groove (10) extending axially parallel to the screw (4).   4. Device according to one of the claims 1 to 3, characterized in that the spring (16) acts axially with respect to the screw (4).   5. Device according to claim 4, characterized in that the spring (16) is fitted on the screw (4).   4. A device according to any one of the preceding claims, characterized in that the spring (14) acts radially on the screw (4).   7. Device according to claim 6, characterized in that the holder (3) comprises a clamp bush (12) biased by the spring (14).

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