CN113212004A - Guide rail beam adjusting device and digital printer - Google Patents

Abstract

The embodiment of the invention provides a guide rail beam adjusting device and a digital printer, wherein the device is used for adjusting the position of a guide rail beam of the digital printer relative to a rack and comprises a support frame which is fixedly connected with the rack and supports the guide rail beam, and a parallelism adjusting assembly which is assembled on the support frame and is used for movably adjusting the parallelism of a reference plane on the guide rail beam relative to a printing plane of a printing substrate, wherein the parallelism adjusting assembly comprises at least three first screw holes which are arranged at preset positions on the support frame in a non-linear arrangement manner, and jacking bolts which are screwed in the first screw holes in a one-to-one correspondence manner, and the threaded ends of the jacking bolts extend out of the first screw holes and then abut against the guide rail beam. The embodiment can effectively adjust the guide rail beam to enable the reference plane of the guide rail beam to be parallel to the printing substrate.

Description

Guide rail beam adjusting device and digital printer

Technical Field

The embodiment of the invention relates to the technical field of digital printers, in particular to a guide rail beam adjusting device and a digital printer.

Background

A conventional digital printer generally includes a frame, a rail beam assembled on the frame, a printing device assembled on the rail beam, and a carrying device disposed below the printing device for carrying a printing substrate and driving the printing substrate to move along a predetermined direction. In order to ensure the printing quality, the reference plane (for example, the bottom surface) of the guide rail beam should be parallel to the printing substrate during assembly, and the central axis of the guide rail beam in the length direction of the digital printer applied to a large-width printing substrate needs to be parallel to the width direction of the printing substrate (i.e., perpendicular to the feeding direction of the printing substrate). However, due to processing and assembly errors, in practical application, the reference surface of the guide rail beam is not parallel to the printing substrate and/or the central axis of the guide rail beam in the length direction is not perpendicular to the feeding direction of the printing substrate, which may cause printing deviation of the digital printer.

In order to effectively correct the position of the guide rail beam relative to the printing substrate, installation and maintenance personnel usually perform finish machining on the combined position of the guide rail beam and the rack, and then attach and assemble the finish machining planes of the guide rail beam and the rack to ensure that the guide rail beam is parallel to the printing substrate.

Disclosure of Invention

The technical problem to be solved by the embodiments of the present invention is to provide a guide rail beam adjusting device, which can effectively adjust a guide rail beam so that a reference plane of the guide rail beam is parallel to a printing substrate.

The technical problem to be solved by the embodiments of the present invention is to provide a digital printer, which can effectively adjust a guide rail beam so that a reference plane of the guide rail beam is parallel to a printing substrate.

In order to solve the above technical problem, an embodiment of the present invention provides the following technical solutions: the utility model provides a guide rail roof beam adjusting device of digital printer for adjust the position of digital printer's guide rail roof beam for the frame, include with the frame is fixed link to each other and is supported the support frame of guide rail roof beam, assemble in be used for the reference plane on the activity adjustment guide rail roof beam on the support frame to print the depth of parallelism adjusting part of the planar depth of parallelism of printing of substrate, the depth of parallelism adjusting part includes that at least three non-straight line arranges and locates first screw and the one-to-one spiro union of preset position department on the support frame each jacking bolt in the first screw, every the spiro union is one in the first screw jacking bolt, each jacking bolt's threaded end still stretches out support on the guide rail roof beam behind the first screw.

The device further comprises an angle adjusting mechanism which is assembled on the support frame and is used for movably adjusting an included angle of a length central axis of the guide rail beam relative to the width direction of the printing substrate, the angle adjusting mechanism comprises an installation block which is relatively fixed with the support frame and is provided with a second screw hole and a first through hole, a pulling bolt which is locked on the guide rail beam after a threaded end penetrates through the first through hole, and a pushing bolt which is screwed in the second screw hole and is pushed against the guide rail beam after the threaded end extends out of the second screw hole, and the pulling bolt is parallel to the axial direction of the pushing bolt and is vertical to the axial direction of the jacking bolt.

Furthermore, the parallelism adjusting assembly further comprises a first gasket arranged between the supporting frame and the guide rail beam in a cushioning mode, and the threaded end of each jacking bolt abuts against the first gasket.

Furthermore, still be equipped with on the support frame and be used for the location first locating slot of first gasket, each first screw is located the corner department of each lateral margin position of the tank bottom wall of first locating slot.

Furthermore, the angle adjusting mechanism further comprises a second gasket arranged between the mounting block and the guide rail beam, a second through hole is formed in the second gasket, the pulling bolt is fixedly locked on the guide rail beam after penetrating through the first through hole and the second through hole, and the threaded end of the pushing bolt is abutted against the second gasket.

Furthermore, the mounting block is further provided with a second positioning groove for positioning the second gasket, and the second screw hole and the first through hole are both arranged in the second positioning groove.

Furthermore, stroke limiting nuts for limiting the rotation strokes of the jacking bolt and the abutting bolt are respectively screwed on the jacking bolt and the abutting bolt.

Furthermore, the support frame comprises a bearing plate for supporting the guide rail beam from the bottom surface of the guide rail beam, a connecting plate vertically connected with one end of the bearing plate and relatively fixed with the rack, and a support plate arranged between the connecting plate and the bearing plate and vertically connected with the connecting plate and the fixing plate, wherein the first positioning groove and each first screw hole are arranged on the bearing plate.

In another aspect, to solve the above technical problem, an embodiment of the present invention provides a digital printer, including a frame, a rail beam assembled on the frame, a printing device assembled on the rail beam, and a substrate feeding device disposed below the printing device and configured to carry a printing substrate and drive the printing substrate to move in a predetermined direction, wherein the rail beam is assembled on the frame by a rail beam adjusting device as described in any one of the above.

Furthermore, the two opposite ends of the guide rail beam are respectively assembled on the rack through the guide rail beam adjusting device.

After the technical scheme is adopted, the embodiment of the invention at least has the following beneficial effects: according to the embodiment of the invention, the support frame is fixedly connected with the rack and supports the guide rail beam, then the parallelism adjusting assembly is additionally arranged on the support frame, and the parallelism adjusting assembly for movably adjusting the parallelism of the reference plane on the guide rail beam relative to the printing plane of the printing substrate, during specific adjustment, the jacking bolt at the preset position is only required to be screwed, so that the jacking bolt extends out of the first screw hole for a preset axial length and is abutted against the guide rail beam, the guide rail beam can be reversely pushed, the pitching angle of the guide rail beam relative to the rack is changed, and the reference plane on the guide rail beam can be adjusted to be parallel to the printing plane of the printing substrate by adjusting one or more jacking bolts.

Drawings

Fig. 1 is a schematic diagram of an overall structure of an alternative embodiment of the digital printer according to the present invention.

Fig. 2 is a schematic structural view of a guide rail beam adjusting device of a digital printer according to an alternative embodiment of the invention in a disassembled state.

Fig. 3 is a schematic structural view of an alternative embodiment of a guide rail beam adjusting device of a digital printer according to the present invention in an assembled state.

Fig. 4 is a schematic cross-sectional view of an alternative embodiment of the guide rail beam adjusting device of the digital printer according to the present invention, taken along the central axis plane of the jacking bolt.

Fig. 5 is a schematic cross-sectional view of an alternative embodiment of the guide rail beam adjusting device of the digital printer according to the present invention, taken along the central axis plane of the jacking bolt.

Detailed Description

The present application will now be described in further detail with reference to the accompanying drawings and specific examples. It should be understood that the following illustrative embodiments and description are only intended to explain the present invention, and are not intended to limit the present invention, and features of the embodiments and examples in the present application may be combined with each other without conflict.

As shown in fig. 1 to 5, an alternative embodiment of the present invention provides a guide rail beam adjusting apparatus 1 for a digital printer, the device is used for adjusting the position of a guide rail beam 3 of a digital printer relative to a frame 5, and comprises a support frame 10 which is fixedly connected with the frame 5 and supports the guide rail beam 3, a parallelism adjusting component 12 which is assembled on the support frame 10 and is used for movably adjusting the parallelism of a reference plane on the guide rail beam 3 relative to a printing plane of a printing substrate 6, the parallelism adjusting assembly 12 comprises at least three first screw holes 121 which are arranged on the support frame 10 in a non-linear manner and are arranged at preset positions, and jacking bolts 123 which are screwed in the first screw holes 121 in a one-to-one correspondence manner, one jacking bolt 123 is screwed in each first screw hole 121, and the threaded end of each jacking bolt 123 extends out of the first screw hole 121 and then abuts against the guide rail beam 3.

According to the embodiment of the invention, the support frame 10 is fixedly connected with the rack 5 and supports the guide rail beam 3, then the parallelism adjusting assembly 12 is additionally arranged on the support frame 10, the parallelism adjusting assembly 12 for movably adjusting the parallelism of the reference plane on the guide rail beam 3 relative to the printing plane of the printing substrate 6 is arranged, during specific adjustment, only the jacking bolt 123 at the preset position is needed to be screwed, the jacking bolt 123 extends out of the first screw hole 121 and is abutted against the guide rail beam 3 by the preset axial length, so that the guide rail beam 3 can be reversely pushed, the pitching angle of the guide rail beam 3 relative to the rack 5 is changed, and the reference plane on the guide rail beam 3 can be adjusted to be parallel to the printing plane of the printing substrate 6 by adjusting one or more jacking bolts 123, so that the whole adjusting structure is simple, and the operation is relatively convenient. In the specific implementation, it can be understood that adjusting the jacking bolts 123 at different positions can adjust the pitch angles of the guide rail beams 3 in different directions. In addition, since three points that are not on the same straight line define a plane, there are different positional relationships of arrangement according to the number of the first screw holes 121, for example: when three first screw holes 121 are provided, the three first screw holes 121 correspond to the positional relationship of three vertexes that can adopt a triangle (the positional relationship of vertexes that can adopt an isosceles triangle for ensuring symmetry), and when four first screw holes 121 are provided, the four first screw holes 121 correspond to the positional relationship of each vertex that can adopt a rectangle.

In an alternative embodiment of the present invention, as shown in fig. 4 and 5, the apparatus further includes an angle adjusting mechanism 14 assembled on the supporting frame 10 to movably adjust an included angle between a central axis of the length of the guide rail beam 3 and a width direction of the printing substrate 6, wherein the angle adjusting mechanism 14 includes an installation block 141 fixed to the supporting frame 12 and provided with a second screw hole 141a and a first through hole 141b, a pulling bolt 143 screwed into the guide rail beam 3 after a threaded end passes through the first through hole 141b, and a pushing bolt 145 screwed into the second screw hole 141a and pressed against the guide rail beam 3 after a threaded end extends out of the second screw hole 141a, and the pulling bolt 143 is parallel to an axial direction of the pushing bolt 145 and perpendicular to an axial direction of the jacking bolt 123. In this embodiment, an angle adjusting mechanism 14 is further provided to ensure that the length central axis of the guide rail beam 3 is parallel to the width direction of the printing substrate 6, so as to further improve the mounting accuracy of the guide rail beam 3. During specific adjustment, the pulling bolt 143 is locked on the guide rail beam 3 and the pushing bolt 145 abuts against the guide rail beam 3, when the pulling bolt 143 needs to be adjusted, the pushing bolt 145 is screwed outwards firstly, and then the pulling bolt 143 is pulled outwards to drive the guide rail beam 3 to move, so that the adjustment of the included angle of the length central axis of the guide rail beam 3 relative to the width direction of the printing substrate 6 can be realized, the structure is very simple, and the adjustment is also convenient.

In yet another alternative embodiment of the present invention, the parallelism adjusting assembly 12 further comprises a first spacer 125 padded between the support frame 10 and the guide rail beam 3, and the threaded end of each jacking bolt 123 abuts against the first spacer 125. In this embodiment, the first gasket 125 is further arranged to support the threaded end of the jacking bolt 123 against the first gasket 125, so as to prevent the guide rail beam 3 from being crushed by the excessive thrust of the jacking bolt 123, and the first gasket 125 enables the thrust of the jacking bolt 123 against the guide rail beam 3 to act on the guide rail beam 3 on average.

In yet another alternative embodiment of the present invention, the supporting frame 10 is further provided with a first positioning groove 101 for positioning the first gasket 125, and each of the first screw holes 121 is provided at a corner of each side edge of the bottom wall of the first positioning groove 101. In this embodiment, the first positioning groove 101 is arranged to position the first gasket 125, so as to prevent the first gasket 125 from deviating in the pushing process of the jacking bolt 123; and locate first screw 121 the corner department of each lateral margin position of the tank bottom wall of constant head tank 101, when the height of the independent certain lateral margin of guide rail roof beam 3 is adjusted to concrete needs, only need correspond two jacking bolts 123 that the operation corresponds lateral margin corner department and can realize adjusting, adjust convenience more.

In another optional embodiment of the present invention, the angle adjusting mechanism 14 further includes a second spacer 147 disposed between the mounting block 141 and the guide rail beam 3, the second spacer 147 is provided with a second through hole 147a, the pulling bolt 143 passes through the first through hole 141b and the second through hole 147a and is locked on the guide rail beam 3, and the threaded end of the pushing bolt 145 abuts against the second spacer 147. In this embodiment, the second gasket 147 is further arranged to press the threaded end of the pushing bolt 145 against the second gasket 147, so as to prevent the guide rail beam 3 from being crushed due to an excessive pushing force of the pushing bolt 145, and the second gasket 147 enables the pushing force of the pushing bolt 145 on the guide rail beam 3 to act on the guide rail beam 3 on average.

In yet another alternative embodiment of the present invention, the mounting block 141 is further provided with a second positioning groove 141c for positioning the second gasket 147, and the second screw hole 141a and the first through hole 141b are both disposed in the second positioning groove 141 c. In this embodiment, the second positioning groove 141c is disposed to position the second gasket 147, so as to prevent the second gasket 147 from deviating in the pushing process of the pushing bolt 145.

In an alternative embodiment of the present invention, the jacking bolt 123 and the abutting bolt 145 are further screwed with a stroke limiting nut 16 for limiting the rotation stroke of the jacking bolt 123 and the abutting bolt 145, respectively. In this embodiment, the limiting nut 16 is further formed, so as to effectively limit the rotation stroke of the jacking bolt 123 and the abutting bolt 145, and avoid excessive manual adjustment.

In still another alternative embodiment of the present invention, the support frame 10 includes a support plate 103 for supporting the guide rail beam 3 from the bottom surface of the guide rail beam 3, a connection plate 105 vertically connected to one end of the support plate 103 and fixed relative to the frame 1, and a support plate 107 provided between the connection plate 105 and the support plate 103 and vertically connected to the connection plate 105 and the fixed plate 103, and the first positioning groove 101 and each of the first screw holes 121 are provided in the support plate 103. In this embodiment, the supporting frame 10 uses the supporting plate 103, the connecting plate 105 and the supporting plate 107, the supporting plate 103 supports the guide rail beam 3 from the bottom surface of the guide rail beam 3, the connecting plate 105 is relatively fixed to the frame 5, the assembly is more convenient, and the supporting plate 107 improves the connection strength between the supporting plate 103 and the connecting plate 105.

On the other hand, as shown in fig. 1, an embodiment of the present invention provides a digital printer, which includes a frame 5, a rail beam 3 assembled on the frame 5, a printing device 7 assembled on the rail beam 3, and a substrate feeding device 8 disposed below the printing device 7 for carrying a printing substrate 6 and driving the printing substrate 6 to move in a predetermined direction, wherein the rail beam 3 is assembled on the frame 5 through the rail beam adjusting device 1 as described in any one of the above. In this embodiment, the guide rail beam 3 of the digital printer is assembled to the frame 5 by the guide rail beam adjusting device 1, so that the reference plane of the guide rail beam 3 can be effectively adjusted to be parallel to the printing substrate 6.

In an alternative embodiment of the present invention, the opposite ends of the guide rail beam 3 are assembled to the frame 5 through one guide rail beam adjusting device 1. In this embodiment, respectively pass through one with the relative both ends of guide rail roof beam 3 guide rail roof beam adjusting device 1 assembles to frame 5 on, guarantees the stationarity of guide rail roof beam 3 installation, when adjusting guide rail roof beam 3 moreover, the guide rail roof beam adjusting device 1 at both ends can adjust the cooperation each other, and it is also higher to adjust the degree of accuracy.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. The utility model provides a guide rail roof beam adjusting device of digital printer for adjust the position of digital printer's guide rail roof beam for the frame, its characterized in that, the device include with the frame is fixed link to each other and is supported the support frame of guide rail roof beam, assemble in be used for the depth of parallelism adjusting part of the reference plane on the movable adjustment guide rail roof beam for the planar depth of parallelism of printing the substrate on the support frame, the depth of parallelism adjusting part includes that at least three non-straight line arranges and locates the first screw and the one-to-one spiro union of preset position department on the support frame each jacking bolt in the first screw, each jacking bolt's threaded end still stretches out support on the guide rail roof beam behind the first screw.

2. The guide rail beam adjusting device of the digital printer according to claim 1, further comprising an angle adjusting mechanism assembled on the support frame to movably adjust an included angle of a length central axis of the guide rail beam with respect to a width direction of the printing substrate, wherein the angle adjusting mechanism comprises an installation block fixed with the support frame and provided with a second screw hole and a first through hole, a pulling bolt locked on the guide rail beam after a threaded end passes through the first through hole, and a pushing bolt screwed in the second screw hole and abutting on the guide rail beam after the threaded end extends out of the second screw hole, and the pulling bolt is parallel to an axial direction of the pushing bolt and perpendicular to an axial direction of the pushing bolt.

3. The guide rail beam adjusting device for a digital printer according to claim 1, wherein the parallelism adjusting assembly further comprises a first spacer padded between the support frame and the guide rail beam, and a threaded end of each of the jacking bolts abuts against the first spacer.

4. The guide rail beam adjusting device for a digital printer according to claim 3, wherein the support frame is further provided with first positioning grooves for positioning the first spacers, and each of the first screw holes is provided at a corner of each side edge of a bottom wall of the first positioning groove.

5. The guide rail beam adjusting device of the digital printer according to claim 2, wherein the angle adjusting mechanism further comprises a second spacer padded between the mounting block and the guide rail beam, the second spacer is provided with a second through hole, the pulling bolt is locked on the guide rail beam after passing through the first through hole and the second through hole, and the threaded end of the pushing bolt abuts against the second spacer.

6. The guide rail beam adjusting device for a digital printer according to claim 5, wherein the mounting block is further provided with a second positioning groove for positioning the second gasket, and the second screw hole and the first through hole are both provided in the second positioning groove.

7. The guide rail beam adjusting device for a digital printer according to claim 2, wherein the lift bolt and the push bolt are further screwed with stroke limiting nuts for limiting the rotational stroke of the lift bolt and the push bolt, respectively.

8. The guide rail beam adjusting apparatus for a digital printer according to claim 4, wherein the support frame includes a support plate for supporting the guide rail beam from a bottom surface of the guide rail beam, a connecting plate vertically connected to one end of the guide rail beam and fixed relative to the frame, and a support plate provided between the connecting plate and the support plate and vertically connected to the connecting plate and the fixing plate, the first positioning groove and each of the first screw holes being provided in the support plate.

9. A digital printer comprising a frame, a guide rail beam assembled to the frame, a printing device assembled to the guide rail beam, and a substrate feeding device disposed below the printing device for carrying a printing substrate and driving the printing substrate to move in a predetermined direction, wherein the guide rail beam is assembled to the frame by the guide rail beam adjusting device according to any one of claims 1 to 8.

10. The digital printer according to claim 9, wherein opposite ends of said rail beam are each assembled to the frame by one of said rail beam adjustment means.

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