CN112319034A - Functional unit station switching mechanism of printing machine - Google Patents

Abstract

The invention relates to a functional component station switching mechanism of a printing machine, which comprises a longitudinal rail, a longitudinal moving frame, a transverse connecting rail, a transverse moving frame and a transverse guiding component, wherein the longitudinal rail is connected to the rear side of a printing unit of the printing machine; the longitudinal moving frame is arranged on the longitudinal rail; the transverse connecting rail is arranged on the longitudinal moving frame; the transverse guide component is connected and installed on the transverse moving frame and is connected with the transverse connecting rail in a matching mode. The functional unit station switching mechanism of the printing machine can be used for installing and setting corresponding functional units, can move the functional units after installation in different printing units, and is convenient to use and more practical. The defect that functional components are directly installed in one printing unit and cannot meet different process requirements is overcome.

Description

Functional unit station switching mechanism of printing machine

Technical Field

The present invention relates to printing machines and in particular to mechanisms for switching the functional components thereof between the various machine station groups.

Background

Some presses have individual press units in series, such as an offset press unit in series, a flexo press unit in series, or a hybrid combination of an offset press unit and a flexo press unit in series. In addition, the printing machine also has functional components, such as a hot stamping device, a code spraying device, a screen device, a die cutting device, a slitting device and the like. When products with different process requirements are printed, corresponding functional components are configured at different printing units. In the printing equipment appearing in the existing market, functional units can not realize the shift switching of different printing stations, and some equipment can realize simple shift, but the dismouting is also difficult, and can not guarantee the required precision after the reassembling.

Disclosure of Invention

In view of the technical problems in the background art, the technical problem to be solved by the invention is to provide a functional part station switching mechanism of a printing machine, which can be moved and switched in different printing unit groups.

In order to solve the technical problems, the invention adopts the following technical scheme: functional unit station switching mechanism of printing machine, including vertical track, vertical removal frame, horizontal joint rail, lateral shifting frame and horizontal guide part, its characterized in that: the longitudinal rail is connected to the rear side of a printing unit of the printing machine; the longitudinal moving frame is arranged on the longitudinal rail; the transverse connecting rail is arranged on the longitudinal moving frame; the transverse guide component is connected and installed on the transverse moving frame and is connected with the transverse connecting rail in a matching mode.

The following optimization or supplementation can be performed on the technical scheme.

The functional component station switching mechanism of the printing machine also comprises an auxiliary supporting component; the auxiliary supporting part is connected between the front wall plate and the rear wall plate of the printing unit, and the transverse moving frame is matched with the auxiliary supporting part in a supporting mode during transverse moving.

The functional component station switching mechanism also comprises a connecting transverse rail, a transverse rail guide seat, a first connecting component, a second connecting component, a third connecting component and a fourth connecting component; the connecting transverse rail is arranged on the transverse rail guide seat; the transverse rail guide seat is arranged on the transverse moving frame; the first connecting part is arranged on the connecting transverse rail and is positioned at the front part of the connecting transverse rail; the second connecting part is arranged on a front wall plate of the printing unit and is matched with the first connecting part to be transversely assembled and butted; the third connecting part is arranged on the connecting transverse rail and is positioned at the rear part of the connecting transverse rail; the fourth adapting unit is installed on the back wallboard of printing unit, and the fourth adapting unit transversely assembles the butt joint with the cooperation of third adapting unit.

The first connecting part and the second connecting part respectively and correspondingly adopt a butt joint plate and a butt joint interface which are matched with each other, and the third connecting part and the fourth connecting part respectively and correspondingly adopt a butt joint pin and a butt joint hole which are matched with each other; or the first connecting part and the second connecting part respectively and correspondingly adopt a butt joint pin and a butt joint hole which are matched with each other, and the third connecting part and the fourth connecting part respectively and correspondingly adopt a butt joint plate and a butt joint interface which are matched with each other.

The transverse moving frame is connected with a transverse adjusting device; the transverse adjusting device comprises a nut, a screw rod and a screw rod rotating support seat; the screw nut is arranged on the transverse moving frame; the screw rod is matched and connected with the screw nut, and the screw rod is installed and connected on the screw rod rotating supporting seat; the screw rod rotation supporting seat is provided with a matching part for fixing, supporting and connecting.

The longitudinal moving frame is provided with a positioning device.

The transverse moving frame is also provided with a mounting frame; a vertical rotating shaft is arranged between the mounting frame and the transverse moving frame.

The device also comprises a transverse track and a transverse guide element; the transverse rails are arranged on the front wall plate and/or the rear wall plate of the printing unit; the transverse guide element is connected and installed on the transverse moving frame, and the transverse guide element is matched and butted with the transverse track; the transverse guide element and the transverse guide component are the same or different components.

The transverse guide component and the transverse connecting rail adopt a butt joint matching connection mode.

The functional component station switching mechanism of the printing machine has the advantages that the functional component station switching mechanism of the printing machine can be used for installing and setting corresponding functional components, and the installed functional components can be moved and switched in different printing units, so that the printing machine is convenient to use and more practical. The defect that functional components are directly installed in one printing unit and cannot meet different process requirements is overcome. Therefore, compared with the prior art, the invention has outstanding substantive features and remarkable progress.

Drawings

The following describes details and operational principles of embodiments and examples of the present invention with reference to the drawings.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged view of a in fig. 1.

Fig. 3 is a cross-sectional view of B-B in fig. 1.

Fig. 4 is a schematic structural view of the transverse moving frame in a retracted state in fig. 3.

Fig. 5 is a cross-sectional view of C-C in fig. 3.

Fig. 6 is a schematic perspective view of fig. 3.

Fig. 7 is a side view of fig. 6.

Fig. 8 is a schematic perspective view of the lateral moving frame in fig. 6 in a retracted state.

Fig. 9 is a schematic structural view of the transverse moving frame hidden in fig. 6.

In the figure: the vertical track of 1, 2 vertical removal frame, 3 horizontal joint rail, 4 horizontal guide part, 5 horizontal removal frame, 6 auxiliary stay parts, 7 hookup horizontal rails, 8 horizontal rail guide holder, 9 first connecting part, 10 second connecting part, 11 third connecting part, 12 fourth connecting part, 13 preceding wallboard, 14 back wallboard, 15 butt joint key seat, 16 screws, 17 lead screw, 18 lead screw rotation supporting seats, 19 cardboard, 20 curb plates, 21 positioning seat, 22 location mouth, 23 leading-in face, 24 mounting brackets, 25 vertical pivot, 26 sliders, 27 installation piece, 28 mounting panels, 29 baffle.

In the figure: d1 is the longitudinal forward direction, D2 is the longitudinal rearward direction, E1 is the transverse forward direction, and E2 is the transverse reverse direction.

Detailed Description

Referring to the drawings, the functional unit station switching mechanism of the printing machine of the embodiment includes a longitudinal rail 1, a longitudinal moving frame 2, a transverse rail 3, a transverse moving frame 5 and a transverse guiding unit 4. The longitudinal rail 1 is connected to the rear side of the printing unit of the printing machine, the longitudinal rail is located at the rear side of the rear wall board of the printing unit of the printing machine, the front wall board is located at the front side of the rear wall board, the rear side refers to the rightward direction in fig. 3, the front side refers to the leftward direction in fig. 3, and the longitudinal direction in the embodiment refers to the direction in which the printing units of the printing machine are arranged. The longitudinal moving frame 2 is arranged on the longitudinal rail 1, the longitudinal moving frame 2 can move back and forth on the longitudinal rail 1 along the longitudinal rail 1 to adjust the switching position, and the corresponding sliding blocks 26 can be arranged to be matched and connected. The transverse connecting rail 3 is arranged on the longitudinal moving frame 2, the transverse connecting rail 3 moves back and forth along with the longitudinal moving frame 2 to adjust the switching position, and the transverse direction and the longitudinal direction are in an orthogonal relation. The transverse guide component 4 is connected and installed on the transverse moving frame 5, the transverse guide component 4 and the transverse moving frame 5 synchronously move transversely, the transverse guide component 4 is connected with the transverse connecting rail 3 in a matched mode, and when the transverse guide component 4 is located on the transverse connecting rail 3, the transverse guide component 4 can transversely move back and forth along the transverse connecting rail 3. In the figure, the transverse connection rail 3 has a grooved rail, and the transverse guide member 4 is a guide wheel arranged on the grooved rail, but other ways such as a linear slide and a slide block 26 are also possible; the guide pulley is installed on curb plate 20, and the baffle 29 can also be added to the outside of curb plate 20, has bellied gib block on the baffle 29, and the side of transversely connecing rail 3 still has the guide way, and the gib block can link up the cooperation in the guide way when transversely withdrawing, and transversely withdraw and be the direction of moving right in figure 3, and structural stability is better.

In this embodiment, the transverse moving frame 5 is used for connecting and installing corresponding functional components (not shown in the figure, such as a stamping device, a code spraying device, a screen device, a die cutting device or a cutting device) of the printing machine. For example, when the functional component is a stamping device, the functional component is arranged on the transverse moving frame 5, and when the functional component (such as the stamping device) needs to be used in different printing units, the functional component can be switched by the functional component station switching mechanism of the printing machine. When the printing machine works, the longitudinal moving frame 2 is adjusted and moved along the longitudinal rail 1 to the rear side of a printing unit needing to use a functional component, and then the transverse moving frame 5 on the longitudinal moving frame 2 is moved forwards and transversely along the transverse connecting rail 3, namely the transverse advance refers to the direction running leftwards in the drawing 3, so that the transverse moving frame 5 is transversely moved to the upper part of the printing unit needing to be used, and the functional component arranged on the transverse moving frame 5 can be matched with printing for use; when switching, the transverse moving frame 5 firstly transversely retreats to make the transverse guide component 4 retreat and move along the transverse connecting rail 3, and after retreating, the transverse moving frame 2 can be adjusted and moved to a printing unit needing to use the functional component. The functional component station switching mechanism of the printing machine is convenient to use, can move and switch functional components after installation in different printing units, and is more practical.

According to the embodiment, the functional unit station switching mechanism of the printing machine further comprises an auxiliary support unit 6 (such as a support plate or a support rod) for supporting the transverse moving frame 5 during transverse moving, so that the transverse moving is more stable. The auxiliary supporting part 6 is connected between the front wall plate 13 and the rear wall plate 14 of the printing unit, and is in supporting fit with the auxiliary supporting part 6 when the transverse moving frame 5 transversely moves.

The functional component station switching mechanism of the printing machine further comprises a connecting transverse rail 7, a transverse rail guide seat 8, a first connecting component 9, a second connecting component 10, a third connecting component 11 and a fourth connecting component 12. The connecting transverse rail 7 is arranged on the transverse rail guide base 8, and the connecting transverse rail 7 and the transverse rail guide base 8 can move back and forth relatively in the transverse direction. The transverse rail guide seat 8 is arranged on the transverse moving frame 5, and the transverse rail guide seat 8 and the transverse moving frame 5 synchronously and transversely move. The first connecting component 9 is installed on the connecting cross rail 7, and the first connecting component 9 is positioned at the front part of the connecting cross rail 7, which is the left end part in fig. 3; the first connecting part 9 moves back and forth transversely with the connecting cross rail 7. The second connecting part 10 is arranged on a front wall plate 13 of the printing unit, and the second connecting part 10 is matched with the first connecting part 9 to be transversely assembled and butted; when the first connecting part 9 transversely advances along with the connecting transverse rail 7, the transverse advance is the direction moving leftwards in fig. 3, and the first connecting part 9 is matched and connected with the second connecting part 10 to realize transverse assembly and butt joint; as the coupling cross rail 7 is laterally retracted, the first connecting part 9 is laterally separated from the second connecting part 10. The third connecting part 11 is installed on the connecting transverse rail 7, and the third connecting part 11 is positioned at the rear part of the connecting transverse rail 7, which is the right end part in fig. 3; the third connecting part 11 moves back and forth transversely with the coupling cross rail 7. The fourth connecting part 12 is installed on a rear wall plate 14 of the printing unit, and the fourth connecting part 12 and the third connecting part 11 are matched and transversely assembled and butted; when the third connecting part 11 transversely advances along with the connecting transverse rail 7, the third connecting part 11 is matched and connected with the fourth connecting part 12 to realize transverse assembly and butt joint; as the coupling cross rail 7 is laterally retracted, the third connecting member 11 is laterally separated from the fourth connecting member 12. The connecting cross rail 7 can adopt a linear slide rail (such as a linear cylindrical slide rail).

According to the optimized structure, before the transverse guide component 4 transversely advances along with the transverse moving frame 5, a connecting transverse rail 7 for supporting can be arranged between the front wall plate 13 and the rear wall plate 14, and the connecting transverse rail 7 transversely extends forwards from the transverse moving frame 5 and is erected between the front wall plate 13 and the rear wall plate 14; when the transverse guide component 4 and the transverse moving frame 5 transversely advance, the transverse guide component 4 firstly moves on the transverse connecting rail 3, then the transverse guide component 4 is separated from the transverse connecting rail 3 in a derailing way, the transverse rail guide seat 8 on the transverse moving frame 5 is kept matched with the connecting transverse rail 7, and in addition, the connecting transverse rail 7 is extended and arranged on the front wall plate 13 and the rear wall plate 14, so that the transverse rail guide seat 8 and the transverse moving frame 5 can be supported by the front wall plate 13 and the rear wall plate 14 through the connecting transverse rail 7, and the supporting (the transverse rail guide seat 8 and the transverse moving frame 5) can continuously move transversely after the transverse guide component 4 is separated from the transverse connecting rail 3 in a derailing way. After the transverse guide part 4 and the transverse connection rail 3 are separated by derailing, the longitudinal moving frame 2 does not support the corresponding transverse moving frame 5, the longitudinal moving frame 2 can move to other printing units in a no-load mode, other transverse moving frames 5 can move to the no-load longitudinal moving frame 2, sequential replacement of different transverse moving frames 5 is achieved, replacement of longitudinal sequences of functional parts installed on the transverse moving frame 5 in the future is achieved, for example, the functional parts are arranged behind a hot stamping device, the functional parts are arranged in the code spraying device in the first place, sequential position replacement is achieved after replacement, and the printing machine is more practical. Moreover, the connecting transverse rails 7 and the transverse rail guide seats 8 can be arranged in one-to-one correspondence with the transverse moving frames 5, and one transverse moving frame 5 is correspondingly provided with a group of connecting transverse rails 7 and transverse rail guide seats 8.

Based on the embodiment, the first connecting part 9 and the second connecting part 10 are further optimized, wherein the first connecting part and the second connecting part respectively adopt a butt plate and a butt interface which are matched with each other, namely one of the first connecting part and the second connecting part adopts the butt plate and the other one adopts the butt interface; in addition, when the first connecting part 9 is a butt plate, the first connecting part 9 can be supported by the auxiliary supporting part 6 when the first connecting part 9 extends out along with the connecting cross rail 7; the third connecting part 11 and the fourth connecting part 12 respectively adopt a butt pin and a butt hole which are matched with each other, namely, one of the butt pins adopts the butt pin, and the other one adopts the butt hole. Or, the first connecting part 9 and the second connecting part 10 respectively adopt a butt pin and a butt hole which are matched with each other, namely, one of the butt pins adopts the butt pin, and the other one adopts the butt hole; the third connecting part 11 and the fourth connecting part 12 respectively adopt a butt plate and a butt interface which are matched with each other, namely, one of the butt plates adopts the butt interface, and the other adopts the butt interface. When the butt joint plate is arranged in the butt joint port, the assembly butt joint is realized, and after the butt joint plate is transversely separated, the assembly butt joint relation is released; when the butt joint pin is inserted into the butt joint hole, the assembling butt joint is realized, and after the butt joint pin is transversely separated, the assembling butt joint relation is released. The structure of optimizing equipment butt joint, it is convenient to connect, and the position is comparatively accurate, and the one end of hookup cross rail 7 can the accurate positioning, and the other end need not the accurate positioning, and is more practical, and the processing assembly is simpler. The positioning is more accurate when the butt joint hole and the butt joint pin are adopted. The second connecting part 10 is a butt joint, which is arranged on the mounting block 27 in the embodiment, and the mounting block 27 is arranged on the front wall plate 13; the third connecting part 11 is a butt pin which is mounted on the connecting rail through a butt pin seat 15, and the fourth connecting part 12 is a butt hole which is positioned on a mounting plate 28 and is arranged on the rear wall plate 14 through the mounting plate.

Further optimize on the basis of the embodiment, lateral shifting frame 5 is connected with lateral adjusting device, realizes the adjustment to lateral position of lateral shifting frame 5, lets its position more accurate. When the transverse moving frame 5 transversely advances to the proper position, the position can be further adjusted by the transverse adjusting device. The transverse adjusting device comprises a nut 16, a screw rod 17 and a screw rod rotation supporting seat 18. The nut 16 is mounted on the traverse frame 5, and a nut seat may be provided on the traverse frame 5 for mounting the nut 16 so that the nut 16 moves laterally in synchronization with the traverse frame 5. The screw rod 17 is matched and connected with the screw nut 16 so as to realize transmission of the screw rod 17 and the screw nut 16. The screw 17 is mounted and connected on the screw rotating support seat 18, the screw 17 is connected with the screw rotating support seat 18, the screw 17 and the screw rotating support seat 18 can rotate relatively, and when the screw rotating support seat 18 is fixedly supported, the screw 17 is supported by the screw rotating support seat 18 to rotate. The screw rod rotation support seat 18 has a matching portion for fixed support connection, and the screw rod rotation support seat 18 is fixedly supported through the matching portion connection, for example, the matching portion is connected with a part of the fixed support, and the part of the fixed support can be the front wall plate 13 or the rear wall plate 14 or a part connected on the front wall plate 13 or the rear wall plate 14; in the figure, the matching part of the supporting seat is connected and matched with the first connecting part 9 (as a part for fixed support), after the first connecting part 9 on the connecting transverse rail 7 is transversely assembled and butted with the second connecting part 10 on the front wall plate 13, the position of the first connecting part 9 is relatively fixed, the matching part of the supporting seat is connected with the first connecting part 9, the first connecting part 9 is used for fixedly supporting the supporting seat, a notch is formed in the first connecting part 9, the matching part of the supporting seat is provided with a clamping groove (two sides of the clamping groove are clamping plates 19), the supporting seat is rotated after the supporting seat is positioned in the notch, and the clamping plates on two sides of the clamping groove are clamped on two sides.

Further optimize on the basis of the embodiment, the longitudinal moving frame 2 is provided with the positioning device which is in place, so that the longitudinal moving frame 2 can be conveniently moved in place when longitudinally moved through the positioning device which is in place, and can be accurately stopped at the rear side of the corresponding printing unit, and the use is more convenient. The in-place positioning device comprises a lifting positioning bolt, a return spring (shown in the figure) and a positioning seat 21; the lifting positioning bolt is connected on the longitudinal moving frame 2, and the reset spring is arranged between the lifting positioning pin and the longitudinal moving frame 2. The lifting positioning bolt can be relatively lifted on the longitudinal moving frame 2, and the lifting positioning bolt is reset downwards by a reset spring. The positioning seat 21 is fixedly arranged, the positioning seat 21 is located below the lifting positioning pin, the positioning hole 22 and the guiding surface 23 are formed in the positioning seat 21, the positioning hole 22 is matched with the lifting positioning pin, the positioning effect is achieved after the lifting positioning pin is inserted into the positioning hole 22, the guiding surface 23 is located on two sides of the positioning hole 22, the guiding surface 23 is correspondingly matched with the lifting positioning pin, the lifting positioning pin moves along with the longitudinal moving frame 2, the lifting positioning pin rises along the guiding surface 23 until the lifting positioning pin moves to the positioning hole 22, the lifting positioning pin descends and is inserted into the positioning hole 22 under the action of the reset spring, positioning is achieved, the longitudinal moving frame 2 moves to the rear side of the corresponding printing unit, transverse movement of the transverse moving frame 5 can be achieved, and the positioning device can be configured in place more conveniently. In addition, the longitudinal moving frame 2 can be provided with a rotating rod with a shifting fork, the shifting fork is driven to move back and forth through rotation, and the shifting fork can be matched with a connecting block on the lifting positioning bolt, so that the lifting positioning bolt inserted into the positioning hole 22 can be moved upwards.

On the basis of the embodiment, the transverse moving frame 5 is further provided with a mounting frame 24, the functional components are arranged on the transverse moving frame 5 through the mounting frame 24, the functional components are arranged on the mounting frame 24, and the mounting frame 24 is arranged on the transverse moving frame 5; the mounting frame 24 may be mounted directly to the traverse frame 5 by means of a connecting member. Can further optimize, be equipped with vertical pivot 25 between mounting bracket 24 and lateral shifting frame 5, mounting bracket 24 then can rotate on lateral shifting frame 5, and spatial layout is more reasonable, can rotate and change length and width position, and convenient the removal is especially when the functional unit broad.

Besides the derailing separation mode, the other derailing mode can be adopted, and the functional part station switching mechanism of the printing machine also comprises a transverse rail and a transverse guide element; the transverse rails are arranged on the front wall plate 13 and/or the rear wall plate 14 of the printing unit; the transverse guide element is connected and installed on a transverse moving frame 5, the transverse moving frame 5 and the transverse guide element synchronously move transversely, and the transverse guide element is matched and butted with the transverse rail. When the transverse moving frame 5 moves to the rear side of the printing unit needing the functional components along with the longitudinal moving frame 2, the transverse moving frame 5 can transversely move; when the transverse moving frame 5 transversely advances and moves, the transverse guide element of the transverse moving frame 5 is butted on the transverse track, the transverse moving frame 5 is transferred to the transverse track from the transverse joint rail 3 of the longitudinal moving frame 2, the derailment separation is realized, and the longitudinal moving frame 2 can independently move; when the transverse moving frame 5 moves back, the transverse guide element of the transverse moving frame 5 retracts back transversely from the transverse rail, the transverse guide element is separated from the transverse rail in a derailing way, and the transverse moving frame 5 retracts back transversely to the transverse connecting rail 3 of the longitudinal moving frame 2. The transverse guide element and the transverse guide component 4 are the same or different, namely the transverse guide element and the transverse guide component 4; the same components can be matched with the transverse connecting rail 3 and the transverse track; different components are adopted to be respectively correspondingly matched with the transverse connecting rail 3 and the transverse rail.

According to the embodiment, the transverse guide component 4 and the transverse connecting rail 3 are connected in a butt fit mode so as to be matched with derailing. Through butt joint matching, when the longitudinal moving frame 2 moves, the transverse guide component 4 moves on the transverse connecting rail 3; when the transverse moving frame 5 transversely advances and is separated from the longitudinal moving frame 2, the transverse guide part 4 is separated from the transverse connecting rail 3; the transverse moving frame 5 retracts transversely, the transverse guide component 4 can be in butt joint with the transverse connection rail 3 again, and the transverse guide component 4 moves on the transverse connection rail 3.

Claims (9)

1. Functional unit station switching mechanism of printing machine, including vertical track (1), vertical removal frame (2), horizontal joint rail (3), horizontal removal frame (5) and horizontal guide part (4), its characterized in that:

the longitudinal rail (1) is connected to the rear side of a printing unit of the printing machine;

the longitudinal moving frame (2) is arranged on the longitudinal rail (1);

the transverse connecting rail (3) is arranged on the longitudinal moving frame (2);

the transverse guide component (4) is connected and installed on the transverse moving frame (5), and the transverse guide component (4) is matched and connected with the transverse connecting rail (3).

2. The functional unit station switching mechanism of a printing press as set forth in claim 1, wherein: also comprises an auxiliary supporting component (6);

the auxiliary supporting part (6) is connected between a front wall plate (13) and a rear wall plate (14) of the printing unit, and the transverse moving frame (4) is matched with the auxiliary supporting part (6) in a supporting mode during transverse moving.

3. The functional unit station switching mechanism of a printing press as set forth in claim 1, wherein: the device also comprises a connecting transverse rail (7), a transverse rail guide seat (8), a first connecting part (9), a second connecting part (10), a third connecting part (11) and a fourth connecting part (12);

the connecting transverse rail (7) is arranged on the transverse rail guide seat (8);

the transverse rail guide seat (8) is arranged on the transverse moving frame (5);

the first connecting part (9) is arranged on the connecting transverse rail (7), and the first connecting part (9) is positioned at the front part of the connecting transverse rail (7);

the second connecting part (10) is arranged on a front wall plate (13) of the printing unit, and the second connecting part (10) is matched with the first connecting part (9) to be transversely assembled and butted;

the third connecting part (11) is arranged on the connecting transverse rail (7), and the third connecting part (11) is positioned at the rear part of the connecting transverse rail (7);

the fourth connecting part (12) is installed on a rear wall plate (14) of the printing unit, and the fourth connecting part (12) and the third connecting part (11) are matched and transversely assembled and butted.

4. The functional unit station switching mechanism of a printing press as set forth in claim 3, wherein:

the first connecting part (9) and the second connecting part (10) respectively and correspondingly adopt a butt joint plate and a butt joint interface which are matched with each other, and the third connecting part (11) and the fourth connecting part (12) respectively and correspondingly adopt a butt joint pin and a butt joint hole which are matched with each other;

or the first connecting part and the second connecting part respectively and correspondingly adopt a butt joint pin and a butt joint hole which are matched with each other, and the third connecting part and the fourth connecting part respectively and correspondingly adopt a butt joint plate and a butt joint interface which are matched with each other.

5. The functional unit station switching mechanism of a printing press as set forth in claim 1, wherein: the transverse moving frame (5) is connected with a transverse adjusting device;

the transverse adjusting device comprises a nut (16), a screw rod (17) and a screw rod rotating support seat (18);

the screw nut (16) is arranged on the transverse moving frame (5);

the screw rod (17) is matched and connected with the screw nut (16), and the screw rod (17) is installed and connected on a screw rod rotating support seat (18);

the screw rotary support seat (18) is provided with a matching part for fixing and supporting connection.

6. The functional unit station switching mechanism of a printing press as set forth in claim 1, wherein: the longitudinal moving frame is provided with a positioning device.

7. The functional unit station switching mechanism of a printing press as set forth in claim 1, wherein: the transverse moving frame (5) is also provided with a mounting frame (24);

a vertical rotating shaft (25) is arranged between the mounting rack (24) and the transverse moving rack (5).

8. The functional unit station switching mechanism of a printing press as set forth in claim 1, wherein: the device also comprises a transverse track and a transverse guide element;

the transverse rails are arranged on the front wall plate and/or the rear wall plate of the printing unit;

the transverse guide element is connected and installed on the transverse moving frame, and the transverse guide element is matched and butted with the transverse track;

the transverse guide element and the transverse guide component (4) adopt the same or different components.

9. The functional unit station switching mechanism of a printing press as set forth in claim 1, wherein: the transverse guide component (4) and the transverse connecting rail (3) adopt a butt joint matching connection mode.

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