CN210553598U - Intelligent switch panel shell printing equipment - Google Patents

Abstract

The utility model discloses an intelligent switch surface shell printing device, which comprises a frame and a pad printing machine arranged on the frame, wherein the pad printing machine is provided with a printing area, and further comprises a vibration disc, a first track, a first transfer component, a transition transfer component, a second track, a second transfer component, a third track, a third transfer component, a fourth track, a fifth transfer component and a clamping component which are respectively arranged on the frame; the first track and the second track are arranged in parallel and are arranged in a staggered mode, the second track and the third track are arranged in parallel, the third track and the fourth track are arranged in an aligned mode, a gap is formed between the third track and the fourth track, and the gap is aligned with the printing area; the vibration dish is connected to first orbital one end, and the second track is kept away from the orbital one end of third and is equipped with the second and transfer the subassembly, and the third transfers the subassembly to be located the second track and is close to the orbital one end of third, and the fifth transfers the subassembly to be located in the clearance, and clamping component is close to the printing district and sets up. The printing efficiency of the surface shell is improved, and the production cost is reduced.

Description

Intelligent switch panel shell printing equipment

Technical Field

The utility model relates to a lithography apparatus technical field especially relates to intelligence switch face-piece lithography apparatus.

Background

The intelligent switch often needs to be printed with patterns or characters on the face shell so that the user can obtain corresponding information. The panel can be simply regarded as a plastic part.

In the prior art, a pad printing machine is usually adopted to print a face shell, when the operation is carried out, a worker needs to place the face shell at a pad printing position, the face shell is taken out by the worker after pad printing of the pad printing machine, and then the next face shell to be printed is placed by the worker. Such operation not only printing inefficiency, need staff's guard moreover all the time, extravagant manpower.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides an intelligent switch face-piece lithography apparatus that printing efficiency is high that can practice thrift the manpower.

In order to solve the technical problem, the utility model discloses a technical scheme be: the intelligent switch surface shell printing equipment comprises a rack and a pad printing machine arranged on the rack, wherein a printing area is arranged on the pad printing machine, and the intelligent switch surface shell printing equipment also comprises a vibrating disc, a first track, a first transfer component, a sensor component, a transition transfer component, a second track, a second transfer component, a third track, a third transfer component, a fourth track, a fifth transfer component and a clamping component which are respectively arranged on the rack; the first track and the second track are arranged in parallel and are arranged in a staggered mode, the second track and the third track are arranged in parallel, the third track and the fourth track are arranged in an aligned mode, a gap is formed between the third track and the fourth track, and the gap is aligned with the printing area; one end of the first track is connected with the vibrating disc, the other end of the first track is provided with the sensor assembly, the first transfer assembly and the transition transfer assembly are respectively arranged between the first track and the second track, and the first transfer assembly is positioned on one side, close to the first track, of the transition transfer assembly; the one end that third track was kept away from to the second track is equipped with the second passes on the subassembly, and the third passes on the subassembly to be located the second track is close to the orbital one end of third, and the orbital one end of fourth is kept away from to the third track is equipped with the fourth passes on the subassembly, and the fifth passes on the subassembly to be located in the clearance, press from both sides tight subassembly and be close to the setting of printing district.

Further, still including locating inhale the audio amplifier in the frame, the vibration dish is located inhale in the audio amplifier, inhale the audio amplifier and include the box and locate inhale the sound sponge on the box inner wall.

Furthermore, the first transfer assembly comprises a first baffle, a first linear driving piece and a first bearing block, the first linear driving piece is fixed on the rack, the output end of the first linear driving piece is connected with the first bearing block, a first accommodating groove is formed in the first bearing block, the first accommodating groove penetrates through two opposite side faces of the first bearing block, the first baffle is located on one side, away from the first bearing block, of the first track, the first baffle is fixed on the rack and corresponds to the first track, and a slide way aligned with the second track is further arranged on the first baffle.

Further, be equipped with down the mouth between first baffle and the second track, the transition is forwarded the subassembly and is included second sharp driving piece and transition piece, and second sharp driving piece is fixed in the frame, the output of second sharp driving piece is connected the transition piece orders about the transition piece business turn over the mouth falls, be equipped with the transition spout on the transition piece.

Furthermore, the second transfer assembly comprises a third linear driving piece and a first push rod, the third linear driving piece is fixed on the rack, the output end of the third linear driving piece is connected with the first push rod, and the first push rod is arranged along the length direction of the second track.

Furthermore, the third transfer assembly comprises a second baffle, a fourth linear driving piece and a second bearing block, the fourth linear driving piece is fixed on the frame, the output end of the fourth linear driving piece is connected with the second bearing block, a second accommodating groove is formed in the second bearing block, the second accommodating groove penetrates through two opposite side faces of the second bearing block, the second baffle is located on one side, far away from the second track, of the second bearing block, and the second baffle is fixed on the frame and corresponds to the second track.

Furthermore, the fourth transfer assembly comprises a fifth linear driving piece and a second push rod, the fifth linear driving piece is fixed on the rack, the output end of the fifth linear driving piece is connected with the second push rod, and the second push rod is arranged along the length direction of the third track.

Furthermore, the fifth transfer assembly comprises a sixth linear driving piece and a third bearing block, the sixth linear driving piece is fixed on the rack, the output end of the sixth linear driving piece is connected with the third bearing block and drives the third bearing block to enter and exit the printing area, a third accommodating groove is formed in the third bearing block, and the third accommodating groove penetrates through two opposite side faces of the third bearing block.

Further, still include the pressing means, the pressing means includes seventh linear driving piece, vertical driving piece and pressure head, and seventh linear driving piece connects frame and vertical driving piece and orders about vertical driving piece business turn over the printing district, the output of vertical driving piece is connected the pressure head, the pressure head is located the top of third carrier block.

Furthermore, the clamping assembly comprises an eighth linear driving piece, a pushing block and a third baffle, the eighth linear driving piece and the third baffle are fixed to the rack respectively, the output end of the eighth linear driving piece is connected with the pushing block, the pushing block and the third baffle are arranged oppositely, and the printing area is located between the third baffle and the pushing block.

The beneficial effects of the utility model reside in that: the intelligent switch panel shell printing equipment of the utility model does not need manual operation, realizes highly automatic printing, and greatly improves the printing efficiency of the panel shell; the staff is not needed to watch, the manpower loss is reduced, and the production cost is effectively reduced.

Drawings

Fig. 1 is a schematic structural diagram of an overall structure of an intelligent switch panel printing apparatus according to a first embodiment of the present invention;

fig. 2 is a top view of an intelligent switch panel printing apparatus according to a first embodiment of the present invention;

fig. 3 is an enlarged view of detail a in fig. 1.

Description of reference numerals:

1. a frame; 2. a pad printing machine; 3. a vibrating pan; 4. a first track; 5. a first linear drive;

6. a first baffle plate; 7. a first bearing block; 8. a second linear drive; 9. a transition block; 10. a second track; 11. a third linear drive member; 12. a first push rod; 13. a third track; 14. a fourth linear drive; 15. a second baffle; 16. a second bearing block; 17. a fifth linear drive member; 18. a second push rod; 19. a fourth track; 20. a sixth linear drive; 21. a third bearing block; 22. a seventh linear drive; 23. a vertical drive; 24. a pressure head; 25. and a third baffle.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 3, the intelligent switch panel printing apparatus includes a frame 1 and a pad printing machine 2 disposed on the frame 1, wherein the pad printing machine 2 is provided with a printing area, and further includes a vibration tray 3, a first track 4, a first transfer assembly, a sensor assembly, a transition transfer assembly, a second track 10, a second transfer assembly, a third track 13, a third transfer assembly, a fourth track 19, a fifth transfer assembly, and a clamping assembly, which are respectively disposed on the frame 1; the first track 4 and the second track 10 are arranged in parallel and in a staggered mode, the second track 10 and the third track 13 are arranged in parallel, the third track 13 and the fourth track 19 are arranged in an aligned mode, a gap is formed between the third track 13 and the fourth track 19, and the gap is aligned with the printing area; one end of the first track 4 is connected with the vibrating disc 3, the other end of the first track 4 is provided with the sensor assembly, the first transfer assembly and the transition transfer assembly are respectively arranged between the first track 4 and the second track 10, and the first transfer assembly is positioned on one side of the transition transfer assembly, which is close to the first track 4; the one end that third track 13 was kept away from to second track 10 is equipped with the second passes on the subassembly, and the third passes on the subassembly to be located second track 10 is close to the one end of third track 13, and the one end that fourth track 19 was kept away from to third track 13 is equipped with the fourth passes on the subassembly, and the fifth passes on the subassembly to be located in the clearance, the clamp assembly is close to the printing district sets up.

From the above description, the beneficial effects of the present invention are: manual operation is not needed, highly automatic printing is realized, and the printing efficiency of the shell is greatly improved; the staff is not needed to watch, the manpower loss is reduced, and the production cost is effectively reduced.

Further, still including locating inhale the audio amplifier in the frame 1, vibration dish 3 is located inhale in the audio amplifier, inhale the audio amplifier and include the box and locate inhale the sound sponge on the box inner wall.

As can be seen from the above description, the arrangement of the sound absorption box greatly relieves the noise generated by the vibration disc 3, the situation that the production efficiency is reduced due to the negative influence of the noise on the emotion of staff can be avoided, and the efficient operation of a production line is guaranteed.

Further, the first transfer assembly comprises a first baffle 6, a first linear driving member 5 and a first bearing block 7, the first linear driving member 5 is fixed on the frame 1, the output end of the first linear driving member 5 is connected with the first bearing block 7, a first accommodating groove is formed in the first bearing block 7, the first accommodating groove penetrates through two opposite side faces of the first bearing block 7, the first baffle 6 is located on one side, away from the first rail 4, of the first bearing block 7, the first baffle 6 is fixed on the frame 1 and corresponds to the first rail 4, and a slide way aligned with the second rail 10 is further arranged on the first baffle 6.

Furthermore, a falling opening is formed between the first baffle 6 and the second track 10, the transition transfer assembly comprises a second linear driving piece 8 and a transition block 9, the second linear driving piece 8 is fixed on the frame 1, the output end of the second linear driving piece 8 is connected with the transition block 9 and drives the transition block 9 to enter and exit the falling opening, and a transition sliding groove is formed in the transition block 9.

Further, the second transfer assembly comprises a third linear driving element 11 and a first push rod 12, the third linear driving element 11 is fixed on the frame 1, an output end of the third linear driving element 11 is connected with the first push rod 12, and the first push rod 12 is arranged along the length direction of the second track 10.

Further, the third transfer assembly includes a second baffle 15, a fourth linear driving element 14 and a second bearing block 16, the fourth linear driving element 14 is fixed on the frame 1, an output end of the fourth linear driving element 14 is connected to the second bearing block 16, a second accommodating groove is formed in the second bearing block 16, the second accommodating groove penetrates through two opposite side surfaces of the second bearing block 16, the second baffle 15 is located on one side of the second bearing block 16 away from the second rail 10, and the second baffle 15 is fixed on the frame 1 and arranged corresponding to the second rail 10.

Further, the fourth transfer assembly includes a fifth linear driving element 17 and a second push rod 18, the fifth linear driving element 17 is fixed on the frame 1, an output end of the fifth linear driving element 17 is connected to the second push rod 18, and the second push rod 18 is disposed along the length direction of the third rail 13.

Furthermore, the fifth transfer assembly includes a sixth linear driving element 20 and a third bearing block 21, the sixth linear driving element 20 is fixed on the frame 1, an output end of the sixth linear driving element 20 is connected to the third bearing block 21 and drives the third bearing block 21 to enter and exit the printing area, a third accommodating groove is formed in the third bearing block 21, and the third accommodating groove penetrates through two opposite side surfaces of the third bearing block 21.

Further, the device comprises a pressing assembly, wherein the pressing assembly comprises a seventh linear driving element 22, a vertical driving element 23 and a pressing head 24, the seventh linear driving element 22 is connected with the rack 1 and the vertical driving element 23 and drives the vertical driving element 23 to enter and exit the printing area, the output end of the vertical driving element 23 is connected with the pressing head 24, and the pressing head 24 is located above the third bearing block 21.

According to the above description, the pressing component is used for pressing the face shell positioned in the third accommodating groove, so that the face shell is accurately positioned in the printing area, and the printing precision is improved.

Furthermore, clamping component includes eighth straight line driving piece, ejector pad and third baffle 25, eighth straight line driving piece and third baffle 25 are fixed respectively in frame 1, the output of eighth straight line driving piece is connected the ejector pad, the ejector pad with third baffle 25 sets up relatively, the printing district is located third baffle 25 with between the ejector pad.

As can be seen from the above description, the clamping assembly has the advantages of simple structure, stable operation and contribution to cost control.

Example one

Referring to fig. 1 to fig. 3, a first embodiment of the present invention is: the intelligent switch surface shell printing equipment comprises a rack 1 and a pad printing machine 2 arranged on the rack 1, wherein a printing area is arranged on the pad printing machine 2, and the intelligent switch surface shell printing equipment further comprises a vibration disc 3, a first track 4, a first transfer component, a sensor component (not shown), a transition transfer component, a second track 10, a second transfer component, a third track 13, a third transfer component, a fourth track 19, a fifth transfer component and a clamping component which are respectively arranged on the rack 1; the first track 4 and the second track 10 are arranged in parallel and in a staggered mode, the second track 10 and the third track 13 are arranged in parallel, the third track 13 and the fourth track 19 are arranged in an aligned mode, a gap is formed between the third track 13 and the fourth track 19, and the gap is aligned with the printing area; one end of the first track 4 is connected with the vibrating disc 3, the other end of the first track 4 is provided with the sensor assembly, the first transfer assembly and the transition transfer assembly are respectively arranged between the first track 4 and the second track 10, and the first transfer assembly is positioned on one side of the transition transfer assembly, which is close to the first track 4; the one end that third track 13 was kept away from to second track 10 is equipped with the second passes on the subassembly, and the third passes on the subassembly to be located second track 10 is close to the one end of third track 13, and the one end that fourth track 19 was kept away from to third track 13 is equipped with the fourth passes on the subassembly, and the fifth passes on the subassembly to be located in the clearance, the clamp assembly is close to the printing district sets up.

In this embodiment, the first transfer assembly includes a first baffle 6, a first linear driving member 5 and a first bearing block 7, the first linear driving member 5 is fixed on the frame 1, an output end of the first linear driving member 5 is connected to the first bearing block 7, a first accommodating groove is provided on the first bearing block 7, the first accommodating groove penetrates through two opposite side surfaces of the first bearing block 7, the first baffle 6 is located on one side of the first bearing block 7 away from the first rail 4, the first baffle 6 is fixed on the frame 1 and is disposed corresponding to the first rail 4, and a slide aligned with the second rail 10 is further provided on the first baffle 6. The first containing groove is used for containing the face shell.

A falling opening is formed between the first baffle 6 and the second track 10, the transition transfer assembly comprises a second linear driving piece 8 and a transition block 9, the second linear driving piece 8 is fixed on the frame 1, the output end of the second linear driving piece 8 is connected with the transition block 9 and drives the transition block 9 to enter and exit the falling opening, and a transition sliding groove is formed in the transition block 9.

The second transfer assembly comprises a third linear driving part 11 and a first push rod 12, the third linear driving part 11 is fixed on the rack 1, the output end of the third linear driving part 11 is connected with the first push rod 12, and the first push rod 12 is arranged along the length direction of the second track 10.

The third transfer assembly comprises a second baffle 15, a fourth linear driving piece 14 and a second bearing block 16, the fourth linear driving piece 14 is fixed on the rack 1, the output end of the fourth linear driving piece 14 is connected with the second bearing block 16, a second accommodating groove is formed in the second bearing block 16 and penetrates through two opposite side faces of the second bearing block 16, the second baffle 15 is located on one side, far away from the second rail 10, of the second bearing block 16, and the second baffle 15 is fixed on the rack 1 and arranged corresponding to the second rail 10. The second containing groove is used for containing the face shell.

The fourth transfer assembly comprises a fifth linear driving part 17 and a second push rod 18, the fifth linear driving part 17 is fixed on the rack 1, the output end of the fifth linear driving part 17 is connected with the second push rod 18, and the second push rod 18 is arranged along the length direction of the third rail 13.

The fifth transfer assembly comprises a sixth linear driving piece 20 and a third bearing block 21, the sixth linear driving piece 20 is fixed on the rack 1, the output end of the sixth linear driving piece 20 is connected with the third bearing block 21 and drives the third bearing block 21 to enter and exit the printing area, a third containing groove is formed in the third bearing block 21, and the third containing groove penetrates through two opposite side faces of the third bearing block 21. The third containing groove is used for containing the face shell.

In order to improve the printing precision, the printing equipment further comprises a pressing assembly, the pressing assembly comprises a seventh linear driving piece 22, a vertical driving piece 23 and a pressing head 24, the seventh linear driving piece 22 is connected with the rack 1 and the vertical driving piece 23 and drives the vertical driving piece 23 to enter and exit the printing area, the output end of the vertical driving piece 23 is connected with the pressing head 24, and the pressing head 24 is located above the third bearing block 21.

The clamping assembly comprises an eighth linear driving piece, a pushing block and a third baffle 25, the eighth linear driving piece and the third baffle 25 are fixed on the rack 1 respectively, the output end of the eighth linear driving piece is connected with the pushing block, the pushing block and the third baffle 25 are arranged oppositely, and the printing area is located between the third baffle 25 and the pushing block.

The vertical driving part 23 and the first, second, third, fourth, fifth, sixth, seventh and eighth linear driving parts can respectively select an air cylinder, a hydraulic cylinder, a linear push rod, a driving motor and the like.

Optionally, the blowing machine further comprises a blowing pipe (not shown) arranged on the machine frame 1, an air outlet end of the blowing pipe is located above the first rail 4, an air outlet direction of the blowing pipe and a feeding direction of the first rail 4 are arranged at an acute angle, and the blowing pipe is used for blowing the face shell to slide on the first rail 4. The blowing mode of the blowing pipe is intermittent blowing. Similarly, the blow pipe may be disposed on the second rail 10.

Further, still including locating inhale the audio amplifier (not shown) on the frame 1, vibration dish 3 is located in inhaling the audio amplifier, inhale the audio amplifier and include the box and locate inhale the sound sponge on the box inner wall.

The working process of the intelligent switch panel shell printing equipment of the embodiment is briefly described as follows: the face shell coming out of the vibrating disk 3 enters the first accommodating groove through the first rail 4 (the first baffle 6 can prevent the face shell from accidentally falling from the first accommodating groove), and in the process, the sensor assembly can detect the direction of the face shell; the first linear driving piece 5 works to enable the first accommodating groove to be aligned with the slide way, when the direction of the shell is wrong, the second linear driving piece 8 works to enable the transition block 9 to leave the falling opening, the first push rod 12 pushes the shell to enable the shell to fall from the falling opening through the first accommodating groove and the slide way, and when the direction of the shell is correct, the first push rod 12 pushes the shell to enable the shell to sequentially enter the second accommodating groove through the first accommodating groove, the slide way, the transition slide way and the second track 10 (the second baffle plate 15 can prevent the shell from accidentally falling from the second accommodating groove); then, the fourth linear driving member 14 works to make the second receiving groove align with the third rail 13, the fifth linear driving member 17 drives the second pushing rod 18 to push the surface shell in the second receiving groove onto the third rail 13 and enter the third receiving groove along the third rail 13 (in this process, the surface shell printed in the third receiving groove is pressed against the fourth rail 19 by the surface shell pushed by the second pushing rod 18), then, the sixth linear driving member 20 drives the shell in the third accommodating groove to move to the printing area, then, the seventh linear driving member 22 and the vertical driving member 23 work to make the pressing head 24 press the shell in the printing area at least once, the seventh linear driving member 22 resets after the pressing is completed, and finally, the eighth linear driving member pushes the pushing block to abut against the surface shell in the third accommodating groove, so that the surface shell in the third accommodating groove is clamped by the pushing block and the third baffle 25 to print by the pad printer 2.

In summary, the intelligent switch panel shell printing equipment provided by the utility model does not need manual operation, realizes highly automatic printing, and greatly improves the printing efficiency of the panel shell; the staff is not needed to watch, the manpower loss is reduced, and the production cost is effectively reduced.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. Intelligence switch face-piece lithography apparatus includes the frame and locates the bat printing machine in the frame, be equipped with printing district, its characterized in that on the bat printing machine: the vibration plate, the first track, the first transfer assembly, the sensor assembly, the transition transfer assembly, the second track, the second transfer assembly, the third track, the third transfer assembly, the fourth track, the fifth transfer assembly and the clamping assembly are respectively arranged on the rack; the first track and the second track are arranged in parallel and are arranged in a staggered mode, the second track and the third track are arranged in parallel, the third track and the fourth track are arranged in an aligned mode, a gap is formed between the third track and the fourth track, and the gap is aligned with the printing area; one end of the first track is connected with the vibrating disc, the other end of the first track is provided with the sensor assembly, the first transfer assembly and the transition transfer assembly are respectively arranged between the first track and the second track, and the first transfer assembly is positioned on one side, close to the first track, of the transition transfer assembly; the one end that third track was kept away from to the second track is equipped with the second passes on the subassembly, and the third passes on the subassembly to be located the second track is close to the orbital one end of third, and the orbital one end of fourth is kept away from to the third track is equipped with the fourth passes on the subassembly, and the fifth passes on the subassembly to be located in the clearance, press from both sides tight subassembly and be close to the setting of printing district.

2. The intelligent switch panel printing apparatus of claim 1, wherein: still including locating inhale the audio amplifier in the frame, the vibration dish is located inhale in the audio amplifier, inhale the audio amplifier and include the box and locate inhale the sound sponge on the box inner wall.

3. The intelligent switch panel printing apparatus of claim 1, wherein: the first transfer assembly comprises a first baffle, a first linear driving piece and a first bearing block, the first linear driving piece is fixed to the rack, the output end of the first linear driving piece is connected with the first bearing block, a first accommodating groove is formed in the first bearing block, the first accommodating groove penetrates through two opposite side faces of the first bearing block, the first baffle is located on one side, far away from the first bearing block, of the first rail, the first baffle is fixed to the rack and corresponds to the first rail, and a slide rail aligned with the second rail is further arranged on the first baffle.

4. An intelligent switch panel printing apparatus as claimed in claim 3, wherein: be equipped with down the mouth between first baffle and the second track, the transition is forwarded the subassembly and is included second sharp driving piece and transition piece, and second sharp driving piece is fixed in the frame, the output of second sharp driving piece is connected the transition piece orders about the transition piece business turn over the mouth falls, be equipped with the transition spout on the transition piece.

5. The intelligent switch panel printing apparatus of claim 1, wherein: the second transfer assembly comprises a third linear driving piece and a first push rod, the third linear driving piece is fixed on the rack, the output end of the third linear driving piece is connected with the first push rod, and the first push rod is arranged along the length direction of the second track.

6. The intelligent switch panel printing apparatus of claim 1, wherein: the third transfer assembly comprises a second baffle, a fourth linear driving piece and a second bearing block, the fourth linear driving piece is fixed to the frame, the output end of the fourth linear driving piece is connected with the second bearing block, a second containing groove is formed in the second bearing block and penetrates through two opposite side faces of the second bearing block, the second baffle is located on one side, far away from the second bearing block, of the second track, and the second baffle is fixed to the frame and corresponds to the second track.

7. The intelligent switch panel printing apparatus of claim 1, wherein: the fourth transfer assembly comprises a fifth linear driving piece and a second push rod, the fifth linear driving piece is fixed on the rack, the output end of the fifth linear driving piece is connected with the second push rod, and the second push rod is arranged along the length direction of the third track.

8. The intelligent switch panel printing apparatus of claim 1, wherein: the fifth transfer assembly comprises a sixth linear driving piece and a third bearing block, the sixth linear driving piece is fixed on the rack, the output end of the sixth linear driving piece is connected with the third bearing block and drives the third bearing block to enter and exit the printing area, a third containing groove is formed in the third bearing block, and the third containing groove penetrates through two opposite side faces of the third bearing block.

9. The intelligent switch panel printing apparatus of claim 8, wherein: still include the pressing means, the pressing means includes seventh straight line driving piece, vertical driving piece and pressure head, and seventh straight line driving piece connects frame and vertical driving piece and orders about vertical driving piece business turn over the printing district, the output of vertical driving piece is connected the pressure head, the pressure head is located the top of third carrier block.

10. The intelligent switch panel printing apparatus of claim 1, wherein: the clamping assembly comprises an eighth linear driving piece, a pushing block and a third baffle, the eighth linear driving piece and the third baffle are fixed on the rack respectively, the output end of the eighth linear driving piece is connected with the pushing block, the pushing block and the third baffle are arranged oppositely, and the printing area is located between the third baffle and the pushing block.

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