CN211075152U - Double-station digital printing machine - Google Patents

Abstract

The utility model belongs to the technical field of digital printing machine, a duplex position digital printing machine is related to, go up unloading mechanism, printing air brushing head and shower nozzle moving mechanism including platform base, duplex position, go up unloading mechanism in the duplex position with shower nozzle moving mechanism installs on the platform base, printing air brushing head installs on the shower nozzle moving mechanism, unloading mechanism includes unloading mechanism and the unloading mechanism on the right station in the same left station of structure in the duplex position, all includes that this print platform of print platform and drive is in the platform moving mechanism of back-and-forth movement on the platform base is in simultaneously under shower nozzle moving mechanism's the drive, printing air brushing head can move in proper order to go up unloading mechanism in the left side station with the top of unloading mechanism on the right station. The utility model discloses in the duplex position digital printing machine, unloading mechanism in the left side station and the unloading mechanism alternate operation in the right side station, the material loading of raw materials can go on simultaneously with printing, has improved work efficiency widely.

Description

Double-station digital printing machine

Technical Field

The utility model belongs to the technical field of digital printing machine, especially, relate to a duplex position digital printing machine.

Background

The digital printing machine is also known as a universal flat-bed printer. The universal flat printer of the arc printer can print any material and irregular soft and hard objects, such as: metal, pottery, quartzy, glass, acryl, stone, PVC, plastics, toy, USB flash disk, cloth, wooden, silica gel, leather etc. digital printer can reduce cost, reduces the manual work, and the benefit is improved because digital printer need not out the film plate-making, full-color once imaging, and the location is accurate, and the rejection rate is zero. However, digital printing machines on the market are single-station and only have one printing table, so when printing a plurality of products, the products can only be printed one by one in sequence, that is, after one product is fed, printed and discharged, another product is fed, printed and discharged, and the work efficiency is greatly reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a duplex position digital printing machine, the digital printing machine who aims at solving among the prior art is the simplex position, only a print table, when printing a plurality of products, the product can only be printed one by one according to the order, and a product material loading promptly, print and the unloading is accomplished the back, and another product material loading, printing and unloading are followed again, have greatly reduced work efficiency's technical problem.

In order to achieve the above object, an embodiment of the present invention provides a double-station digital printing machine, which includes a platform base, a double-station feeding and discharging mechanism, a printing inkjet printer head and a nozzle moving mechanism, wherein the double-station feeding and discharging mechanism is longitudinally installed on the platform base, the nozzle moving mechanism is transversely erected on the platform base, the nozzle moving mechanism is located above the double-station feeding and discharging mechanism, and the printing inkjet printer head is installed on the nozzle moving mechanism; the double-station feeding and discharging mechanism comprises a left station feeding and discharging mechanism and a right station feeding and discharging mechanism which are sequentially arranged below the spray head moving mechanism, the left station feeding and discharging mechanism and the right station feeding and discharging mechanism are identical in structure and respectively comprise a printing platform and a platform moving mechanism which drives the printing platform to move back and forth on a platform base, and under the driving of the spray head moving mechanism, the printing and painting machine head can be sequentially moved to the positions above the left station feeding and discharging mechanism and the right station feeding and discharging mechanism.

Optionally, the platform moving mechanism includes a platform support seat, a platform moving assembly and a platform driving assembly, the platform moving assembly and the platform driving assembly are mounted on the platform base, the platform support seat is fixed at the bottom of the printing platform, and the platform support seat is slidably disposed on the platform moving assembly, and the platform driving assembly is connected to the platform support seat to drive the platform support seat to move back and forth on the platform moving assembly.

Optionally, the platform moving assembly includes platform moving sliding blocks and platform moving guide rails, two of the platform moving guide rails are installed on the platform base at intervals, the platform moving sliding blocks are slidably disposed on the platform moving guide rails, and the platform moving sliding blocks are fixed to the bottom of the platform supporting seat.

Optionally, the platform drive assembly includes platform driving motor, first pulley group, platform driving lead screw, platform driving nut and first bearing frame, first pulley group with first bearing frame is installed on the platform base, platform driving motor fixes one side of first pulley group to this platform driving motor's output shaft with first pulley group connects, the one end of platform driving lead screw with first pulley group connects, and the other end rotationally sets up on the first bearing frame, platform driving nut cover is established on the platform driving lead screw, and platform driving nut fixes the bottom of platform supporting seat.

Optionally, the nozzle moving mechanism includes a nozzle driving motor, a second pulley set, a nozzle moving guide rail and a nozzle driving pulley set, the nozzle moving guide rail is transversely erected on the platform base, the nozzle driving pulley sets are respectively installed at two ends of the nozzle moving guide rail, the printing inkjet printer head is installed on the nozzle driving pulley set, the second pulley set is installed at one end of the nozzle moving guide rail, and the second pulley set is respectively connected with the nozzle driving motor and the nozzle driving pulley set.

Optionally, the nozzle driving pulley set comprises a first nozzle driving roller, a second nozzle driving roller and a nozzle driving belt, the first nozzle driving roller and the second nozzle driving roller are respectively installed at two ends of the nozzle moving guide rail, the nozzle driving belt is sleeved on the first nozzle driving roller and the second nozzle driving roller, the printing and painting head is installed on the nozzle driving belt, and the first nozzle driving roller is fixed on the second pulley set and synchronously rotates with the second pulley set.

Optionally, duplex position digital printing machine still includes the shower nozzle moving mechanism that moisturizes, the shower nozzle moving mechanism that moisturizes sets up one side of platform base is used for moisturizing the printing inkjet printer head that is located the initial position.

Optionally, shower nozzle movement mechanism that moisturizes includes moisturizing liquid box body, box body support piece, mounting base and lift drive assembly, the mounting base is installed on the platform base, box body support piece's bottom resets through a plurality of elasticity and connects and is in on the mounting base, box body support piece's top fixed connection the moisturizing liquid box body, the lift drive assembly is installed on the mounting base and with elasticity resets and cooperatees with the drive box body support piece with the moisturizing liquid box body is relative the mounting base reciprocates.

Optionally, the lifting driving assembly comprises a moisturizing driving motor, a third belt pulley set and a cam rod, the moisturizing driving motor and the cam rod are installed on the installation base, a cam on the cam rod abuts against the box body supporting piece, and the third belt pulley set is connected with the moisturizing driving motor and the cam rod respectively.

The embodiment of the utility model provides an above-mentioned one or more technical scheme in the duplex position digital printing machine have one of following technological effect at least: in the double-station digital printing machine, the left station feeding and discharging mechanism and the right station feeding and discharging mechanism alternately operate, and when raw materials on the left station feeding and discharging mechanism are printed, the right station feeding and discharging mechanism can be fed; similarly, when the raw materials on the feeding and discharging mechanism on the right station are printed, the feeding and discharging mechanism on the left station can be fed. Therefore, the utility model discloses among the duplex position digital printing machine, the material loading of raw materials can go on simultaneously with printing, has improved work efficiency widely.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural view of a double-station digital printing machine provided by the embodiment of the present invention.

Fig. 2 is a schematic structural view of the feeding and discharging mechanism on the left station and the feeding and discharging mechanism on the right station provided by the embodiment of the utility model.

Fig. 3 is a schematic structural diagram of a nozzle moving mechanism according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of the nozzle moisturizing moving mechanism provided by the embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

1-platform base 2-double-station loading and unloading mechanism 21-left-station loading and unloading mechanism

22-right station loading and unloading mechanism 23-printing platform 24-platform moving mechanism

241-platform support base 242-platform moving assembly 2421-platform moving slide block

2422 platform moving guide 243 platform driving assembly 2431 platform driving motor

2432 first pulley block 2433 platform driving screw 2434 platform driving nut

2435 first bearing seat 3, printer head 4, and nozzle moving mechanism

41-nozzle driving motor 42-second belt pulley group 43-nozzle moving guide rail

44-nozzle driving pulley set 441-first nozzle driving roller 442-second nozzle driving roller

443-nozzle driving belt 5-nozzle moisturizing moving mechanism 51-moisturizing liquid box body

52-box body support 53-mounting base 54-lifting driving assembly

541-moisture-preserving driving motor 542-third pulley group 543-cam rod

5431-cam 55-elastic reset piece

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary and intended to explain the embodiments of the present invention and are not to be construed as limiting the present invention.

In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

In an embodiment of the present invention, as shown in fig. 1 to 3, a double-station digital printing machine includes a platform base 1, a double-station loading and unloading mechanism 2, a printing inkjet printer head 3 and a nozzle moving mechanism 4, wherein the double-station loading and unloading mechanism 2 is vertically installed on the platform base 1, the nozzle moving mechanism 4 is transversely erected on the platform base 1, the nozzle moving mechanism 4 is located above the double-station loading and unloading mechanism 2, and the printing inkjet printer head 3 is installed on the nozzle moving mechanism 4; the double-station feeding and discharging mechanism 2 comprises a left station feeding and discharging mechanism 21 and a right station feeding and discharging mechanism 22 which are sequentially arranged below the spray head moving mechanism 4, the left station feeding and discharging mechanism 21 and the right station feeding and discharging mechanism 22 are identical in structure and respectively comprise a printing platform 23 and a platform moving mechanism 24 which drives the printing platform 23 to move back and forth on the platform base 1, and meanwhile, under the driving of the spray head moving mechanism 4, the printing inkjet head 3 can be sequentially moved to the positions above the left station feeding and discharging mechanism 21 and the right station feeding and discharging mechanism 22.

Specifically, the working principle of the double-station digital printing machine is as follows: at first, the left station loading and unloading mechanism 21 and the right station loading and unloading mechanism 22 are both located at initial positions, and an operator places raw materials to be printed on the printing platform 23 on the left station loading and unloading mechanism 21 and the printing platform 23 on the right station loading and unloading mechanism 22 respectively. Then, the double-station digital printing machine operates, the platform moving mechanism 24 on the left station loading and unloading mechanism 21 drives the printing platform 23 on the left station loading and unloading mechanism 21 and the raw material to be printed to be conveyed forwards to the printing station, at this time, the nozzle moving mechanism 4 drives the printing inkjet printer head 3 to move to the position of the printing platform 23 on the left station loading and unloading mechanism 21, and the raw material to be printed is printed. Then, after the printing of the raw material on the printing platform 23 on the left station loading and unloading mechanism 21 is completed, the platform moving mechanism 24 on the left station loading and unloading mechanism 21 drives the printing platform 23 on the left station loading and unloading mechanism 21 and the printed raw material to be conveyed backwards and reset.

On the unloading mechanism 21 of left side station when print platform 23 resets, on the unloading mechanism 22 of right side station platform moving mechanism 24 drive on the unloading mechanism 22 of right side station print platform 23 and treat that the raw materials of stamp are carried forward to the print station, at this moment, shower nozzle moving mechanism 4 drive print inkjet printer head 3 removes extremely on the unloading mechanism 22 of right side station print platform 23 position is treated the raw materials of stamp and is printed.

Nozzle moving mechanism 4 drive printing inkjet printer head 3 moves extremely on the unloading mechanism 22 of right side station print platform 23 position when treating the raw materials of stamp and printing, operating personnel treat that the raw materials of stamp are put on the unloading mechanism 21 of left side station print platform 23 waits on the unloading mechanism 22 of right side station platform moving mechanism 24 drive on the unloading mechanism 22 of right side station print platform 23 and the raw materials that the stamp was accomplished carry backward and reset.

Therefore, in the double-station digital printing machine, the left station loading and unloading mechanism 21 and the right station loading and unloading mechanism 22 alternately operate, and the right station loading and unloading mechanism 22 can be loaded by raw materials on the left station loading and unloading mechanism 21 when the raw materials are printed; similarly, when printing, the raw material on the right station loading and unloading mechanism 22 can be loaded onto the left station loading and unloading mechanism 21. Therefore, the utility model discloses among the duplex position digital printing machine, the material loading of raw materials can go on simultaneously with printing, has improved work efficiency widely.

In addition, since the printer head 3 is conventional in the art, it is not described in detail in this application.

In another embodiment of the present invention, as shown in fig. 2, the platform moving mechanism 24 of the double-station digital printing machine includes a platform supporting seat 241, a platform moving component 242 and a platform driving component 243, the platform moving component 242 and the platform driving component 243 are installed on the platform base 1, the platform supporting seat 241 is fixed at the bottom of the printing platform 23, and the platform supporting seat 241 is slidably disposed on the platform moving component 242, the platform driving component 243 is connected on the platform supporting seat 241 to drive the platform supporting seat 241 to move back and forth on the platform moving component 242.

Further, the stage moving assembly 242 includes stage moving slides 2421 and stage moving rails 2422, two stage moving rails 2422 are installed on the stage base 1 at intervals, a plurality of stage moving slides 2421 are slidably disposed on the stage moving rails 2422, and a plurality of stage moving slides 2421 are fixed at the bottom of the stage supporting base 241.

Further, the platform driving assembly 243 includes a platform driving motor 2431, a first pulley set 2432, a platform driving screw 2433, a platform driving nut 2434 and a first bearing seat 2435, the first pulley set 2432 and the first bearing seat 2435 are installed on the platform base 1, the platform driving motor 2431 is fixed on one side of the first pulley set 2432, an output shaft of the platform driving motor 2431 is connected with the first pulley set 2432, one end of the platform driving screw 2433 is connected with the first pulley set 2432, the other end is rotatably disposed on the first bearing seat 2435, the platform driving nut 2434 is sleeved on the platform driving screw 2433, and the platform driving nut 2434 is fixed at the bottom of the platform supporting seat 241.

Specifically, when the left station loading and unloading mechanism 21 or the right station loading and unloading mechanism 22 works, the platform moving mechanism 24 drives the printing platform 23 to move back and forth, specifically: the platform driving motor 2431 operates to drive the platform driving screw 2433 to rotate on the first bearing seat 2435 through the first belt pulley set 2432, and after the platform driving screw 2433 and the platform driving nut 2434 are transmitted, the platform driving nut 2434, the platform supporting seat 241 fixed on the platform driving nut 2434, and the printing platform 23 move on the platform driving screw 2433, and at the same time, the platform supporting seat 241 slides back and forth on the platform moving guide 2422 through a plurality of platform moving sliders 2421 fixed at the bottom.

In another embodiment of the present invention, as shown in fig. 3, the nozzle moving mechanism 4 of the double-station digital printing machine includes a nozzle driving motor 41, a second pulley set 42, a nozzle moving guide 43 and a nozzle driving pulley set 44, the nozzle moving guide 43 is transversely erected on the platform base 1, the nozzle driving pulley sets 44 are respectively installed at two ends of the nozzle moving guide 43, the printer head 3 is installed on the nozzle driving pulley set 44, the second pulley set 42 is installed at one end of the nozzle moving guide 43, and the second pulley set 42 is respectively connected with the nozzle driving motor 41 and the nozzle driving pulley set 44.

Further, the head driving pulley set 44 includes a first head driving roller 441, a second head driving roller 442, and a head driving belt 443, the first head driving roller 441 and the second head driving roller 442 are respectively installed at two end portions of the head moving rail 43, the head driving belt 443 is sleeved on the first head driving roller 441 and the second head driving roller 442, the printer head 3 is installed on the head driving belt 443, and the first head driving roller 441 is fixed on the second pulley set 42 and rotates synchronously with the second pulley set 42.

Specifically, the operating principle of the nozzle moving mechanism 4 is as follows: the nozzle driving motor 41 operates to drive the first nozzle driving roller 441 of the nozzle driving roller set 44 to rotate via the second pulley set 42, so as to drive the nozzle driving belt 443 and the inkjet printer head 3 fixed on the nozzle driving belt 443 to move left and right on the nozzle moving guide rail 43.

In another embodiment of the utility model, as shown in fig. 4, duplex position digital printing machine still includes shower nozzle moving mechanism 5 of moisturizing, shower nozzle moving mechanism 5 of moisturizing sets up one side of platform base 1 for to being located initial position print inkjet printer head 3 moisturizes.

Further, shower nozzle movement mechanism 5 that moisturizes includes moisturizing liquid box body 51, box body support piece 52, mounting base 53 and lift drive assembly 54, mounting base 53 installs on platform base 1, box body support piece 52's bottom resets through a plurality of elasticity and connects on mounting base 53, box body support piece 52's top fixed connection moisturizing liquid box body 51, lift drive assembly 54 installs on mounting base 53 and with elasticity resets 55 and cooperatees in order to drive box body support piece 52 with moisturizing liquid box body 51 relatively mounting base 53 reciprocates.

Furthermore, the lifting driving assembly 54 includes a moisture-preserving driving motor 541, a third pulley set 542 and a cam rod 543, the moisture-preserving driving motor 541 and the cam rod 543 are mounted on the mounting base 53, a cam 5431 of the cam rod 543 abuts against the box body supporting member 52, and the third pulley set 542 is respectively connected with the moisture-preserving driving motor 541 and the cam rod 543.

Specifically, the working principle of the spray head moisturizing moving mechanism 5 is as follows: the moisture-preserving driving motor 541 operates to drive the cam rod 543 to rotate through the third pulley set 542, and the cam rod 543 cooperates with the elastic reset piece 55 to drive the box body supporting piece 52 and the moisture-preserving liquid box body 51 to move up and down relative to the mounting base 53; when the printing and ink-jet drawing head 3 needs to be moisturized, the cam 5431 on the cam rod 543 rotates to the lowest end to abut against the box body supporting piece 52, and simultaneously under the elastic action of the elastic reset piece 55, the box body supporting piece 52 and the moisturizing liquid box body 51 are pushed to move upwards, so that the lower end of the printing and ink-jet drawing head 3 is located in the moisturizing liquid box body 51, and the printing and ink-jet drawing head 3 is moisturized. When the printer head 3 does not need to be moisturized, the cam 5431 on the cam rod 543 rotates to the highest end to abut against the box body supporting piece 52, and the box body supporting piece 52 compresses the elastic resetting piece 55 to push the box body supporting piece 52 and the moisturizing liquid box body 51 to move downwards, so that the moisturizing liquid box body 51 is separated from the printer head 3.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a duplex position digital printing machine, includes platform base, the last unloading mechanism in duplex position, printing inkjet printer head and shower nozzle moving mechanism, its characterized in that: the double-station feeding and discharging mechanism is longitudinally arranged on the platform base, the nozzle moving mechanism is transversely erected on the platform base and is positioned above the double-station feeding and discharging mechanism, and the printing and spray painting head is arranged on the nozzle moving mechanism; the double-station feeding and discharging mechanism comprises a left station feeding and discharging mechanism and a right station feeding and discharging mechanism which are sequentially arranged below the spray head moving mechanism, the left station feeding and discharging mechanism and the right station feeding and discharging mechanism are identical in structure and respectively comprise a printing platform and a platform moving mechanism which drives the printing platform to move back and forth on a platform base, and under the driving of the spray head moving mechanism, the printing and painting machine head can be sequentially moved to the positions above the left station feeding and discharging mechanism and the right station feeding and discharging mechanism.

2. The double-station digital printing machine according to claim 1, characterized in that: the platform moving mechanism comprises a platform supporting seat, a platform moving assembly and a platform driving assembly, the platform moving assembly and the platform driving assembly are installed on the platform base, the platform supporting seat is fixed at the bottom of the printing platform and slidably arranged on the platform moving assembly, and the platform driving assembly is connected to the platform supporting seat to drive the platform supporting seat to move back and forth on the platform moving assembly.

3. The double-station digital printing machine according to claim 2, characterized in that: the platform moving assembly comprises platform moving sliding blocks and platform moving guide rails, the two platform moving guide rails are installed on the platform base at intervals, the platform moving sliding blocks are arranged on the platform moving guide rails in a sliding mode, and the platform moving sliding blocks are fixed to the bottom of the platform supporting seat.

4. The double-station digital printing machine according to claim 2, characterized in that: platform drive assembly includes platform driving motor, first belt pulley group, platform drive lead screw, platform drive nut and primary shaft bearing, first belt pulley group with primary shaft bearing installs on the platform base, platform driving motor fixes one side of first belt pulley group to this platform driving motor's output shaft with first belt pulley group connects, the one end of platform drive lead screw with first belt pulley group connects, and the other end rotationally sets up on the primary shaft bearing, platform drive nut cover is established on the platform drive lead screw, and platform drive nut fixes the bottom of platform supporting seat.

5. The double-station digital printing machine according to claim 1, characterized in that: the shower nozzle moving mechanism includes shower nozzle driving motor, second pulley group, shower nozzle and removes guide rail and shower nozzle driving band wheelset, the shower nozzle removes the guide rail and transversely erects on the platform base, shower nozzle driving band wheelset is installed respectively the both ends that the guide rail was removed to the shower nozzle, printing inkjet printer head is installed on the shower nozzle driving band wheelset, the second pulley group is installed the shower nozzle removes the one end of guide rail, and the second pulley group respectively with shower nozzle driving motor with shower nozzle driving band wheelset is connected.

6. The double-station digital printing machine according to claim 5, characterized in that: the nozzle driving belt wheel set comprises a first nozzle driving roller, a second nozzle driving roller and a nozzle driving belt, the first nozzle driving roller and the second nozzle driving roller are respectively installed at two ends of the nozzle moving guide rail, the nozzle driving belt is sleeved on the first nozzle driving roller and the second nozzle driving roller, the printing and painting machine head is installed on the nozzle driving belt, and the first nozzle driving roller is fixed on the second belt wheel set and synchronously rotates with the second belt wheel set.

7. The double-station digital printing machine according to any one of claims 1 to 6, characterized in that: the double-station digital printing machine further comprises a nozzle moisturizing moving mechanism, wherein the nozzle moisturizing moving mechanism is arranged on one side of the platform base and used for moisturizing the printing and inkjet printer head located at the initial position.

8. The double-station digital printing machine according to claim 7, characterized in that: shower nozzle movement mechanism that moisturizes includes moisturizing liquid box body, box body support piece, mounting base and lift drive assembly, the mounting base is installed on the platform base, box body support piece's bottom resets through a plurality of elasticity and connects and is in on the mounting base, box body support piece's top fixed connection moisturizing liquid box body, the lift drive assembly is installed on the mounting base and with elasticity resets and cooperatees with the drive box body support piece with moisturizing liquid box body is relative the mounting base reciprocates.

9. The double-station digital printing machine according to claim 8, characterized in that: the lifting driving assembly comprises a moisturizing driving motor, a third belt pulley set and a cam rod, the moisturizing driving motor and the cam rod are installed on the installation base, a cam on the cam rod abuts against the box body supporting piece, and the third belt pulley set is connected with the moisturizing driving motor and the cam rod respectively.

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