CN216373746U - UV offset press device of all-round cooling solidification system - Google Patents

Abstract

The utility model discloses a UV offset press device of an omnibearing cooling and curing system, which comprises a fixed platform, an object placing table arranged on the fixed platform, and an object placing plate arranged on the object placing table, wherein a printing part is arranged above the object placing plate, and a hydraulic push rod is connected above the printing part. The position of the printing plate can be changed through the hydraulic push rod, the printing plate is provided with two pipelines and a circulating pump, and the circulating pump is communicated with the water cooling tank, so that cooling water flows circularly on the hydraulic cooling cavity, the printing plate in the hydraulic cooling cavity is cooled, and ink flows are kept; the reciprocating guide type operation can finish high-efficiency synchronous operation through the reciprocating of the suspension arm, the processing efficiency is improved, and the efficiency of the suspension arm base moving back and forth on the suspension arm slide rail is higher by utilizing the work of the suspension arm base motor, so that the modern industrial requirements are met.

Description

UV offset press device of all-round cooling solidification system

Technical Field

The utility model relates to the technical field of UV offset presses, in particular to a UV offset press device of an omnibearing cooling and curing system.

Background

The UV offset printing press is an offset printing press that prints using UV ink. The UV offset printing machine needs to be provided with a UV curing device. Due to the particularity of the UV ink, the corresponding components on the printing press also need to be modified accordingly to accommodate the requirements of UV curing.

In the water cooling system of the UV drying device of the offset printing machine with the patent application number of CN201900790U, the cooling system of the UV drying device of the offset printing machine mainly comprises a water pump, a water-cooled cooler and a UV drying device, wherein one end of the water pump is connected with a fire water pool, the other end of the water pump is connected with the water-cooled cooler, and the water-cooled cooler is connected with the UV drying device through an internal water cooling system, so that the following problems exist:

the UV offset printing machine device has the advantages that the UV offset printing machine device is easy to shake in use, machining precision is low, the UV offset printing machine device does not have the material adding function with the automatic guiding function, manpower and material resources are consumed, machining production efficiency is affected due to low automation degree, and the UV offset printing machine device is not beneficial to improving productivity.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a UV offset printing machine device of an omnibearing cooling and curing system, which aims to solve the problems that the processing precision is low, the material adding function with an automatic guiding function is not provided, manpower and material resources are consumed, the processing production efficiency is influenced due to low automation degree, and the improvement of the productivity is not facilitated due to the fact that the UV offset printing machine device is easy to shake in use in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a UV offset press device of all-round cooling solidification system, includes fixed platform, installs the thing platform of putting on fixed platform to and install and put the thing board on putting the thing platform, the top of putting the thing board is provided with the printing part, and the top of printing part is connected with hydraulic push rod.

Preferably, the fixed platform and the object placing table are connected in a welding mode, and the object placing table is fixed on the fixed platform through bolts.

Preferably, a water cooling tank is arranged above the hydraulic push rod, the hydraulic push rod is movably connected with the water cooling tank, a suspension arm slide rail is arranged on the right side of the water cooling tank, and a telescopic structure is formed between the hydraulic push rod and the printing component.

Preferably, the internally mounted of davit slide rail has the davit base, and one side of davit base installs davit base motor, the one end of davit base motor is connected with davit base motor shaft, and the outside of davit base motor shaft is provided with the drive belt, the one end of drive belt is connected with the action wheel, the davit base passes through action wheel and follower and constitutes sliding structure with the davit slide rail.

Preferably, the rotating shaft of the motor of the suspension arm base forms a rotating structure with the driving wheel through a transmission belt, and the rotating shaft of the motor of the suspension arm base is in key connection with the transmission belt.

Preferably, the driven wheel is installed to the opposite side of davit base, the hoist cable motor is installed to the one end of davit base, the one end of hoist cable motor is connected with the hoist cable axis of rotation, the below of hoist cable axis of rotation is connected with the hoist cable, the below of davit base is fixed with davit extension post, the below of davit extension post is connected with the slip davit.

Preferably, the lower end of the sliding suspension arm is provided with a micro vacuum pump, a vacuum suction nozzle is arranged below the micro vacuum pump, a product to be printed is arranged below the vacuum suction nozzle, and the micro vacuum pump and the vacuum suction nozzle are in adhesive connection.

Preferably, the printing part comprises a printing plate arranged at the extending end of the hydraulic push rod, a hydraulic cooling cavity is arranged outside the printing plate, two pipelines are arranged on the hydraulic cooling cavity and communicated with the water cooling tank, and a circulating pump is arranged on one pipeline.

Compared with the prior art, the utility model has the beneficial effects that: the UV offset printing machine device of the omnibearing cooling and curing system can change the position of a printing plate through a hydraulic push rod, the printing plate is provided with two pipelines and a circulating pump, and the circulating pump is communicated with a water cooling tank, so that cooling water flows circularly on a hydraulic cooling cavity, the printing plate in the hydraulic cooling cavity is cooled, and ink flow is kept; can avoid the loaded down with trivial details of artifical pay-off through the davit pay-off, manual work and time have been saved, the reciprocal high efficiency synchronous operation that has accomplished of davit through the reciprocal of davit of this kind of reciprocal steerable operation, machining efficiency has been promoted, the work that utilizes davit base motor makes davit base round trip movement efficiency on the davit slide rail higher more accords with modern industry requirement, the up-and-down motion absorption and the putting down that the work of treating the printing product becomes the davit by the manual work originally absorbs and puts down, the manual work has been practiced thrift greatly, and the wearing and tearing are low, the efficiency is more stable, the micro vacuum pump absorbs the printing product with vacuum suction nozzle common work utilization vacuum adsorption principle, the problem that the manual work was taken inconveniently and is followed the hand landing easily has been solved, the loss of raw and other materials has been reduced, most artifical errors have been avoided.

Drawings

FIG. 1 is a schematic side view of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1A;

fig. 3 is a schematic structural diagram of the sliding base of the present invention.

In the figure: 1. a fixed platform; 2. a placing table; 3. a storage plate; 4. a printing component; 401. a hydraulic cooling chamber; 402. a printing plate; 403. a circulation pump; 5. a hydraulic push rod; 6. a water cooling tank; 7. a boom slide rail; 8. a boom base; 9. a transmission belt; 10. a rotating shaft of a motor of the suspension arm base; 11. a boom base motor; 12. a sling motor; 13. a sling rotating shaft; 14. a boom extension column; 15. a sling; 16. sliding the boom; 17. a micro vacuum pump; 18. a vacuum nozzle; 19. a product to be printed; 20. a driving wheel; 21. a driven wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Embodiment 1

As shown in the attached figure 1, the UV offset press device of the omnibearing cooling and curing system comprises a fixed platform 1, a placing table 2 arranged on the fixed platform 1, and a placing plate 3 arranged on the placing table 2, wherein the fixed platform 1 is welded with the placing table 2, the placing table 2 is fixed on the fixed platform 1 through bolts, a printing part 4 is arranged above the placing plate 3, a hydraulic push rod 5 is connected above the printing part 4, a water cooling tank 6 is arranged above the hydraulic push rod 5, the hydraulic push rod 5 is movably connected with the water cooling tank 6, a boom slide rail 7 is arranged on the right side of the water cooling tank 6, a telescopic structure is formed between the hydraulic push rod 5 and the printing part 4, the printing part 4 comprises a printing plate 402 arranged at the extending end of the hydraulic push rod 5, a hydraulic cooling cavity 401 is sleeved outside the printing plate 402, two pipelines are arranged on the hydraulic cooling cavity 401 and are communicated with the water cooling tank 6, be equipped with circulating pump 403 on one of them pipeline, can change the position of printing plate 402 through hydraulic push rod 5, and be equipped with two pipelines on the printing plate 402 to and circulating pump 403, and communicate with water cooling tank 6, realize cooling water flow circulation flow on hydraulic pressure cooling chamber 401, thereby to the printing plate 402 cooling treatment in hydraulic pressure cooling chamber 401, and keep ink to flow.

Example II

As shown in the attached figures 1 and 2, the UV offset printing machine device of the omnibearing cooling solidification system comprises a suspension arm slide rail 7, a suspension arm base 8 is arranged inside the suspension arm slide rail 7, a suspension arm base motor 11 is arranged on one side of the suspension arm base 8, a driven wheel 21 is arranged on the other side of the suspension arm base 8, a sling motor 12 is arranged at one end of the suspension arm base 8, a sling rotating shaft 13 is connected at one end of the sling motor 12, a sling 15 is connected below the sling rotating shaft 13, a suspension arm extension column 14 is fixed below the suspension arm base 8, a sliding suspension arm 16 is connected below the suspension arm extension column 14, a product 19 to be printed is taken and put down by changing the original manual work into the vertical movement of the suspension arm to be sucked and put down, the manual work is greatly saved, the abrasion is low, the efficiency is more stable, a micro vacuum pump 17 is arranged at the lower end of the sliding suspension arm 16, a vacuum suction nozzle 18 is arranged below the micro pump 17, a product 19 to be printed is arranged below the vacuum suction nozzle 18, the micro vacuum pump 17 is in adhesive connection with the vacuum suction nozzle 18, the micro vacuum pump 17 and the vacuum suction nozzle 18 work together to suck the product 19 to be printed by utilizing the vacuum adsorption principle, the problems of inconvenience in manual taking and easiness in slipping from hands are solved, the loss of raw materials is reduced, most of manual errors are avoided, one end of a suspension arm base motor 11 is connected with a suspension arm base motor rotating shaft 10, a transmission belt 9 is arranged outside the suspension arm base motor rotating shaft 10, the suspension arm base motor rotating shaft 10 forms a rotating structure with a driving wheel 20 through the transmission belt 9, the suspension arm base motor rotating shaft 10 is in key connection with the transmission belt 9, the suspension arm base 8 moves back and forth on a suspension arm slide rail 7 by utilizing the work of the suspension arm base motor 11, the efficiency is higher and meets the modern industrial requirements, one end of the transmission belt 9 is connected with the driving wheel 20, the suspension arm base 8 and the suspension arm slide rail 7 form a sliding structure through the driving wheel 20 and the driven wheel 21, the trouble of manual feeding can be avoided through suspension arm feeding, labor and time are saved, the reciprocating and guidable operation can complete high-efficiency synchronous operation through the reciprocation of the suspension arm, and the processing efficiency is improved.

The working principle is as follows: for the UV offset printing machine device of the omnibearing cooling solidification system, firstly, a fixed platform 1 is arranged at a place needing to be processed in a factory, the fixed platform 1 is horizontally and stably arranged, meanwhile, the horizontal stability of an object placing platform 2 and an object placing plate 3 is ensured, a working platform is started, a micro vacuum pump 17 works to enable a vacuum suction nozzle 18 to suck a product 19 to be printed by utilizing the vacuum adsorption principle, a sling motor 12 works to drive a sling rotating shaft 13 to rotate, a sling 15 pulls a sliding suspension arm 16 to upwards lift, the sliding suspension arm 16 upwards slides and folds along a suspension arm extension column 14, a suspension arm base motor 11 works to drive a suspension arm base motor rotating shaft 10 to rotate, the suspension arm base motor rotating shaft 10 drives a driving wheel 20 and a driven wheel 21 to rotate through a driving belt 9, the suspension arm base 8 moves along a suspension arm sliding rail 7 towards the object placing platform 2, and then the product 19 to be printed reaches the upper part of the object placing plate 3, the sliding suspension arm 16 slides downwards, the micro vacuum pump 17 starts to work for air intake, so that the vacuum suction nozzle 18 puts down the product 19 to be printed, the product 19 to be printed enters the object placing table 2, finally, the position of the printing plate 402 can be changed through the hydraulic push rod 5, two pipelines and the circulating pump 403 are arranged on the printing plate 402 and communicated with the water cooling tank 6, the circulating flow of cooling water on the hydraulic cooling cavity 401 is realized, the printing plate 402 in the hydraulic cooling cavity 401 is cooled, and the flowing of ink is kept.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a UV offset press device of all-round cooling solidification system, includes fixed platform (1), installs thing platform (2) of putting on fixed platform (1) to and install and put thing board (3), its characterized in that on putting thing platform (2): a printing part (4) is arranged above the object placing plate (3), and a hydraulic push rod (5) is connected above the printing part (4).

2. The UV offset printing press apparatus with an omni-directional cooling curing system according to claim 1, wherein: the fixed platform (1) is connected with the object placing platform (2) in a welding mode, and the object placing platform (2) is fixed on the fixed platform (1) through bolts.

3. The UV offset printing press apparatus with an omni-directional cooling curing system according to claim 1, wherein: the upper side of the hydraulic push rod (5) is provided with a water cooling box (6), the hydraulic push rod (5) is movably connected with the water cooling box (6), a suspension arm slide rail (7) is arranged on the right side of the water cooling box (6), and a telescopic structure is formed between the hydraulic push rod (5) and the printing part (4).

4. The UV offset printing press apparatus of an omnidirectional cooling curing system according to claim 3, wherein: the suspension arm structure is characterized in that a suspension arm base (8) is arranged inside the suspension arm sliding rail (7), a suspension arm base motor (11) is arranged on one side of the suspension arm base (8), one end of the suspension arm base motor (11) is connected with a suspension arm base motor rotating shaft (10), a transmission belt (9) is arranged outside the suspension arm base motor rotating shaft (10), one end of the transmission belt (9) is connected with a driving wheel (20), and the suspension arm base (8) is of a sliding structure with the suspension arm sliding rail (7) through the driving wheel (20) and a driven wheel (21).

5. The UV offset printing press apparatus with an omnidirectional cooling and curing system according to claim 4, wherein: the suspension arm base motor rotating shaft (10) and the driving wheel (20) form a rotating structure through a transmission belt (9), and the suspension arm base motor rotating shaft (10) is in key connection with the transmission belt (9).

6. The UV offset printing press apparatus with an omni-directional cooling curing system according to claim 5, wherein: driven wheel (21) are installed to the opposite side of davit base (8), hoist cable motor (12) are installed to the one end of davit base (8), the one end of hoist cable motor (12) is connected with hoist cable axis of rotation (13), the below of hoist cable axis of rotation (13) is connected with hoist cable (15), the below of davit base (8) is fixed with davit extension post (14), the below of davit extension post (14) is connected with slip davit (16).

7. The UV offset printing press apparatus of an omnidirectional cooling curing system according to claim 6, wherein: the printing machine is characterized in that a micro vacuum pump (17) is installed at the lower end of the sliding suspension arm (16), a vacuum suction nozzle (18) is arranged below the micro vacuum pump (17), a product (19) to be printed is arranged below the vacuum suction nozzle (18), and the micro vacuum pump (17) is in adhesive connection with the vacuum suction nozzle (18).

8. The UV offset printing press apparatus with an omni-directional cooling curing system according to claim 2, wherein: printing part (4) are including installing printing plate (402) at hydraulic push rod (5) extension end, printing plate (402) overcoat is equipped with hydraulic pressure cooling chamber (401), be equipped with two pipelines and water cooling tank (6) intercommunication on hydraulic pressure cooling chamber (401), be equipped with circulating pump (403) on one of them pipeline.

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