CN210139696U - Process water-cooling filtering circulation system of ink printing machine - Google Patents
Process water-cooling filtering circulation system of ink printing machine Download PDFInfo
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- CN210139696U CN210139696U CN201920148770.9U CN201920148770U CN210139696U CN 210139696 U CN210139696 U CN 210139696U CN 201920148770 U CN201920148770 U CN 201920148770U CN 210139696 U CN210139696 U CN 210139696U
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Abstract
The utility model discloses an ink printing machine technology water-cooling filtration cycle system relates to printing machine technical field. Including refrigerating system unit, the control unit, coolant liquid circulation system, inside the coolant liquid delivered to ink printing machine via coolant liquid circulation system after being refrigerated by refrigerating system unit, refrigerating system unit and coolant liquid circulation system's operation is controlled by the control unit, the refrigerating system unit includes air cooling unit, booster pump, suction pump, delivery pump and first cold water relay box, air cooling unit suction end intercommunication suction pump, delivery end intercommunication delivery pump, the booster pump setting is in between air cooling unit and the suction pump, and the intercommunication air cooling unit and suction pump for improve production efficiency, reduction in production cost.
Description
Technical Field
The utility model relates to a printing machine technical field especially relates to ink printing machine technology water-cooling filtration circulation system.
Background
A printer is a machine that prints text and images. Modern printing machines generally comprise mechanisms such as plate loading, inking, coining, paper conveying and the like, and the working principle is as follows: the characters and images to be printed are made into printing plate, then it is mounted on the printing machine, then the ink is coated on the position of the characters and images on the printing plate by manual or printing machine, then it is directly or indirectly transferred onto paper or other printing material, so that the same printed matter as that of the printing plate can be reproduced.
With the continuous increase of printing speed, the surface temperature of the ink distributing roller is simultaneously increased, and considerable heat is generated due to the rotation and the reciprocating motion of the ink distributing roller, and the quality of printing paper brushed by the ink distributing roller is not controlled due to excessive surface high temperature.
SUMMERY OF THE UTILITY MODEL
The utility model provides an ink printing machine technology water-cooling filtration cycle system makes the fountain solution can also cool off ink printing machine when having the fountain function, will cool off inside the fountain solution carries ink printing machine through coolant liquid pipeline for solve above-mentioned problem.
The utility model provides a technical scheme of above-mentioned problem is: the utility model provides an ink printing machine technology water-cooling filtration cycle system, including refrigerating system unit, the control unit, coolant liquid circulation system, inside the coolant liquid delivered to ink printing machine via coolant liquid circulation system after being refrigerated by the refrigerating system unit, refrigerating system unit and coolant liquid circulation system's operation is controlled by the control unit, the refrigerating system unit includes air cooling unit, booster pump, suction pump, delivery pump and first cold water relay box, air cooling unit suction end intercommunication suction pump, delivery end intercommunication delivery pump, booster pump setting are in between air cooling unit and the suction pump, and the intercommunication air cooling unit and suction pump.
Preferably, the control unit comprises a temperature control unit for adjusting the cooling temperature, an alcohol adding device for adding alcohol to the first cold water relay tank, a fountain solution adding device for adding fountain solution, and a fountain solution quality detection module for detecting the content of the fountain solution in the first cold water relay tank.
Preferably, the temperature control unit comprises a temperature controller electrically connected between the first cold water relay tank and the air cooling unit and a temperature detector arranged in the first cold water relay tank.
Preferably, the fountain solution quality detection module comprises a conductivity monitor arranged in the first cold water relay tank and used for detecting the conductivity of the cooling liquid and a pH monitor used for detecting the pH value of the cooling liquid.
Preferably, the cooling liquid circulation system comprises a cooling liquid conveying pipeline, a second cold water relay tank and a cooling liquid filtering device, the second cold water relay tank is communicated with the conveying pump, and the ink printing machine is also communicated with the second cold water relay tank through the cooling liquid conveying pipeline.
Preferably, coolant liquid filter equipment is including setting up box body and setting are retrieved to last filter residue of coolant liquid pipeline are in the filter residue that is used for detecting the filter residue volume on the box body is retrieved to the filter residue detects the scanner.
Preferably, the box body is retrieved to the filter residue is the tube-shape, the terminal surface that the box body was retrieved to the filter residue sets up to the filter screen, is provided with the filter core just in the box body that the box body was retrieved to the filter residue the inner wall laminating coolant liquid pipeline inner wall that the box body was retrieved to the filter residue.
Preferably, the cooling system further comprises a built-in channel which is arranged inside the fixing part of the ink printing machine and is used for cooling liquid to flow through, and the built-in channel is communicated with the cooling liquid conveying pipeline through a built-in channel port arranged on the surface of the fixing part.
Preferably, the device further comprises an electric control valve arranged on the cooling liquid conveying pipeline and used for controlling the cooling liquid to flow into the fountain solution water bucket.
The utility model has the advantages that: the utility model discloses a mixed liquid of fountain cooling after will being processed by refrigerating system unit refrigeration carries printing ink printing machine department via coolant liquid circulation system, and there is the control unit to control the temperature of coolant liquid, and detect the content of fountain liquid in the coolant liquid, and come the effective processing through coolant liquid filter equipment and mix with the waste residue in the coolant liquid, a rate of utilization for improving the coolant liquid, when effectively taking away the inside heat of printing ink printing machine, can greatly reduce the consumption of coolant liquid again, a cost for reducing industry printing, and economic benefits is promoted.
Drawings
FIG. 1 is a schematic diagram of the overall structure of a process water-cooling filtration cycle system of an ink-jet printer according to an embodiment of the present invention;
FIG. 2 is a schematic structural view of a filter residue recovery box of the water-cooling and filtering circulation system of the ink printing machine process according to the embodiment of the present invention;
fig. 3 is a schematic layout diagram of the coolant delivery pipes of the ink printing machine process water-cooling filtration circulation system according to the embodiment of the present invention.
1-a refrigerating system unit, 11-an air cooling unit, 12-a booster pump, 13-a suction pump, 14-a delivery pump, 15-a first cold water relay tank, 2-a control unit, 21-a temperature control unit, 22-an alcohol adding device, 23-a fountain solution adding device, 24-a fountain solution quality detection module, 3-a cooling solution circulating system, 31-a cooling solution delivery pipeline, 32-a second cold water relay tank, 33-a cooling solution filtering device, 331-a filter residue recovery box body, 331a filter screen, 331 b-a filter core, 332-a filter residue detector, 4-an internal channel, 5-a water bucket and 6-an electric control valve.
Detailed Description
In order to more clearly illustrate the embodiments of the present invention and the technical solutions in the prior art, the following description will explain specific embodiments of the present invention with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and for a person skilled in the art, other drawings and other embodiments can be obtained without inventive effort, and the invention is not limited to this example.
The utility model discloses ink printing machine technology water-cooling filtration cycle system, including refrigerating system unit 1, the control unit 2, coolant liquid circulation system 3, the coolant liquid that has mixed the fountain solution is refrigerated by refrigerating system unit 1 and is sent to inside the ink printing machine via coolant liquid circulation system 3, refrigerating system unit 1 and coolant liquid circulation system 3's operation is controlled by the control unit 2, refrigerating system unit 1 includes air cooling unit 11, booster pump 12, suction pump 13, delivery pump 14 and first cold water relay box 15, 11 suction end intercommunication suction pump 13 of air cooling unit carries end intercommunication delivery pump 14, and booster pump 12 sets up between air cooling unit 11 and the suction pump 13, and communicate air cooling unit 11 and suction pump 13.
The control unit 2 includes a temperature control unit 21 for adjusting the cooling temperature, an alcohol adding device 22 for adding alcohol to the first cold water relay tank 15, a fountain solution adding device 23 for adding fountain solution, and a fountain solution quality detection module 24 for detecting the content of fountain solution in the first cold water relay tank 15. The temperature control unit 21 includes a temperature controller electrically connected between the first cold water relay tank 15 and the air-cooling unit 11 and a temperature detector provided at the first cold water relay tank 15. The dampening solution quality detection module 24 includes a conductivity monitor for detecting conductivity of the cooling solution and a PH monitor for detecting PH of the cooling solution, which are disposed in the first cold water relay tank 15, and further includes a display screen for displaying temperature data, dampening solution quality data, conductivity data and PH data, which can be disposed on an outer wall of the first cold water relay tank 15.
The cooling liquid circulation system 3 includes a cooling liquid delivery pipe 31, a second cold water relay tank 32, a cooling liquid filtering device 33, the second cold water relay tank 32 is communicated with the delivery pump 14, and the ink printer is also communicated with the second cold water relay tank 32 through the cooling liquid delivery pipe 31. Coolant liquid filter equipment 33 is including setting up box body 331 is retrieved to filter residue on coolant liquid pipeline 31 and sets up be used for detecting filter residue detector (332) of filter residue volume on the box body 331 is retrieved to the filter residue, still including setting up the pipeline flip on coolant liquid pipeline 31, pipeline flip can seal the lid and close on coolant liquid pipeline 31 to can take out filter residue retrieval box body 331 through opening pipeline flip, with the filter core in the box body is retrieved to the convenient filter residue and change and retrieve.
The ink printer fixing piece is characterized by further comprising a built-in channel 4 arranged inside the ink printer fixing piece and used for cooling liquid to flow through, the built-in channel 4 is communicated with a cooling liquid conveying pipeline 31 through a built-in channel port arranged on the surface of the fixing piece, and cooling liquid are subjected to heat exchange when flowing to the built-in channel by virtue of good heat conduction properties of metal materials, so that the purpose of reducing the temperature of the ink printer is achieved.
The UV printing press further comprises an electric control valve 6 which is arranged on the cooling liquid conveying pipeline 31 and used for controlling cooling liquid to flow into the fountain solution water bucket 5, so that the cooling liquid can circularly cool the UV printing press, meanwhile, the fountain solution can be added into the fountain solution 5 through the electric control valve 4, and the production flow is simplified.
Where not mentioned above, all are applicable to the prior art.
Specific embodiments of the present invention have been described above in detail. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by logical analysis, reasoning or limited experiments in the prior art, which are already known to those skilled in the art, should be within the scope of protection defined by the claims.
Claims (9)
1. Ink printing machine technology water-cooling filtration circulation system, its characterized in that: including refrigerating system unit (1), the control unit (2), coolant liquid circulation system (3), inside the coolant liquid delivered to ink printing machine via coolant liquid circulation system (3) after being refrigerated by refrigerating system unit (1), refrigerating system unit (1) and coolant liquid circulation system (3) operation are controlled by the control unit (2), refrigerating system unit (1) includes air cooling unit (11), booster pump (12), suction pump (13), delivery pump (14) and first cold water relay box (15), air cooling unit (11) suction end intercommunication suction pump (13), delivery end intercommunication delivery pump (14), booster pump (12) set up between air cooling unit (11) and suction pump (13), and communicate air cooling unit (11) and suction pump (13).
2. The ink printing press process water cooling and filtration cycle system of claim 1, wherein: the control unit (2) comprises a temperature control unit (21) for adjusting the cooling temperature, an alcohol adding device (22) for adding alcohol to the first cold water relay tank (15), a fountain solution adding device (23) for adding fountain solution, and a fountain solution quality detection module (24) for detecting the content of the fountain solution in the first cold water relay tank (15).
3. The ink printing press process water cooling and filtration cycle system of claim 2, wherein: the temperature control unit (21) comprises a temperature controller electrically connected between the first cold water relay tank (15) and the air cooling unit (11) and a temperature detector arranged on the first cold water relay tank (15).
4. The ink printing press process water cooling and filtration cycle system of claim 2, wherein: the dampening solution quality detection module (24) comprises a conductivity monitor and a PH monitor, wherein the conductivity monitor is arranged in the first cold water relay tank (15) and used for detecting the conductivity of the cooling liquid, and the PH monitor is used for detecting the PH value of the cooling liquid.
5. The ink printing press process water cooling and filtration cycle system of claim 1, wherein: the cooling liquid circulation system (3) comprises a cooling liquid conveying pipeline (31), a second cold water relay tank (32) and a cooling liquid filtering device (33), wherein the second cold water relay tank (32) is communicated with the conveying pump (14), and the ink printing machine is also communicated with the second cold water relay tank (32) through the cooling liquid conveying pipeline (31).
6. The ink printing press process water cooling and filtration cycle system of claim 5, wherein: coolant liquid filter equipment (33) are in including setting up box body (331) and setting are retrieved to filter residue on coolant liquid pipeline (31) are in filter residue detector (332) that are used for detecting the filter residue volume on box body (331) are retrieved to the filter residue.
7. The ink printing press process water cooling and filtration cycle system of claim 6, wherein: box body (331) is retrieved to the filter residue is the tube-shape, the terminal surface that box body (331) was retrieved to the filter residue is provided with filter screen (331 a), is provided with in the box body that box body (331) was retrieved to the filter residue filter core (331) just the inner wall laminating coolant liquid pipeline (31) inner wall of box body (331) is retrieved to the filter residue.
8. The ink printing press process water cooling and filtration cycle system of claim 5, wherein: the cooling system further comprises a built-in channel (4) which is arranged in the fixing part of the ink printing machine and used for cooling liquid to flow through, and the built-in channel (4) is communicated with a cooling liquid conveying pipeline (31) through a built-in channel port arranged on the surface of the fixing part.
9. The ink printing press process water cooling and filtration cycle system of claim 1, wherein: the device also comprises an electric control valve (6) which is arranged on the cooling liquid conveying pipeline (31) and is used for controlling the cooling liquid to flow into the fountain solution water bucket (5).
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109649003A (en) * | 2019-01-29 | 2019-04-19 | 武汉红金龙印务股份有限公司 | Ink printer technique water cooling filtration cycle system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109649003A (en) * | 2019-01-29 | 2019-04-19 | 武汉红金龙印务股份有限公司 | Ink printer technique water cooling filtration cycle system |
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