CN115805749A - Printing ink storage container of glass printing line - Google Patents

Abstract

The invention discloses a printing ink storage container for a glass printing line, which relates to the technical field of glass processing and comprises a fixed support, a mixing storage tank and a mixing component, wherein a supporting cross frame is fixed on the inner side above the fixed support, a sliding seat is slidably mounted on the outer portion of the supporting cross frame, the storage tank is mounted between the sliding seats, an auxiliary heating wall is arranged on the outer side of the storage tank, the mixing storage tank is arranged below the storage tank, a premixing chamber is fixed on the upper portion inside the mixing storage tank, a mixing chamber is arranged on the lower portion inside the mixing storage tank, a heating layer is fixed on the inner wall of the mixing chamber, and the mixing component is mounted inside the mixing storage tank. The ink storage container for the glass printing line realizes full-automatic rationalization control of ink filling and storage, realizes automatic dosage calculation, automatic blending stirring, automatic heat preservation and flushing, improves product quality, reduces material waste, improves production efficiency and creates higher social value.

Description

Printing ink storage container of glass printing line

Technical Field

The invention relates to the technical field of glass processing, in particular to an ink storage container for a glass printing line.

Background

In the glass processing industry, the screen printing is an important link in the post-processing, the requirements on the printing effect and the quality are high, the batch quality problem is easily caused once an unstable factor appears, the subsequent repair difficulty is high, and the product rejection rate is high. The glass printing line process can be roughly divided into the steps of glass feeding, glass conveying (including positioning), screen adjustment, ink filling, ink coating and scraping, glass conveying, heating and blowing, glass discharging and the like. In the conventional operation, the ink filling process is usually carried out manually after blending and diluting, and then manual filling is carried out.

The existing ink storage container is influenced by a plurality of unstable factors such as temperature, humidity, ink types, printing frequency, artificial skill level and the like, and is easy to cause adverse effects such as ink accumulation, inconsistent ink concentration, inconsistent ink humidity and temperature, too little blending amount, excessive blending amount, field environmental pollution and the like, thereby causing great cost waste.

In view of the above, an ink storage container for glass printing line has been proposed by improving the conventional structure and drawbacks.

Disclosure of Invention

In view of the deficiencies of the prior art, the present invention provides an ink reservoir for glass printing lines that solves the problems set forth above in the background.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a printing ink storage container of glass printing line, includes fixed bolster, mixed storage tank and compounding subassembly, the top inboard of fixed bolster is fixed with the support crossbearer, and supports the outside slidable mounting of crossbearer has the sliding seat, install the storage tank between the sliding seat, and the outside of storage tank is provided with assists the hot wall, mixed storage tank sets up in the below of storage tank, and is fixed with the premixing chamber above the inside of mixed storage tank, the inside below of mixed storage tank is provided with the hybrid chamber, and the inner wall of hybrid chamber is fixed with the zone of heating, the compounding unit mount is in the inside of mixed storage tank, and the compounding subassembly is located the downside that mixes the premixing chamber, the compounding subassembly includes interior barrel, outer barrel, fluting, first collision board and second collision board, outer barrel is installed in the outside of interior barrel, and the outer wall of interior barrel and outer barrel all is provided with the fluting, the inner wall of interior barrel is fixed with first collision board, the inner wall of outer barrel is fixed with the second collision board.

Further, the storage tank is provided with four, and the inside of storage tank and mixed storage tank all disposes pressure sensor and temperature and humidity measurement control appearance.

Further, the pay-off subassembly is installed to the middle part downside of storage tank, and the pay-off subassembly is including arranging material pipe, flow scale control valve, fixed pipe and spiral conveying pipe, arrange the below of material pipe and install the flow scale control valve, and one side of flow scale control valve is connected with fixed pipe, spiral conveying pipe is installed to the below of fixed pipe.

Furthermore, the two sides of the upper part of the outer part of the mixing storage tank are provided with feed inlets, and the spiral feed pipes are communicated with the feed inlets.

Furthermore, there is a pressure gauge on one side of the outside of the top of the mixing storage tank through a pipeline, and one side of the pipeline is connected with a compressed air pipe, and there is a pressure relief valve on the other side of the outside of the top of the mixing storage tank.

Furthermore, the middle part of the premixing chamber is provided with a premixing component, the premixing component comprises a servo motor, a rotating main shaft and a mixing rod, the lower side of the servo motor is provided with the rotating main shaft, the mixing rod is fixed on the outer side of the rotating main shaft, and the rotating main shaft and the mixing rod are both located inside the premixing chamber.

Furthermore, the premixing chamber is communicated with the inner cylinder body, and a concentric circle structure is arranged between the inner cylinder body and the outer cylinder body.

Further, the compounding subassembly is still changeed the board including connecting pivot, first commentaries on classics board and second, the lower extreme of rotatory main shaft is fixed with the connection pivot, and connects the well top outside of pivot and be fixed with first commentaries on classics board to first commentaries on classics board is located the inside of interior barrel, the well below outside of connecting the pivot is fixed with the second and changes the board, and the second changes the inside that the board is located outer barrel.

Further, the internally mounted of hybrid chamber has the intensive mixing subassembly, and the intensive mixing subassembly includes stirring main shaft and puddler, the lower extreme of connecting the pivot is fixed with the stirring main shaft, and the outside of stirring main shaft is fixed with the puddler.

Further, the middle part below that the jar was stored in the mixture is connected with the discharging pipe, and the below of discharging pipe installs the fluid balance valve, one side of fluid balance valve is provided with the discharge gate, there is the solenoid valve below the discharge gate through the pipe connection, and the solenoid valve is provided with two, one side of solenoid valve is connected with the recovery tube, and the end of recovery tube is provided with the recovery jar.

The invention provides an ink storage container for a glass printing line, which has the following beneficial effects:

the ink storage container for the glass printing line realizes full-automatic rationalization control of ink filling and storage, and realizes an ink storage container which can automatically calculate the usage amount, automatically blend and stir, automatically preserve heat and wash, so that the product quality is improved, the material waste is reduced, the production efficiency is improved, and higher social value is created.

1. This printing ink storage container of glass printing line is provided with the storage tank, four storage tanks set up different usage respectively, wherein two storage tanks are used for the printing ink of printing ink storage container partial shipment different compositions, a storage tank is used for the diluent storage, a storage tank is used for the cleaner storage, and the mixture storage jar is used for the mixture of printing ink to be concocted, simultaneously each container is furnished with pressure sensor and temperature and humidity measurement control appearance respectively and is convenient for detect the inside humiture and the pressure data of storage tank and mixture storage jar, the inside pressure of mixing the storage tank is convenient for adjust and control through the compressed air pipe and the pressure release valve of manometer pipeline one side, thereby every container all has certain pressure to guarantee that printing ink has fine mobility.

2. This printing ink storage container of glass printing line is provided with the storage tank, the sliding seat passes through the bolt and supports the stable setting of each storage tank of crossbearer fixed connection being convenient for, the maintenance is maintained in convenient dismantlement, and the position of the horizontal adjustment storage tank of being convenient for in the slip of supporting the crossbearer outside through the sliding seat, and then can decide the kind and the quantity of container and place the position according to actual need, it can the ohmic heating to assist hot wall built-in heating electric wire, it keeps warm to be convenient for heat the storage tank through the setting of assisting hot wall, and then can guarantee the printing ink temperature in process of production, in order to reach the most ideal result of use.

3. This printing ink storage container of glass printing line is provided with pre-mixing assembly and intensive mixing subassembly, be convenient for drive the rotation of rotating main shaft and mixing arm through servo motor, make rotating main shaft and mixing arm can carry out preliminary mixing to the printing ink of mixing the indoor portion in advance, connect the rotation of pivot and can drive the rotation of stirring main shaft, make the puddler in the stirring main shaft outside can carry out intensive mixing to the different grade type printing ink and the printing ink diluent of mixing chamber inside, make the difficult deposit of printing ink bottom through the stirring simultaneously.

4. This printing ink storage container of glass printing line is provided with the compounding subassembly, servo motor can drive the rotation of connecting the pivot in step through rotatory main shaft, and then drive the rotation of first commentaries on classics board and second commentaries on classics board, first commentaries on classics board can make wherein printing ink strike the inside to the first collision board of inner cylinder inner wall and enter into the inside of outer barrel through the fluting in the inside rotation of inner cylinder, and then make the abundant broken mixture of printing ink, the rotation of second commentaries on classics board can make wherein printing ink strike the inside of mixing chamber once more of outer cylinder inner wall in the second collision board of the inside rotation of outer barrel and through the fluting, and then carry out abundant shearing mixture to printing ink, and the mixing efficiency is improved.

5. The printing ink storage container of the glass printing line is provided with the feeding assembly, the two storage tanks serving as the printing ink storage container are convenient to blend and measure through the flow scale control valve, the blending proportion is convenient to control reasonably, the internal printing ink and the printing ink diluent of the storage tanks are convenient to feed into the mixed storage tank through the spiral feeding pipe and the feeding port so as to be convenient to store and proportion, the finished printing ink discharged from the mixed storage tank is convenient to weigh through the fluid scale valve, the finished printing ink is convenient to discharge according to the order quantity requirement, the discharge of materials and the recovery of waste water are convenient to control through the electromagnetic valve, the cleaning agent in one of the storage tanks is injected into the mixed storage tank so as to clean the mixed storage tank, the cleaned waste water can be sent into the recovery tank through the electromagnetic valve and the recovery pipe to be recovered, and the use functionality is good.

Drawings

FIG. 1 is a schematic overall elevational external configuration of an ink storage container for a glass printing line according to the present invention;

FIG. 2 is a schematic top view of a storage tank of an ink storage container for a glass printing line according to the present invention;

FIG. 3 is a schematic view showing an external structure of a mixing tank of an ink storage container for a glass printing line according to the present invention;

FIG. 4 is a schematic view of the internal structure of a mixing tank of an ink storage container for a glass printing line according to the present invention;

FIG. 5 is a schematic diagram of a top cross-sectional view of a mixing chamber of an ink storage container for a glass printing line according to the present invention;

FIG. 6 is an enlarged elevational schematic view of a mixing assembly of an ink storage container for a glass printing line according to the present invention;

FIG. 7 is a schematic top view of the interior of a mixing assembly of an ink storage container for a glass printing line according to the present invention.

In the figure: 1. fixing a bracket; 2. a supporting cross frame; 3. a sliding seat; 4. a material storage tank; 5. auxiliary heat walls; 6. a feeding assembly; 601. a discharge pipe; 602. a flow scale control valve; 603. a fixed tube; 604. a helical feed tube; 7. a mixing storage tank; 8. a feeding port; 9. a pressure gauge; 10. a compressed air pipe; 11. a pressure relief valve; 12. a premixing chamber; 13. a pre-mixing assembly; 1301. a servo motor; 1302. rotating the main shaft; 1303. a mixing rod; 14. a mixing chamber; 15. a heating layer; 16. a mixing assembly; 1601. an inner cylinder; 1602. an outer cylinder; 1603. slotting; 1604. a first collision plate; 1605. a second collision plate; 1606. connecting the rotating shaft; 1607. a first rotating plate; 1608. a second rotating plate; 17. a thorough mixing component; 1701. a stirring main shaft; 1702. a stirring rod; 18. a discharge pipe; 19. a fluid scale valve; 20. a discharge port; 21. an electromagnetic valve; 22. a recovery pipe; 23. and (6) a recovery tank.

Detailed Description

Embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides an ink storage container of glass printing line, including fixed bolster 1, mixing storage tank 7 and compounding subassembly 16, the top inboard of fixed bolster 1 is fixed with supporting crossbearer 2, and the outside slidable mounting of supporting crossbearer 2 has sliding seat 3, install storage tank 4 between the sliding seat 3, and the outside of storage tank 4 is provided with assists hot wall 5, mixing storage tank 7 sets up in the below of storage tank 4, and mixing storage tank 7's inside top is fixed with premixing chamber 12, mixing storage tank 7's inside below is provided with mixing chamber 14, and the inner wall of mixing chamber 14 is fixed with zone of heating 15, compounding subassembly 16 installs in mixing storage tank 7's inside, and compounding subassembly 16 is located the downside of premixing chamber 12, compounding subassembly 16 includes interior barrel 1601, outer barrel 1602, fluting 1603, first collision board 1604 and second collision board 1605, outer barrel 1602 is installed to the outside of interior barrel 1601, and the outer wall 1602 of interior barrel 1601 all is provided with fluting 1603, the inner wall of interior barrel 1601 is fixed with first collision board 1604, the inner wall of outer barrel 1605 is fixed with the fluting 1602.

Referring to fig. 1 to 3, four material storage tanks 4 are provided, and pressure sensors and temperature and humidity detection controllers are disposed inside the material storage tanks 4 and the mixing storage tank 7; the two sides of the upper part of the outside of the mixing storage tank 7 are both provided with a feeding port 8, and the spiral feeding pipe 604 is communicated with the feeding port 8; a pressure gauge 9 is arranged on one side of the upper outer part of the mixing storage tank 7 through a pipeline, a compressed air pipe 10 is connected to one side of the pipeline, and a pressure relief valve 11 is arranged on the other side of the upper outer part of the mixing storage tank 7;

the operation is as follows, the sliding seat 3 is fixedly connected with the supporting cross frame 2 through bolts, so that each storage tank 4 can be stably arranged, the disassembly, the maintenance and the maintenance are convenient, the position of each storage tank 4 can be transversely adjusted through the sliding of the sliding seat 3 on the outer side of the supporting cross frame 2, the type, the number and the placement position of containers can be determined according to actual needs, the heating wires are arranged in the auxiliary heating wall 5 and can be electrified and heated, the storage tanks 4 can be heated and kept warm through the arrangement of the auxiliary heating wall 5, so that the ink temperature can be ensured in the production process, the optimal use effect can be achieved, the four storage tanks 4 are respectively provided with different purposes, wherein 2 storage tanks 4 are used for the printing ink of printing ink storage container partial shipment different compositions, 1 storage tank 4 is used for the diluent storage, 1 storage tank 4 is used for the cleaner storage, and mix and store jar 7 and be used for the mixture of printing ink and blend, simultaneously each container is furnished with pressure sensor and temperature and humidity measurement control appearance respectively and is convenient for detect storage tank 4 and mix the inside humiture and the pressure data of storage tank 7, compressed air pipe 10 and the internal pressure of pressure relief valve 11 through manometer 9 pipeline one side are convenient for regulate and control mix storage tank 7, thereby every container all has certain pressure to guarantee that printing ink has fine mobility.

Referring to fig. 1, a feeding assembly 6 is installed at the lower side of the middle part of a storage tank 4, and the feeding assembly 6 includes a discharge pipe 601, a flow scale control valve 602, a fixed pipe 603 and a spiral feeding pipe 604, the flow scale control valve 602 is installed below the discharge pipe 601, one side of the flow scale control valve 602 is connected with the fixed pipe 603, and the spiral feeding pipe 604 is installed below the fixed pipe 603;

the operation is as follows, the flow scale control valve 602 is used for facilitating the blending measurement of two storage tanks 4 as ink storage containers so as to reasonably control the blending proportion, and the spiral feeding pipe 604 and the feeding port 8 are used for facilitating the feeding of the internal ink and the ink diluent of the storage tanks 4 into the mixing storage tank 7 so as to facilitate the storage proportioning.

Referring to fig. 4, the premixing assembly 13 is mounted in the middle of the premixing chamber 12, the premixing assembly 13 includes a servo motor 1301, a rotating spindle 1302 and a mixing rod 1303, the rotating spindle 1302 is disposed below the servo motor 1301, the mixing rod 1303 is fixed to the outer side of the rotating spindle 1302, and both the rotating spindle 1302 and the mixing rod 1303 are located inside the premixing chamber 12;

in particular, the servo motor 1301 facilitates rotation of the rotary spindle 1302 and the mixing rod 1303, so that the rotary spindle 1302 and the mixing rod 1303 can perform preliminary mixing on the ink inside the premixing chamber 12.

Referring to fig. 4 to 7, the premixing chamber 12 is communicated with the inner cylinder 1601, and the inner cylinder 1601 and the outer cylinder 1602 are concentric; the mixing assembly 16 further comprises a connecting rotating shaft 1606, a first rotating plate 1607 and a second rotating plate 1608, wherein the connecting rotating shaft 1606 is fixed at the lower end of the rotating main shaft 1302, the first rotating plate 1607 is fixed at the outer side of the middle upper part of the connecting rotating shaft 1606, the first rotating plate 1607 is positioned in the inner cylinder body 1601, the second rotating plate 1608 is fixed at the outer side of the middle lower part of the connecting rotating shaft 1606, and the second rotating plate 1608 is positioned in the outer cylinder body 1602;

specifically, the servo motor 1301 can synchronously drive the rotation of the connecting rotating shaft 1606 through the rotating main shaft 1302, and then drive the rotation of the first rotating plate 1607 and the second rotating plate 1608, the rotation of the first rotating plate 1607 in the inner cylinder 1601 can enable the ink therein to impact the first collision plate 1604 on the inner wall of the inner cylinder 1601 and enter the inner cylinder 1602 through the slot 1603, so that the ink is sufficiently crushed and mixed, and the rotation of the second rotating plate 1608 in the inner cylinder 1602 can enable the ink therein to impact the second collision plate 1605 on the inner wall of the outer cylinder 1602 again and enter the mixing cavity 14 through the slot 1603, so that the ink is sufficiently sheared and mixed, and the mixing efficiency is improved.

Referring to fig. 4, a intensive mixing assembly 17 is installed inside the mixing chamber 14, the intensive mixing assembly 17 includes a stirring main shaft 1701 and a stirring rod 1702, the stirring main shaft 1701 is fixed to the lower end of the connecting shaft 1606, and the stirring rod 1702 is fixed to the outer side of the stirring main shaft 1701;

in particular, the rotation of the connecting shaft 1606 can drive the rotation of the stirring main shaft 1701, so that the stirring rod 1702 outside the stirring main shaft 1701 can sufficiently mix different types of ink and ink diluents inside the mixing chamber 14, and meanwhile, the ink base layer is not easy to deposit through stirring.

Referring to fig. 1 and 3, a discharge pipe 18 is connected to the lower middle portion of the mixing storage tank 7, a fluid balance valve 19 is installed below the discharge pipe 18, a discharge port 20 is disposed on one side of the fluid balance valve 19, an electromagnetic valve 21 is connected to the lower portion of the discharge port 20 through a pipeline, two electromagnetic valves 21 are disposed, a recovery pipe 22 is connected to one side of the electromagnetic valve 21, and a recovery tank 23 is disposed at the end of the recovery pipe 22;

the operation is as follows, the finished product ink discharged from the mixing storage tank 7 is conveniently weighed by the fluid scale valve 19 so as to be discharged according to the order quantity requirement, the discharge of materials and the recovery of waste water are conveniently controlled by the electromagnetic valve 21, the cleaning agent in one of the storage tanks 4 is injected into the mixing storage tank 7 so as to clean the mixing storage tank 7, and the cleaned waste water can be sent into the recovery tank 23 through the electromagnetic valve 21 and the recovery pipe 22 for recovery, so that the use functionality is better.

In conclusion, when the ink storage container for the glass printing line is used, firstly, when the ink storage container is used, 4 storage tanks 4 are filled with raw materials, sealing and pressure maintaining are carried out, the four storage tanks 4 are respectively provided with different purposes, wherein 2 storage tanks 4 are used for subpackaging ink with different components in the ink storage container, 1 storage tank 4 is used for storing a diluent, and 1 storage tank 4 is used for storing a cleaning agent, wherein the sliding seat 3 is fixedly connected with the supporting transverse frame 2 through bolts, so that the stable arrangement of each storage tank 4 is facilitated, the disassembly and maintenance are facilitated, the positions of the storage tanks 4 can be transversely adjusted through the sliding of the sliding seat 3 on the outer side of the supporting transverse frame 2, and the types, the number and the placing positions of the containers can be determined according to actual needs;

the mixing storage tank 7 is used for mixing and blending ink, before glass needs to be printed, in a plc control program, the area and the number of the glass to be printed are input, a system automatically calculates the use amount of the ink and a diluent, and then the ink and the diluent are injected into the mixing container in batches, at the moment, the two storage tanks 4 serving as ink storage containers can be blended and measured through a flow scale control valve 602 so as to reasonably control the blending proportion, then the ink and the diluent in the storage tanks 4 are fed into the mixing storage tank 7 through a spiral feeding pipe 604 and a feeding port 8 so as to be stored and proportioned, in the process, each container is respectively provided with a pressure sensor and a temperature and humidity detection controller so as to detect the temperature and humidity and pressure data in the storage tanks 4 and the mixing storage tank 7 in real time, whether auxiliary heat needs to be opened or not, heating wires can be electrified and heated through the arrangement of the auxiliary heat wall 5, the heating and heat preservation of the storage tanks 4 are facilitated through the arrangement of the auxiliary heat wall 5, the temperature and the ink can be ensured in the production process so as to achieve the optimal use effect, meanwhile, a compressed air pipe 10 and a pressure gauge 9 arranged on one side of each pipeline 11 are arranged, and a pressure gauge 11 are arranged, so as to ensure that the fluidity of each ink storage tank 7 is good for the mixing storage tanks, and the fluidity of each ink can be ensured;

then the raw materials flow into the mixing storage tank 7 from the storage tank 4 through the feeding assembly 6, at this time, the servo motor 1301 can drive the rotation of the rotary spindle 1302 and the mixing rod 1303, so that the rotary spindle 1302 and the mixing rod 1303 can perform primary mixing on the ink inside the pre-mixing chamber 12, the pre-mixing chamber 12 and the inner cylinder 1601 are communicated with each other, so that the ink enters the inner cylinder 1601, at this time, the servo motor 1301 can synchronously drive the rotation of the connecting rotary shaft 1606 through the rotary spindle 1302, and further drive the rotation of the first rotary plate 1607 and the second rotary plate 1608, the rotation of the first rotary plate 1607 inside the inner cylinder 1601 can make the ink impact the first collision plate 1604 inside the inner wall of the inner cylinder 1601 and enter the inner cylinder 1602 through the slot 1603, so that the ink is fully crushed and mixed, meanwhile, the rotation of the second rotary plate 1608 inside the outer cylinder 1602 can make the ink impact the second collision plate 1605 inside the inner wall of the outer cylinder 1602 again and enter the mixing cavity 14 through the slot 1603, so that the ink is fully sheared and mixed, and the mixing efficiency is improved, and then the rotation of the connecting rotary shaft 1606 can drive the stirring rod to fully stir the ink stirring rod 1702 and make the ink not easily mix the ink and the ink deposit on the bottom layer 1701;

and after the use condition is reached, pressurizing and maintaining pressure, outputting unit dose through the fluid balance valve 19, circulating and reciprocating, operating a cleaning mode after the use is finished, cleaning the mixed storage tank 7 by injecting a cleaning agent in one of the material storage tanks 4 into the mixed storage tank 7, stirring for unit time, sending the cleaned wastewater into the recovery tank 23 through the electromagnetic valve 21 and the recovery pipe 22 for recovery, and finishing the operation, thus finishing the use process of the ink storage container of the whole glass printing line.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The printing ink storage container of glass printing line, characterized by, including fixed bolster (1), mixed storage tank (7) and compounding subassembly (16), the top inboard of fixed bolster (1) is fixed with supports crossbearer (2), and supports the outside slidable mounting of crossbearer (2) and have sliding seat (3), install storage tank (4) between sliding seat (3), and the outside of storage tank (4) is provided with supplementary hot wall (5), mixed storage tank (7) set up in the below of storage tank (4), and the inside top of mixed storage tank (7) is fixed with mixes room (12), the inside below of mixed storage tank (7) is provided with mixing chamber (14), and the inner wall of mixing chamber (14) is fixed with zone of heating (15), compounding subassembly (16) are installed in the inside of mixed storage tank (7), and compounding subassembly (16) are located the downside that mixes room (12), compounding subassembly (16) include interior barrel (1601), outer barrel (1602), collision board (1603), collision board (1604) and the fixed barrel (1605) of the outside, the barrel (1601) are provided with the barrel (1601) outside and the fixed barrel (1602), and a second collision plate (1605) is fixed on the inner wall of the outer cylinder body (1602).

2. The printing ink storage container of the glass printing line, according to the claim 1, is characterized in that four storage tanks (4) are provided, and a pressure sensor and a temperature and humidity detection controller are arranged inside each of the storage tanks (4) and the mixing storage tank (7).

3. The ink storage container for the glass printing line, according to claim 1, is characterized in that a feeding assembly (6) is installed at the lower side of the middle of the storage tank (4), the feeding assembly (6) comprises a discharging pipe (601), a flow scale control valve (602), a fixing pipe (603) and a spiral feeding pipe (604), the flow scale control valve (602) is installed below the discharging pipe (601), the fixing pipe (603) is connected to one side of the flow scale control valve (602), and the spiral feeding pipe (604) is installed below the fixing pipe (603).

4. The ink storage container for glass printing line as claimed in claim 3, wherein the mixing storage tank (7) is provided with an inlet (8) at the upper two sides of the outside, and the screw feeding pipe (604) is communicated with the inlet (8).

5. The ink storage container for glass printing line according to claim 1, wherein the mixing storage tank (7) is provided with a pressure gauge (9) on one side of the upper outer part through a pipeline, a compressed air pipe (10) is connected to one side of the pipeline, and a pressure relief valve (11) is arranged on the other side of the upper outer part of the mixing storage tank (7).

6. The ink storage container of the glass printing line, according to claim 1, is characterized in that the premixing component (13) is installed in the middle of the premixing chamber (12), the premixing component (13) comprises a servo motor (1301), a rotating spindle (1302) and a mixing rod (1303), the rotating spindle (1302) is arranged on the lower side of the servo motor (1301), the mixing rod (1303) is fixed on the outer side of the rotating spindle (1302), and the rotating spindle (1302) and the mixing rod (1303) are both located inside the premixing chamber (12).

7. The ink storage container for glass printing line according to claim 1, wherein the pre-mixing chamber (12) and the inner cylinder (1601) are communicated with each other, and the inner cylinder (1601) and the outer cylinder (1602) are in concentric circle structure.

8. The ink storage container for glass printing line according to claim 6, wherein the mixing assembly (16) further comprises a connecting shaft (1606), a first rotating plate (1607) and a second rotating plate (1608), the connecting shaft (1606) is fixed to the lower end of the rotating shaft (1302), the first rotating plate (1607) is fixed to the outer side of the connecting shaft (1606) above the middle, the first rotating plate (1607) is located inside the inner cylinder (1602), the second rotating plate (1601) is fixed to the outer side of the connecting shaft (1606) below the middle, and the second rotating plate (1608) is located inside the outer cylinder (1602).

9. The glass printing line ink storage container of claim 8, wherein the mixing chamber (14) is internally provided with a thorough mixing assembly (17), the thorough mixing assembly (17) comprises a stirring main shaft (1701) and a stirring rod (1702), the stirring main shaft (1701) is fixed at the lower end of the connecting rotating shaft (1606), and the stirring rod (1702) is fixed at the outer side of the stirring main shaft (1701).

10. The printing ink storage container of the glass printing line, according to claim 1, is characterized in that a discharge pipe (18) is connected below the middle part of the mixing storage tank (7), a fluid balance valve (19) is installed below the discharge pipe (18), a discharge port (20) is arranged on one side of the fluid balance valve (19), an electromagnetic valve (21) is connected below the discharge port (20) through a pipeline, two electromagnetic valves (21) are arranged, a recovery pipe (22) is connected on one side of the electromagnetic valve (21), and a recovery tank (23) is arranged at the tail end of the recovery pipe (22).

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