CN215638945U - Cooling water circulation system for printing ink production facility - Google Patents

Abstract

The utility model belongs to the technical field of the refrigerated technique of printing ink production and specifically relates to a cooling water circulation system for printing ink production facility is related to, including printing ink production jar, the heat sink, hot oil device, cooling device and controlling means, the heat sink includes that cold water is intake subassembly and hot water and is gone out the water subassembly, cold water is intake the subassembly and is included first cold water pipe and second cold water pipe, first cold water pipe and second cold water pipe set up in the inside of inner tank body, first cold water pipe and second cold water pipe all go out the water subassembly intercommunication with hot water, hot oil device includes the outer jar of hot oil, jar and play oil pipe in the hot oil, the jar is equipped with hot water cavity with the outer jar of hot oil in the hot oil, hot water goes out water subassembly and hot water cavity intercommunication, hot water cavity and cooling device intercommunication, go out oil pipe and heating chamber intercommunication, first cold water pipe and second cold water pipe all communicate with cooling device. Can carry out thermal reuse through hot water chamber to ink cooling in order to control reaction temperature through first cooling tube and second cooling tube, improve energy utilization to reduce the cooling energy consumption.

Description

Cooling water circulation system for printing ink production facility

Technical Field

The application relates to the technical field of ink production, in particular to a cooling water circulation system for ink production equipment.

Background

In the production process of the ink, according to the condition that the raw material components of the ink can be subjected to heating treatment to promote the reaction of the raw materials, the ink production tank 1 is generally used for producing the ink, the ink reaction tank comprises an outer tank body 71, an inner tank body 72 and a stirring rod 73 at present, a heating cavity 74 is defined by the inner wall of the outer tank body 71 and the outer wall of the inner tank body 72, the stirring rod 73 is arranged in the inner tank body 71 to stir the raw materials in the inner tank body 71, and the inner tank body 71 is heated by adding hot oil into the heating cavity 74, but because the temperature of the hot oil can only be heated by heating the raw materials in the heating process, even if the heating of the hot oil is stopped, the temperature of the ink in the inner tank body 71 cannot be quickly reduced, so that the temperature in the ink production process is not easy to control.

Therefore, in the ink production process, in order to ensure that the materials are kept at a certain temperature for reaction, a temperature reduction device is generally adopted to physically reduce the temperature of the raw materials in the inner tank 71, for example, a cooling water pipe is arranged in the inner tank 71 so as to control the reaction temperature of the raw materials in an attached manner. However, after the cooling water pipe is subjected to cooling treatment on the raw material in the inner tank body 71, the temperature of the cooling liquid in the cooling water pipe rises, and the cooling energy consumption required when the cooling liquid flows back to the cooling system again for cooling treatment is higher, so that the production energy consumption and the cost are higher, and the practicability is lower.

SUMMERY OF THE UTILITY MODEL

In order to reduce the energy consumption of cooling to condenser tube, this application provides a cooling water circulating system for printing ink production facility.

The application provides a cooling water circulation system for printing ink production facility adopts following technical scheme:

a cooling water circulation system for ink production equipment comprises an ink production tank, a cooling device, a hot oil device, a cooling device and a control device, wherein the control device is electrically connected with a stirring rod, the cooling device, the hot oil device and the cooling device, the cooling component comprises a cold water inlet component and a hot water outlet component, the cold water inlet component comprises a first cold water pipe and a second cold water pipe, the first cold water pipe and the second cold water pipe are symmetrically arranged in the inner tank body, the water outlet end of the first cold water pipe and the water outlet end of the second cold water pipe are communicated with the water inlet end of the hot water outlet component, the hot oil device comprises a hot oil outer tank, a hot oil inner tank arranged in the hot oil outer tank and an oil outlet pipe communicated with the hot oil inner tank, the outer wall of the hot oil inner tank and the inner wall of the hot oil outer tank are surrounded by a hot water cavity, the water outlet end of the hot water outlet assembly is communicated with the water inlet end of the hot water cavity, the water outlet end of the hot water cavity is communicated with the cooling device, the oil outlet pipe is communicated with the heating cavity, and the water inlet end of the first cold water pipe and the water inlet end of the second cold water pipe are communicated with the water outlet end of the cooling device.

The heat exchange between the first cold water pipe and the second cold water pipe of the cooling water and the raw materials in the inner tank body is realized by transmission, so that the temperature of the raw materials in the inner tank body is reduced, and the reaction temperature of the raw materials is controlled together with hot oil in the heating cavity. The first cold water pipe and the second cold water pipe exchange heat with the raw materials in the inner tank body, the temperature of cooling water conveyed in the first cold water pipe and the second cold water pipe rises to form hot water with the temperature higher than that of the hot water originally flowing through the first cold water pipe and the second cold water pipe, the hot water enters the hot water cavity through the hot water outlet assembly, oil in the hot oil inner tank is rapidly heated, the oil temperature of the inner tank body for heating the ink production tank is raised to form hot oil, the hot water formed after heat exchange is used for heating the oil in the process, on one hand, the energy consumption of heating the oil by the hot oil inner tank is reduced, on the other hand, the heat exchange between the residual temperature of the hot water and the oil is adopted, the residual temperature energy consumption can be fully utilized, the temperature of the hot water is reduced, a certain cooling effect is achieved by combining with a subsequent cooling device to further cool the hot water to form cooling water, and then the cooling water enters the inner tank body to cool the ink raw materials for temperature control, the cooling energy consumption of the cooling device to hot water is reduced. Hot oil is transmitted to the heating cavity through the hot oil pipe, so that the heat is recycled, and the energy loss is reduced; the hot water is cooled by the cooling device and is transmitted to the inner tank body again to cool and control the temperature of the printing ink raw material, so that the cooling water flows back to the first cold water pipe and the second cold water pipe through the first cold water pipe, the second cold water pipe, the hot water outlet assembly, the hot water cavity and the cooling device, circulation of the cooling water is realized, the water circulation utilization rate and the energy utilization rate are improved, the energy consumption of the hot oil device for heating oil and the cooling energy consumption of the cooling device for cooling the cooling water are reduced, and the practicability is high.

Preferably, the hot water outlet assembly comprises a first hot water pipe communicated with the water outlet end of the first cold water pipe and a second hot water pipe communicated with the water outlet end of the first cold water pipe, the water outlet end of the first hot water pipe and the water outlet end of the second hot water pipe are both communicated with the water inlet end of the hot water cavity, so that hot water formed after heat exchange with the ink raw material in the inner tank body is transmitted to the hot water cavity through the first hot water pipe and the second hot water pipe, oil in the hot oil inner tank is subjected to heat exchange by using the hot water, the oil is heated, the utilization rate of heat is improved, the temperature of the hot water is reduced through the heat exchange of the oil, and the energy consumption of a subsequent cooling device for cooling the hot water is further reduced.

Preferably, the hot oil device further comprises an oil pump arranged on the hot oil pipe, the oil pump is electrically connected with the control device, the oil pump is convenient to start to pump hot oil, and the hot oil is pumped to the heating cavity through the hot oil pipe.

Preferably, the cooling device comprises a third hot water pipe, a hot water tank and a cold water tank, wherein the water inlet end of the third hot water pipe is communicated with the hot water cavity, the water outlet end of the third hot water pipe is communicated with the hot water tank, the hot water tank is communicated with the cold water tank through a step water-passing piece, and electric fans are symmetrically arranged on two sides of the step water-passing piece; the electric fan is electrically connected with the control device.

By adopting the technical scheme, the arranged step water passing piece can increase the flowability of hot water and reduce the temperature of the hot water, and the electric fan is arranged to assist in reducing the temperature of the hot water circulating in the step water passing piece.

Preferably, the cooling device further comprises a cold box and a water pumping pipe communicated with the cold water tank, the water pumping pipe is provided with a water pumping pump, one end of the water pumping pipe, far away from the cold water tank, is provided with an annular pipe, and the annular pipe is arranged in the cold box; the water pump is electrically connected with the control device,

through starting the suction pump, be convenient for transmit the water in the cold water tank to the ring pipe in to supreme flow from bottom to top in the ring pipe, further cool down the water under the cooling effect of cold box, recycle to first cold water pipe and second cold water pipe in, carry out the heat exchange to the raw materials in the internal jar body.

Preferably, this cold water circulating system still includes states water storage device, water storage device includes cold water catch basin and fixes the mount of cold water catch basin, the ring pipe extends and is provided with the gondola water faucet, the play water end of gondola water faucet with the end intercommunication of intaking of cold water catch basin, the end of intaking of first cold water pipe with the end of intaking of second cold water pipe all communicates with the play water end of cold water catch basin, is favorable to collecting the cooling water after the cooling treatment of cooling device, further highly sets up the mount and is higher than printing ink production jar, forms the water pressure differential, and the cooling water of being convenient for is transmitted to first cold water pipe and second cold water pipe.

Preferably, the first cold water pipe and the second cold water pipe are both provided with an electric control switch, so that the water inflow of the water body in the annular pipe can be conveniently controlled.

Preferably, the inner tank body is provided with a temperature sensor; the temperature sensor is electrically connected with the control device and can sense the temperature inside the inner tank body so as to transmit a sensed temperature signal to the controller, so that the heating temperature of the raw materials in the inner tank body by the hot oil and the cooling temperature of the raw materials in the inner tank body by the cooling water can be conveniently controlled, and the reaction temperature of the printing ink can be regulated and controlled.

Preferably, the puddler is provided with at least one bearing, cold water inlet assembly still including be fixed in the support piece of bearing, one side of support piece with first cold water union coupling, the opposite side of support piece with second cold water union coupling.

Through setting up support piece, make first cold water pipe and second cold water pipe be fixed in the outer wall of bearing, and the rotation of puddler does not influence the stability that sets up of first cold water pipe and second cold water, makes first cold water pipe and second cold water pipe provide cold water steadily to make the reaction temperature of raw materials invariable in the inner tank body.

Preferably, the inner tank body is provided with a fixing part for fixing the first cold water pipe and the second cold water pipe, so that the shaking of the first cold water pipe and the second cold water pipe under the stirring state of the stirring rod is reduced, and the first cold water pipe and the second cold water pipe are stable in structure.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the temperature of the raw material of the inner tank body is reduced by arranging the first cold water pipe and the second cold water pipe, the printing ink is rapidly cooled, hot water formed after the cooling water exchanges heat with the printing ink raw material through the cold water pipe is conveyed to the hot water cavity through a hot water outlet group, the hot water exchanges heat with oil in the hot oil inner tank to fully utilize the heat energy of the hot water and reduce the temperature of the hot water, the heat is recycled, the hot oil is conveyed to the heating cavity through an oil-well pump and is further heated in the heating cavity, the hot water cooled to a certain degree is conveyed to the cooling device through the water suction pump to be cooled into cold water, the cold water is stored by the water storage device, the cold water is conveyed to the inner part of the inner tank body through the first cold water pipe and the second cold water pipe, the cold water is recycled, the heat is fully utilized through the heat exchange of the hot water oil, and the temperature of the oil is reduced, the cooling energy consumption of the cooling device to hot water is reduced, and the practicability is high.

2. Through the ladder water-passing piece and the electric fan, the hot water is cooled rapidly, and the cooling energy consumption of the cooling device to the hot water is reduced.

3. The temperature sensor outputs a temperature signal and feeds the temperature signal back to the control device, and the control device starts the cooling device to regulate and control the temperature and keep the temperature of the ink production.

Drawings

FIG. 1 is a schematic diagram of a cooling water circulation system for an ink production apparatus according to the present application.

FIG. 2 is a schematic cross-sectional view of an ink production tank and the hot oil unit of the present application.

Fig. 3 is an enlarged schematic view of a portion a of fig. 2.

Description of reference numerals:

1. an ink production tank; 11. a first bearing; 12. a second bearing; 13. a temperature sensor; 2. a cooling device; 211. a first support member; 212. a second support member; 213. a first cold water pipe; 214. a second cold water pipe; 215. an electric control switch; 216. a fixing member; 221. a first hot water pipe; 222. a second hot water pipe; 3. a hot oil unit; 31. a hot oil pipe; 32. an oil well pump; 33. an outer tank of hot oil; 34. an inner tank of hot oil; 35. an oil outlet pipe; 36. a hot water chamber; 4. a cooling device; 41. a third hot water pipe; 42. a hot water tank; 43. a cold water tank; 44. a step water-through member; 441. an electric fan; 45. a water pumping pipe; 451. a water pump; 452. an annular tube; 4521. a cold box; 4522. a shower head; 5. a water storage device; 51. a cold water reservoir; 52. a fixed mount; 6. a control device; 61. a controller 71, an outer tank body; 72. an inner tank body; 73. a stirring rod; 74. a chamber is heated.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses cooling water circulation system for printing ink production facility. Referring to fig. 1, the printing ink production system comprises a control device 6, a printing ink production tank 1, a cooling device 2 arranged on the printing ink production tank 1, a hot oil device 3 connected with the output end of the cooling device 2, a cooling device 4 connected with the hot oil device 3, and a water storage device 5 connected with the output end of the cooling device 4, wherein the printing ink production tank 1, the cooling device 2, the hot oil device 3 and the cooling device 4 are all electrically connected with the control device 6; the water storage device 5 comprises a cold water storage tank 51 and a fixed frame 52, the cold water storage tank 51 is arranged at the top of the fixed frame 52, and the control device 6 comprises a controller 61 arranged on the fixed frame 52.

Referring to fig. 1 and 2, the cooling device 2 includes a cold water inlet assembly communicated with the cold water reservoir 51 and a hot water outlet assembly communicated with the cold water inlet assembly, referring to fig. 2 and 3, the cold water inlet assembly includes a first support 211, a second support 212, a first cold water pipe 213 and a second cold water pipe 214, the outer wall of the stirring rod 73 is provided with a first bearing 11 and a second bearing 12 which are spaced apart, the second bearing 12 is close to one end of the stirring blade of the stirring rod 73, the first support 211 is fixed on the outer wall of the first bearing 11, the second support 212 is fixed on the outer wall of the second bearing 12, the first cold water pipe 213 is arranged inside the inner tank 72 and fixed on one side of the first support 211 and one side of the second support 212, and the second cold water pipe 214 is also arranged inside the inner tank 72 and fixed on the other side of the first support 211 and the other side of the second support 212, the first and second cold water pipes 213 and 214 are built in the inner tank 72 to control the reaction temperature of the raw materials in the inner tank 72. Further, the first cold water pipe 213 and the second cold water pipe 214 are arranged in the inner tank 72 in a U shape, the first cold water pipe 213 and the second cold water pipe 214 abut against the inner wall of the inner tank 72, and the inner wall of the inner tank 72 is provided with a fixing member 216 for fixing the first cold water pipe 213 and the second cold water pipe 214, so that the first cold water pipe 213 and the second cold water pipe 214 are stably arranged in the inner tank 72, and the first cold water pipe 213 and the second cold water pipe 214 do not rotate along with the stirring rod 73 when the stirring rod 73 stirs, and are not easy to shake.

Referring to fig. 1 and 2, the water inlet end of the first cold water pipe 213 and the water inlet end of the second cold water pipe 214 are both communicated with the cold water storage tank 51, and the first cold water pipe 213 and the second cold water pipe 214 are both provided with an electric control switch 215 electrically connected with the controller 61, so as to control the circulation of cold water; the height of the fixing frame 52 is further set higher than that of the ink production tank 1, so that a height difference is formed between the water inlet end and the water outlet end of the first cold water pipe 213, and a height difference is formed between the water inlet end and the water outlet end of the second cold water pipe 214, which is convenient for conveying cold water to the inside of the inner tank 72 through the first cold water pipe 213 and the second cold water pipe 214. The hot water outlet assembly includes a first hot water pipe 221 and a second hot water pipe 222, wherein a water inlet end of the first hot water pipe 221 is communicated with a water outlet end of the first cold water pipe 213, and a water inlet end of the second hot water pipe 222 is communicated with a water outlet end of the second cold water pipe 214.

Referring to fig. 1 and 2, the hot oil assembly includes an inner hot oil tank 34, an outer hot oil tank 33, a hot oil pipe 31, an oil outlet pipe 35, and an oil pump 32, a hot water chamber 36 is defined between an outer wall of the inner hot oil tank 34 and an inner wall of the outer hot oil tank 33, a water outlet end of the first hot water pipe 221 and a water outlet end of the second hot water pipe 222 are both communicated with a water inlet end of the hot water chamber 36, an oil inlet end of the hot oil pipe 31 is communicated with a bottom of the inner wall of the inner hot oil tank 34, an oil inlet end of the heating chamber 74 of the oil outlet end of the hot oil pipe 31 is communicated, the oil pump 32 is disposed on the hot oil pipe 31, and the oil pump 32 is electrically connected to the controller 61, so as to drive the oil pump 32 to pump hot oil inside the inner hot oil tank 34 and transfer the hot oil to the heating chamber 74, and heat the outer wall of the inner tank 72 through the hot oil, thereby increasing the temperature of the ink; the oil inlet end of the oil outlet pipe 35 is communicated with the heating cavity 74 at the top of the outer tank 71, and the oil outlet end of the oil outlet pipe 35 is communicated with the top of the hot oil inner tank 34. Further, the ink production tank 1 is arranged at a higher height than the hot oil inner tank 34, so that the hot oil in the heating cavity 74 can be conveniently conveyed back to the hot oil inner tank 34 for heating, and hot oil circulation is realized.

Referring to fig. 1, the cooling device 4 includes a third hot water pipe 41, a hot water tank 42 communicating with an outlet end of the third hot water pipe 41, a step water passage 44 connected to the hot water tank 42, a cold water tank 43 connected to the step water passage 44, and a water pumping pipe 45 connected to the cold water tank 43, wherein an inlet end of the third hot water pipe 41 is connected to a top of the hot oil outer tank 33 and is communicated with the hot water chamber 36, and further, a placement height of the hot oil outer tank 33 is set higher than a placement height of the hot water tank 42, which facilitates the hot water to be transferred to the hot water tank 42. Electric fans 441 electrically connected with the controller 61 are arranged on two sides of the step water passing piece 44 to improve the mobility of hot water and reduce the temperature of the hot water; the water inlet end of the water pumping pipe 45 is communicated with the cold water tank 43, the water outlet end of the water pumping pipe 45 is communicated with the water inlet end at the bottom of the annular pipe 452, the water pumping pipe 45 is provided with a water pumping pump 451, the periphery of the annular pipe 452 is provided with a cold box 4521, the top of the annular pipe 452 extends to be provided with a shower head 4522, the water outlet end of the annular pipe 452 is communicated with the shower head 4522, and the water outlet end of the shower head 4522 faces the top of the cold water storage tank 51 so as to store cooling water in the cold water storage tank 51.

Referring to fig. 2, a temperature sensor 13 electrically connected to the controller 61 is disposed inside the inner tank 72, so as to sense the temperature of the ink in the inner tank 72 and transmit a signal to the controller 61, and further the controller 61 controls the water pump 451, the oil pump 32, the electric fan 441, and the electric control switch 215 to start the transmission of the cooling water, adjust the reaction temperature of the raw materials in the inner tank 72, fully utilize the heat energy of the hot water to heat the oil, and reduce the energy consumption of the cold box 4521 to cool the hot water.

The implementation principle of the cooling water circulation system for the ink production equipment in the embodiment of the application is as follows: be fixed in the outer wall of first bearing 11 through first support piece 211, second support piece 212 is fixed in the outer wall of second bearing 12, and combine the mounting 216 that sets up, make first cold water pipe 213 and second cold water pipe 214 be fixed in the inner wall of inner tank body 72, it rotates to avoid puddler 73 to drive the cold water pipe when changeing, produce when puddler 73 rotates with stirring ink and stir power, it makes first cold water pipe 213 and second cold water pipe 214 not hard up or rock to avoid stirring power, first cold water pipe 213 and second cold water pipe 214 directly carry out the heat exchange with the printing ink raw materials simultaneously, be convenient for cool down ink, in order to adjust printing ink reaction temperature.

Specifically, a heating pipe is arranged in the heating cavity 74, the heating pipe is of a structure known in the art, the controller 61 starts heating of the heating pipe to raise the temperature of the inner tank 72, the temperature of the ink raw material in the inner tank 72 is conducted to the controller 61 through the temperature sensor 13, when the temperature of the ink raw material is too high, the controller 61 starts the electric control switch 215 to enable cold water in the cold water storage tank 51 to be transmitted to the inside of the inner tank 72 through the first cold water pipe 213 and the second cold water pipe 214 to exchange heat with the ink raw material to achieve the effect of temperature reduction, the temperature of water in the cold water pipe is raised after heat exchange to form "hot water", the hot water is transmitted to the hot water cavity 36 through the first hot water pipe 221 and the second hot water pipe 222 to provide heat to exchange heat with oil loaded in the hot oil inner tank 34, the hot water is heated by the heat energy of the oil to form hot oil, and then the hot oil is transmitted to the heating cavity 74 at the bottom of the outer tank 71 through the hot oil pipe 31, the oil outlet pipe 35 at the top of the outer tank body 71 returns hot oil to the top of the hot oil inner tank 34, so that hot oil circulation is realized, and the energy of hot water is fully utilized.

Meanwhile, the third hot water pipe 41 transmits hot water overflowing from the hot water cavity 36 to the hot water tank 42 for storage, the hot water tank 42 transmits the hot water to the cold water tank 43 through the step water passing piece 44, in the transmission process, the water flow forms a gradient through the step water passing piece 44, the controller 61 starts the electric fan 441 to blow away hot air, so that the hot water is rapidly cooled to ensure that the cooled hot water enters the cold water tank 43, the controller 61 starts the water suction pump 451 to transmit cold water to the annular pipe 452 through the water suction pipe 45, the cold box 4521 further cools the water to form cold water, and the cold water is sprayed into the cold water storage tank 51 through the shower head 4522 to realize cooling water circulation.

The application discloses cold water circulating system utilizes the hot water that cooling water and printing ink raw materials heat exchange formed to heat up the oil, on the one hand, hot oil inner tank 34 has been reduced to the energy consumption of oil intensification heating, on the other hand adopts hydrothermal waste heat and oil to carry out the heat exchange, can make full use of waste heat energy consumption, and make hydrothermal temperature decline, reach certain cooling effect, follow-up cold box 4521 forms the cooling water after further cooling to hot water, reduce the cold box 4521 to hydrothermal cooling energy consumption, the cooling water transmission after will cooling again is to inner tank body 72 and is cooled down the accuse temperature to the printing ink raw materials, realize the circulation and the energy utilization of cooling water, reduce the energy consumption of heating the oil and the hot water energy consumption of cold box 4521 cooling.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A cooling water circulation system for ink production equipment comprises an ink production tank (1), a cooling device (2), a hot oil device (3), a cooling device (4) and a control device (6), wherein the ink reaction tank (1) comprises an outer tank body (71), an inner tank body (72) and a stirring rod (73), a heating cavity (74) is arranged on the inner wall of the outer tank body (71) and the outer wall of the inner tank body (72) in a surrounding manner, the stirring rod (73) is arranged in the inner tank body (71), and the control device (6) is electrically connected with the stirring rod (73), the cooling device (2), the hot oil device (3) and the cooling device (4) and is characterized in that the cooling component comprises a cold water inlet component and a hot water outlet component, the cold water inlet component comprises a first cold water pipe (213) and a second cold water pipe (214), the first cold water pipe (213) and the second cold water pipe (214) are symmetrically arranged in the inner tank body (72), the water outlet end of the first cold water pipe (213) and the water outlet end of the second cold water pipe (214) are both communicated with the water inlet end of the hot water outlet component, the hot oil device (3) comprises an outer hot oil tank (33), an inner hot oil tank (34) arranged in the outer hot oil tank (33) and an oil outlet pipe (35) communicated with the inner hot oil tank (34), a hot water cavity (36) is arranged around the outer wall of the hot oil inner tank (34) and the inner wall of the hot oil outer tank (33), the water outlet end of the hot water outlet component is communicated with the water inlet end of the hot water cavity (36), the water outlet end of the hot water cavity (36) is communicated with the cooling device (4), the oil outlet pipe (35) is communicated with the heating cavity (74), and the water inlet end of the first cold water pipe (213) and the water inlet end of the second cold water pipe (214) are communicated with the water outlet end of the cooling device (4).

2. The cooling water circulation system for an ink production apparatus according to claim 1, characterized in that: the hot water outlet assembly comprises a first hot water pipe (221) communicated with the water outlet end of the first cold water pipe (213) and a second hot water pipe (222) communicated with the water outlet end of the first cold water pipe (213), and the water outlet end of the first hot water pipe (221) and the water outlet end of the second hot water pipe (222) are both communicated with the water inlet end of the hot water cavity (36).

3. The cooling water circulation system for an ink production apparatus according to claim 1, characterized in that: the hot oil device (3) further comprises an oil pump (32) arranged on the hot oil pipe (31), and the oil pump (32) is electrically connected with the control device (6).

4. The cooling water circulation system for an ink production apparatus according to claim 1, characterized in that: the cooling device (4) comprises a third hot water pipe (41), a hot water tank (42) and a cold water tank (43), the water inlet end of the third hot water pipe (41) is communicated with the hot water cavity (36), the water outlet end of the third hot water pipe (41) is communicated with the hot water tank (42), the hot water tank (42) is communicated with the cold water tank (43) through a step water passing piece (44), and electric fans (441) are symmetrically arranged on two sides of the step water passing piece (44); the electric fan (441) is electrically connected with the control device (6).

5. The cooling water circulation system for an ink production apparatus according to claim 4, characterized in that: the cooling device (4) further comprises a cold box (4521) and a water pumping pipe (45) communicated with the cold water groove (43), a water pumping pump (451) is arranged on the water pumping pipe (45), an annular pipe (452) is arranged at one end, far away from the cold water groove (43), of the water pumping pipe (45), and the annular pipe (452) is arranged in the cold box (4521); the water suction pump (451) is electrically connected with the control device (6).

6. The cooling water circulation system for an ink production apparatus according to claim 5, characterized in that: this cold water circulating system still includes states water storage device (5), water storage device (5) include cold water catch basin (51) and fixed mount (52) of cold water catch basin (51), ring pipe (452) extend and are provided with gondola water faucet (4522), the play water end of gondola water faucet (4522) with the end intercommunication of intaking of cold water catch basin (51), the end of intaking of first cold water pipe (213) with the end intercommunication of intaking of second cold water pipe (214) all with the play water end of cold water catch basin (51).

7. The cooling water circulation system for an ink production apparatus according to claim 1 or 6, characterized in that: the first cold water pipe (213) and the second cold water pipe (214) are both provided with an electric control switch (215); the electric control switch (215) is electrically connected with the control device (6).

8. The cooling water circulation system for an ink production apparatus according to claim 1, characterized in that: the inner tank body (72) is provided with a temperature sensor (13); the temperature sensor (13) is electrically connected with the control device (6).

9. The cooling water circulation system for an ink production apparatus according to claim 1, characterized in that: puddler (73) are provided with at least one bearing, cold water inlet assembly is still including being fixed in the support piece of bearing, one side of support piece with first cold water pipe (213) are connected, the opposite side of support piece with second cold water pipe (214) are connected.

10. The cooling water circulation system for an ink production apparatus according to claim 9, characterized in that: the inner tank body (72) is provided with a fixing piece (216) for fixing the first cold water pipe (213) and the second cold water pipe (214).

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