CN110254050B

CN110254050B - Printer with printing ink circulation heating function

Info

Publication number: CN110254050B
Application number: CN201910656884.9A
Authority: CN
Inventors: 王玉杰
Original assignee: Individual
Current assignee: Liu Xu
Priority date: 2019-07-19
Filing date: 2019-07-19
Publication date: 2020-09-25
Anticipated expiration: 2039-07-19
Also published as: CN110254050A

Abstract

The invention relates to the field of printer equipment, in particular to a printer with an ink circulation heating function, which comprises a printer frame and a spray head moving mechanism, wherein the printer frame is provided with the ink heating mechanism, a circulation heat preservation mechanism, a rubbing mechanism and a cooling circulation mechanism, the ink heating mechanism is arranged at the rear part of the printer frame, the spray head moving mechanism is arranged at the front end of the printer frame, the spray head moving mechanism is provided with a printer spray head, the cooling circulation mechanism comprises a cooling component and a condensation component, the cooling component is arranged in the rubbing mechanism, the condensation component is arranged at the rear part of the circulation heat preservation mechanism 4, and the cooling component and the condensation component are both communicated with the printer spray head. The solid ink can be gradually used when the ink box is used, so that repeated liquefaction-solidification of the solid ink is avoided, the quality of the solid ink is ensured, heat energy generated during heating can be effectively utilized through the arrangement of the heat preservation cavity, volatilized ink is collected, and the use environment of a printer is protected.

Description

Printer with printing ink circulation heating function

Technical Field

The invention relates to the field of printer equipment, in particular to a printer with an ink circulating and heating function.

Background

The solid ink printer is one of printers, and during the use process, the solid ink needs to be heated and melted, and then the solid ink needs to be printed through a spray head.

However, in the prior art, when the printer ink is heated, direct heating is generally performed. First, do not have the heat energy that the heating produced effectively to utilize, caused the waste of the energy, the second, printing ink liquefaction when the heating, solidification after the decommissioning, the multicycle can lead to the fact the influence to the quality of printing ink to can lead to the fact the influence to the printer shower nozzle, the third, solid printing ink not only can liquefy when the heating, also can increase the volume of volatilizing of printing ink, thereby lead to the fact the influence to the human body.

Disclosure of Invention

The invention aims to provide a printer with an ink circulation heating function.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a printer with printing ink circulation heating function, includes the printer frame and installs the shower nozzle moving mechanism in the printer frame, be equipped with printing ink heating mechanism, circulation heat preservation mechanism, rubbing mechanism and cooling circulation mechanism in the printer frame, printing ink heating mechanism installs the rear portion in the printer frame, shower nozzle moving mechanism sets up the front end in the printer frame, and installs printer nozzle on the shower nozzle moving mechanism, circulation heat preservation mechanism sets up between printing ink heating mechanism and printer nozzle, rubbing mechanism sets up the lower extreme at shower nozzle moving mechanism, cooling circulation mechanism includes cooling module and condensation subassembly, cooling module sets up in rubbing mechanism, the condensation subassembly sets up the rear portion at circulation heat preservation mechanism, cooling module and condensation subassembly all communicate with printer nozzle.

Further, printing ink heating mechanism includes the heat preservation shell, the upper end at circulation heat preservation mechanism is installed to the heat preservation shell, be equipped with the fixed block in the heat preservation shell, be provided with the fixed slot that a plurality of is equidistant distribution on the fixed block, every the lower extreme of fixed slot all is equipped with the screw hole, the lower extreme of screw hole is equipped with ejection of compact pipeline, ejection of compact pipeline's lower extreme is equipped with the control valve, all is equipped with coupling hose between ejection of compact pipeline and the printer nozzle of every fixed slot lower extreme, every all be equipped with the ink horn in the fixed slot, the heat preservation shell with form ventilation channel between the fixed block, the upper end of heat preservation shell is equipped with rather than articulated heated board, be provided with a plurality of heat preservation lid on the heated board, a plurality of heat.

Further, every all be equipped with the heating plate in the fixed slot, the upper portion of ink horn is cylindricly, and the lower part of ink horn is coniformly, the lower extreme of ink horn is equipped with the connector, connector and screw hole threaded connection, be equipped with discharging channel in the connector, be linked together through discharging channel between ink horn and the ejection of compact pipeline, the middle part of ink horn is equipped with conducting strip and bearing net, the bearing net is the level setting in the ink horn and the edge and the conducting strip of bearing net are connected.

Further, rubbing mechanism is including rubbing roller, conveying roller and two mounting brackets, two the mounting bracket is the symmetry and sets up the both sides in the printer frame, rubbing roller is the level setting and rubs the both ends of roller and rotates with two mounting brackets respectively and be connected and rub the roller and be located the printer shower nozzle under, the both ends of conveying roller rotate with two mounting brackets respectively and be connected and the conveying roller is located rubbing roller under, the one end of conveying roller and rubbing roller all is equipped with drive gear and two drive gear meshes, the one end of conveying roller is equipped with rather than the transport motor who rotates the connection.

Further, cooling module includes cooling chamber, cooling tube, inlet tube and outlet pipe, the cooling chamber sets up in rubbing the roller, the cooling tube is installed in rubbing the roller and has formed the cooling bath between cooling tube and the rubbing roller, inlet tube and outlet pipe set up respectively at both ends of rubbing the roller and inlet tube and outlet pipe all rotate with rubbing the roller to be connected, the inlet tube is linked together with the cooling tube, the outlet pipe communicates with the cooling bath, the one end and the printer nozzle intercommunication of outlet pipe, be equipped with a plurality of limbers on the cooling tube, the inside of cooling bath and cooling tube is linked together through the limbers.

Further, circulation heat preservation mechanism includes the casing, the casing is located the lower extreme of heat preservation shell, the inside of casing is equipped with the heat preservation chamber, the ventilation passageway is linked together with the heat preservation chamber, the front end of casing is equipped with the connector, and all coupling hose all are located connector department, connector department is equipped with the heat preservation curtain, the middle part of heat preservation curtain is equipped with the gap that supplies the coupling hose to remove.

Furthermore, the outer side of the front part of each connecting hose is provided with a heat-insulating layer.

Further, the condensation subassembly includes the cooling water circulating pipe, the rear portion in heat preservation chamber is equipped with the baffle, be equipped with the intercommunication passageway between the lower extreme of baffle and the casing, the one end and the printer shower nozzle of cooling water circulating pipe are linked together, the latter half position of cooling water circulating pipe is in the condensation intracavity and is circuitous setting, the casing is run through from the lower part of condenser to the other end of cooling water circulating pipe, the rear portion of casing is equipped with rather than articulated clearance door.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the solid ink is heated by electrifying the heating plate in the fixed groove to generate heat when the ink is used, the heat conducting plate is connected with the heating plate, the generated heat can be quickly transmitted to the bearing net through the large heat bar, the lower end of the solid ink is heated after the bearing net is heated, the lower end of the solid ink is gradually liquefied, the solid ink is gradually liquefied from the lower part and used by heat conduction of the heat conducting plate and the bearing net every time the ink is used, the solid ink is not required to be heated and liquefied every time the ink is used, and therefore the continuous liquefaction-solidification step of the ink after the ink is used for multiple times is avoided, and further the influence on the quality of the ink is avoided.

Secondly, when the invention is used, the high temperature in the fixed groove and the heat preservation cavity form heat convection, thereby further increasing the temperature in the heat preservation cavity, thereby preserving the heat of the printing ink in the connecting hose and preventing the printing ink from drying and solidifying, the heat preservation curtain arranged at the connecting port can effectively avoid the heat dissipation in the heat preservation cavity, and the movement of the connecting hose can not be influenced when the nozzle of the printer moves, the structure is simple, the heat energy generated when the solid ink is heated is efficiently utilized, the energy waste is avoided, the liquefaction and conveying process of the ink can be effectively ensured, and the volatile part of the solid ink can enter the heat preservation cavity when being heated, and finally the cooling water enters the back half part and is positioned in the condensation cavity, so that the air can be cooled, meanwhile, the volatilized printing ink can be condensed and accumulated in the condensation cavity, and the influence of the volatilization of the printing ink on the use environment is avoided.

Third, let in the cooling water through the inlet tube in to the cooling tube, the cooling water cools down to rubbing roller in getting into the cooling bath through the limbers, make the printing ink on rubbing roller surface dry, the cooling water accomplishes the back of cooling, the rethread outlet pipe is discharged, and in the income printer nozzle, cool down to the printer nozzle, the cooling water is for the printer nozzle cooling back, can avoid printing ink drying slow can remain on rubbing roller to printing the back meeting printing ink of leading to at every turn, and then lead to the fact the influence to subsequent printing, also can avoid the long-time work of printer nozzle to lead to the condition emergence that equipment melts ageing.

Fourthly, cooling water is firstly introduced into the cooling pipe and then enters the cooling tank through the water through holes instead of directly introducing the cooling water into the cooling cavity, the aim is to ensure that the temperature of the cooling water in the cooling tank is the same and ensure the cooling effect of the rubbing roller, if the cooling water is directly introduced from one end of the rubbing roller, the temperature of the water at one end of the rubbing roller is higher than that of the water at the other end, so that the cooling effect of the rubbing roller is poor, and the printing effect is influenced.

Drawings

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

FIG. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is an enlarged view at B in FIG. 3;

FIG. 5 is a schematic perspective view of an ink cartridge according to the present invention;

FIG. 6 is a top view of an anilox roll of the present invention;

fig. 7 is a cross-sectional view taken along line C-C of fig. 6.

The reference numbers in the figures are: printer frame 1, shower nozzle moving mechanism 2, printing ink heating mechanism 3, heat preservation shell 31, fixed block 32, fixed slot 33, screw hole 34, ejection of compact pipeline 35, control valve 36, coupling hose 37, printing ink box 38, ventilation channel 39, heated board 310, heat preservation lid 311, circulation heat preservation mechanism 4, casing 41, heat preservation chamber 42, heat preservation curtain 43, rubbing mechanism 5, rubbing roller 51, conveying roller 52, mounting bracket 53, drive gear 54, conveying motor 55, cooling circulation mechanism 6, cooling element 61, cooling tube 612, inlet tube 613, outlet pipe 614, cooling trough 615, limbers 616, condensation module 62, cooling water circulating pipe 621, baffle 622, intercommunication passageway 623, clearance door 624, printer shower nozzle 7, heating plate 8, connector 9, discharging channel 10, conducting strip 11, bearing net 12.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 7, a printer with printing ink circulation heating function includes a printer frame 1 and a nozzle moving mechanism 2 installed on the printer frame 1, the printer frame 1 is provided with a printing ink heating mechanism 3, a circulation heat preservation mechanism 4, a rubbing mechanism 5 and a cooling circulation mechanism 6, the printing ink heating mechanism 3 is installed at the rear part of the printer frame 1, the nozzle moving mechanism 2 is arranged at the front end of the printer frame 1, the nozzle moving mechanism 2 is provided with a printer nozzle 7, the circulation heat preservation mechanism 4 is arranged between the printing ink heating mechanism 3 and the printer nozzle 7, the rubbing mechanism 5 is arranged at the lower end of the nozzle moving mechanism 2, the cooling circulation mechanism 6 includes a cooling component 61 and a condensation component 62, the cooling component 61 is arranged in the rubbing mechanism 5, the condensation component 62 is arranged at the rear part of the circulation heat preservation mechanism 4, the cooling unit 61 and the condensing unit 62 are both in communication with the printer head 7.

When the ink rubbing mechanism is used, solid ink is heated through the ink heating mechanism 3, then the heated liquid ink is subjected to heat preservation through the circulating heat preservation mechanism 4, the pipeline blockage caused by solidification is prevented, then the ink is sprayed onto the rubbing mechanism 5 through the printer nozzle 7, and then the ink is printed on paper through the rubbing mechanism 5, so that the printing is completed, in the printing process, the ink sprayed onto the rubbing mechanism 5 can be helped to be rapidly cooled through the working of the cooling assembly 61, so that the ink is conveniently printed on the paper from the rubbing mechanism 5, and the ink is prevented from scattering.

The ink heating mechanism 3 comprises a heat preservation shell 31, the heat preservation shell 31 is arranged at the upper end of the circulating heat preservation mechanism 4, a fixing block 32 is arranged in the heat preservation shell 31, a plurality of fixing grooves 33 which are distributed at equal intervals are arranged on the fixing block 32, a threaded hole 34 is arranged at the lower end of each fixing groove 33, a discharge pipeline 35 is arranged at the lower end of the threaded hole 34, a control valve 36 is arranged at the lower end of the discharge pipeline 35, a connecting hose 37 is arranged between the discharge pipeline 35 at the lower end of each fixing groove 33 and the printer nozzle 7, an ink box 38 is arranged in each fixing groove 33, a ventilation channel 39 is formed between the heat preservation shell 31 and the fixed block 32, a heat preservation plate 310 hinged with the heat preservation shell 31 is arranged at the upper end of the heat preservation shell 31, the heat preservation plate 310 is provided with a plurality of heat preservation covers 311, and the plurality of heat preservation covers 311 correspond to the plurality of fixing grooves 33 one by one.

Every all be equipped with heating plate 8 in the fixed slot 33, the upper portion of ink horn 38 is cylindricly, and the lower part of ink horn 38 is coniform, the lower extreme of ink horn 38 is equipped with connector 9, connector 9 and screw hole 34 threaded connection, be equipped with discharging channel 10 in the connector 9, be linked together through discharging channel 10 between ink horn 38 and the ejection of compact pipeline 35, the middle part of ink horn 38 is equipped with conducting strip 11 and bearing net 12, bearing net 12 is the level setting in ink horn 38 and the edge of bearing net 12 is connected with conducting strip 11.

The solid ink is heated by electrifying the heating sheet 8 in the fixing groove 33 to generate heat, wherein the heating sheet 8 is the prior art, the specific structure of the heating sheet is not described, the heat preservation plate 310 is arranged to preserve the temperature in the fixing groove 33 to avoid heat loss, the heat preservation cover 311 is arranged to add ink into a single ink box 38 to reduce heat loss during operation, even if the operation is carried out in a shutdown state, external impurities can be prevented from entering other ink boxes 38, the connecting hose 37 is used for conveying the liquid ink into the printer nozzle 7, the ventilation channel 39 is arranged to communicate high-temperature air in the fixing groove 33 with the circulating heat preservation mechanism 4 to form heat convection, so that the ink in the connecting hose 37 in the circulating heat preservation mechanism 4 is preserved, the ink is prevented from being cooled and solidified, and when the ink box 38 is fixedly installed, the heat conducting sheet 11 in the middle of the heating sheet 8 is connected, heat generated later can be quickly transferred to the bearing net 12 through the large heat bar, the lower end of the solid ink can be heated after the bearing net 12 is heated, when the solid ink is used at every time, the lower end of the solid ink is heated through the bearing net 12, the solid ink cannot be completely melted, the solid ink cannot be repeatedly liquefied and solidified after being used for multiple times, and the influence on the quality of the ink is avoided.

The rubbing mechanism 5 comprises rubbing rollers 51, conveying rollers 52 and two mounting frames 53, the two mounting frames 53 are symmetrically arranged on two sides of the printer frame 1, the rubbing rollers 51 are horizontally arranged, two ends of each rubbing roller 51 are respectively in rotating connection with the two mounting frames 53, the rubbing rollers 51 are positioned under the printer spray head 7, two ends of each conveying roller 52 are respectively in rotating connection with the two mounting frames 53, the conveying rollers 52 are positioned under the rubbing rollers 51, one ends of the conveying rollers 52 and the rubbing rollers 51 are respectively provided with a transmission gear 54, the two transmission gears 54 are meshed, and one end of each conveying roller 52 is provided with a conveying motor 55 in rotating connection with the conveying roller; the conveying roller 52 is driven to rotate through the work of the conveying motor 55, and under the matching work of the two transmission gears 54, the conveying roller 52 and the rubbing roller 51 synchronously rotate reversely, so that the paper is conveyed forwards, and meanwhile, the printing is also carried out on the paper through the rubbing roller 51.

The cooling assembly 61 comprises a cooling cavity, a cooling pipe 612, a water inlet pipe 613 and a water outlet pipe 614, the cooling cavity is arranged in the rubbing roller 51, the cooling pipe 612 is arranged in the rubbing roller 51, a cooling groove 615 is formed between the cooling pipe 612 and the rubbing roller 51, the water inlet pipe 613 and the water outlet pipe 614 are respectively arranged at two ends of the rubbing roller 51, the water inlet pipe 613 and the water outlet pipe 614 are rotatably connected with the rubbing roller 51, the water inlet pipe 613 is communicated with the cooling pipe 612, the water outlet pipe 614 is communicated with the cooling groove 615, one end of the water outlet pipe 614 is communicated with the printer nozzle 7, the cooling pipe 612 is provided with a plurality of water through holes 616, and the insides of the cooling groove 615 and the cooling pipe 612 are communicated through the water through holes 616; when the ink is sprayed onto the rubbing roller 51 through the printer nozzle 7, the cooling water is introduced into the cooling pipe 612 through the water inlet pipe 613, the cooling water enters the cooling tank 615 through the water through hole 616 to cool the rubbing roller 51, so that the ink on the surface of the rubbing roller 51 is dried, and the rubbing roller 51 is contacted with the paper, the ink can be completely printed on the paper, thereby avoiding the influence of the residual ink on the rubbing roller 51 on the subsequent printing, after the cooling water is cooled, the ink is discharged through the water outlet pipe 614 and enters the printer nozzle 7 to cool the printer nozzle 7, thereby avoiding the internal equipment from being melted after the printer nozzle 7 is used for a long time, wherein the cooling water is firstly introduced into the cooling pipe 612 and then enters the cooling tank 615 through the water through hole 616 instead of directly introducing the cooling water into the cooling chamber, which aims to ensure that the temperature of the cooling water in the cooling tank 615 is the same, guarantee rubbing roller 51's cooling effect, if direct one end from rubbing roller 51 lets in the cooling water, can cause the temperature of water of rubbing roller 51 one end to be higher than the temperature of water of the other end to lead to rubbing roller 51 cooling effect not good, can cause the influence to the printing effect.

The circulating heat-preserving mechanism 4 comprises a shell 41, the shell 41 is positioned at the lower end of the heat-preserving shell 31, a heat-preserving cavity 42 is arranged inside the shell 41, the ventilation channel 39 is communicated with the heat-preserving cavity 42, a connecting port is arranged at the front end of the shell 41, all the connecting hoses 37 are positioned at the connecting ports, a heat-preserving curtain 43 is arranged at the connecting ports, and a gap for the connecting hoses 37 to move is arranged in the middle of the heat-preserving curtain 43; high temperature in the fixed slot 33 can form heat convection with heat preservation chamber 42 during the heating, and then makes the temperature in the heat preservation chamber 42 also rise to ink to the coupling hose 37 in keeps warm, prevents the dry solidification of ink, and the hot-air outflow in the heat preservation chamber 42 is avoided in the setting of heat preservation curtain 43, can reduce thermal loss.

The outer side of the front part of each connecting hose 37 is provided with a heat preservation layer which plays a heat preservation role in printing ink.

The condensation component 62 comprises a cooling water circulation pipe 621, a partition 622 is arranged at the rear part of the heat preservation cavity 42, a communication channel 623 is arranged between the lower end of the partition 622 and the shell 41, one end of the cooling water circulation pipe 621 is communicated with the printer spray head 7, the rear half part of the cooling water circulation pipe 621 is positioned in the condensation cavity and arranged in a winding way, the other end of the cooling water circulation pipe 621 penetrates through the shell 41 from the lower part of the condenser, and a cleaning door 624 hinged with the shell 41 is arranged at the rear part of the shell 41; after cooling water cooled down for printer nozzle 7, carry through cooling water circulating pipe 621, cooling water circulating pipe 621's front portion exposes outside, can the cooling water play the effect of cooling, after cooling water gets into latter half position in the condensation intracavity, can cool down the effect to the air, and simultaneously, volatile printing ink can condense and gather in the condensation intracavity, clears up it through clearance door 624 at last, can avoid printing ink along with a large amount of volatilizing of air comes out, reduces printing ink to the harm of human body.

The working principle of the invention is as follows: the solid ink is heated by electrifying the heating sheet 8 in the fixing groove 33 to generate heat, the heat conducting sheet 11 is connected with the heating sheet 8, the heat generated later can be quickly transferred to the bearing net 12 through large heat bar, the lower end of the solid ink can be heated after the bearing net 12 is heated, the lower end of the solid ink is gradually liquefied and is introduced into the printer nozzle 7 through the connecting hose 37, the ink is sprayed onto the rubbing roller 51 through the printer nozzle 7, the conveying motor 55 works to drive the conveying roller 52 to rotate, under the matching work of the two transmission gears 54, the conveying roller 52 and the rubbing roller 51 synchronously and reversely rotate, the paper is conveyed forwards, meanwhile, the paper is printed on the paper through the rubbing roller 51, when the paper is printed, the high temperature in the fixing groove 33 can form heat convection with the heat preservation cavity 42, further, the temperature in the heat preservation cavity 42 also rises, and the ink in the connecting hose 37 is preserved, prevent printing ink dry solidification, in addition, let in cooling water in the cooling tube 612 through inlet tube 613, cooling water gets into the cooling bath 615 through limbers 616 and carries out the cooling to rubbing roller 51, make the printing ink on rubbing roller 51 surface dry, after cooling water finishes cooling, rethread outlet pipe 614 discharges, and get into in printer shower nozzle 7, cool down printer shower nozzle 7, after cooling water cools down printer shower nozzle 7, carry through cooling water circulating pipe 621, the front portion of cooling water circulating pipe 621 exposes outside, can the cooling water play the effect of cooling, after cooling water gets into the latter half position in the condensation chamber, can cool down the effect to the air, simultaneously, volatile printing ink can condense and gather in the condensation chamber, clear up it through clearance door 624 at last.

Claims

1. The utility model provides a printer with printing ink circulation heating function, includes printer frame (1) and installs shower nozzle moving mechanism (2) on printer frame (1), its characterized in that: be equipped with printing ink heating mechanism (3), circulation heat preservation mechanism (4), rubbing mechanism (5) and cooling circulation mechanism (6) on printer frame (1), printing ink heating mechanism (3) are installed at the rear portion of printer frame (1), shower nozzle moving mechanism (2) set up the front end in printer frame (1), and install printer shower nozzle (7) on shower nozzle moving mechanism (2), circulation heat preservation mechanism (4) set up between printing ink heating mechanism (3) and printer shower nozzle (7), rubbing mechanism (5) set up the lower extreme in shower nozzle moving mechanism (2), cooling circulation mechanism (6) include cooling module (61) and condensation subassembly (62), cooling module (61) set up in rubbing mechanism (5), condensation subassembly (62) set up the rear portion in circulation heat preservation mechanism (4), the cooling assembly (61) and the condensing assembly (62) are both communicated with a printer spray head (7);

the printing ink heating mechanism (3) comprises a heat preservation shell (31), the heat preservation shell (31) is installed at the upper end of the circulating heat preservation mechanism (4), a fixing block (32) is arranged in the heat preservation shell (31), a plurality of fixing grooves (33) distributed at equal intervals are arranged on the fixing block (32), each fixing groove (33) is provided with a threaded hole (34) at the lower end, a discharge pipeline (35) is arranged at the lower end of the threaded hole (34), a control valve (36) is arranged at the lower end of the discharge pipeline (35), a connecting hose (37) is arranged between the discharge pipeline (35) at the lower end of each fixing groove (33) and a printer nozzle (7), an ink box (38) is arranged in each fixing groove (33), a ventilation channel (39) is formed between the heat preservation shell (31) and the fixing block (32), a heat preservation plate (310) hinged with the heat preservation shell (31) is arranged at the upper, the heat preservation plate (310) is provided with a plurality of heat preservation covers (311), and the heat preservation covers (311) correspond to the fixing grooves (33) one by one.

2. A printer having an ink circulation heating function according to claim 1, wherein: every all be equipped with heating plate (8) in fixed slot (33), the upper portion of ink horn (38) is cylindricly, and the lower part of ink horn (38) is coniform, the lower extreme of ink horn (38) is equipped with connector (9), connector (9) and screw hole (34) threaded connection, be equipped with discharging channel (10) in connector (9), be linked together through discharging channel (10) between ink horn (38) and ejection of compact pipeline (35), the middle part of ink horn (38) is equipped with conducting strip (11) and bearing net (12), bearing net (12) are the level and set up in ink horn (38) and the edge that bears bearing net (12) is connected with conducting strip (11).

3. A printer having an ink circulation heating function according to claim 1, wherein: rubbing mechanism (5) are including rubbing roller (51), conveying roller (52) and two mounting bracket (53), two mounting bracket (53) are the symmetry and set up the both sides in printer frame (1), rubbing roller (51) are the level setting and rub both ends of roller (51) rotate with two mounting bracket (53) respectively and are connected and rub roller (51) and be located printer shower nozzle (7) under, the both ends of conveying roller (52) rotate with two mounting bracket (53) respectively and are connected and conveying roller (52) are located and rub roller (51) under, the one end of conveying roller (52) and rubbing roller (51) all is equipped with drive gear (54) and two drive gear (54) meshing, the one end of conveying roller (52) is equipped with rather than rotation connected conveying motor (55).

4. A printer having an ink circulation heating function according to claim 3, wherein: the cooling assembly (61) comprises a cooling cavity, a cooling pipe (612), a water inlet pipe (613) and a water outlet pipe (614), the cooling cavity is arranged in the rubbing roller (51), the cooling pipe (612) is arranged in the rubbing roller (51), and a cooling groove (615) is formed between the cooling pipe (612) and the rubbing roller (51), the water inlet pipe (613) and the water outlet pipe (614) are respectively arranged at two ends of the rubbing roller (51), the water inlet pipe (613) and the water outlet pipe (614) are rotatably connected with the rubbing roller (51), the water inlet pipe (613) is communicated with the cooling pipe (612), the water outlet pipe (614) is communicated with the cooling tank (615), one end of the water outlet pipe (614) is communicated with a printer spray head (7), a plurality of water through holes (616) are arranged on the cooling pipe (612), the cooling tank (615) and the interior of the cooling pipe (612) are communicated through a water passage hole (616).

5. A printer having an ink circulation heating function according to claim 1, wherein: circulation heat preservation mechanism (4) are including casing (41), casing (41) are located the lower extreme of heat preservation shell (31), the inside of casing (41) is equipped with heat preservation chamber (42), ventilation channel (39) are linked together with heat preservation chamber (42), the front end of casing (41) is equipped with the connector, and all coupling hose (37) all are located connector department, connector department is equipped with heat preservation curtain (43), the middle part of heat preservation curtain (43) is equipped with the gap that supplies coupling hose (37) to remove.

6. A printer having an ink circulation heating function according to claim 1, wherein: the outer side of the front part of each connecting hose (37) is provided with an insulating layer.

7. The printer with ink circulation heating function according to claim 5, characterized in that: condensation subassembly (62) are including cooling water circulating pipe (621), the rear portion in heat preservation chamber (42) is equipped with baffle (622), be equipped with between the lower extreme of baffle (622) and casing (41) intercommunication passageway (623), the one end and the printer shower nozzle (7) of cooling water circulating pipe (621) are linked together, the latter half position of cooling water circulating pipe (621) is in the condensation intracavity and is circuitous setting, casing (41) are run through from the lower part of condenser to the other end of cooling water circulating pipe (621), the rear portion of casing (41) is equipped with rather than articulated clearance door (624).