CN202130128U - Ink thermostatic control device for inkjet machine - Google Patents

Abstract

The utility model aims at providing an ink thermostatic control device for an inkjet machine, and solves the technical problem that the ink entered into a nozzle of the inkjet machine can be controlled within a required scope when temperature and humidity of the environment are different. The utility model is characterized in that: a heat conducting plate with good heat conductivility is provided between the nozzle of the inkjet machine and a dolly ink box, the heat conducting plate is provided with a continuous channel therein, the channel is provided with an inlet end and an outlet end which are respectively connected with the dolly ink box and the nozzle, the heat conducting plate is provided with a refrigeration component and a heat dissipation assembly thereover and a heating component therebelow, the heat conducting plate is also provided with a temperature measuring probe, and the refrigeration component, the heat dissipation assembly, the heating component and the temperature measuring probe are electrically connected with a temperature controller. The ink thermostatic control device of the utility model has a simple structure and a reasonable design; in addition, the ink thermostatic control device not only can heat the ink, but also can cool the ink, and the controlled temperature can be controlled within + or - 0.5 DEG C of a set value, thereby ensuring painting quality.

Description

Air brushing machine ink thermostatically-controlled equipment

Technical field

The utility model relates to outdoor advertising and uses the air brushing machine, particularly relates to air brushing machine ink apparatus.

Background technology

The air brushing machine has higher requirement to the operating temperature of employed ink, generally at 23-26 ℃ when operate as normal; When too high or too low for temperature, because of the mobile variation of ink water evaporates or ink all can cause shower nozzle water outlet variation, disconnected black phenomenon appears; Influence the air brushing quality; Thereby people have thought a lot of ways, but effect is all not good:

1) rely on the environment temperature that changes the workplace to come the remote-effects ink temperature:

In the winter time, improve the temperature of workplace, to close ventilation not smooth because of door and window, causes operating personnel and be in the high contaminated environment of ink solvent volatilization, thereby have a strong impact on staff's physical and mental health; In summer, reduce the temperature of workplace, be prone to cause room air dry, accelerated the volatilization of moisture content in the ink, make spray nozzle block.

2) increase heater:

Shower nozzle is heated, be prone to cause shower nozzle overheated and damage.

3) release seasonal ink

Work under the different climatic conditions with ink desired flowability or moisture content in order to satisfy; Some producer has released seasonal ink; But; The method is to realize through the formula rate that changes chemical analysis in the ink, thereby is prone to cause ink set uniformity variation to cause the variation of air brushing quality or color.

Summary of the invention

The purpose of the utility model provides a kind of air brushing machine ink thermostatically-controlled equipment, and the technical problem that is solved is at ambient temperature and humidity not simultaneously, and the ink temperature that gets into spray head in spray-painting device is controlled in the desired scope.

The technical scheme that the utility model adopted is:

The air brushing machine ink thermostatically-controlled equipment of the utility model; Comprise shower nozzle dolly, dolly print cartridge and shower nozzle;: between described shower nozzle and dolly print cartridge, be provided with the good heat-conducting plate of heat conduction; Be provided with continuous passage in the described heat-conducting plate, the two ends of described passage respectively be located at described heat-conducting plate on arrival end, the port of export be connected, described arrival end is connected with described dolly print cartridge through first ink supplying pipe; The described port of export is connected with described shower nozzle through second ink supplying pipe; Above the described heat-conducting plate with below be respectively equipped with refrigeration part, radiating subassembly and heater block, on described heat-conducting plate, be provided with temperature probe, described refrigeration part, radiating subassembly, heater block and temperature probe and temperature controller are electrically connected.

Have in the described passage one be shaped as straight line the metal heat-conducting pipe pass; One end of described metal heat-conducting pipe is connected with the port of export of described first ink supplying pipe; The arrival end of described first ink supplying pipe is connected with the port of export of described dolly print cartridge; Its other end is connected with the arrival end of described second ink supplying pipe, and the port of export of described second ink supplying pipe is connected with described shower nozzle arrival end.

Described channel bends is returned the type shape; The arrival end of described passage is connected with the port of export of described first ink supplying pipe; The arrival end of described first ink supplying pipe is connected with the port of export of described dolly print cartridge; The port of export of described passage is connected with the arrival end of described second ink supplying pipe, and the port of export of described second ink supplying pipe is connected with described shower nozzle arrival end.

Described radiating subassembly is made up of fin and radiator fan; Described radiator fan is located at by the side of described fin; Its wind direction is in the face of described fin; Described refrigeration part is a semiconductor chilling plate, and its cold junction face closely contacts with the upper surface of described heat-conducting plate, and the bottom surface of the fin in its hot junction face and the described radiating subassembly closely contacts.

Described heater block be positioned at described heat-conducting plate the below near.

The outer surface of described second ink supplying pipe is provided with one deck insulation material.

Described heat-conducting plate be shaped as cuboid, described metal heat-conducting pipe is the 4-12 root.

The utility model is simple in structure, reasonable in design, both can heat up, also can lower the temperature to it the inkjet printer ink; Under the automatic control of temperature controller; Can ink temperature be controlled in positive and negative 0.5 ℃ of set definite value, thereby guarantee the air brushing quality.

Description of drawings

Fig. 1 is the process flow diagram of the utility model.

Fig. 2 is the apparatus structure schematic perspective view of the utility model.

Fig. 3 is that the heat-conducting plate A-A of an embodiment of the utility model is to cutaway view.

Fig. 4 is that the heat-conducting plate A-A of another embodiment of the utility model is to cutaway view.

The specific embodiment

Below in conjunction with accompanying drawing and embodiment the utility model is described further:

Embodiment 1:

Like Fig. 1,2, shown in 3, the heat-conducting plate 1 described in the air brushing machine ink thermostatically-controlled equipment of the utility model is to process copper coin or aluminium sheet with the good metal material of heat conductivility; Preferably use copper plate; When it being heated or cool off, it can pass to energy very soon the described ink that is placed in one and reach balance, in like manner; When the temperature that gets into described ink wherein with its temperature difference greatly the time; Also can reach the temperature balance with it very soon, so, can reflect the actual temperature of the ink that is placed in one the temperature survey that described heat-conducting plate 1 is carried out; Small temperature difference value between them can be through the prior effect that obtains through overtesting on the occasion of the unification that reaches data; After the air brushing machine ink thermostatically-controlled equipment control of the utility model, flow into the ink of shower nozzle, under the insulation of described second carrier pipe, 9 outer surface insulation materials 91, its temperature stability is fine.

After the inkjet printer ink gets into heat-conducting plate 1 through first carrier pipe 8; After temperature probe 7 in being arranged on heat-conducting plate 1 detects,, be that radiator fan in described semiconductor chilling plate and the described radiating subassembly 5 is started working then by the described refrigeration part 4 of temperature controller 10 instructions if measured temperature is higher than range of set value; After the time of setting; Temperature to heat-conducting plate 1 detects once more, if measured temperature does not fall yet in the desired temperature scope, continues to repeat above-mentioned process; In the time of in measured temperature reaches setting range, then provide the instruction that can begin air brushing work to the shower nozzle dolly by temperature controller 10; Equally, when measured temperature is lower than range of set value, then start working by the described heater block 7 of temperature controller 10 instructions; Identical with the cooling working method, detect again, confirm again; In measured temperature rises to range of set value, provide instruction notification shower nozzle dolly afterwards and begin air brushing work.

The air brushing machine ink thermostatically-controlled equipment of the utility model; Comprise dolly print cartridge, shower nozzle dolly and shower nozzle 3; Be positioned at described shower nozzle dolly between described shower nozzle 3 and the ink tank and be provided with the good heat-conducting plate of heat conduction 1; Be provided with continuous passage 11 in the described heat-conducting plate 1, its shape is the crooked type that returns, the two ends of described passage 11 respectively be located at described heat-conducting plate 1 on arrival end 12, the port of export 13 be connected; Described arrival end 12 is connected with the port of export of first ink supplying pipe 8; The arrival end of described first ink supplying pipe 8 is connected with the port of export of described dolly print cartridge, and the port of export 13 of described passage 11 is connected with the arrival end of second ink supplying pipe 9, and the port of export of described second ink supplying pipe 9 is connected with described shower nozzle 3 arrival ends.

Above the described heat-conducting plate 1 with below be respectively equipped with refrigeration part 4, radiating subassembly 5 and heater block 6; On described heat-conducting plate 1, be provided with temperature probe 7, described refrigeration part 4, radiating subassembly 5, heater block 6 and temperature probe 7 are electrically connected with temperature controller 10.

Described radiating subassembly 5 is made up of fin 51 and radiator fan 52; Described radiator fan 52 is located at by the side of described fin 51; Its wind direction is in the face of described fin 51; Described refrigeration part 4 is a semiconductor chilling plate, and its cold junction face 41 closely contacts with the upper surface of described heat-conducting plate 1, and the bottom surface of the fin 51 in its hot junction face and the described radiating subassembly 5 closely contacts.

Described heater block 6 be positioned at described heat-conducting plate 1 the below near.

The outer surface of described second ink supplying pipe 9 is provided with one deck insulation material 91.

Described heat-conducting plate 1 is square copper plate, divides two half blocks up and down, and inner surface and outer surface are all arranged; Wherein, described shape is the crooked passage 11 that returns type, and its cross sectional shape is circular or square; The cross section part of described passage 11 is half the on described on the inner surface of half block; Second half on the inner surface of described down half block and corresponding one by one, at described four jiaos of bolt holes 14 that are respectively equipped with mutual correspondence of two half blocks up and down, when described passage 11 after machining is accomplished; Load onto the heat conduction gasket seal that designs pattern between two half blocks up and down described, two fit together about inciting somebody to action with bolt.

Among this embodiment, the time that described heat-conducting plate 1 directly contacts with wherein ink and stops therein is long, and therefore therebetween energy exchange speed more abundant, that reach balance is faster.

Embodiment 2:

As shown in Figure 4; Described heat-conducting plate 1 is a square copper plate; Be provided with four linear path 11 in it; Four described metal heat-conducting pipes 2 made of copper pass described four passages 11 respectively, and the inner surface of the outer surface of described metal heat-conducting pipe 2 and described passage 11 closely cooperates, and the arrival end of described metal heat-conducting pipe 2 is connected with the port of export of described first ink supplying pipe 8; The arrival end of described first ink supplying pipe 8 is connected with the port of export of described dolly print cartridge; The port of export of described metal heat-conducting pipe is connected with the arrival end of described second ink supplying pipe 9, and the port of export of described second ink supplying pipe 9 is connected with described shower nozzle 3 arrival ends, on the outer surface of described second ink supplying pipe 9, is provided with one deck insulation material 91.

Among this embodiment, the described passage 11 in the described heat-conducting plate 1 is made simple, and described metal heat-conducting pipe 2 is drawn materials easily.

Other part is identical with embodiment 1 in the present embodiment.

The air brushing machine ink thermostatically-controlled equipment of the utility model is simple in structure, reasonable in design, both can heat up, also can lower the temperature to it the inkjet printer ink; Under the automatic control of temperature controller, can ink temperature be controlled in positive and negative 0.5 ℃ of set definite value, thereby guarantee the air brushing quality; In addition; This device is not arranged on the shower nozzle, has avoided shower nozzle to receive the influence of this device cooling or heating, thereby has prolonged the service life of shower nozzle.

Claims (7)

1. air brushing machine ink thermostatically-controlled equipment; Comprise shower nozzle dolly, dolly print cartridge and shower nozzle (3); It is characterized in that: between described shower nozzle (3) and dolly print cartridge, be provided with the good heat-conducting plate of heat conduction (1); Be provided with continuous passage (11) in the described heat-conducting plate (1); The two ends of described passage (11) respectively be located at described heat-conducting plate (1) on arrival end (12), the port of export (13) be connected; Described arrival end (12) is connected with described dolly print cartridge through first ink supplying pipe (8), and the described port of export (13) is connected with described shower nozzle (3) through second ink supplying pipe (9), is respectively equipped with refrigeration part (4), radiating subassembly (5) and heater block (6) in the top and the below of described heat-conducting plate (1); On described heat-conducting plate (1), be provided with temperature probe (7), described refrigeration part (4), radiating subassembly (5), heater block (6) and temperature probe (7) are electrically connected with temperature controller (10).

2. air brushing machine ink thermostatically-controlled equipment according to claim 1; It is characterized in that: have in the described passage (11) one be shaped as straight line metal heat-conducting pipe (2) pass; One end of described metal heat-conducting pipe (2) is connected with the port of export of described first ink supplying pipe (8); The arrival end of described first ink supplying pipe (8) is connected with the port of export of described dolly print cartridge; Its other end is connected with the arrival end of described second ink supplying pipe (9), and the port of export of described second ink supplying pipe (9) is connected with described shower nozzle (3) arrival end.

3. air brushing machine ink thermostatically-controlled equipment according to claim 1; It is characterized in that: the crooked type shape of returning of described passage (11); The arrival end (12) of described passage (11) is connected with the port of export of described first ink supplying pipe (8); The arrival end of described first ink supplying pipe (8) is connected with the port of export of described dolly print cartridge; The port of export (13) of described passage (11) is connected with the arrival end of described second ink supplying pipe (9), and the port of export of described second ink supplying pipe (9) is connected with described shower nozzle (3) arrival end.

4. air brushing machine ink thermostatically-controlled equipment according to claim 1; It is characterized in that: described radiating subassembly (5) is made up of fin (51) and radiator fan (52); Described radiator fan (52) is located at by the side of described fin (51); Its wind direction is in the face of described fin (51); Described refrigeration part (4) is a semiconductor chilling plate, and its cold junction face (41) closely contacts with the upper surface of described heat-conducting plate (1), and the bottom surface of the fin (51) in its hot junction face and the described radiating subassembly (5) closely contacts.

5. air brushing machine ink thermostatically-controlled equipment according to claim 1 is characterized in that: described heater block (6) be positioned at described heat-conducting plate (1) the below near.

6. air brushing machine ink thermostatically-controlled equipment according to claim 2, it is characterized in that: the outer surface of described second ink supplying pipe (9) is provided with one deck insulation material (91).

7. air brushing machine ink thermostatically-controlled equipment according to claim 2 is characterized in that: described heat-conducting plate (1) be shaped as cuboid, described metal heat-conducting pipe (2) is the 4-12 root.

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