CN116238247A - Automatic change production line with packing spouts a yard device - Google Patents

Abstract

The invention relates to the technical field of automatic production lines, in particular to a packaging code spraying device for an automatic production line, which comprises a mounting assembly and a heat preservation assembly, wherein the mounting assembly comprises a rack, two mounting frames are mounted at the upper end of the rack through bolts, a heat preservation sleeve is fixed at the upper end of each mounting frame, a code spraying machine is fixed on the inner wall of each heat preservation sleeve, a temperature sensor is arranged on the side wall of each code spraying machine, and a temperature regulating sheet is mounted on the side wall of each heat preservation sleeve. The advantages are that: the lateral wall of ink jet numbering machine is equipped with temperature sensor, temperature sensor is used for the perception ink jet numbering machine shower nozzle temperature to adjust heat supply intensity, make the ink jet numbering machine keep at suitable operating temperature, improve printing ink ejection effect, set up two ink jet numbering machines, can be according to the temperature contrast, the trouble of the ink jet numbering machine under the rapid understanding operating condition, thereby timely adjustment and maintenance, and the existence of two ink jet numbering machines can be when breaking down, can guarantee the production of production line.

Description

Automatic change production line with packing spouts a yard device

Technical Field

The invention relates to the technical field of automatic production lines, in particular to a packaging code spraying device for an automatic production line.

Background

The automatic production line is a production organization form for realizing the product technological process by an automatic machine system, and is formed on the basis of the further development of a continuous production line;

in general production line processing flow, all be equipped with the packing and spout a yard equipment for pack and mark the product, general packing spouts a yard equipment and uses simple spouting a yard rifle, spouts a yard rifle and spouts printing ink and marks, and current ink jet numbering machine function singleness lacks self-protection ability to because viscosity, the surface tension of the ink that it used are very sensitive to the temperature, when ambient temperature is higher than and is less than certain scope, all can influence spouting a yard effect, leads to spouting a yard processing when serious, current equipment can't solve the unstable problem of operating temperature, and lack the reply and the early warning measure to the trouble.

Disclosure of Invention

The invention aims to solve the problem of poor code spraying effect in the prior art, and provides a packaging code spraying device for an automatic production line.

In order to achieve the above purpose, the present invention adopts the following technical scheme: an automatic change production line with packing spouts a yard device, includes:

a mounting assembly and a thermal insulation assembly; wherein the method comprises the steps of

The mounting assembly comprises a rack, two mounting frames are mounted at the upper end of the rack through bolts, a thermal insulation sleeve is fixed at the upper end of each mounting frame, a code spraying machine is fixed on the inner wall of each thermal insulation sleeve, a temperature sensor is arranged on the side wall of each code spraying machine, and a temperature regulating sheet is mounted on the side wall of each thermal insulation sleeve;

the insulation assembly includes:

the productivity mechanism provides a heat source and a cold source when the code spraying machine works, maintains the working temperature of the code spraying machine in a water supply mode, enables the code spraying machine to be in a stable working state and improves the code spraying quality;

the cold-hot converting mechanism is used for absorbing a heat source and outputting the heat to the concentrating mechanism when the ink-jet printer works, the output heat is adjustable, the absorbed cold source is output to the concentrating mechanism, the working temperature of the ink-jet printer is adjusted, and part of the cold source is used for cooling the return water, so that the temperature of the recovered water is recovered, and the circulating temperature control is facilitated;

and the concentration mechanism is used for concentrating the cold source and the heat source to perform mixed treatment when the ink jet printer works so as to form stable heat preservation water flow.

Compared with the prior art, the invention has the advantages that:

1. the side wall of the ink jet printer is provided with a temperature sensor, and the temperature sensor is used for sensing the temperature of a nozzle of the ink jet printer, so that the heat supply intensity is adjusted, the ink jet printer is kept at a proper working temperature, and the ink jet effect is improved;

2. the plurality of heat flow pipes are independently controlled to be opened and closed, and the heating degree of water flow in the heating box can be controlled by controlling the number of the heat supply pipelines, so that the heating degree is controlled, and the overall output temperature is adjusted;

3. the low-temperature airflow is filled in the rewarming pipe, so that the water flow after backflow can be subjected to cooling treatment, the water flow returned to the water tank from the rewarming box is recovered to a normal temperature state, and therefore, in the subsequent circulation process, uncontrollable heating and cooling are avoided, the consistency of the initial state of each circulation is ensured, the water temperature in contact with the code spraying machine is ensured to be controllable and consistent, and the temperature control effect is further improved;

4. the two code spraying machines are arranged, so that the faults of the code spraying machines in the working state can be quickly known according to temperature comparison, and therefore, the faults of the two code spraying machines can be timely regulated and maintained, and the production of a production line can be ensured when the faults occur;

5. part of hot air flow supplied by the vortex tube is filled into the drying tube, so that the hot air flow is sprayed out by the drying spray head, and the package after code spraying is dried by the hot air flow, so that the printing ink is quickly dried, and the overall code spraying quality is improved;

6. the water flow in the upper area of the mixing box is pumped and transferred to the lower part of the mixing box, so that the mixed water flow is transferred and re-mixed, the consistency of the temperature of the output water flow is greatly improved, and the stability of water flow temperature supply is improved;

7. in the mixing circulation, high-temperature water flow is discharged at a low-temperature position, and low-temperature water flow is discharged at a high-temperature position, so that when cold and hot water flow just enters a mixing box, effective mixing treatment is obtained, and the mixing effect and the temperature control speed are greatly improved.

Drawings

Fig. 1 is a schematic diagram of a front side shaft-side structure of a packaging code spraying device for an automatic production line;

fig. 2 is a schematic view of a back shaft side structure of a packaging code spraying device for an automatic production line according to the present invention;

FIG. 3 is a front view of a packaging code spraying device for an automatic production line according to the present invention;

FIG. 4 is a side view of a packaging code spraying device for an automatic production line according to the present invention;

FIG. 5 is a top view of a packaging code spraying device for an automated production line according to the present invention;

FIG. 6 is a front isometric view of a heating box portion of a packaging code-spraying device for an automated production line according to the present invention;

FIG. 7 is a rear isometric view of a heating box portion of a packaging code-spraying device for an automated manufacturing line according to the present invention;

FIG. 8 is an isometric view of a refrigeration cassette portion of a packaging code-spraying device for an automated manufacturing line in accordance with the present invention;

FIG. 9 is a schematic diagram illustrating a packaging code spraying device for an automated manufacturing line according to another embodiment of the present invention;

FIG. 10 is a cross-sectional view of another embodiment of a packaging code-spraying device for an automated production line according to the present invention;

FIG. 11 is a front cross-sectional view of a packaging code spraying device for an automatic production line according to the present invention;

fig. 12 is an enlarged schematic view of the portion a in fig. 11.

In the figure: 1 bench, 2 mounting frame, 3 heat preservation sleeve, 4 ink jet numbering machine, 5 water tank, 6 vortex tube, 7 heating box, 8 refrigeration box, 9 heat flow pipe, 10 cold flow pipe, 11 mixing box, 12 outlet pipe, 13 transfer hole, 14 heat preservation pipe, 15 distributing pipe, 16 back flow pipe, 17 rewarming box, 18 inlet pipe, 19 support, 20 drying pipe, 21 drying spray head, 22 temperature adjusting piece, 23 rewarming pipe, 24 gas mixing box, 25 driving box, 26 power tube, 27 pivot, 28 rotating plate, 29 stirring vane, 30 mixing sleeve, 31 water inlet hole, 32 water outlet hole, 33 lug, 34 spring, 35 piston plate, 36 transfer hole, 37 slide, 38 deformation strip, 39 low temperature hole, 40 Gao Wenkong.

Detailed Description

The following examples are for illustrative purposes only and are not intended to limit the scope of the invention.

Example 1

Referring to fig. 1 to 8, a packing code spraying device for an automatic production line,

a mounting assembly and a thermal insulation assembly; wherein the method comprises the steps of

The installation component includes rack 1, two mounting brackets 2 are installed through the bolt to the upper end of rack 1, the upper end of mounting bracket 2 is fixed with insulation cover 3, the inner wall of insulation cover 3 is fixed with ink jet numbering machine 4, the lateral wall of ink jet numbering machine 4 is equipped with temperature sensor, temperature sensor is used for the perception to monitor ink jet numbering machine 4 shower nozzle temperature, thereby adjust heat supply intensity, make ink jet numbering machine 4 keep at suitable operating temperature, improve printing ink ejection effect, insulation cover 3 cover is used for the heat supply heat preservation to ink jet numbering machine 4 in ink jet numbering machine 4 periphery, rack 1 wholly can remove, thereby be convenient for place in the suitable position of spouting of production line, and mounting bracket 2 easy dismounting, be convenient for change, temperature regulating piece 22 is installed to insulation cover 3's lateral wall;

the heat preservation subassembly includes:

the productivity mechanism provides a heat source and a cold source when the code spraying machine 4 works, maintains the working temperature of the code spraying machine 4 in a water supply mode, ensures that the code spraying machine 4 is in a stable working state, and improves the code spraying quality;

the cold-hot converting mechanism is used for absorbing a heat source and outputting the heat to the concentrating mechanism when the code spraying machine 4 works, the output heat is adjustable, the absorbed cold source is output to the concentrating mechanism, the working temperature of the code spraying machine 4 is adjusted, and part of the cold source is used for cooling the return water, so that the temperature of the recovered water flow is recovered, and the circulating temperature control is facilitated;

the centralized mechanism is used for centralizing a cold source and a heat source to perform mixed treatment when the code spraying machine 4 works so as to form stable heat preservation water flow;

the productivity mechanism comprises:

the water tank 5 is fixed at the upper end of the rack 1, two water pumps are arranged in the water tank 5 and used for supplying water flow in the water tank 5 outwards so as to form circulating water flow, and heat transfer is carried out by utilizing the water flow, so that the temperature of the code spraying machine 4 is regulated and controlled;

the vortex tube 6 is fixed at the upper end of the water tank 5, an air inlet of the vortex tube 6 is connected with an external air compressor, after the vortex tube 6 is started, a hot air flow tube discharges high-temperature air flow, a cold air flow tube discharges low-temperature cold air flow, and the change of the water flow temperature is realized by utilizing heat transfer of the air flow and the water flow.

The cold-hot converting mechanism includes:

the heating box 7 is fixed at the upper end of the rack 1, a plurality of heat flow pipes 9 penetrate through and are fixed at the upper end of the heating box 7, the heat flow pipes 9 are connected with hot air pipelines of the vortex tube 6, electromagnetic valves are arranged in the heat flow pipes 9, the heat flow pipes 9 are filled with high-temperature air flow generated by the vortex tube 6, so that when the heat flow passes through the heating box 7, effective heat exchange can be carried out between the heat flow pipes and water flow in the heating box 7, the temperature of the water flow in the heating box 7 is increased, the opening and the closing of the heat flow pipes 9 are independently controlled, the heating degree of the water flow in the heating box 7 can be controlled by controlling the quantity of heat supply pipelines, the heating degree is controlled, the whole output temperature is adjusted, the degree of the output heat is regulated and controlled according to temperature signals transmitted by a temperature sensor on the inkjet printer 4, and the working temperature of the inkjet printer 4 is regulated and controlled;

the cooling box 8 is fixed at the upper end of the rack 1, the upper end of the cooling box 8 is fixedly penetrated with a cold flow pipe 10, the cold flow pipe 10 is connected with a cold air pipeline of the vortex tube, and the cold flow pipe 10 is filled with low-temperature air flow, so that the water flow in the cooling box 8 is cooled;

the rewarming box 17, the rewarming box 17 is fixed on the upper end of the rack 1, the side wall of the rewarming box 17 is provided with a water inlet pipe 18, the water inlet pipe 18 is communicated with the water tank 5, the upper end of the rewarming box 17 is fixedly provided with two return pipes 16, the two return pipes 16 are respectively communicated with the two heat preservation sleeves 3, the rewarming box 17 is used for receiving water flow subjected to heat exchange with the code spraying machine 4, and the water flow is transferred into the water tank 5 through the water inlet pipe 18 to complete water flow circulation;

the water outlet pipe 12 communicated with the inside of the water tank 5 is arranged on the side walls of the heating tank 7 and the refrigerating tank 8, the water outlet pipe 12 is connected with a water pump and used for receiving water flow output by the water tank 5 outwards, a rewarming pipe 23 communicated with the rewarming tank 17 is fixed on the side wall of the cold flow pipe 10, low-temperature air flow is filled in the rewarming pipe 23, so that the water flow after backflow can be cooled, the water flow returned to the inside of the water tank 5 by the rewarming tank 17 is enabled to be restored to a normal temperature state, heating and cooling are not controllable in the subsequent circulation process, the consistency of the initial state of each circulation is guaranteed, the water temperature in contact with the code spraying machine 4 is guaranteed to be controllable, the temperature control effect is improved, a temperature control sensor is arranged at the bottom of the rewarming tank 17, an electromagnetic valve is arranged in the water inlet pipe 18, and when the water flow at the bottom of the rewarming tank 17 is restored, the water flow is led back into the water tank 5.

The centralized mechanism comprises a mixing box 11 fixed on the side wall of the rack 1, a heat preservation pipe 14 is fixed at the upper end of the mixing box 11, a distribution pipe 15 is fixedly connected to the end part of the heat preservation pipe 14, two ends of the distribution pipe 15 are respectively connected with two heat preservation sleeves 3, transfer pipes 13 connected with the inside of the mixing box 11 are respectively arranged on the side walls of the heating box 7 and the refrigerating box 8, the heat preservation pipes 14 uniformly supply water, the distribution pipe 15 is divided into the two heat preservation sleeves 3 in a bisecting way, and two code spraying machines 4 are only in working and the other one is in a non-working contrast state at the same time, so that an upper temperature sensor shows the ambient temperature;

when the working temperature and the environment temperature are different, the difference is relatively smaller, however, once the working fault of the ink jet printer 4 occurs, the temperature difference is amplified, so that warning is made, when the line of the ink jet printer 4 heats, the temperature is obviously increased, so that the number is obviously different, when the concentration of the ink supplied by the ink jet printer 4 is too high or too low, the quality of the ink is affected, however, the heat transfer effects of the ink are different, the temperature difference of the ink jet printer 4 is correspondingly increased, when the spray head of the ink jet printer 4 is blocked, the quality of the ink jet printer is affected, the ink in the ink jet printer 4 in the working state cannot be timely removed, the temperature is increased, and the temperature difference is obviously increased, so that the fault of the ink jet printer 4 in the working state can be quickly known according to the temperature contrast, the timely adjustment and maintenance are realized, and the existence of the two ink jet printers 4 can ensure the production of the production line when the fault occurs.

The temperature regulating plate 22 is a semiconductor refrigerating plate, one side is refrigerated and one side is heated after being electrified, and when the power supply direction is changed, the refrigerating and heating surfaces are changed, so that when the temperature of the code spraying machine 4 is changed slightly, the temperature can be regulated and controlled quickly through the quick temperature change of the temperature regulating plate 22, the defect that the temperature cannot be controlled with high precision due to water flow mixing can be overcome, the integral temperature control effect is improved, the support 19 is fixed at the upper end of the rack 1, the drying tube 20 is arranged on the side wall of the support 19, one end of the drying tube 20 is communicated with a hot air flow pipe of the vortex tube 6, the drying spray head 21 is arranged at the other end of the drying tube 20, part of hot air flow supplied by the vortex tube 6 is filled into the drying tube 20, so that the hot air flow is sprayed out by the drying spray head 21, and the sprayed package is subjected to drying treatment through hot air flow, so that the ink is quickly dried, and the integral code spraying quality is improved;

example two

Referring to fig. 9 to 12, the present embodiment differs from the first embodiment in that a driving mechanism and a hybrid reinforcement mechanism are added; wherein the method comprises the steps of

The driving mechanism includes:

the air mixing box 24, the air mixing box 24 is fixed at the bottom of the bench 1, the hot flow pipe 9, the cold flow pipe 10 and the rewarming pipe 23 are all communicated with the air mixing box 24, redundant cold and hot air flows discharged by equipment enter the air mixing box 24, the temperature of the cold and hot air flows is basically recovered after the cold and hot air flows are mixed, and the discharge does not greatly influence the surrounding environment;

the driving box 25, the driving box 25 is fixed on the sidewall of the rack 1, the driving box 25 is communicated with the gas mixing box 24 through a power pipe 26, the inner wall of the driving box 25 is connected with a rotating shaft 27 in a penetrating and rotating manner, a section of fixed sidewall of the rotating shaft 27 positioned in the driving box 25 is fixed with a rotating plate 28, the rotating plate 28 drives the rotating shaft 27 to rotate under the impact of air flow, the kinetic energy of the discharged air flow is utilized for driving, and the energy is fully utilized;

the mixing reinforcing mechanism is arranged in the mixing box 11, and is used for stirring cold and hot water flow after entering the mixing box 11 so as to improve the temperature control speed and effect.

The mixing reinforcement mechanism includes:

a mixing sleeve 30, the mixing sleeve 30 being fixed to a side wall of the mixing box 11;

the stirring blades 29, the stirring blades 29 are fixed on the side wall of the rotating shaft 27, and the stirring blades 29 continuously rotate under the drive of the rotating shaft 27, so that cold and hot water flow entering the mixing box 11 is sufficiently stirred, and the water flow temperature in the mixing box 11 rapidly reaches the required temperature;

the end part of the rotating shaft 27 penetrates through the mixing box 11 and rotates in a sealing way with the side wall of the mixing box 11, the rotating shaft 27 is connected with the side wall of the mixing sleeve 30 in a penetrating way in a rotating way, a bump 33 is fixed on the side wall of a section of the rotating shaft 27 positioned in the mixing sleeve 30, a piston plate 35 is connected with the inner wall of the mixing sleeve 30 in a sealing sliding way, a spring 34 is fixed on the piston plate 35 and the inner top part of the mixing sleeve 30 together, the bump 33 abuts against the piston plate 35, a water inlet hole 31 is formed in the upper end of the mixing sleeve 30, a water outlet hole 32 is formed in the lower end of the mixing sleeve 30, a transfer hole 36 is formed in the side wall of the piston plate 35 in a penetrating way, and one-way valves are arranged in the water inlet hole 31 and the transfer hole 36;

the lug 33 rotates under the drive of the rotating shaft 27, so that the intermittent piston plate 35 is contacted, and then the intermittent piston plate 35 is pushed to move, so that the piston plate 35 reciprocates under the action of the elastic force of the spring 34, water flow in the upper area of the mixing box 11 is pumped and transferred to the lower part of the mixing box 11, and then the mixed water flow is transferred and re-mixed, the consistency of the temperature of the output water flow is greatly improved, and the stability of water flow temperature supply is improved.

The stirring blade 29 is hollow, the inner wall of the stirring blade 29 is connected with a sliding plate 37 in a sealing and sliding manner, the sliding plate 37 and the inner wall of the stirring blade 29 are fixedly provided with a deformation strip 38 together, the deformation strip 38 is made of memory metal, the memory metal generates shape change when the temperature changes, the deformation strip 38 is arranged in a folding manner, the shape change is telescopic change, the side wall of the stirring blade 29 is provided with a low-temperature hole 39 and a low-temperature hole Gao Wenkong 40 in a penetrating manner, and the low-temperature holes 39 and Gao Wenkong are respectively positioned on two sides of the sliding plate 37;

in the process that the rotating shaft 27 drives the stirring blade 29 to rotate, when the stirring blade 29 is close to the heat supply transfer pipe 13, the stirring blade 29 is subjected to the action of high-temperature water flow and is deformed to be elongated, the sliding plate 37 is pushed to move, the sliding plate 37 can extract and store the high-temperature water flow and discharge the internal low-temperature water flow, when the stirring blade 29 carries the high-temperature water flow to be transferred to the cold supply transfer pipe 13, the stirring blade is subjected to the action of external low temperature, so that the stored high-temperature water flow is discharged, the low-temperature water flow is extracted, and the circulation is performed.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (8)

1. Automatic change production line with packing spouts a yard device, characterized by includes:

a mounting assembly;

the heat preservation assembly is arranged above the installation assembly; wherein the method comprises the steps of

The mounting assembly includes:

a stand (1);

the two mounting frames (2) are arranged at the upper end of the bench (1) through bolts;

the heat preservation sleeve (3) is fixed at the upper end of the mounting frame (2);

the ink jet printer (4) is fixed on the inner wall of the heat preservation sleeve (3), and the heat preservation sleeve (3) preserves heat of the ink jet printer (4);

the temperature sensor is arranged on the side wall of the code spraying machine (4) and is used for monitoring the temperature of the code spraying machine (4);

a temperature regulating sheet (22) which is arranged on the side wall of the heat insulation sleeve (3);

the insulation assembly includes:

the productivity mechanism provides a heat source and a cold source when the code spraying machine (4) works, and maintains the working temperature of the code spraying machine (4) in a water supply mode, so that the code spraying machine (4) is in a stable working state, and the code spraying quality is improved;

the cold-hot converting mechanism is used for absorbing a heat source and outputting the heat to the concentrating mechanism when the ink-jet printer (4) works, the output heat is adjustable, the absorbing cold source is output to the concentrating mechanism, the working temperature of the ink-jet printer (4) is adjusted, and part of the cold source is used for cooling return water, so that the temperature of the recovered water flow is recovered, and the circulating temperature control is facilitated;

and the concentration mechanism is used for concentrating the cold source and the heat source to perform mixed treatment when the ink jet printer (4) works so as to form stable heat preservation water flow.

2. The packaging code spraying device for an automatic production line according to claim 1, wherein,

the productivity mechanism comprises:

the water tank (5), the water tank (5) is fixed on the upper end of the rack (1), and two water pumps are arranged in the water tank (5);

the vortex tube (6), the vortex tube (6) is fixed in water tank (5) upper end, the air inlet of vortex tube (6) is connected with peripheral hardware air compressor machine.

3. The packaging code spraying device for an automatic production line according to claim 2, wherein,

the cold-hot converting mechanism includes:

the heating box (7), the said heating box (7) is fixed to the upper end of the rack (1);

the heat flow pipes (9) penetrate and are fixed at the upper end of the heating box (7), the heat flow pipes (9) are connected with hot air pipelines of the vortex tube (6), and electromagnetic valves are arranged in the heat flow pipes (9);

the refrigerating box (8), the said refrigerating box (8) is fixed to the upper end of the rack (1);

the cold flow pipe (10) penetrates through and is fixed at the upper end of the refrigeration box (8), and the cold flow pipe (10) is connected with a cold air pipeline of the vortex tube;

the temperature recovery box (17), the said temperature recovery box (17) is fixed to the upper end of the rack (1);

the water inlet pipe (18) is arranged on the side wall of the rewarming box (17), and the water inlet pipe (18) is communicated with the water tank (5);

the two return pipes (16) are fixed at the upper end of the rewarming box (17), and the two return pipes (16) are respectively communicated with the two heat preservation sleeves (3);

the rewarming pipe (23) is fixed on the side wall of the cold flow pipe (10) and is communicated with the rewarming box (17);

and the side walls of the heating box (7) and the refrigerating box (8) are respectively provided with a water outlet pipe (12) communicated with the inside of the water tank (5).

4. A packaging code spraying device for an automated manufacturing line according to claim 3, wherein,

the centralizing mechanism comprises:

a mixing box (11), wherein the mixing box (11) is fixed on the side wall of the rack (1);

the heat preservation pipe (14) is fixed at the upper end of the mixing box (11);

the distribution pipe (15) is fixed at the end part of the distribution pipe (15) and is communicated with the heat insulation pipe (14), and two ends of the distribution pipe (15) are respectively communicated with the two heat insulation sleeves (3);

the side walls of the heating box (7) and the refrigerating box (8) are respectively provided with a transfer pipe (13) communicated with the inside of the mixing box (11).

5. The packing and code spraying device for the automatic production line according to claim 4, wherein,

the temperature regulating piece (22) is a semiconductor refrigerating piece, a support (19) is fixed at the upper end of the rack (1), a drying pipe (20) is arranged on the side wall of the support (19), one end of the drying pipe (20) is communicated with a hot gas flow pipe of the vortex tube (6), and a drying spray head (21) is arranged at the other end of the drying pipe (20).

6. The automated packaging code spraying apparatus for a production line of claim 5, further comprising:

a driving mechanism and a mixing reinforcement mechanism; wherein the method comprises the steps of

The driving mechanism includes:

the air mixing box (24), the air mixing box (24) is fixed at the bottom of the rack (1), and the heat flow pipe (9), the cold flow pipe (10) and the rewarming pipe (23) are all communicated with the air mixing box (24);

the driving box (25), the driving box (25) is fixed on the side wall of the rack (1), the driving box (25) is communicated with the gas mixing box (24) through a power pipe (26), the inner wall of the driving box (25) is connected with a rotating shaft (27) in a penetrating and rotating manner, and a rotating plate (28) is fixed on one section of fixed side wall of the rotating shaft (27) positioned in the driving box (25);

the mixing reinforcing mechanism is arranged in the mixing box (11), and the temperature control speed and effect are improved by stirring the cold and hot water flow after the cold and hot water flow enters the mixing box (11).

7. The packaging code spraying device for an automatic production line according to claim 6, wherein,

the mixing enhancement mechanism includes:

a mixing sleeve (30), wherein the mixing sleeve (30) is fixed on the side wall of the mixing box (11);

a stirring blade (29), wherein the stirring blade (29) is fixed on the side wall of the rotating shaft (27);

the end of the rotating shaft (27) penetrates through the mixing box (11) and rotates in a sealing manner with the side wall of the mixing box (11), the rotating shaft (27) is connected with the side wall of the mixing sleeve (30) in a penetrating manner, a protruding block (33) is fixed on the side wall of one section of the rotating shaft (27) located inside the mixing sleeve (30), a piston plate (35) is connected with the inner wall of the mixing sleeve (30) in a sealing sliding manner, a spring (34) is jointly fixed on the inner top of the piston plate (35) and the inner top of the mixing sleeve (30), the protruding block (33) abuts against the piston plate (35), a water inlet hole (31) is formed in the upper end of the mixing sleeve (30), a water outlet hole (32) is formed in the lower end of the mixing sleeve (30), a transfer hole (36) is formed in the side wall of the piston plate (35) in a penetrating manner, and one-way valves are arranged inside the water inlet hole (31) and the transfer hole (36).

8. The packaging code spraying device for an automatic production line according to claim 7, wherein,

the stirring blade (29) is hollow and the inner wall is in sealed sliding connection with a sliding plate (37), the sliding plate (37) and the inner wall of the stirring blade (29) are jointly fixed with a deformation strip (38), the deformation strip (38) is made of memory metal, the side wall of the stirring blade (29) is penetrated and provided with a low-temperature hole (39) and a low-temperature hole (Gao Wenkong) (40), and the low-temperature hole (39) and the low-temperature hole Gao Wenkong (40) are respectively positioned on two sides of the sliding plate (37).

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