CN117246052B - Anti-adhesion self-service medical film printing equipment - Google Patents

Abstract

The invention provides anti-adhesion self-service medical film printing equipment, and mainly relates to the technical field of medical self-service printing equipment. The utility model provides an anti-adhesion even medical film printing apparatus of self-service, includes self-service printing apparatus body, the chamber door is installed in articulated in the preceding lower part of self-service printing apparatus body, the groove has been seted up to the preceding one side of chamber door, the inslot fixed mounting has the guide way, the guide way is towards the play piece mouth of film printer, one side of guide way is equipped with air cooling mechanism, the upper portion at the back of guide way is equipped with the jet module with air cooling mechanism intercommunication. The invention has the beneficial effects that: the invention provides low-temperature air flow for the air jet assembly through the air cooling mechanism, so that the air jet assembly performs air blowing and cooling treatment on the freshly printed film, the surface temperature of the film is reduced, and the film is prevented from being adhered at the film outlet.

Description

Anti-adhesion self-service medical film printing equipment

Technical Field

The invention mainly relates to the technical field of medical self-service printing equipment, in particular to anti-adhesion self-service medical film printing equipment.

Background

In the medical industry, it is often desirable to use film printing equipment, particularly in the diagnostic process, upon which a doctor needs to rely. Medical self-service film printing equipment is equipment for printing medical films and is commonly used in medical institutions such as hospitals, clinics and the like. The device can help doctors and patients to quickly acquire films, improves the working efficiency and the satisfaction degree of the patients, provides an integrated solution from the films and the report self-service printer to self-service printing software, adopts an integrated design, is humanized in interface, is convenient and fast in operation mode, and also has the functions of opening accounts, registering, reserving, taking numbers, paying fees, inquiring and the like, so that the requirements of the patients are met, and the information construction of hospitals can be better assisted.

When the existing self-service medical film printing device is used, because the surface temperature of a newly printed film is higher, when a plurality of films are mutually stacked, the films are easy to adhere to each other and are not easy to separate, and the images on the films are easy to scratch to influence the observation of a doctor, so that the printing quality is influenced, and inconvenience is brought to a user. Therefore, it is necessary to design an anti-sticking self-service medical film printing device to improve printing quality and user experience.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides anti-adhesion self-service medical film printing equipment which is realized by the following technical scheme:

the utility model provides an anti-adhesion self-service medical film printing equipment, includes self-service printing equipment body, self-service printing equipment body is internally equipped with controller host computer and film printer, self-service printing equipment body's top integral type fixed mounting display, self-service printing equipment body front lower part articulates installs the chamber door, the through-groove has been seted up to one side in chamber door the front, fixed mounting has the guide way in the through-groove, the guide way is towards the play piece mouth of film printer, one side of guide way is equipped with air cooling mechanism, the upper portion at the guide way rear is equipped with the jet module with air cooling mechanism intercommunication, air cooling mechanism includes lower extreme open's a chimney, the lower extreme integral type of chimney has the air guide tube, fixed mounting has the gas guide block that can make air be spiral form entering a chimney in the air guide tube, form the cavity that the air guide block stops with the air guide tube inner wall between the chamber door, the center fixed mounting of air guide tube inner wall top surface has the toper piece, just the guide way has the air vent, the air guide tube has the air vent towards the film printer's the air outlet, the air guide tube has the air vent of air guide tube, the air guide tube has the air vent of the air guide tube to the air guide tube, the air guide tube has the air vent of the air guide tube fixed connection to the air guide tube, the air guide tube has the air vent of the air guide tube fixed to the air guide tube, the lower extreme of honeycomb duct vertically runs through the bottom of gas cylinder and rather than fixed connection, the honeycomb duct is linked together with the cold air pipe, the honeycomb duct is located the one end of a chimney and is the tubaeform structure.

Further, the periphery of a vertical cylinder is fixedly provided with a heat preservation cylinder, the air guide cylinder and the flow guide pipe are both positioned in the heat preservation cylinder, the cold air pipe vertically penetrates through the bottom of the heat preservation cylinder and is fixedly connected with the bottom of the heat preservation cylinder, one end of the cold air pipe extends into the flow guide pipe, a corresponding gap exists between the lower end of the flow guide pipe and the bottom of the inner wall of the heat preservation cylinder, a plurality of exhaust holes are formed in the periphery of the top surface of the heat preservation cylinder, and the heat preservation cylinder is fixedly arranged on one side of the guide groove through the support.

Further, the jet assembly comprises a connecting pipe, the connecting pipe is fixedly arranged at the rear part of the top surface of the guide groove, one end of the connecting pipe is communicated with the cold air pipe, a plurality of transverse bent pipes are fixedly arranged at the rear part of the periphery of the connecting pipe, and air nozzles are fixedly arranged at the lower ends of the bent pipes.

Further, a booster pump is arranged on the cold air pipe and fixedly arranged on the top surface of the guide groove.

Further, the bottom of the guide groove is of an arc-shaped structure.

Further, the air inlet pipe is fixedly connected with the air guide cylinder along the tangential direction of the air guide cylinder.

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

according to the self-service medical film printing device, the air cooling mechanism is arranged on one side of the guide groove, the air injection assembly communicated with the air cooling mechanism is arranged on the upper portion of the guide groove, and low-temperature air flow is provided for the air injection assembly through the air cooling mechanism, so that the air injection assembly can blow and cool the film just printed, the surface temperature of the film is reduced, and the film is prevented from being adhered at the film outlet.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

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

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

FIG. 4 is a schematic cross-sectional view taken along line B-B of FIG. 2;

FIG. 5 is an enlarged view of a portion of FIG. 4;

FIG. 6 is a schematic view of the structure of the insulating cylinder of the present invention;

FIG. 7 is a schematic cross-sectional view of a thermal insulation barrel of the present invention;

FIG. 8 is an enlarged view of a portion of FIG. 7;

FIG. 9 is a schematic view of the internal structure of the inventive riser;

FIG. 10 is a schematic view of the structure of the gas guiding block of the present invention;

FIG. 11 is a schematic view of the chute arrangement of the present invention.

The reference numbers shown in the drawings: 1. a self-service printing device body; 2. a controller host; 3. a film printer; 4. a display; 5. a door; 6. a through groove; 7. a guide groove; 8. a vertical tube; 9. a gas cylinder; 10. a gas flow guiding block; 11. a conical block; 12. an exhaust groove; 13. a cold air pipe; 14. an air booster pump; 15. an air inlet pipe; 16. a groove; 17. a chute; 18. a through hole; 19. a flow guiding pipe; 20. a heat preservation cylinder; 21. an exhaust hole; 22. a bracket; 23. a connecting pipe; 24. bending the pipe; 25. an air nozzle; 26. and a booster pump.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments. It is to be understood that these examples are illustrative of the present invention and are not intended to limit the scope of the present invention. Further, it will be understood that various changes or modifications may be made by those skilled in the art after reading the teachings of the invention, and such equivalents are intended to fall within the scope of the invention as defined herein.

Examples: anti-adhesion self-service medical film printing equipment

As shown in fig. 1-11, an anti-adhesion self-service medical film printing device comprises the following specific structures:

the self-service printing device comprises a self-service printing device body 1, a heat radiation fan is arranged at the back of the self-service printing device body 1, a controller host 2 and a film printer 3 are arranged in the self-service printing device body 1, the controller host 2 and the film printer 3 are electrically connected with a power supply, the controller host 2 and the film printer 3 are electrically connected, a display 4 is fixedly arranged at the top of the self-service printing device body 1, the display 4 is electrically connected with the power supply and the controller host 2, the display 4 is a touch display panel, one side of the display 4 is provided with a card reading module and a code scanning module, the self-service printing device body 1 is also provided with a camera module and a loudspeaker, a box door 5 is hinged to the lower part of the front of the self-service printing device body 1, a transparent groove 6 is formed in one side of the box door 5, a guide groove 7 is fixedly arranged in the transparent groove 6, the guide groove 7 faces a film outlet of the printer 3, the rear end of the guide groove 7 is abutted against the film outlet of the printer 3, and one side of the guide groove 7 is provided with a cooling mechanism and the air injection mechanism is communicated with the film assembly.

The air cooling mechanism comprises a vertical cylinder 8 with an opening at the lower end, the upper end of the vertical cylinder 8 is of a closed structure, the lower end of the vertical cylinder 8 is integrally and fixedly provided with an air guide cylinder 9, the air guide cylinder 9 is of a cylindrical cylinder structure, the air guide cylinder 9 is mutually communicated with the vertical cylinder 8, an air guide block 10 which can enable air to spirally enter the vertical cylinder 8 is fixedly arranged in the air guide cylinder 9, a cavity for air to stay is formed between the air guide block 10 and the inner wall of the air guide cylinder 9, a conical block 11 is fixedly arranged in the center of the top surface of the inner wall of the vertical cylinder 8, exhaust grooves 12 are formed in the periphery of the conical block 11, the lower end of the vertical cylinder 8 is communicated with a cold air pipe 13, one end of the cold air pipe 13 is communicated with an air injection assembly, an air booster pump 14 is fixedly arranged at the back of the box door 5 and is electrically connected with a power supply, an air outlet fixedly connected with one end of an air inlet pipe 15 of the air booster pump 14, the other end of the air inlet pipe 15 is fixedly connected with one side of the air guide cylinder 9, and the air inlet pipe 15 is fixedly connected with the air inlet pipe 9. When the structure design is used, compressed air is introduced into the air guide cylinder 9 connected with the air guide cylinder through the air booster pump 14 by the air inlet pipe 15, high-pressure air enters a cavity between the air guide block 10 and the inner wall of the air guide cylinder 9 and then is spirally introduced into the vertical cylinder 8 after being changed by the air guide block 10, the air in the vertical cylinder 8 spirally moves upwards, the air in the central part is spirally conveyed by the air at the central part due to high angular velocity of the air at the central part, so that the air in the vertical cylinder 8 is mutually rubbed, namely, the air in the central part is converted into kinetic energy through internal energy and drives the air close to the inner wall of the vertical cylinder 8 to move through the friction, the internal energy of the air in the central part is converted into kinetic energy to be lost, the temperature of the central part is reduced to form low-temperature air, the low-temperature air is directly discharged from the air discharge groove 12 to the outside, the low-temperature air is gathered due to the blocking of the conical block 11, the low-temperature air pressure close to one end of the conical block 11 is increased, the low-temperature air reversely moves and finally is conveyed to the air jetting assembly through the air duct 13, and the low-temperature air is finally blown to the film after printing through the jetting assembly.

The top surface of gas guide block 10 has seted up flutedly 16, a plurality of chute 17 that are linked together with gas guide cylinder 9 have been seted up around the recess 16, the front of chute 17 all communicates with riser 8, chute 17 is annular array and distributes around recess 16, through-hole 18 has been seted up at the center of recess 16 top surface, fixed mounting has honeycomb duct 19 in the through-hole 18, the upper end of honeycomb duct 19 extends to in the riser 8, the bottom of honeycomb duct 19 vertically runs through the bottom of gas guide cylinder 9 and rather than fixed connection, honeycomb duct 19 is linked together with cold air pipe 13, the one end that honeycomb duct 19 is located in riser 8 is horn-shaped structure, and the horn-shaped structure of honeycomb duct 19 tip can hinder the flow of air current to form the high-pressure region between messenger's honeycomb duct 19 horn-shaped tip and the gas guide block 10, after the air current passes through the space between honeycomb duct 19 horn-shaped tip and the riser 8 because the upper portion space grow and lead to the pressure to reduce, thereby can make the air current's velocity of flow, make the air current flow can obtain bigger kinetic energy, promote the air current and flow, promote the regional cooling effect of central air current to lose in the area in the center.

. The high-pressure air enters the cavity between the air guide block 10 and the inner wall of the air guide cylinder 9 and then enters the vertical cylinder 8 along the corresponding chute 17, namely, the air enters the vertical cylinder 8 in different directions at an inclined angle, and the air can spirally move upwards after entering the vertical cylinder 8, so that the air in the vertical cylinder 8 can generate a vortex effect; the air flow entering the vertical cylinder 8 from the chute 17 is firstly contacted with the periphery of the guide pipe 19, then the air flow can move upwards in a spiral shape along the periphery of the guide pipe 19, the air flow is guided, and the low-temperature air flow can be outwards conveyed into the cold air pipe 13 through the guide pipe 19, so that the conveying of the low-temperature air flow is ensured.

The periphery of the vertical cylinder 8 is fixedly provided with a heat preservation cylinder 20, the air guide cylinder 9 and the flow guide pipe 19 are both positioned in the heat preservation cylinder 20, the cold air pipe 13 vertically penetrates through the bottom of the heat preservation cylinder 20 and is fixedly connected with the heat preservation cylinder, one end of the cold air pipe 13 extends into the flow guide pipe 19, a gap is reserved between the cold air pipe 13 and the flow guide pipe 19, a corresponding gap exists between the lower end of the flow guide pipe 19 and the bottom of the inner wall of the heat preservation cylinder 20, a plurality of exhaust holes 21 are formed in the periphery of the top surface of the heat preservation cylinder 20, and the heat preservation cylinder 20 is fixedly arranged on one side of the guide groove 7 through a support 22. After low-temperature air enters the flow guide pipe 19, the low-temperature air is conveyed downwards along the flow guide pipe 19, as the cold air pipe 13 extends into the flow guide pipe 19, a gap is reserved between the cold air pipe 13 and the flow guide pipe 19, the end part of the cold air pipe 13 has an obstruction effect on conveying cold air flow, and the air pressure in the flow guide pipe 19 can be enhanced, so that a part of low-temperature air flow can pass through the gap between the cold air pipe 13 and the flow guide pipe 19 and finally enter the heat preservation cylinder 20, the cooling effect on the heat preservation cylinder 20 is realized, at the moment, the cold air flow in the heat preservation cylinder 20 can exchange heat with the vertical cylinder 8, the heat dissipation effect of the vertical cylinder 8 is improved, the temperature of hot air flow close to the inner wall of the vertical cylinder 8 is reduced, the heat exchange efficiency of central air flow in the vertical cylinder 8 and the air flow close to the inner wall of the vertical cylinder 8 is further improved, and the cooling efficiency of the central air flow is improved.

The jet assembly comprises a connecting pipe 23, the connecting pipe 23 is fixedly arranged at the rear part of the top surface of the guide groove 7, one end of the connecting pipe 23 is communicated with the cold air pipe 13, a plurality of transverse bent pipes 24 are fixedly arranged at the rear part of the periphery of the connecting pipe 23, air nozzles 25 are fixedly arranged at the lower ends of the bent pipes 24, and the air nozzles 25 are vertically downward. When the structure design is used, cold air flow is conveyed to the connecting pipe 23 connected with the cold air pipe 13, and the cold air flow is sprayed out from the rubber sheet below by the air nozzle 25 after passing through the bent pipe 24, so that the rapid cooling of the rubber sheet is realized, and the adhesion between the rubber sheets is prevented.

The cold air pipe 13 is provided with a booster pump 26, the booster pump 26 is electrically connected with a power supply, and the booster pump 26 is fixedly arranged on the top surface of the guide groove 7. The booster pump 26 can raise the air pressure of the cold air flow sent from the cold air pipe 13 into the connecting pipe 23, thereby ensuring that the cold air flow can be smoothly sprayed outwards and improving the reliability of the device.

The bottom of the guide groove 7 is of an arc-shaped structure. The structure design can facilitate the film to smoothly enter the guide groove 7 after being discharged in the film printer 3, and has the effect of bearing the film.

The air inlet pipe 15 is fixedly connected with the air guide cylinder 9 along the tangential direction of the air guide cylinder 9. The air inlet pipe 15 is arranged in such a way that the angle of the air flow entering the air guide cylinder 9 is vertical to the inner wall of the air guide cylinder, so that the air flow can move along the inner wall of the air guide cylinder 9, and the flow speed of the air flow in the air guide cylinder 9 can be ensured.

The using method comprises the following steps:

when the device is used, low-temperature air is conveyed to the air injection mechanism through the air cooling mechanism, the air is injected to the printed film through the air injection mechanism, the heat dissipation effect of the film is improved, the film can be cooled rapidly, the surface temperature of the film is reduced, adhesion cannot occur when the film is stacked, the printing quality and effect of the film are guaranteed, and the device is convenient to use.

In the explanation of the present invention, it should be noted that the term "azimuth" is merely for convenience of description and understanding, and does not limit the installation position of specific technical features uniquely, but does not exclude other installation manners that can be implemented.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (4)

1. The utility model provides an anti-adhesion even medical film printing apparatus by oneself, includes self-service printing apparatus body (1), be equipped with controller host computer (2) and film printer (3) in self-service printing apparatus body (1), self-service printing apparatus body (1) top integral type fixed mounting display (4), its characterized in that: the lower part in front of self-service printing equipment body (1) articulates installs chamber door (5), one side in front of chamber door (5) has been seted up and has been permeated groove (6), fixed mounting has guide way (7) in permeate groove (6), guide way (7) are towards the play piece mouth of film printer (3), one side of guide way (7) is equipped with air cooling mechanism, the upper portion in back of guide way (7) is equipped with the jet assembly with air cooling mechanism intercommunication, air cooling mechanism includes lower extreme open-ended vertical tube (8), the lower extreme integral type of vertical tube (8) has air guide cylinder (9), fixed mounting has gas guide block (10) that can make air be spiral entering vertical tube (8) in air guide cylinder (9), form the cavity that the air feed stays between gas guide block (10) and the inner wall of air guide cylinder (9), the center fixed mounting of the inner wall top surface of vertical tube (8) has conical block (11), and the top surface of vertical tube (8) is equipped with the jet assembly that communicates with air cooling mechanism, and jet assembly (14) that air inlet tube (8) are equipped with in the lower extreme open-ended vertical tube (8), air guide pump (14) is connected with one end of air inlet pump (14) in the fixed connection, the other end of the air inlet pipe (15) is fixedly connected with one side of the air guide cylinder (9), the top surface of the air guide block (10) is provided with a groove (16), a plurality of inclined grooves (17) communicated with the air guide cylinder (9) are formed around the groove (16), the inclined grooves (17) are distributed around the groove (16) in an annular array, a through hole (18) is formed in the center of the top surface of the groove (16), a guide pipe (19) is fixedly installed in the through hole (18), the upper end of the guide pipe (19) extends into the vertical cylinder (8), the lower end of the guide pipe (19) vertically penetrates through the bottom of the air guide cylinder (9) and is fixedly connected with the bottom of the air guide cylinder, the guide pipe (19) is communicated with the cold air pipe (13), one end of the guide pipe (19) located in the vertical cylinder (8) is in a horn-shaped structure, a heat preservation cylinder (20) is fixedly arranged on the periphery of the vertical cylinder (8), the guide pipe (9) and the guide pipe (19) are both located in the cylinder (20), the cold air pipe (13) vertically penetrates through the bottom of the guide pipe (20) and is fixedly connected with the bottom of the corresponding cold air guide pipe (19) and the bottom of the cold air guide pipe (13) fixedly extends to the bottom of the cold air guide pipe (13) in the corresponding space (20), the utility model discloses a thermal insulation device, including a plurality of air vents (21), a plurality of exhaust holes (21) have been seted up around thermal insulation section of thick bamboo (20) top surface, thermal insulation section of thick bamboo (20) set firmly in one side of guide way (7) through support (22), jet module includes connecting pipe (23), connecting pipe (23) fixed mounting is in the rear portion of guide way (7) top surface, the one end and the cold air pipe (13) of connecting pipe (23) are linked together, the rear portion fixed mounting of connecting pipe (23) periphery has return bend (24) of a plurality of transverse arrangement, the equal fixed mounting of lower extreme of return bend (24) has air nozzle (25).

2. The anti-adhesion self-service medical film printing device according to claim 1, wherein: the cold air pipe (13) is provided with a booster pump (26), and the booster pump (26) is fixedly arranged on the top surface of the guide groove (7).

3. The anti-adhesion self-service medical film printing device according to claim 1, wherein: the bottom of the guide groove (7) is of an arc-shaped structure.

4. The anti-adhesion self-service medical film printing device according to claim 1, wherein: the air inlet pipe (15) is fixedly connected with the air guide cylinder (9) along the tangential direction of the air guide cylinder (9).