CN114653652A - Medical filter assembling equipment capable of reducing pollution - Google Patents

Abstract

The invention relates to the technical field of medical equipment processing, and discloses a medical filter assembling device capable of reducing pollution, which comprises an assembling part, a transmission part arranged outside the assembling part, and a conveying belt arranged inside the transmission part, wherein a clearing and eliminating mechanism for sterilizing a shell before assembling is arranged inside the transmission part, and the clearing and eliminating mechanism comprises a flushing cavity, a flushing part, a drying cavity, a drying part, a long groove, a through groove and a positioning hook; through the mutual cooperation between the flushing piece, the drying piece, the elongated slot, the through groove and the positioning hook, can carry out abundant cleaning and disinfection treatment to the filter shell in the transportation process of the filter shell, the condition that the shell is easily polluted before being assembled to cause the filter to be normally put into use is avoided from occurring due to manual operation, and through the mutual cooperation between the spiral tube, the ultraviolet lamp and the transfer cavity, the probability of pollution in the transportation process of the shell can be remarkably reduced, so that the shell can keep a better state during the assembly.

Description

Medical filter assembling equipment capable of reducing pollution

Technical Field

The invention relates to the technical field of medical equipment processing, in particular to medical filter assembling equipment for reducing pollution.

Background

When a patient is clinically infused with liquid medicine, in order to prevent insoluble particles in the liquid medicine from entering a human body along with the liquid medicine, a filter needs to be arranged at the terminal of an infusion apparatus, so that the infusion safety of the patient is ensured. The existing filter mainly comprises a shell, a filter element and other structures, assembly equipment is required to be used for assembly treatment in the production process, but in the assembly and conveying process, the shell is easily polluted due to manual loading and other operations, so that the shell is easily polluted, and a large potential safety hazard is easily caused when the shell is assembled into the filter for use.

Disclosure of Invention

In order to solve the problem that the filter is easy to be polluted due to manual operation in the process of assembly and achieve the aim of cleaning and disinfecting once before assembly, the invention is realized by the following technical scheme: a medical filter assembling device capable of reducing pollution comprises an assembling portion, a transmission portion arranged outside the assembling portion and a conveying belt arranged inside the transmission portion, wherein a clearing mechanism for disinfecting and sterilizing a shell before assembling is arranged inside the transmission portion, the clearing mechanism comprises a shower cavity, a shower piece, a drying cavity, a drying piece, a long groove, a through groove and a positioning hook, the shower cavity is formed in the inner side face of the transmission portion, the shower piece is arranged inside the shower cavity, the drying cavity is formed inside the transmission portion, the drying piece is arranged inside the drying cavity, the long groove is formed in the outer surface of the conveying belt, the positioning hook for limiting the shell is arranged on the inner side face of the long groove, and the through groove communicated with the long groove is formed in the outer surface of the conveying belt.

Furthermore, the showering piece comprises a water pump, a water suction pipe, a water supply pipe, a first liquid guide pipe, a second liquid guide pipe and a spray head, the water pump is arranged inside the transmission part, the water supply pipe and the water suction pipe are respectively arranged at the left end and the right end of the water pump, the first liquid guide pipe and the second liquid guide pipe are fixedly connected inside the showering cavity, and the spray heads are arranged on the outer surfaces of the first liquid guide pipe and the second liquid guide pipe and used for performing showering disinfection treatment on the shell which is conveyed to the assembling part for assembling.

Further, dry piece includes air heater, aspiration channel, blast pipe, air duct, shower nozzle, spiral pipe, ultraviolet lamp, transfer chamber, the inside fixedly connected with air heater of transmission portion, the left and right sides of air heater is equipped with blast pipe and aspiration channel respectively, the outside fixedly connected with spiral pipe of aspiration channel, the transfer chamber has been seted up to the inside of transmission portion, the inside in transfer chamber is equipped with ultraviolet lamp, the inside in dry chamber is equipped with the air duct, the outside of air duct is equipped with the shower nozzle for carry out drying process to drenching the shell after the disinfection to follow-up equipment processing to it.

Furthermore, the first liquid guide pipe is located on the left side of the second liquid guide pipe, the spray heads on the first liquid guide pipe face the conveying direction of the shell, the number of the second liquid guide pipes is three, the spray heads on the second liquid guide pipe are arranged in the flushing cavity at equal intervals from left to right, the spray heads on the second liquid guide pipe face downwards, a waste liquid collecting cavity communicated with the flushing cavity is formed in the transmission part, the water supply pipe is communicated with the first liquid guide pipe and the second liquid guide pipe, the number of the spray heads corresponds to the long grooves, the spray heads arranged on the first liquid guide pipe in an inclined mode can well flush and disinfect the interior of the shell, and the spray heads arranged on the second liquid guide pipe downwards can well flush and disinfect the outer surface of the shell.

Further, the blast pipe is linked together with the air duct, the quantity of air duct is three and top-down sets gradually the left end in dry intracavity portion, the both ends of spiral pipe are linked together with aspiration channel and transfer chamber respectively, the inside of transmission portion is equipped with the air-supply line that is linked together with the transfer chamber, ultraviolet lamp's quantity is two and the symmetry sets up at the upper and lower both ends of spiral pipe, through the setting of spiral pipe, can make the air that outside got into can stop the time of being of a specified duration in the transfer chamber to make ultraviolet lamp can carry out sterilization and disinfection to being used for drying the external gas and handle.

Furthermore, an energy-saving and environment-friendly circulating mechanism is arranged in the transmission part, the circulating mechanism comprises a dewatering cavity, a grid plate, a water absorption sponge, a liquid guide groove, a liquid discharge groove, a waste discharge pipe, a communicating groove and a vibration motor, a water removing cavity is arranged inside the transmission part, three grid plates are arranged inside the water storage cavity at equal intervals from top to bottom, the top of the grid plate is embedded with water-absorbing sponge, the inner side surface of the grid plate is provided with a liquid guide groove corresponding to the water-absorbing sponge, the bottom of the grid plate is fixedly connected with a vibration motor, the inner side surface of the transmission part is provided with a liquid discharge groove communicated with the liquid guide groove, a waste discharge pipe communicated with the liquid discharge groove is arranged in the transmission part, a communication groove communicated with the dewatering cavity and the transfer cavity is arranged on the inner side surface of the transmission part, the hot air flow with a large amount of water vapor can be dried, and the dried hot air flow can be recycled to dry the shell in the drying cavity.

Furthermore, the specifications of the grid plate and the water absorption sponge correspond to the water removal cavity, and the communicating groove is formed below the grid plate, so that hot air with a large amount of water vapor can be fully subjected to water removal treatment, and the hot air for circulation can be kept in a dry state.

The present invention provides a reduced contamination medical filter assembly apparatus. The method has the following beneficial effects:

1. this medical filter equipment of reducing pollution, through the piece that drenches, the drying member, the elongated slot, lead to mutually supporting between groove and the location hook, can carry out abundant cleaning and disinfecting to it in filter shell transportation process, avoided manual operation to make the shell easily receive the pollution before the equipment and lead to the unable normal condition of coming into operation of filter to take place, and through the spiral pipe, ultraviolet lamp and transfer chamber between mutually supporting, contaminated probability in the shell transportation process can be showing and reduced, make the shell can keep better state when the equipment.

2. This medical filter equipment of pollution reduction through mutually supporting between grid tray, the sponge that absorbs water, liquid guide groove and the intercommunication groove, dehumidifies the hot gas flow that contains a large amount of steam and recycles it to can reduce the energy consumption effectively, resources are saved makes filter equipment's energy-concerving and environment-protective performance better.

Drawings

FIG. 1 is a schematic view of the present invention in partial cross section;

FIG. 2 is a schematic view of a connection structure of a portion of the structure shown in FIG. 1 according to the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the structure at B in FIG. 2 according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 2 at C according to the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 2;

fig. 7 is a schematic view of the structure of the conveyor belt of the present invention.

In the figure: 1. an assembling part; 2. a transmission part; 3. a conveyor belt; 4. a clearing mechanism; 41. a shower cavity; 42. a shower member; 421. a water pump; 422. a suction pipe; 423. a water supply pipe; 424. a first catheter; 425. a second catheter; 426. a shower head; 43. a drying chamber; 44. drying the workpiece; 441. a hot air blower; 442. an air suction pipe; 443. an air supply pipe; 444. an air duct; 445. a spray head; 446. a spiral tube; 447. an ultraviolet lamp; 448. a transfer chamber; 449. an air inlet pipe; 45. a long groove; 46. a through groove; 47. a positioning hook; 5. a circulating mechanism; 51. a water removal cavity; 52. a grid plate; 53. a water-absorbing sponge; 54. a liquid guide groove; 55. a liquid discharge tank; 56. a waste discharge pipe; 57. a communicating groove; 58. a vibration motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An embodiment of the reduced contamination medical filter assembly apparatus is as follows:

referring to fig. 1-7, a medical filter assembly device for reducing pollution includes an assembly portion 1, a transmission portion 2 disposed outside the assembly portion 1, and a conveyor belt 3 disposed inside the transmission portion 2, a cleaning mechanism 4 for disinfection and sterilization before assembling a housing is disposed inside the transmission portion 2, the cleaning mechanism 4 includes a shower cavity 41, a shower member 42, a drying cavity 43, a drying member 44, a long groove 45, a through groove 46, and a positioning hook 47, the shower cavity 41 is disposed on an inner side surface of the transmission portion 2, the shower member 42 is disposed inside the shower cavity 41, the drying cavity 43 is disposed inside the transmission portion 2, the drying member 44 is disposed inside the drying cavity 43, the long groove 45 is disposed on an outer surface of the conveyor belt 3, the positioning hook 47 is disposed on an inner side surface of the long groove 45 for limiting the housing, and the through groove 46 communicated with the long groove 45 is disposed on an outer surface of the conveyor belt 3.

The shower part 42 comprises a water pump 421, a water suction pipe 422, a water supply pipe 423, a first liquid guide pipe 424, a second liquid guide pipe 425 and a spray head 426, the water pump 421 is arranged in the transmission part 2, the water supply pipe 423 and the water suction pipe 422 are respectively arranged at the left end and the right end of the water pump 421, the first liquid guide pipe 424 and the second liquid guide pipe 425 are fixedly connected in the shower cavity 41, and the spray head 426 is arranged on the outer surfaces of the first liquid guide pipe 424 and the second liquid guide pipe 425 and used for performing shower disinfection treatment on a shell which is conveyed to the assembly part 1 for assembly.

The drying part 44 comprises an air heater 441, an air suction pipe 442, an air supply pipe 443, an air guide pipe 444, a spray head 445, a spiral pipe 446, an ultraviolet lamp 447 and a transfer cavity 448, the air heater 441 is fixedly connected inside the transmission part 2, the air supply pipe 443 and the air suction pipe 442 are respectively arranged on the left side and the right side of the air heater 441, the spiral pipe 446 is fixedly connected outside the air suction pipe 442, the transfer cavity 448 is arranged inside the transmission part 2, the ultraviolet lamp 447 is arranged inside the transfer cavity 448, the air guide pipe 444 is arranged inside the drying cavity 43, the spray head 445 is arranged outside the air guide pipe 444, and the shell subjected to flushing and sterilizing is dried so as to be conveniently assembled and processed subsequently.

The first liquid guide pipe 424 is positioned on the left side of the second liquid guide pipe 425, the spray heads 426 on the first liquid guide pipe 424 face the conveying direction of the shell, the number of the second liquid guide pipes 425 is three, the spray heads 426 on the second liquid guide pipe 425 face downwards, the inside of the transmission part 2 is provided with a waste liquid collecting cavity communicated with the shower cavity 41, the water supply pipe 423 is communicated with the first liquid guide pipe 424 and the second liquid guide pipe 425, the number of the spray heads 426 corresponds to that of the long grooves 45, the inside of the shell can be well flushed and disinfected by inclining the spray heads 426 arranged on the first liquid guide pipe 424, and the outer surface of the shell can be well flushed and disinfected by the spray heads 426 arranged downwards on the second liquid guide pipe 425.

The blast pipe 443 is communicated with the air duct 444, the number of the air ducts 444 is three, the left ends are sequentially arranged at the inner part of the drying cavity 43 from top to bottom, two ends of the spiral tube 446 are respectively communicated with the air suction pipe 442 and the transfer cavity 448, the inside of the transmission part 2 is provided with the air inlet pipe 449 communicated with the transfer cavity 448, the number of the ultraviolet lamps 447 is two, the ultraviolet lamps 447 are symmetrically arranged at the upper end and the lower end of the spiral tube 446, the air entering from the outside can stay in the transfer cavity 448 for a longer time through the arrangement of the spiral tube 446, and therefore the ultraviolet lamps 447 can sterilize and disinfect the air used for drying the outside.

The energy-saving and environment-friendly circulating mechanism 5 is arranged in the transmission part 2, the circulating mechanism 5 comprises a dewatering cavity 51, grid plates 52, absorbent sponge 53, a liquid guide groove 54, a liquid discharge groove 55, a waste discharge pipe 56, a communicating groove 57 and a vibrating motor 58, the dewatering cavity 51 is arranged in the transmission part 2, three grid plates 52 are arranged in the dewatering cavity 51 at equal intervals from top to bottom, the absorbent sponge 53 is embedded in the top of each grid plate 52, the liquid guide groove 54 corresponding to the absorbent sponge 53 is arranged on the inner side surface of each grid plate 52, the vibrating motor 58 is fixedly connected to the bottom of each grid plate 52, the liquid discharge groove 55 communicated with the liquid guide groove 54 is arranged on the inner side surface of the transmission part 2, the waste discharge pipe 56 communicated with the liquid discharge groove 55 is arranged in the transmission part 2, the communicating groove 57 communicated with the dewatering cavity 51 and the transfer cavity 448 is arranged on the inner side surface of the transmission part 2, and hot air with a large amount of water vapor can be dried, and the dried hot air flow can be recycled to dry the shell in the drying cavity 43, the specifications of the grid plate 52 and the water absorption sponge 53 correspond to the water removal cavity 51, and the communicating groove 57 is arranged below the grid plate 52, so that the hot air with a large amount of water vapor can be fully subjected to water removal treatment, and the circulated hot air can be kept in a dry state.

The working principle is as follows: in the practical use process, an operator places the shell in the long groove 45 on the conveyor belt 3, the shell is conveyed towards the assembling part 1 under the conveying action of the conveyor belt 3, the shell sequentially passes through the showering cavity 41 and the drying cavity 43 in the conveying process, when the shell enters the showering cavity 41, the cleaning and disinfecting water is conveyed to the interiors of the first liquid guide pipe 424 and the second liquid guide pipe 425 under the pumping action of the water pump 421, and then is sprayed out from the spray heads 426 arranged on the first liquid guide pipe 424, the cleaning and disinfecting water sprayed out of the interior of the shell can flush the interior of the shell to clean and disinfect the interior of the shell due to the inclined arrangement of the spray heads 426 on the first liquid guide pipe 424, and the spray heads 426 arranged on the second liquid guide pipe 425 are arranged downwards, so that the cleaning and disinfecting water sprayed out of the port can directly flow out of the shell to be sufficiently disinfected and disinfected, the shell can be prevented from being in a pollution state when being assembled;

when the shell enters the drying cavity 43 along with the conveyor belt 3, the hot air blower 441 is in a working state, and conveys hot air flow towards the inside of the air guide tube 444 through the air supply tube 443, the hot air flow entering the inside of the air guide tube 444 is sprayed out from the spray head 445 arranged outside the air guide tube 444, and the sprayed hot air flow is contacted with the shell and is dried, so that the shell passing through the showering cavity 41 and the drying cavity 43 can be sufficiently sterilized and dried, and the situation that the pollution of the manufactured filter is caused by the fact that the shell is easily polluted due to manual operation can be greatly avoided;

when the hot air blower 441 works, a large suction force is generated at the suction pipe 442, so that under the flow guiding effect of the transit cavity 448, outside air can enter the hot air blower 441 through the transit cavity 448 to be heated, and the air entering the transit cavity 448 can enter the hot air blower 441 after passing through the spiral pipe 446 and the suction pipe 442, so that the outside air can stay in the transit cavity 448 for a longer time when entering the inside of the hot air blower 441, and the ultraviolet lamp 447 can sterilize and disinfect the outside air used for drying the shell, so that the probability of pollution of the shell in the assembling process is greatly reduced;

the hot air can continuously flow downwards after passing through the shell, at the moment, the hot air contains a large amount of water vapor, the hot air containing the large amount of water vapor can pass through the water absorption sponge 53 in the downward flowing process, so that the water vapor in the hot air can be absorbed and removed through the water absorption sponge 53, the dehydrated hot air can enter the transfer cavity 448 through the communicating groove 57 and then enter the spiral pipe 446 and the air suction pipe 442 into the hot air blower 441 for cyclic utilization, and because the dehumidified hot air still contains a large amount of heat, the heat required by the hot air blower 441 for heating the hot air blower is less, so that the energy consumption can be effectively reduced, and the energy-saving and environment-friendly performance of the filter assembling equipment is better;

with the continuous passing of the hot air with moisture, the water in the water absorbing sponge 53 is more and more, so as to slide downwards along the bottom of the grid plate 52 and enter the waste discharge pipe 56 from the liquid guide groove 54, and under the continuous vibration action of the vibration motor 58, the downward flow speed of the water in the water absorbing sponge 53 can be accelerated, so that the water absorbing sponge 53 can continuously maintain an efficient water removing state.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a medical filter equipment of assembling that reduces pollution, includes equipment portion (1), sets up transmission portion (2) outside equipment portion (1) and sets up conveyer belt (3) inside transmission portion (2), its characterized in that: a disinfection mechanism (4) for disinfecting and sterilizing the shell before assembly is arranged in the transmission part (2), the cleaning and disinfecting mechanism (4) comprises a showering cavity (41), a showering piece (42), a drying cavity (43), a drying piece (44), a long groove (45), a through groove (46) and a positioning hook (47), a shower cavity (41) is arranged on the inner side surface of the transmission part (2), a shower piece (42) is arranged in the shower cavity (41), a drying cavity (43) is arranged inside the transmission part (2), a drying piece (44) is arranged inside the drying cavity (43), the outer surface of the conveying belt (3) is provided with a long groove (45), the inner side surface of the long groove (45) is provided with a positioning hook (47) for limiting the shell, the outer surface of the conveying belt (3) is provided with a through groove (46) communicated with the long groove (45).

2. A reduced contamination medical filter assembly apparatus according to claim 1 wherein: the shower part (42) comprises a water pump (421), a water suction pipe (422), a water delivery pipe (423), a first liquid guide pipe (424), a second liquid guide pipe (425) and a spray head (426), the water pump (421) is arranged inside the transmission part (2), the water delivery pipe (423) and the water suction pipe (422) are respectively arranged at the left end and the right end of the water pump (421), the first liquid guide pipe (424) and the second liquid guide pipe (425) are fixedly connected inside the shower cavity (41), and the spray head (426) is arranged on the outer surfaces of the first liquid guide pipe (424) and the second liquid guide pipe (425).

3. A reduced contamination medical filter assembly apparatus according to claim 1 wherein: the drying piece (44) comprises an air heater (441), an air suction pipe (442), an air supply pipe (443), an air guide pipe (444), a spray head (445), a spiral pipe (446), an ultraviolet lamp (447) and a transfer cavity (448), the air heater (441) is fixedly connected with the inside of the transmission part (2), the left side and the right side of the air heater (441) are respectively provided with the air supply pipe (443) and the air suction pipe (442), the outside of the air suction pipe (442) is fixedly connected with the spiral pipe (446), the transfer cavity (448) is arranged inside the transmission part (2), the ultraviolet lamp (448) is arranged inside the transfer cavity (448), the air guide pipe (444) is arranged inside the drying cavity (43), and the spray head (445) is arranged outside the air guide pipe (444).

4. A reduced contamination medical filter assembly apparatus according to claim 2 wherein: the first liquid guide pipe (424) is located on the left side of the second liquid guide pipe (425), spray heads (426) on the first liquid guide pipe (424) face the conveying direction of the shell, the number of the second liquid guide pipes (425) is three, the second liquid guide pipes are arranged inside the flushing cavity (41) at equal intervals from left to right, a waste liquid collecting cavity communicated with the flushing cavity (41) is formed inside the transmission part (2), the water supply pipe (423) is communicated with the first liquid guide pipe (424) and the second liquid guide pipe (425), and the number of the spray heads (426) corresponds to that of the long grooves (45).

5. A reduced contamination medical filter assembly apparatus according to claim 3 wherein: the utility model discloses a drying chamber, including blast pipe (443), air duct (444), transmission portion (2), blast pipe (443) and air duct (444) are linked together, the quantity of air duct (444) is three and top-down sets gradually at the inside left end in drying chamber (43), the both ends of spiral pipe (446) are linked together with aspiration channel (442) and transfer chamber (448) respectively, the inside of transmission portion (2) is equipped with air-supply line (449) that are linked together with transfer chamber (448), ultraviolet lamp (447) are two and the symmetry sets up the upper and lower both ends at spiral pipe (446).

6. A reduced contamination medical filter assembly apparatus according to claim 3 wherein: the energy-saving and environment-friendly circulating mechanism (5) is arranged inside the transmission part (2), the circulating mechanism (5) comprises a dewatering cavity (51), grid plates (52), absorbent sponge (53), liquid guide grooves (54), liquid discharge grooves (55), waste discharge pipes (56), a communicating groove (57) and a vibrating motor (58), the dewatering cavity (51) is formed inside the transmission part (2), three grid plates (52) are arranged inside the dewatering cavity (51) at equal intervals from top to bottom, the absorbent sponge (53) is embedded in the top of each grid plate (52), the liquid guide grooves (54) corresponding to the absorbent sponge (53) are formed in the inner side surface of each grid plate (52), the vibrating motor (58) is fixedly connected to the bottom of each grid plate (52), the liquid discharge grooves (55) communicated with the liquid guide grooves (54) are formed in the inner side surface of the transmission part (2), and the liquid discharge pipes (56) communicated with the liquid discharge grooves (55) are arranged inside the transmission part (2), the inner side surface of the transmission part (2) is provided with a communicating groove (57) which is communicated with the dewatering cavity (51) and the transfer cavity (448).

7. A reduced contamination medical filter assembly apparatus according to claim 6 wherein: the specifications of the grid plate (52) and the water absorption sponge (53) correspond to the water removal cavity (51), and the communicating groove (57) is arranged below the grid plate (52).

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