CN220738744U

CN220738744U - Full-automatic cleaning sterilizer

Info

Publication number: CN220738744U
Application number: CN202322462472.6U
Authority: CN
Inventors: 吴美娟
Original assignee: Jiangsu Baike Medical Equipment Technology Co ltd
Current assignee: Jiangsu Baike Medical Equipment Technology Co ltd
Priority date: 2023-09-11
Filing date: 2023-09-11
Publication date: 2024-04-09
Anticipated expiration: 2033-09-11

Abstract

The utility model discloses a full-automatic cleaning sterilizer, which comprises a cleaning cabin, wherein a top spray is arranged on the top wall of the cleaning cabin, a bottom spray is arranged on the bottom surface of the cleaning cabin, the upper end of the cleaning cabin is connected with a disinfection water tank, a water inlet pipeline, an upper drying pipeline and an air outlet, the disinfection water tank is connected with the water inlet pipeline, the side surface of the cleaning cabin is connected with a diversion pipeline for leading water into the bottom spray, one side of the cleaning cabin is connected with a lower drying pipeline and a spray pipeline, the spray pipeline is connected with the diversion pipeline for leading water into the top spray, and the upper drying pipeline is also connected with the diversion pipeline.

Description

Full-automatic cleaning sterilizer

Technical Field

The utility model relates to the technical field of cleaning and sterilizing devices, in particular to a full-automatic cleaning and sterilizing device.

Background

When the existing cleaning sterilizer cleans, disinfects and dries medical equipment, a plurality of single loops are usually used for working, and in order to improve the cleaning capability, some cleaning sterilizers can spray up and down at the same time to clean the equipment, so that the number of the pipeline loops connected to the cleaning cabin is increased; and the operation of a single loop is usually carried out during drying, so that airflow flows unidirectionally, and the drying efficiency is reduced, therefore, in order to improve the cleaning and cleaning capability and the drying efficiency, the full-automatic cleaning sterilizer is designed, and the cleaning and drying operation can be carried out in multiple directions and at multiple angles by connecting a split pipeline on the cleaning cabin, so that the cleaning and drying efficiency is improved.

Disclosure of Invention

The utility model aims to provide a full-automatic cleaning sterilizer, by arranging a diversion pipeline, water is diverted, one part of water enters a cleaning cabin and bottom spraying from the side surface of the cleaning cabin through the diversion pipeline, and the other part of water is introduced into a plate heat exchanger and enters the top spraying, so that the upper surface, the lower surface and the side surface of an instrument are cleaned simultaneously.

The utility model provides the following technical scheme: the full-automatic cleaning sterilizer comprises a bottom frame, wherein a cleaning cabin is connected to the bottom frame, a top frame is fixed to the upper end of the cleaning cabin, top spraying is arranged on the top wall of the cleaning cabin, bottom spraying is arranged on the bottom surface of the cleaning cabin, the upper end of the cleaning cabin is connected with a sterilizing water tank, a water inlet pipeline, an upper drying pipeline and an air outlet, the sterilizing water tank is connected with the water inlet pipeline, the side surface of the cleaning cabin is connected with a diversion pipeline, the diversion pipeline is used for introducing water into the bottom for spraying, one side of the cleaning cabin is connected with a lower drying pipeline and a spraying pipeline, the spraying pipeline is connected with the diversion pipeline, the spraying pipeline is used for introducing water into the top for spraying, and the upper drying pipeline is also connected with the diversion pipeline;

the shunt pipeline comprises a pipeline main body, the upper end of the pipeline main body is connected with an upper interface, a plurality of shunt ports are formed in the side face of the pipeline main body and are connected with the side face of the cleaning cabin, a spray interface is formed in the side face of the pipeline main body below the shunt ports, the spray interface is connected with the bottom in a spray mode, a side interface is connected with the other side face of the pipeline main body, the side interface is connected with a spray pipeline, the other side face of the pipeline main body is connected with a lower interface downwards, the spray pipeline comprises a circulating pump, and the lower interface of the pipeline main body is connected with the circulating pump.

In order to heat the water body in the shunt pipeline, a heating coil is connected in the shunt pipeline, a steam pipeline is fixed on the side face of the cleaning cabin, and the heating coil is connected with the steam pipeline.

In order to further ensure the temperature of the water body in the top spraying, the spraying pipeline further comprises a plate heat exchanger, the plate heat exchanger is connected with the side interface of the diversion pipeline, the other end of the plate heat exchanger is connected with the top spraying, and the plate heat exchanger is further connected with the steam pipeline.

In order to enable hot air to enter the cleaning cabin along the multiple positions of the split flow pipeline, the upper drying pipeline comprises an upper fan connected to the top frame, an upper heating box is fixed on the side face of the cleaning cabin, a hot air detection box is connected to the side face of the upper heating box through a hose, and the hot air detection box is connected with the split flow pipeline.

In order to improve the drying efficiency of the cleaning cabin, the lower drying pipeline comprises a lower fan, one end of the lower fan is connected with a lower heating box, a lower air inlet pipe is further fixed on the side face of the cleaning cabin, and the lower heating box is connected with the lower air inlet pipe through a hose.

In order to conveniently open or close the cleaning cabin, the both sides of cleaning cabin are connected with the lift door subassembly, the lift door subassembly is including fixing the motor on the underframe, the output of motor is connected with the pivot, be fixed with the synchronizing wheel in the pivot, the both ends of cleaning cabin are fixed with two door slide rails, sliding connection has the door subassembly between the door slide rail, is fixed with the pulley on the door slide rail, be fixed with the hold-in range on synchronizing wheel and the pulley, the door subassembly is connected with the hold-in range.

Compared with the prior art, the utility model has the following beneficial effects:

(1) The water body is split by arranging the split flow pipeline, so that part of liquid can enter the cleaning cabin from the side face of the cleaning cabin along the split flow pipeline, and meanwhile, part of liquid can enter the top spraying through the plate heat exchanger to clean the instrument, so that the upper surface, the lower surface and the side face of the instrument are cleaned at the same time, and the cleaning capacity is improved;

(2) By arranging the upper fan and the lower fan, the cleaning cabin is simultaneously subjected to air inlet from top to bottom, the air inlet amount is larger than the air outlet amount, the heating efficiency in the cleaning cabin is improved, the cleaning cabin is heated uniformly, and the drying efficiency is further improved;

(3) The independent pure water tank is omitted, bacteria generated in the pure water tank are avoided, the temperature of the disinfection water tank is high, and bacteria are not easy to breed.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a perspective view of the overall structure of the present utility model;

FIG. 2 is a perspective view of another view of the overall structure of the present utility model;

FIG. 3 is a schematic view of the overall structure of the present utility model;

FIG. 4 is a schematic view of the structure of the shunt tubes of the present utility model;

in the figure: 1. cleaning the cabin; 11. spraying at the bottom; 12. spraying at the top; 2. a sterilizing water tank; 3. a water inlet pipeline; 4. a spray pipeline; 41. a circulation pump; 42. a plate heat exchanger; 5. a drying pipeline is arranged; 51. feeding a fan; 52. a heating box is arranged on the upper part; 53. a hot air detection box; 6. a lower drying pipeline; 61. a lower fan; 62. a lower heating box; 63. a lower air inlet pipe; 7. a shunt pipeline; 71. a pipe body; 72. a side interface; 73. a shunt port; 74. a lower interface; 75. an upper interface; 76. a spray interface; 8. an air outlet; 9. a steam line; 10. a lifting door assembly; 101. a motor; 102. a synchronizing wheel; 103. a rotating shaft; 104. a pulley; 105. a door slide rail; 106. a door assembly; 100. a bottom frame; 200. and a top frame.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

Referring to fig. 1 to 3, the present utility model provides the following technical solutions: the full-automatic cleaning sterilizer comprises a bottom frame 100, a cleaning cabin 1 is connected to the bottom frame 100, the cleaning cabin 1 is used for placing instruments and cleaning the instruments, a top frame 200 is fixed to the upper end of the cleaning cabin 1, a top spray 12 is installed on the top wall of the cleaning cabin 1, a bottom spray 11 is installed on the bottom surface, the top spray 12 and the bottom spray 11 can simultaneously rinse the upper end and the lower end of the instruments, the cleaning area is increased, the cleaning capacity is improved, a sterilizing water tank 2, a water inlet pipeline 3, an upper drying pipeline 5 and an air outlet 8 are connected to the upper end of the cleaning cabin 1, the sterilizing water tank 2 is connected with the water inlet pipeline 3, the water inlet pipeline 3 is directly connected with a tap water pipeline, the sterilizing water tank 2 is used for providing a sterilizing water body in a sterilization procedure, a diversion pipeline 7 is connected to the side face of the cleaning cabin 1, the diversion pipeline 7 is used for leading the water body into the bottom spray 11, one side of the cleaning cabin 1 is connected with a lower drying pipeline 6 and a spraying pipeline 4, the spraying pipeline 4 is connected with the diversion pipeline 7, the water body is used for leading the water body into the top spray 12, the water body into the two paths through the diversion pipeline 7, the water body is divided into two paths through the diversion pipeline 7, the other path is connected with the top spray 12, and the upper drying pipeline 5 and the instrument can be simultaneously cleaned from the upper side face and the upper drying pipeline 1 through the diversion pipeline and the upper drying pipeline and the lower portion of the instrument side face can be connected with the cleaning pipeline through the multi-angle and the water pipeline 7;

as shown in fig. 4, the diversion pipeline 7 comprises a pipeline main body 71, an upper port 75 is connected to the upper end of the pipeline main body 71, the upper port 75 is connected with an upper drying pipeline 5, a plurality of diversion ports 73 are formed in the side surface of the pipeline main body 71 and are connected with the side surface of the cleaning cabin 1, liquid or gas is introduced into the cleaning cabin 1 from the side surface of the cleaning cabin 1 by using the diversion ports 73, a spray port 76 is formed in the side surface of the pipeline main body 71 below the diversion ports 73, the spray port 76 is connected with a bottom spray 11, so that the liquid can enter the bottom spray 11 along the diversion pipeline 7, an interface 72 is connected to the other side surface of the pipeline main body 71, the interface 72 is connected with a spray pipeline 4, the liquid is introduced into the top spray 12 along the spray pipeline 4, a lower port 74 is connected with the other side surface of the pipeline main body 71 downwards, the spray pipeline 4 comprises a circulating pump 41, the liquid in the cleaning cabin 1 is pumped into the diversion pipeline 7 by the circulating pump 41, and the cleaning liquid enters the cleaning cabin 1 from the multiple interfaces along the diversion pipeline 7, and multiple directions are realized, and the cleaning of the apparatus is cleaned in multiple directions.

The inside of the shunt pipeline 7 is connected with a heating coil, the side face of the cleaning cabin 1 is fixed with a steam pipeline 9, the heating coil is connected with the steam pipeline 9, and hot steam is introduced into the heating coil to heat liquid or gas in the shunt pipeline 7, so that the heating efficiency is improved.

As shown in fig. 2, the spray pipeline 4 further comprises a plate heat exchanger 42, the plate heat exchanger 42 is connected with the side interface 72 of the split flow pipeline 7, the other end of the plate heat exchanger 42 is connected with the top spray 12, the plate heat exchanger 42 is further connected with the steam pipeline 9, the heating efficiency of the plate heat exchanger 42 is improved by introducing steam into the plate heat exchanger 42, and meanwhile, liquid which is heated in the plate heat exchanger 42 is introduced into the top spray 12, so that the cleaning capacity of the liquid is improved.

The upper drying pipeline 5 comprises an upper fan 51 connected to the top frame 200, an upper heating box 52 is fixed on the side surface of the cleaning cabin 1, a hot air detection box 53 is connected to the side surface of the upper heating box 52 through a hose, the hot air detection box 53 is connected with the split pipeline 7, during drying, outside air is introduced into the cleaning cabin 1 by the upper fan 51, the air is heated by the upper heating box 52, and the introduced air is subjected to gas-water separation by the hot air detection box 53, so that moisture is prevented from entering the cleaning cabin 1, and the dryness of the cleaning cabin 1 is ensured.

The lower drying pipeline 6 comprises a lower fan 61, the lower fan 61 also introduces external air into the cleaning cabin 1, one end of the lower fan 61 is connected with a lower heating box 62, the lower heating box 62 dries the introduced air, a lower air inlet pipe 63 is further fixed on the side face of the cleaning cabin 1, the lower air inlet pipe 63 is in a herringbone shape and is in cross connection with the surface of the cleaning cabin 1, the lower air inlet pipe 63 enters from the side face of the cleaning cabin 1, and the lower heating box 62 is connected with the lower air inlet pipe 63 through a hose, so that hot air can enter in multiple directions, and the drying efficiency is improved.

The two sides of the cleaning cabin 1 are connected with lifting door assemblies 10, the lifting door assemblies 10 comprise motors 101 fixed on a bottom frame 100, the output ends of the motors 101 are connected with rotating shafts 103, synchronous wheels 102 are fixed on the rotating shafts 103, two door sliding rails 105 are fixed at the two ends of the cleaning cabin 1, door assemblies 106 are connected between the door sliding rails 105 in a sliding mode, pulleys 104 are fixed on the door sliding rails 105, synchronous belts are fixed on the synchronous wheels 102 and the pulleys 104, the door assemblies 106 are connected with the synchronous belts, the rotation of the motors 101 drives the rotating shafts 103 to rotate, the synchronous wheels 102, the pulleys 104 and the synchronous belts on the surfaces of the synchronous wheels are further rotated, and the door assemblies 106 move up and down along the door sliding rails 105 to open or close the cleaning cabin 1.

The working process comprises the following steps:

pre-washing: pure water is led into the pipeline and the cleaning cabin by utilizing the water inlet pipeline, then the water body is discharged, and the pipeline and the accumulated ash in the cleaning cabin are washed;

cleaning: introducing pure water into a water inlet pipeline to enable water to enter a cleaning cabin firstly, introducing a cleaning agent into the cleaning cabin simultaneously, enabling an instrument to float through the buoyancy of the water, then pumping a part of water into a diversion pipeline by using a circulating pump, spraying a part of water into the cleaning cabin from a side opening and the bottom along the diversion pipeline, cleaning the side surface and the bottom of the instrument, further heating a part of water into a plate heat exchanger, then introducing the water into the top spraying of the plate heat exchanger to clean the upper surface of the instrument, and discharging the water after the cleaning is finished;

rinsing: pure water is introduced, and the washing step is repeated again to rinse;

and (3) disinfection: introducing water in the disinfection water tank, wherein the temperature of the water is 93 ℃, and the rest other steps are the same as the cleaning steps, so that the water is discharged after disinfection is finished;

and (3) drying: opening upper fan and lower fan, both introduce external air in wasing the cabin simultaneously, the air of upper fan can get into the heating cabinet and carry out the heat drying, later get into hot-blast detection incasement, guarantee the aridity of gas, later gas carries out in the reposition of redundant personnel pipeline, make gas get into in wasing the cabin along the reposition of redundant personnel mouth of reposition of redundant personnel pipeline, dry the apparatus, the air of lower fan can get into down in the air-supply line along lower heating cabinet simultaneously, thereby let in wasing the cabin, carry out diversified multi-angle drying to the apparatus in wasing the cabin, drying efficiency has been improved, simultaneously two fans simultaneously the air inlet, make gas be full of wasing in the cabin, guaranteed to wash the cabin be heated evenly, drying efficiency has been improved.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims

1. The full-automatic cleaning sterilizer comprises a bottom frame, be connected with the washing cabin on the bottom frame, the upper end of washing cabin is fixed with the top frame, installs the top on the roof of washing cabin and sprays, installs the bottom on the bottom surface and sprays, the upper end of washing cabin is connected with disinfection water tank, water inlet pipeline, goes up dry pipeline and air outlet, disinfection water tank is connected with water inlet pipeline, its characterized in that: the side of the cleaning cabin is connected with a diversion pipeline, the diversion pipeline is used for leading water into the bottom for spraying, one side of the cleaning cabin is connected with a lower drying pipeline and a spraying pipeline, the spraying pipeline is connected with the diversion pipeline, the spraying pipeline is used for leading water into the top for spraying, and the upper drying pipeline is also connected with the diversion pipeline;

2. The full-automatic cleaning sterilizer of claim 1, wherein: the heating coil is connected in the shunt pipeline, a steam pipeline is fixed on the side face of the cleaning cabin, and the heating coil is connected with the steam pipeline.

3. The full-automatic cleaning sterilizer of claim 2, wherein: the spray pipeline further comprises a plate heat exchanger, the plate heat exchanger is connected with the side interface of the diversion pipeline, the other end of the plate heat exchanger is connected with the top in a spray mode, and the plate heat exchanger is further connected with the steam pipeline.

4. The full-automatic cleaning sterilizer of claim 1, wherein: the upper drying pipeline comprises an upper fan connected to the top frame, an upper heating box is fixed on the side face of the cleaning cabin, a hot air detection box is connected to the side face of the upper heating box through a hose, and the hot air detection box is connected with a shunt pipeline.

5. The full-automatic cleaning sterilizer of claim 1, wherein: the lower drying pipeline comprises a lower fan, one end of the lower fan is connected with a lower heating box, a lower air inlet pipe is further fixed on the side face of the cleaning cabin, and the lower heating box is connected with the lower air inlet pipe through a hose.

6. The full-automatic cleaning sterilizer of claim 1, wherein: the both sides of washing cabin are connected with the lift door subassembly, the lift door subassembly is including fixing the motor on the underframe, the output of motor is connected with the pivot, be fixed with the synchronizing wheel in the pivot, the both ends of washing cabin are fixed with two door slide rails, sliding connection has the door subassembly between the door slide rail, is fixed with the pulley on the door slide rail, be fixed with the hold-in range on synchronizing wheel and the pulley, the door subassembly is connected with the hold-in range.