CN213698100U - Split cabinet type medical cleaning and sterilizing machine - Google Patents
Split cabinet type medical cleaning and sterilizing machine Download PDFInfo
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- CN213698100U CN213698100U CN202022159121.4U CN202022159121U CN213698100U CN 213698100 U CN213698100 U CN 213698100U CN 202022159121 U CN202022159121 U CN 202022159121U CN 213698100 U CN213698100 U CN 213698100U
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Abstract
The utility model discloses a medical cleaning and disinfecting machine of components of a whole that can function independently cabinet formula, this machine refrigeration compressor unit install outside the rack, and built-in atomizing sprays and ultrasonic cleaning and disinfection system, gas mixture circulation condensation is retrieved and ozone disinfection system, gas mixture and ozone remain discharge system and intelligent control circuit system, and its work flow is: the microprocessor controls the spray pressure pump to spray cleaning disinfectant onto clothes to be cleaned and disinfected in the cabinet or pump the cleaning disinfectant into the ultrasonic cleaning and disinfecting tank to be cleaned and disinfected, accumulated liquid is pumped back after the cleaning disinfectant is finished, the fan and the external refrigeration compressor set are started again to circularly condense mixed gas in the cabinet, the cleaning disinfectant is recycled, clothes drying is finished simultaneously, then ozone is disinfected in a synergy manner, purified air is sucked into the cabinet by the fan finally, and trace cleaning disinfectant and ozone residues stored in the cabinet are diluted and discharged outdoors. The machine is suitable for nondestructive cleaning and disinfection of objects such as medical protective clothing which are weak in external force bearing and high temperature bearing capacity.
Description
Technical Field
The utility model relates to the technical field of medical equipment, in particular to a split cabinet type medical cleaning and sterilizing machine.
Background
From the current medical cleaning equipment, a large-power and large-capacity industrial washing machine is generally adopted, in the cleaning process, the effect of removing dirt is achieved through high-strength friction force generated between clothes and clothes, between the clothes and a cylinder body, between the clothes and cleaning solution, and after the high-strength friction force acts on the clothes, high-strength pulling force or tension force can be naturally generated on materials and structures inside the clothes, so that if the medical protective clothing containing components such as non-woven fabrics, polyethylene, polypropylene, structural adhesive and the like is washed by the industrial washing machine, the medical protective clothing is completely damaged due to the fact that the medical protective clothing is weak in capability of bearing mechanical stirring external power and friction force, and the medical protective clothing cannot be applied at all.
As for the existing disinfection equipment after cleaning, the following three types can be classified according to different disinfection and sterilization modes:
1. physical type: the equipment mainly adopts modes of high temperature, high energy ray, illumination and the like to kill virus and bacteria, and comprises a hot air sterilizer, a heat radiation sterilizer, a high temperature steam sterilizer, a boiling sterilizer, a pressure steam sterilizer, an ultraviolet sterilizer, a high energy electron linear accelerator, cobalt-60 gamma source irradiation equipment and the like;
2. chemical type: the device mainly adopts a chemical agent mode to kill virus and bacteria, and comprises an ethylene oxide sterilizer, a formaldehyde sterilizer, an ozone sterilizer, a hydrogen peroxide sterilizer, a peracetic acid sterilizer, a glutaraldehyde sterilizer and the like;
3. mixing: the device is used for killing virus and bacteria in the same device by adopting physical and chemical modes, such as ultraviolet disinfection and ozone disinfection.
Although the above disinfection and sterilization equipment has different principles and structures, and different use cost, places and disinfection and sterilization duration, the disinfection and sterilization effect is often obvious, and particularly, the disinfection and sterilization equipment adopts physical and chemical modes such as far infrared rays, ultraviolet rays and ozone to kill in a synergistic manner, so that the disinfection and sterilization effect is often good, and the disinfection and sterilization equipment can completely achieve non-toxicity and sterility. Of course, the existing disinfection and sterilization equipment has certain limitations, which mainly appear in the following three aspects:
1. impairment of the properties: for medical protective clothing, latex medical articles and plastic tableware containing component components such as non-woven fabrics, polyethylene, polypropylene, structural adhesive and the like, and for clothes articles such as real silk, fur, pure wool and the like, the existing disinfection and sterilization equipment often causes adverse effects of high-temperature deformation, color change, oxidation and even aging decomposition;
2. harmful environment: chemical disinfectants adopted by the existing disinfection and sterilization equipment, such as ethylene oxide, formaldehyde, glutaraldehyde and the like, are usually healthy killers, are contacted at high concentration or low concentration for a long time, easily cause inflammatory lesions of upper respiratory tract, skin, eyes and nasal mucosa, and have symptoms of cough, dry throat, chest pain, mucosa secretion increase, fatigue, nausea and the like, most of the symptoms are listed as dangerous carcinogens, and the environmental pollution can be caused by direct discharge, so the existing health and environmental protection concept is not met;
3. and (4) limiting places: the sterilization of medical protective clothing and medical latex products containing non-woven fabrics, polyethylene, polypropylene and structural adhesive components is mainly carried out in modes of ethylene oxide, a high-energy electron linear accelerator, cobalt-60 gamma source irradiation and the like, but the sterilization equipment belongs to special equipment, is large in size, has strict and complicated required use environment and operation rules, is only suitable for industrial large-batch sterilization, and cannot be suitable for the sterilization of few-batch and sporadic articles in hospitals.
Due to the limitations of the existing medical cleaning and disinfecting equipment, the existing medical protective clothing is difficult to perform nondestructive cleaning and effective disinfection and sterilization, so that the medical protective clothing can only be used once and is difficult to be changed into the medical protective clothing which is repeatedly used for many times.
SUMMERY OF THE UTILITY MODEL
In order to overcome the not enough of current medical cleaning and disinfection equipment, the utility model provides an external refrigeration compressor unit can be under normal atmospheric temperature and normal pressure (25 +/-5 ℃, 1 atmospheric pressure), to the clothing including medical protective clothing the cabinet type machinery of harmless washing and effective disinfection and sterilization, the basic operating principle of this machine is: atomizing and spraying the cleaning disinfectant on the clothes to be cleaned and disinfected, or pumping the cleaning disinfectant into an ultrasonic cleaning tank filled with the articles to be cleaned and disinfected, continuously or discontinuously atomizing, spraying, cleaning and disinfecting, pumping the cleaning disinfectant back to a storage tank by using a recovery pump, then circularly condensing and liquefying the mixed gas in the cleaning and disinfecting machine, recovering the cleaning disinfectant in the mixed gas, continuously condensing, liquefying and recovering the mixed gas in a continuous and repeated way until the concentration of the cleaning disinfectant in the mixed gas is equal to the value set by the system, automatically or manually selecting and starting an ozone generator by the system according to the characteristics of the articles to be cleaned, cooperatively disinfecting the clothes for a certain time by using ozone, and removing peculiar smell. After the cleaning and disinfecting operation time set by the system automatically or manually is finished, purified air is sucked into the cabinet through the mixed gas and ozone residue discharge system, cleaning disinfectant and ozone residue in the mixed gas in the cabinet are circulated and diluted, and then the purified air is discharged out of the cabinet until the cleaning disinfectant and ozone residue in the cabinet are reduced to be in a near-zero state, so that all cleaning and disinfecting operations are finished.
Utilize the utility model discloses the medical cleaning and disinfecting work of completion belongs to the weak power operation under the normal atmospheric temperature and pressure, does not have mechanical strength roll stirring and high temperature and high pressure, and this is not high to the atress intensity, does not tolerate high temperature article, if contain medical protective clothing, latex medical article etc. of subassembly such as non-woven fabrics, polyethylene, polypropylene, structure glue, can realize harmless washing, accomplishes high-efficient thorough disinfection and sterilization operation simultaneously. In addition, the non-toxic and harmless cleaning disinfectant and the ozone which can be decomposed into oxygen in a short time are selected for synergistic disinfection, so that the non-toxic and low-residue discharge can be realized, the harm to the health of a human body is avoided, the use environment is not polluted, and the device can be conveniently installed in application places such as hospital doctors and nurses dressing rooms and the like nearby as required.
For realizing the above functional characteristics, the utility model discloses the technical scheme who adopts is: the cleaning and sterilizing machine is split type, the appearance of the indoor main machine part is cabinet type, a sealing door, a touch liquid crystal display screen, an air suction inlet, a refrigerant pipe, a lead and an outdoor exhaust pipe are arranged on the cleaning and sterilizing machine, and the cleaning and sterilizing machine is connected with an external refrigeration compressor set through the refrigerant pipe, the lead and the outdoor exhaust pipe, and is characterized in that the machine is internally provided with an atomization spraying and ultrasonic cleaning and sterilizing system, a mixed gas circulating condensation recycling and ozone sterilizing system, a mixed gas and ozone residual discharging system and an intelligent control circuit system, and the components and the connection relationship of each system are as follows:
the atomizing, spraying and ultrasonic cleaning and disinfecting system comprises components and connection relations that: the discharging port of the cleaning disinfectant storage tank is connected with a main liquid conveying pipe, the main liquid conveying pipe is connected with a liquid inlet of a spraying pressure pump, a liquid outlet of the spraying pressure pump is connected with a liquid inlet of a liquid conveying electromagnetic valve, a liquid outlet of the liquid conveying electromagnetic valve is connected with a liquid inlet of each atomizing spray branch pipe, a liquid outlet of each atomizing spray branch pipe is connected with each atomizing spray hole and a suspension clothes rack to be communicated with each partition space in the cabinet, a liquid outlet of the other part of atomizing spray branch pipes is connected with an ultrasonic cleaning tank input pipe and communicated with an ultrasonic generator cleaning tank, a discharging liquid pipe is connected with a discharging and mixed gas output hole, a liquid discharging and mixed gas output hole is connected with a recycling pipe and a liquid inlet of a recycling electromagnetic valve, a liquid outlet of the recycling electromagnetic valve is connected with a recycling main liquid collecting pipe and connected with a liquid inlet of a filter through the, the liquid level and concentration floater sensor of the cleaning disinfectant storage tank floats on the liquid level of the cleaning disinfectant storage tank;
and the mixed gas circulating, condensing, recycling and ozone disinfecting system comprises a mixed gas ozone circulating subsystem and a refrigerant circulating subsystem. The components of the mixed gas ozone circulation subsystem and the connection relationship thereof are as follows: the air outlet of the gas transmission main electromagnetic valve is communicated with the air inlet of the evaporator, a temperature sensor is arranged in the evaporator, the air outlet of the evaporator is communicated with the air inlet of the fan, a condensate gathering output port of the evaporator is communicated with a liquid inlet of the cleaning disinfectant recovery tube, a liquid outlet of the cleaning disinfectant recovery tube is communicated with a cleaning disinfectant storage tank, the air outlet of the fan is provided with a cleaning disinfectant sensor and is communicated with the air inlet of the ozone generator, the air outlet of the ozone generator is communicated with a gas transmission main pipe, a gas input hole is formed in the gas transmission main pipe and is communicated with the inner space of the cabinet, meanwhile, the gas transmission main pipe is respectively provided with a plurality of branch pipes, a gas orifice and a suspension clothes hanger, a effusion discharging and mixed gas output hole is communicated with the air inlet of the mixed gas loop main pipe, and the, thereby forming a pipeline space for closed circulation of the mixed gas ozone; the components of the refrigerant circulation subsystem and the connection relationship thereof are as follows: the refrigerant in the external refrigeration compressor is divided into two paths of output pipes, one path is that the refrigerant output pipe in the external refrigeration compressor is connected with a liquid inlet of an electromagnetic valve of an external condenser, a liquid outlet of the electromagnetic valve of the external condenser is connected with a liquid inlet of a condensing agent pipe in the external condenser, the liquid outlet of the condensing agent pipe in the external condenser is connected with a liquid inlet of the electromagnetic valve of the output pipe of the external condenser, and the liquid outlet of the electromagnetic valve of the output pipe of the external condenser is connected with a liquid; the other circuit is that a refrigerant output pipe in the external refrigeration compressor is communicated with a liquid inlet of a front-end electromagnetic valve of the built-in condenser, a liquid outlet of the front-end electromagnetic valve of the built-in condenser is communicated with a liquid inlet of a rear-end electromagnetic valve of the built-in condenser, and then is connected with a liquid inlet of a condensing agent pipe in the built-in condenser through the liquid outlet of the rear-end electromagnetic valve of the built-in condenser, and the liquid outlet of the condensing agent pipe in the built-in condenser is connected with a; the liquid outlet of the capillary tube is connected with the liquid inlet of a refrigerant tube in the evaporator, the liquid outlet of the refrigerant tube in the evaporator is connected with the liquid inlet of a refrigerant circuit main pipe, and the liquid outlet of the refrigerant circuit main pipe is connected with a refrigerant input pipe of an external refrigeration compressor, so that a pipeline space for closed circulation of the refrigerant is formed; the external refrigeration compressor, the external condenser fan and the external condenser are integrated into a whole and are arranged on an outdoor equipment platform of the cabinet; the inner wall and the outer wall of the cabinet are made of metal sheets with good heat conductivity, the inner wall and the outer wall are isolated by heat insulation materials, and the built-in condenser is directly attached to the outer side surface of the metal sheet on the inner wall of the cabinet;
and the mixed gas and ozone residue discharge system comprises the following components in connection relation: the air inlet of the air input port switch is communicated with outdoor air, the air outlet of the air input port switch is communicated with the air inlet of the air purifier, the air outlet of the air purifier is communicated with the air inlet of the fan, the air outlet of the fan is provided with a cleaning disinfectant sensor, the air outlet of the fan is communicated with the air inlet of the air transmission main pipe, the air transmission main pipe is provided with an air input hole, the air input hole is communicated with the internal space of the cabinet, the air transmission main pipe is further connected with branch pipes arranged between the inner wall and the outer wall of the cabinet, each branch pipe is connected with a corresponding air jet hole and an air inlet of a hanging clothes hanger hose and further communicated with the internal space of the cabinet, the internal space of the cabinet is communicated with the air inlet of a mixed gas loop main pipe through accumulated liquid discharge and mixed gas output holes, the air outlet of the mixed gas loop main pipe is communicated with the air inlet of a, the air outlet of the air exhaust pipe orifice is communicated with outdoor air, thereby forming an exhaust system which is closed in the cabinet and is open outdoors;
and the intelligent control circuit system consists of a power supply module, an input module, a detection module, a data processing module and a control circuit module, and the signal transmission relationship among the circuit modules is as follows: the power module circuit provides voltage stabilization, rectification and overload protection for the whole circuit; the input module circuit inputs corresponding data signals to the microprocessor, and the microprocessor also feeds back and displays the corresponding data signals on the touch liquid crystal screen; the detection module circuit transmits the instant data signals of all the detection sensors to the microprocessor; the microprocessor in the data processing module circuit is a core component of the complete machine intelligent control circuit and is responsible for programmed data operation and control of the complete machine; the control circuit module circuit directly drives the atomization spraying and ultrasonic cleaning and disinfecting system, the mixed gas circulating condensation recycling and ozone disinfecting system, corresponding electrical components of the mixed gas and ozone residual discharge system, an electronic door lock, a voice microphone loudspeaker, an LED illuminating signal lamp and a two-dimensional code printer to perform on, off, operation and stop actions according to instruction signals sent by the microprocessor, and simultaneously feeds back real-time voltage and current data signals of each operating electrical component to the microprocessor, so that a basis is provided for the microprocessor to monitor the operation of the whole machine and adjust parameters in real time. In addition, the hanging clothes rack arranged in the machine cabinet is made of hollow materials, a plurality of atomization spraying holes and air injection holes are formed in the hanging clothes rack, the hanging clothes rack is connected with a three-way electromagnetic valve switch arranged on the inner wall of the machine cabinet through a hose, and a movable hanging hook part is arranged on the hanging clothes rack. The split type cleaning and disinfecting machine manufactured according to the technical scheme can realize automatic, complete and controllable cleaning, disinfecting and sterilizing work, and the specific working flow is as follows.
Firstly, starting an atomization spraying and ultrasonic cleaning and disinfecting system: the cleaning disinfectant is atomized and sprayed to the clothes by a spraying pressure pump or pumped into an ultrasonic cleaning and disinfecting tank, and corresponding continuous or interval operation time is set to ensure the cleaning and disinfecting effect; and after the spraying accumulated liquid container is expired or the ultrasonic cleaning and disinfecting time is expired, the system automatically starts the recovery pump, and the accumulated liquid of the cleaning and disinfecting liquid or the cleaning and disinfecting liquid used in the ultrasonic groove is pumped back to the storage tank to finish the first operation flow of the cleaning and disinfecting machine.
Secondly, starting a mixed gas circulating, condensing, recycling and ozone disinfecting system: after the first operation flow is completed, the cabinet is filled with high-concentration cleaning disinfectant mixed gas, a plurality of liquid cleaning disinfectants are attached to the inner part and the surface of the cleaned and disinfected clothes, a fan and an external refrigeration compressor unit are started for this purpose, the mixed gas in the cabinet is continuously subjected to circulating condensation, the mixed gas flows through an evaporator in a low-temperature state, the cleaning disinfectant vapor in the mixed gas is naturally condensed and liquefied due to cooling, and then flows into a cleaning disinfectant storage tank through a liquid collecting pipe in a gathering manner, the circulation is repeated and continued, the external refrigeration compressor unit stops running until the content of the cleaning disinfectant in the mixed gas is lower than a system set value, so that the maximized recovery of the cleaning disinfectant is realized, and the cleaned and disinfected clothes are also dried. Then according to the anti-oxidation characteristic of the cleaning object, the system automatically or manually selects to start the ozone generator, and then the ozone is used for carrying out synergistic disinfection and sterilization on the clothes for a certain time to remove peculiar smell.
And finally, starting a mixed gas and ozone residual discharge system: after the above-mentioned operation flow is completed, the mixed gas in the cleaning and disinfecting machine and clothes are often mixed with trace cleaning disinfectant and ozone residue, and for eliminating residue, a system is set up, and the fan can be automatically started, and the external air can be directly purified, sucked into the cleaning and disinfecting machine, and can be discharged out of the machine after internal circulation and dilution, and the trace cleaning disinfectant and ozone contained in the discharged gas is harmless to human body, and can not produce pollution to environment.
Intelligent control circuitry: the system is always in an operating state in the operating process of the cleaning and disinfecting machine, and comprises a power module circuit for providing voltage stabilization, rectification and overload protection for a whole machine circuit; the input module circuit inputs corresponding data signals to the microprocessor, and the microprocessor also feeds back and displays the corresponding data signals on the touch liquid crystal screen; the detection module circuit transmits the instant data signals of all the detection sensors to the microprocessor; the microprocessor in the data processing module circuit is responsible for programmed data operation and control of the whole machine; the control circuit module circuit directly drives corresponding electrical components of the atomization spraying and ultrasonic cleaning and disinfecting system, the mixed gas circulating condensation recycling and ozone disinfecting system, the mixed gas ozone residue discharging system and other auxiliary electrical components to perform actions such as opening, closing, running, stopping and the like according to instruction signals sent by the microprocessor, and simultaneously feeds back data signals such as real-time voltage, current and the like of each running electrical component to the microprocessor, so that a basis is provided for the microprocessor to monitor the running of the whole machine and adjust parameters in real time.
Compared with the prior art equipment, the beneficial effects of the utility model are that: the medical weak power cleaning and disinfecting equipment overcomes the defects of the existing medical cleaning and disinfecting equipment, fills the blank of the medical weak power cleaning and disinfecting equipment under normal temperature and normal pressure, can perform nondestructive cleaning and disinfecting on clothes which are not high in stress strength and cannot bear high temperature, comprises the steps of performing daily cleaning and disinfecting on medical protective clothing containing non-woven fabrics, polyethylene, polypropylene and structural adhesive components, latex medical articles, plastic tableware and the like, reduces the use cost of the medical protective clothing for repeated use of the medical protective clothing, reduces medical garbage, and provides the cleaning and disinfecting equipment which is simple, high-efficiency, low in cost, healthy and environment-friendly.
Drawings
In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that although the drawings in the following description are schematic diagrams of the principle structure of the present invention, not specific embodiments of the product structure, for those skilled in the art, the structure diagram of the product object or the modified principle structure diagram can be obtained by simple transformation and adjustment without creative work according to the schematic diagrams of the principle structure.
FIG. 1 is a schematic view of a split cabinet type medical cleaning and disinfecting machine;
FIG. 2 is a schematic view of the principle structure of a split cabinet type medical cleaning and disinfecting machine;
FIG. 3 is a schematic view of an atomized spray and ultrasonic cleaning and disinfecting system;
FIG. 4 is a schematic view of a gas mixture recycling and ozone disinfection system;
FIG. 5 is a schematic view of the mixture and ozone residue discharge system;
FIG. 6 is a block diagram of the structure of the intelligent control circuit system;
FIG. 7 is a schematic view of a built-in movable type spray cleaning and disinfecting hanging clothes hanger;
FIG. 8 is a schematic plan view of the spray holes and the gas injection holes.
In the drawings, the names of the components represented by the respective reference numerals are as follows:
1-cabinet, 2-sealing door, 3-touch liquid crystal display screen, 4-air suction inlet, 5-refrigerant pipe, lead wire and outdoor exhaust pipe, 6-external refrigeration compressor set, 7-exhaust pipe opening, 8-cleaning disinfectant storage tank, 9-infusion main pipe, 10-spray pressure pump, 11-infusion electromagnetic valve, 12-atomization spray branch pipe, 13-atomization spray hole, 14-suspension clothes hanger, 15-ultrasonic cleaning tank input pipe, 16-ultrasonic generator cleaning tank, 17-exhaust pipe, 18-accumulated liquid discharge and mixed gas output hole, 19-recovery pipe, 20-recovery electromagnetic valve, 21-recovery main pipe, 22-filter, 23-recovery pump, 24-cleaning disinfectant storage tank liquid level and concentration float sensor, 25-gas transmission main electromagnetic valve, 26-external condenser electromagnetic valve, 27-external condenser output pipe electromagnetic valve, 28-fan, 29-external refrigeration compressor, 30-external condenser fan, 31-gas transmission main pipe, 32-gas input hole, 33-gas injection hole, 34-mixed gas loop main pipe, 35-evaporator, 36-cleaning disinfectant recovery pipe, 37-capillary pipe, 38-refrigerant loop main pipe, 39-external condenser, 40-temperature sensor, 41-internal condenser front end electromagnetic valve, 42-internal condenser rear end electromagnetic valve, 43-internal condenser, 44-cleaning disinfectant sensor, 45-ozone generator, 46-air input port switch, 47-mixed gas discharge electromagnetic valve, 48-air purifier, 49-hose, 50-three-way electromagnetic valve switch, 51-movable suspension hook.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the drawings in the embodiments of the present invention, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and thus, the scope of protection of the present invention is defined more clearly and definitely. Of course, the described embodiments are only some embodiments of the invention, not all embodiments.
In the description of the present invention, it is to be understood that: the normal temperature is 25 ± 5 ℃, the normal pressure is 1 atmosphere, and the terms "inside", "outside", "up", "down", "middle", "front", "back" and the like indicate the orientation or position relationship, which are only for convenience of description and simplification of the present invention, but do not indicate or imply that the indicated components must have a specific orientation or must be operated in a specific orientation, and thus, should not be construed as limiting the present invention.
It is particularly clear that the cleaning disinfectant in the present embodiment is 70% -75% of medical ethanol, which is not only a very good effective medical disinfectant, but also is used to perform short-time atomization spraying on medical protective clothing, latex medical articles and the like containing components such as non-woven fabric, polyethylene, polypropylene, structural adhesive and the like, without obvious performance damage, and the trace residue discharge is non-toxic and pollution-free, and is a preferred cleaning disinfectant applicable to the present invention, but this is not a limitation on the selection range of the cleaning disinfectant applicable to the present invention, and all equivalent principle structures or equivalent flow transformations made by using the contents of the specification and the drawings of the present invention include other cleaning disinfectants with performance similar to or superior to 70% -75% of medical ethanol, instead of the 70% -75% of medical ethanol cleaning disinfectant used in the examples of the present disclosure, are within the scope of the general description of the invention and the corresponding patent claims.
Refer to fig. 1 medical cleaning and disinfecting machine schematic diagram of components of a whole that can function independently cabinet type, the utility model relates to a medical cleaning and disinfecting machine of components of a whole that can function independently cabinet type, the forward-mounted of rack 1 has compartment sealing door 2 and touch liquid crystal display 3, side (back) face is inlayed and is had air sunction inlet 4, and through the refrigerant pipe, wire and outdoor blast pipe 5 are connected with external refrigeration compressor unit 6, external refrigeration compressor unit 6 is installed on the outdoor equipment platform, exhaust pipe mouth 7 directly communicates with each other with the outside air, wherein rack 1 can adopt the combination formula, except being equipped with the fan, spray the force pump, the main part rack of subassembly such as recycle pump, other rack accessible fastening screw in the top, the middle and bottom, the silica gel sealing washer, link the hose, subassembly such as circuit plug and socket makes up the dilatation, in.
Fig. 2 is a schematic structural diagram of a principle of a split cabinet type medical cleaning and disinfecting machine, which is actually an integrated diagram of fig. 3, fig. 4, fig. 5, fig. 7 and fig. 8, and which includes an atomized spray and ultrasonic cleaning and disinfecting system shown in fig. 3, a mixed gas circulating condensation recovery and ozone disinfecting system shown in fig. 4, a mixed gas and ozone residue discharge system shown in fig. 5, a built-in movable spray cleaning and disinfecting hanging clothes hanger shown in fig. 7, a schematic structural diagram of an atomized spray hole and an air jet hole of fig. 8, and the like.
Fig. 3 is a schematic diagram of an atomized spraying and ultrasonic cleaning and disinfecting system, which is expressed by the sequence of cleaning and disinfecting liquid flowing through each component or space (the flow direction is as indicated by arrows in the figure), and the components and the connection relationship of the system are as follows: the discharge port of the cleaning disinfectant storage tank 8 is connected with a main liquid conveying pipe 9, the main liquid conveying pipe 9 is connected with a liquid inlet of a spraying pressure pump 10, a liquid outlet of the spraying pressure pump 10 is connected with a liquid inlet of a liquid conveying electromagnetic valve 11, a liquid outlet of the liquid conveying electromagnetic valve 11 is connected with a liquid inlet of each atomizing spray branch pipe 12, a liquid outlet of each atomizing spray branch pipe 12 is connected with each atomizing spray hole 13 and a suspension clothes hanger 14 to be communicated with each partition space in the cabinet 1, a liquid outlet of the other part of the atomizing spray branch pipes 12 is connected with an input pipe 15 of an ultrasonic cleaning tank and communicated with a cleaning tank 16 of an ultrasonic generator, a discharge pipe 17 is connected with a effusion discharging and mixed gas output hole 18, the effusion discharging and mixed gas output hole 18 is connected with a recovery pipe 19 and a liquid inlet of a recovery electromagnetic valve 20, a liquid outlet of the recovery electromagnetic valve 20 is connected with a recovery main, the liquid outlet of the recovery pump 23 is connected with the recovery input port of the cleaning disinfectant storage tank 8, and the liquid level and concentration float sensor 24 of the cleaning disinfectant storage tank floats on the liquid level of the cleaning disinfectant storage tank 8.
This system does the utility model discloses start-up operation's first operating system, its operation flow is: through the touch liquid crystal display screen 3 on the cabinet 1, the spraying pressure pump 10 and the infusion electromagnetic valve 11 are automatically or manually started, 70% -75% of medical ethanol disinfection solution in the cleaning disinfection solution storage tank 8 enters each atomizing spraying branch pipe 12 or the ultrasonic cleaning tank input pipe 15 in the cabinet 1 through the infusion main pipe 9, the spraying pressure pump 10 and the infusion electromagnetic valve 11, under the action of pump pressure, the atomizing spraying holes 13 or the ultrasonic cleaning tank input pipe 15 start atomizing spraying or inputting ethanol disinfection solution, clothes in the hanging clothes hanger 14 or the ultrasonic generator cleaning tank 16 are cleaned and disinfected, after the set atomizing spraying cleaning and disinfecting time is up, the spraying pressure pump 10 and the infusion electromagnetic valve 11 are closed, and the ethanol disinfection solution is not conveyed into the cabinet 1. In the process of setting continuous or discontinuous atomization spraying and ultrasonic cleaning and disinfection, and after the cleaning and disinfection time is up, the recovery electromagnetic valve 20 and the recovery pump 23 are started to operate, the ethanol effusion and the ethanol disinfectant in the ultrasonic disinfection tank automatically pass through the exhaust pipe 17, the effusion discharge and mixed gas output hole 18, the recovery pipe 19, the recovery electromagnetic valve 20, the recovery header pipe 21, the filter 22 and the recovery pump 23 and are pumped back to the cleaning and disinfection liquid storage tank 8, when the ethanol aggregation residual liquid in the standby cabinet 1 or the ethanol disinfectant in the ultrasonic generator cleaning and disinfection tank 16 is completely pumped back to the cleaning and disinfection liquid storage tank 8, the recovery electromagnetic valve 20 is closed, and the recovery pump 23 is stopped. During the period, the liquid level and concentration change information of the cleaning disinfectant storage tank 8 is output through the liquid level and concentration sensor 24, and the first operation flow is finished by atomizing, spraying and ultrasonic cleaning and disinfection.
The mixed gas circulating, condensing, recycling and ozone disinfecting system shown in fig. 4 comprises a mixed gas ozone circulating subsystem and a refrigerant circulating subsystem.
The mixed gas ozone circulation subsystem: according to the sequential expression of the mixed gas and the ozone flowing through each component or space (the flow direction is shown as the arrow direction in the figure), the components of the mixed gas and ozone circulation subsystem and the connection relationship thereof are as follows: the air outlet of the gas transmission main electromagnetic valve 25 is communicated with the air inlet of the evaporator 35, a temperature sensor 40 is arranged in the evaporator 35, the air outlet of the evaporator 35 is communicated with the air inlet of the fan 28, the condensate gathering output port of the evaporator 35 is communicated with the liquid inlet and the liquid outlet of the cleaning disinfectant recycling pipe 36, the liquid outlet of the cleaning disinfectant recycling pipe 36 is communicated with the cleaning disinfectant storage tank 8, the air outlet of the fan 28 is provided with a cleaning disinfectant sensor 44 and is communicated with the air inlet of the ozone generator 45, the air outlet of the ozone generator 45 is communicated with the gas transmission main pipe 31, the gas transmission main pipe 31 is provided with a gas input hole 32 which leads to the inner space of the cabinet 1, meanwhile, the gas transmission main pipe 31 is respectively provided with a plurality of branch pipes which are communicated with the gas injection hole 33 and the hanging clothes hanger 14, the effusion discharging and mixed gas output hole 18 is communicated with the gas inlet of the mixed gas loop, thus forming a pipeline space for closed circulation of the mixed gas ozone.
A refrigerant circulation subsystem: expressed in the sequence of refrigerant flowing through each component (as shown by the flow arrows in the figure), the components of the refrigerant circulation subsystem and the connection relationship thereof are as follows: the refrigerant in the external refrigeration compressor 29 is divided into two paths of output pipes, one path is that the refrigerant output pipe in the external refrigeration compressor 29 is connected with the liquid inlet of an external condenser electromagnetic valve 26, the liquid outlet of the external condenser electromagnetic valve 26 is connected with the liquid inlet of a condensing agent pipe in an external condenser 39, the liquid outlet of the condensing agent pipe in the external condenser 39 is connected with the liquid inlet of an external condenser output pipe electromagnetic valve 27, and the liquid outlet of the external condenser output pipe electromagnetic valve 27 is connected with the liquid inlet of a capillary tube 37; the other path is that a refrigerant output pipe in the external refrigeration compressor 29 is communicated with a liquid inlet of a front-end electromagnetic valve 41 of the built-in condenser, a liquid outlet of the front-end electromagnetic valve 41 of the built-in condenser is communicated with a liquid inlet of a rear-end electromagnetic valve 42 of the built-in condenser, and then is connected with a liquid inlet of a condensing agent pipe in the built-in condenser 43 through the liquid outlet of the rear-end electromagnetic valve 42 of the built-in condenser, and the liquid outlet of the condensing agent pipe in the built-in condenser 43 is connected with a liquid inlet; the liquid outlet of the capillary tube 37 is connected with the liquid inlet of the refrigerant tube in the evaporator 35, the liquid outlet of the refrigerant tube in the evaporator 35 is connected with the liquid inlet of the refrigerant circuit header pipe 38, and the liquid outlet of the refrigerant circuit header pipe 38 is connected with the refrigerant input tube of the external refrigeration compressor 29, so that a pipeline space for closed circulation of the refrigerant is formed; the external refrigeration compressor 29, the external condenser fan 30 and the external condenser 39 are integrated into a whole, and are arranged on an outdoor equipment platform of the cabinet 1 like a daily seen air conditioner host. The inner wall and the outer wall of the cabinet 1 are made of metal sheets with good heat conductivity, the inner wall and the outer wall are isolated by heat insulation materials, and the built-in condenser 43 is directly attached to the outer side surface of the metal sheets on the inner wall of the cabinet 1.
The operation flow of the system is as follows:
the mixed gas in the cabinet 1 is subjected to condensation circulation and ozone synergistic disinfection: when the first operation flow recovery pump 23 stops running, the main gas transmission electromagnetic valve 25, the external condenser electromagnetic valve 26 and the external condenser output pipe electromagnetic valve 27 in the cabinet 1 are opened, meanwhile, the fan 28, the external refrigeration compressor 29 and the external condenser fan 30 are started to operate, the mixed gas in the cabinet 1 is input into each partition space in the cabinet 1 through the gas input hole 32, the gas injection hole 33 and the hanging clothes rack 14 along the gas transmission main pipe 31 under the pressure of the fan 28, then is discharged through the accumulated liquid discharge and the mixed gas output hole 18, and is transmitted to the evaporator 35 along the mixed gas loop main pipe 34, because the mixed gas is cooled by resistance, the ethanol gas and the water vapor in the mixed gas are condensed, liquefied and gathered, and reflows to the cleaning disinfectant storage tank 8 through the cleaning disinfectant recycling pipe 36, thereby realizing the recycling of part of 70-75% ethanol disinfectant after use; the mixed gas after condensing and recycling part of the 70% -75% ethanol disinfectant has greatly reduced ethanol and water vapor content, is input into each space in the cabinet 1 through the gas transmission main pipe 31 again under the action of the fan 28, dilutes the mixed gas again, carries the mixed gas with the part of the 70% -75% ethanol disinfectant left therein, discharges through each accumulated liquid discharge and the mixed gas output hole 18 again, and conveys the mixed gas to the evaporator 35 along the mixed gas loop main pipe 34, condenses and recycles part of the 70% -75% ethanol disinfectant again, and then enters the next circulation, and the circulation is repeated and carried out repeatedly.
Refrigerant circulation: the refrigerant enters the evaporator 35 through the external compressor 29, the external condenser electromagnetic valve 26, the external condenser 39, the external condenser output pipe electromagnetic valve 27 and the capillary tube 37, circularly absorbs heat, returns to the external compressor 29 along the refrigerant loop main pipe 38, enters the evaporator 35 through the external condenser electromagnetic valve 26, the external condenser 39, the external condenser output pipe electromagnetic valve 27 and the capillary tube 37, absorbs heat again, returns to the external compressor 29 along the refrigerant loop main pipe 38, and the circulation is continuous. When the temperature sensor 40 detects that the temperature of the mixed gas input into the evaporator 35 is lower than the system set lower limit value (for example, 20 ℃), in order to prevent the volatilization rate of 70% -75% ethanol disinfectant in the cabinet 1 from being reduced due to too low temperature of the mixed gas, the system automatically closes the electromagnetic valve 26 of the external condenser and the electromagnetic valve 27 of the output pipe of the external condenser, stops the operation of the external condenser 39, simultaneously opens the electromagnetic valve 41 at the front end of the internal condenser and the electromagnetic valve 42 at the rear end of the internal condenser, starts the internal condenser 43 in the cabinet 1, heats and increases the temperature of the mixed gas in the cabinet 1 through the heat released by the internal condenser 43 and the heat generated by the operation of the fan 28, and automatically closes the electromagnetic valve 41 at the front end of the internal condenser and the electromagnetic valve 42 at the rear end of the internal condenser when the temperature of the mixed gas flowing through the evaporator 35 reaches the, the mixed gas in the cabinet 1 is not heated by the built-in condenser 43, and the external condenser electromagnetic valve 26 and the external condenser output pipe electromagnetic valve 27 are opened to start the external condenser 39 to perform system refrigeration and heat dissipation.
The inner wall and the outer wall of the cabinet 1 are made of metal materials with good heat conduction performance such as stainless steel thin plates, the inner wall and the outer wall are isolated by heat insulation materials such as polyurethane hard foam, and the built-in condenser 43 is directly attached to the outer side surface of the inner wall steel plate of the cabinet 1 to enhance conduction heating to the inside of the cabinet 1 through the inner wall stainless steel plate, so that the temperature of mixed gas in the circulating condensation process is always in a set normal temperature range.
The mixed gas in the cabinet 1 and the refrigerant in the external refrigeration compressor 29 are circulated continuously and repeatedly as described above, 70% -75% of ethanol in the mixed gas is condensed and liquefied and recovered continuously, the concentration of ethanol in the mixed gas in the cabinet 1 can be reduced to be very low, when the cleaning disinfectant sensor 44 detects that the concentration of ethanol in the circulated mixed gas is lower than a system set value (which should be far less than 3.3%, such as 1% and the like), the external refrigeration compressor 29 is turned off, the system stops the operation of condensing and recovering the mixed gas, and simultaneously, according to the anti-oxidation characteristics of the cleaned and disinfected clothes, the system automatically or manually selectively starts the ozone generator 45 to perform ozone synergistic disinfection on the cleaned and disinfected clothes, so as to eliminate peculiar smell. When the ozone disinfection time set automatically or manually by the system is expired, the system automatically turns off the ozone generator 45 until the operation of recycling the mixed gas by circulating condensation and ozone disinfection is completed.
The mixed gas and ozone residue discharge system shown in fig. 5 is expressed by the sequence of the mixed gas and ozone residue flowing through each component or space (the flow direction is as shown by the arrow in the figure), and the components and the connection relationship of the mixed gas and ozone residue discharge system are as follows: the air inlet of an air inlet switch 46 is communicated with outdoor air, the air outlet of the air inlet switch 46 is communicated with the air inlet of an air purifier 48, the air outlet of the air purifier 48 is communicated with the air inlet of a fan 28, a cleaning disinfectant sensor 44 is arranged at the air outlet of the fan 28, the air outlet of the fan 28 is communicated with the air inlet of a main air delivery pipe 31, the main air delivery pipe 31 is provided with an air input hole 32, the air input hole 32 is communicated with the internal space of the cabinet 1, the main air delivery pipe 31 is also connected with branch pipes arranged between the inner wall and the outer wall of the cabinet 1, each branch pipe is connected with a corresponding air jet hole 33 and a hose air inlet of a hanging clothes hanger 14 and further communicated with the internal space of the cabinet 1, the internal space of the cabinet 1 is communicated with the air inlet of a mixed gas loop main pipe 34 through a effusion discharging and mixed gas output hole 18, the air outlet of the mixed, the air outlet of the mixed gas discharge electromagnetic valve 47 is communicated with the air inlet of the air discharge pipe orifice 7, and the air outlet of the air discharge pipe orifice 7 is communicated with outdoor air, so that an indoor closed discharge system which is open outdoors is formed.
The operation flow is as follows: when the working process of recycling the mixed gas by circulating condensation and ozone disinfection is finished, the external refrigeration compressor 29 and the gas transmission main electromagnetic valve 25 are closed, the air input port switch 46 and the mixed gas exhaust electromagnetic valve 47 are simultaneously opened, under the action of negative pressure generated by the fan 28, external air is input into each partition space in the cabinet 1 through the air input port switch 46, the air purifier 48, the gas transmission main pipe 31, the gas input hole 32, the gas injection hole 33 and the hanging clothes rack 14, and then is exhausted out of the machine through the accumulated liquid exhaust and mixed gas output hole 18, the mixed gas loop main pipe 34, the mixed gas exhaust electromagnetic valve 47 and the exhaust pipe orifice 7, so that the external purified air is continuously sucked, residual mixed gas in the cabinet 1 is diluted and exhausted, the concentrations of ethanol and ozone in the mixed gas in the cabinet 1 are gradually reduced to be near zero, and when the concentration of ethanol in the circulating mixed gas is detected by the to-be-cleaned disinfectant sensor 44 to be lower than the set value of, fan 28, air input switch 46 and gas mixture discharge solenoid valve 47 close, and to this point all cleaning and disinfecting operations are accomplished, and corresponding operating condition and numerical value then show on touch liquid crystal display 3 to accessible intelligent control circuit system can look over cleaning and disinfecting state to the network with relevant running state and data transmission, and the operator can look over cleaning and disinfecting state through PC customer end or APP mobile client, and can carry out corresponding operation control.
The intelligent control circuit system that figure 6 shows constitutes the structure block diagram, and this figure is right in the form of block diagram the utility model discloses built-in intelligent control circuit system constitutes the structure and has demonstrated, and corresponding functional module includes: the device comprises a power module, an input module, a detection module, a data processing module and a control circuit module, wherein unidirectional signal transmission among all module circuits is shown as a unidirectional arrow in the figure, bidirectional signal transmission is shown as a bidirectional arrow in the figure, and the signal transmission relation among all circuit modules is as follows: the power module circuit provides voltage stabilization, rectification and overload protection for the whole circuit; the input module circuit inputs corresponding data signals to the microprocessor, and the microprocessor also feeds back and displays the corresponding data signals on the touch liquid crystal screen; the detection module circuit transmits the instant data signals of all the detection sensors to the microprocessor; the microprocessor in the data processing module circuit is a core component of the complete machine intelligent control circuit and is responsible for programmed data operation and control of the complete machine; the control circuit module circuit directly drives the atomization spraying and ultrasonic cleaning and disinfecting system, the mixed gas circulating condensation recycling and ozone disinfecting system, corresponding electrical components of the mixed gas and ozone residual discharge system, an electronic door lock, a voice microphone loudspeaker, an LED illuminating signal lamp and a two-dimensional code printer to perform on, off, operation and stop actions according to instruction signals sent by the microprocessor, and simultaneously feeds back data signals of real-time voltage, current and the like of each operating electrical component to the microprocessor, thereby providing a basis for the microprocessor to monitor the operation of the whole machine and adjust parameters in real time.
The functions of the circuit modules are briefly described as follows:
a power supply module: rectifier circuit and overload protection circuit including switch circuit, with the microprocessor adaptation, this module does the utility model discloses a complete machine safety and stability operation provides the power guarantee.
An input module: this module carries out data signal transmission with microprocessor, makes through this module the utility model discloses man-machine communication can be realized to the complete machine, including touch liquid crystal display, two-dimensional code scan input, keyboard and USB input, portrait discernment input, voice data input, functional circuit such as network data input, through above-mentioned functional circuit, can be with during the complete machine operation procedure input microprocessor and the memory of establishment to ensure the intelligent operation of complete machine, and for the user at follow-up deposit clothing, function selection, parameter setting, look over the operation, the operation such as clothing takes out provides support.
A detection module: the utility model discloses the complete machine operation in-process needs detect relevant data through various sensors immediately to give microprocessor with corresponding detection data signal instant transmission, microprocessor then modulates or confirms the corresponding parameter of operation procedure immediately according to relevant detection data, in order to realize the best function effect. The related detection circuit comprises cleaning disinfectant concentration detection, liquid level detection, mixed gas concentration detection, ozone concentration detection, voltage and current detection, temperature and humidity detection, cabinet door opening and closing state detection, network state detection and the like.
A data processing module: including microprocessor, memory and timing/counter, this module is the utility model discloses the intelligent core function module of operation of complete machine, built-in complete machine operation procedure to accessible network realizes online upgrading. Through the module, an operation instruction signal can be sent to the control circuit timely and effectively, so that normal, orderly and controllable operation of the atomization spraying and ultrasonic cleaning and disinfecting system, the mixed gas condensation and recovery and ozone disinfecting system, the mixed gas and ozone residue discharging system, the communication interface and other auxiliary electrical components is ensured, and overall control is implemented. As for its built-in operation procedure, then need to be worked out according to the utility model discloses aforementioned complete machine operation flow and requirement.
A control circuit module: after receiving the instruction signal of the microprocessor, the circuit directly drives the atomization spraying and ultrasonic cleaning and disinfecting system, the mixed gas condensation recovery and ozone disinfecting system, the mixed gas and ozone residue discharge system, the communication interface and other auxiliary electrical components to perform actions such as opening, closing, running, stopping and the like, and simultaneously feeds back the real-time voltage, current and other state data of each running electrical component to the microprocessor, thereby providing a basis for the microprocessor to monitor the running of the whole machine and adjust the parameters in real time.
The atomizing of control circuit module drive sprays and ultrasonic cleaning disinfection system electrical components includes: a motor of a spray pressure pump 10, an infusion electromagnetic valve 11, an electromagnetic valve of each atomization spray branch pipe 12, an ultrasonic generator disinfection tank 16, a recovery electromagnetic valve 20 and a recovery pump 23 motor.
The mixed gas condensation recovery and ozone disinfection system electrical components of control circuit module driven include: a gas transmission main electromagnetic valve 25, an external condenser electromagnetic valve 26, an external condenser output pipe electromagnetic valve 27, a fan 28 motor, an external refrigeration compressor 29 motor, an external fan 30 motor, an internal condenser front end electromagnetic valve 41, an internal condenser rear end electromagnetic valve 42 and an ozone generator 45.
The mixed gas and ozone residue discharge system electrical components that control circuit module driven include: a gas transmission main electromagnetic valve 25, a fan 28 motor, an air input port switch 46 and a mixed gas discharge electromagnetic valve 47.
The communication interface electrical component driven by the control circuit module comprises: PC network port, mobile APP port.
Other auxiliary electrical components driven by the control circuit module comprise: electronic lock, mike, loudspeaker, LED illumination and signal lamp, two-dimensional code printer.
The built-in movable spray cleaning and disinfecting hanging clothes rack shown in fig. 7 is a movable clothes rack designed for hanging medical protective clothing or other large clothes, the hanging clothes rack 14 is connected with a three-way solenoid valve switch 50 arranged on the inner wall of a cabinet 1 through a hose 49 and is communicated with an ethanol conveying pipeline and a mixed gas conveying pipeline, the main body of the hanging clothes rack 14 is a hollow stainless steel or polyester pipe, a movable hanging hook 51 is arranged on the main body, the hanging clothes rack can be hung on or taken off from a corresponding hanging position in the cabinet 1 when hanging or taking clothes, a plurality of atomization spray holes 13 are arranged on the hanging clothes rack 14, ethanol cleaning disinfectant can be sprayed and disinfected from the inside of the hanging clothes rack 14 outwards, namely the inner side of the hanging clothes is cleaned and disinfected, after the spraying operation is finished, a system controls the three-way solenoid valve switch 50 to close an ethanol port and open a mixed gas ventilation port, and an air hole 33 on the mixed gas ventilation port sprays mixed gas after cooling and drying, so that the drying can be carried out from the inside of the hung clothes, and the residual concentration of the ethanol can be reduced.
The atomizing spray hole and fumarole planar structure sketch map that figure 8 shows that the atomizing sprays the plane of hole and fumarole and inlay set structural relation, and wherein the atomizing sprays hole 13 and is in inlaying the center of set structure, and the aperture is fine and close, and the atomizing of the cleaning antiseptic solution of being convenient for sprays, and fumarole 33 encircles in the periphery that the atomizing sprayed hole 13, and the aperture is thick sparse, the circulation of the mist of being convenient for circulate. The atomization spraying holes 13 are embedded in the air injection holes 33, so that the number of holes formed in the inner wall of the cabinet 1 can be reduced, and the processing and installation are facilitated.
The foregoing description of embodiments or examples of the invention means that a particular feature, structure, material, or characteristic of the invention is included in at least one embodiment or example of the invention and that the particular feature, structure, material, or characteristic described may be combined in any suitable manner in any one or more embodiments or examples. In addition, other material varieties, specifications, sizes, positions, quantities and the like given in the embodiments can be reasonably adjusted according to different application scenes, and corresponding adjustment changes are all within the general description and the corresponding protection scope of the invention.
Claims (2)
1. The utility model provides a medical cleaning and sterilizing machine of components of a whole that can function independently cabinet type, is equipped with sealing door (2), touch liquid crystal display (3), air sunction inlet (4), refrigerant pipe, wire and outdoor blast pipe (5), connects external refrigeration compressor unit (6) including rack (1), and characterized by is built-in: the atomizing, spraying and ultrasonic cleaning and disinfecting system comprises components and connection relations that: the discharge port of the cleaning disinfectant storage tank (8) is connected with a main liquid conveying pipe (9), the main liquid conveying pipe (9) is connected with a liquid inlet of a spraying pressure pump (10), a liquid outlet of the spraying pressure pump (10) is connected with a liquid inlet of a liquid conveying electromagnetic valve (11), a liquid outlet of the liquid conveying electromagnetic valve (11) is connected with a liquid inlet of each atomizing spray branch pipe (12), a liquid outlet of each atomizing spray branch pipe (12) is connected with each atomizing spray hole (13) and a suspension clothes hanger (14) and communicated with each partition space in the cabinet (1), the liquid outlets of the other part of atomizing spray branch pipes (12) are connected with an ultrasonic cleaning tank input pipe (15) and communicated with an ultrasonic generator cleaning tank (16), a discharge pipe (17) is connected with a effusion discharge and mixed gas output hole (18), the effusion discharge and mixed gas output hole (18) is connected with a recovery pipe (19) and a liquid inlet of a recovery electromagnetic valve (20), and a liquid outlet of the recovery electromagnetic, the liquid outlet of the filter (22) is connected with the liquid inlet of a recovery pump (23) through a recovery header pipe (21), the liquid outlet of the filter (22) is connected with the liquid inlet of the recovery pump (23), the liquid outlet of the recovery pump (23) is connected with the recovery input port of the cleaning disinfectant storage tank (8), and the liquid level of the cleaning disinfectant storage tank and a concentration float sensor (24) float on the liquid level of the cleaning disinfectant storage tank (8); the mixed gas circulating, condensing, recycling and ozone disinfecting system comprises a mixed gas ozone circulating subsystem and a refrigerant circulating subsystem, wherein the mixed gas ozone circulating subsystem comprises the following components in connection relation: an air outlet of the gas transmission main electromagnetic valve (25) is communicated with an air inlet of an evaporator (35), a temperature sensor (40) is installed in the evaporator (35), an air outlet of the evaporator (35) is communicated with an air inlet of a fan (28), a condensate gathering output port of the evaporator (35) is communicated with a liquid inlet of a cleaning disinfectant recovery pipe (36), a liquid outlet of the cleaning disinfectant recovery pipe (36) is communicated with a cleaning disinfectant storage tank (8), a cleaning disinfectant sensor (44) is installed at an air outlet of the fan (28) and is communicated with an air inlet of an ozone generator (45), an air outlet of the ozone generator (45) is communicated with a gas transmission main pipe (31), a gas input hole (32) is formed in the gas transmission main pipe (31) and leads to the inner space of the cabinet (1), and meanwhile, a plurality of branch pipes and a plurality of gas injection holes (33) are respectively formed in the gas transmission main pipe, The suspension clothes hangers (14) are communicated, the effusion discharging and mixed gas output hole (18) is communicated with the gas inlet of a mixed gas loop main pipe (34), and the gas outlet of the mixed gas loop main pipe (34) is communicated with the gas inlet of a gas transmission main electromagnetic valve (25), thereby forming a pipeline space for closed circulation of mixed gas ozone; the components of the refrigerant circulation subsystem and the connection relationship thereof are as follows: the refrigerant in the external refrigeration compressor (29) is divided into two paths of output pipes, one path is that the refrigerant output pipe in the external refrigeration compressor (29) is connected with the liquid inlet of an external condenser electromagnetic valve (26), the liquid outlet of the external condenser electromagnetic valve (26) is connected with the liquid inlet of a condensing agent pipe in an external condenser (39), the liquid outlet of the condensing agent pipe in the external condenser (39) is connected with the liquid inlet of an external condenser output pipe electromagnetic valve (27), and the liquid outlet of the external condenser output pipe electromagnetic valve (27) is connected with the liquid inlet of a capillary tube (37); the other circuit is that a refrigerant output pipe in the external refrigeration compressor (29) is communicated with a liquid inlet of a front-end electromagnetic valve (41) of the built-in condenser, a liquid outlet of the front-end electromagnetic valve (41) of the built-in condenser is communicated with a liquid inlet of a rear-end electromagnetic valve (42) of the built-in condenser, and then is connected with a liquid inlet of a condensing agent pipe in the built-in condenser (43) through a liquid outlet of the rear-end electromagnetic valve (42) of the built-in condenser, and a liquid outlet of the condensing agent pipe in the built-in condenser (43) is connected with a liquid inlet of; the liquid outlet of the capillary tube (37) is connected with the liquid inlet of a refrigerant tube in the evaporator (35), the liquid outlet of the refrigerant tube in the evaporator (35) is connected with the liquid inlet of a refrigerant circuit header pipe (38), and the liquid outlet of the refrigerant circuit header pipe (38) is connected with a refrigerant input tube of an external refrigeration compressor (29), so that a pipeline space for closed circulation of refrigerant is formed; the external refrigeration compressor (29), the external condenser fan (30) and the external condenser (39) are integrated into a whole and are arranged on an outdoor equipment platform of the cabinet (1); the inner wall and the outer wall of the cabinet (1) are made of metal sheets with good heat conducting property, the inner wall and the outer wall are isolated by a heat insulating material, and the built-in condenser (43) is directly attached to the outer side surface of the metal sheet on the inner wall of the cabinet (1); and the mixed gas and ozone residue discharge system comprises the following components in connection relation: the air inlet of an air inlet switch (46) is communicated with outdoor air, the air outlet of the air inlet switch (46) is communicated with the air inlet of an air purifier (48), the air outlet of the air purifier (48) is communicated with the air inlet of a fan (28), a cleaning disinfectant sensor (44) is arranged at the air outlet of the fan (28), the air outlet of the fan (28) is communicated with the air inlet of a main air transmission pipe (31), the main air transmission pipe (31) is provided with an air input hole (32), the air input hole (32) is communicated with the inner space of the cabinet (1), the main air transmission pipe (31) is further connected with branch pipes arranged between the inner wall and the outer wall of the cabinet (1), each branch pipe is connected with a corresponding air injection hole (33) and a hose air inlet of a hanging clothes hanger (14) and further communicated with the inner space of the cabinet (1), the inner space of the cabinet (1) is communicated with the air inlet of a mixed gas loop main pipe (34) through a liquid loading discharge and mixed gas output hole (, the air outlet of the mixed gas loop main pipe (34) is communicated with the air inlet of a mixed gas discharge electromagnetic valve (47), the air outlet of the mixed gas discharge electromagnetic valve (47) is communicated with the air inlet of an exhaust pipe orifice (7), and the air outlet of the exhaust pipe orifice (7) is communicated with outdoor air, so that a discharge system which is closed in a cabinet room and opened outdoors is formed; and the intelligent control circuit system consists of a power supply module, an input module, a detection module, a data processing module and a control circuit module, and the signal transmission relationship among the circuit modules is as follows: the power module circuit provides voltage stabilization, rectification and overload protection for the whole circuit; the input module circuit inputs corresponding data signals to the microprocessor, and the microprocessor also feeds back and displays the corresponding data signals on the touch liquid crystal screen; the detection module circuit transmits the instant data signals of all the detection sensors to the microprocessor; the microprocessor in the data processing module circuit is a core component of the complete machine intelligent control circuit and is responsible for programmed data operation and control of the complete machine; the control circuit module circuit directly drives the atomization spraying and ultrasonic cleaning and disinfecting system, the mixed gas circulating condensation recycling and ozone disinfecting system, corresponding electrical components of the mixed gas and ozone residual discharge system, an electronic door lock, a voice microphone loudspeaker, an LED lighting signal lamp and a two-dimensional code printer to perform on, off, operation and stop actions according to an instruction signal sent by the microprocessor, and simultaneously feeds back instant voltage and current data signals of each operating electrical component to the microprocessor.
2. The cabinet type medical cleaning and sterilizing machine of claim 1, wherein: a hanging clothes hanger (14) arranged in the cabinet (1) is made of hollow materials, is provided with a plurality of atomizing spray holes (13) and air injection holes (33), is connected with a three-way electromagnetic valve switch (50) arranged on the inner wall of the cabinet (1) through a hose (49), and is provided with a movable hanging hook piece (51).
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CN202022159121.4U CN213698100U (en) | 2020-09-28 | 2020-09-28 | Split cabinet type medical cleaning and sterilizing machine |
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Effective date of registration: 20220221 Address after: 311200 room 213, No. 10-24, Jinhu Yijing City, Chengxiang street, Xiaoshan District, Hangzhou City, Zhejiang Province Patentee after: Hangzhou Zhenying Medical Technology Co.,Ltd. Address before: 311201 6-2-702, lotus garden, Ludu Four Seasons flower city, nanxiu Road, Xiaoshan District, Hangzhou City, Zhejiang Province Patentee before: Li Zhongzhen Patentee before: Li Chunying |
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