A kind of Medical ozone disinfecting cabinet device with flow type calorifier
Technical field
The application is related to medical instruments field, specially a kind of Medical ozone disinfecting cabinet device with flow type calorifier.
Background technology
In the medical field, there is the hygienic requirements of each side such as sterilization for medical furnishings.For these articles for use,
Such as coat, gloves, glasses and the repeatable mouth mask utilized, due to needing to use at any time and frequency of use is high, therefore
Sterilization to these articles for use brings difficulty.And for medical this special industry, the sterilization of personal effects is even more important again.
Accordingly, it would be desirable to a kind of Simple disinfection device be easy to operate and be easy to configure each section office.This demand is often led to
The progress of the non-mechanical means such as ozone, ultraviolet disinfection is crossed, in order to which concomitant disinfection is used at any time.
But, for ozonization, with increasing for gas channel therein, the reduction of its passage caliber is this
The blocking situation of gas channel is also easier to occur.
The features such as due to the high-speed operating characteristic of air-flow and the more quantity of gas channel, the obstruction of this gas channel
Situation is often not easy to be found and be not easy to be overcome or corrected at once.This brings scarce to the sterilization of all-dimensional multi-angle
Fall into.And shut down and safeguarded, efficiency can be reduced and extra cost is brought.
The content of the invention
It is an object of the invention to provide a kind of Medical ozone disinfecting cabinet device with flow type calorifier, it can overcome existing
There is the drawbacks described above in technology.
According to the present invention, a kind of Medical ozone disinfecting cabinet device with flow type calorifier, including streams of ozone blowoff,
The streams of ozone blowoff includes being internally provided with the annular inner portion of columned sterilization air chamber and is integrally formed
The circular annular inner portion annular outer cover part, be provided with the annular inner portion and be axially distributed
Multi-turn blow air flue group, often circle blow be evenly distributed with a plurality of radial direction in air flue group in circumference blow air flue with by gas
Flow and inputted along the radial direction of the columned sterilization air chamber, the annular outer cover part and the annular inner portion it
Between be annular distribution of air flow chamber, inputted for receiving air-flow and distribution of air flow a plurality of blowed into air flue, the gas to described
Flow and revolvable air-flow input closed-loop is provided with the closing of dispensed chambers left end, right-hand member, set in the air-flow input closed-loop
It is equipped with the air-flow input channel in two diametrically opposed axial directions, and left end and the institute of air-flow input closed-loop
State and connected by left side bearing between annular inner portion and pass on left left side rotation inner seal ring in the left side bearing
And seal and coordinate, exterior seal ring is rotated by left side and sealed between the air-flow input closed-loop and the annular outer cover part
Coordinate;The air-flow input channel structure including body supports end wall is fixedly connected with the right side of the streams of ozone blowoff
Convex extension part is fixedly installed on the left of part, the body supports end wall to be used to fix company with the right-hand member of the annular inner portion
Connect, around the periphery of the convex extension part be provided with air cavity housing so as to the air cavity housing and the body supports end wall it
Between formed with the annular air cavity in two diametrically opposed air-flow input ports, the air-flow inputs the right-hand member of closed-loop
It extend into the annular air cavity, is connected between the outer circumference surface of the convex extension part by right bearing and in the right bearing
Right side is sealed by right side rotating interior seal circle to be coordinated, and outer close by right side rotation with the inner peripheral surface of the air cavity housing
Seal and seal cooperation;It has been pivotably supported on the upside of the annular outer cover part and the air cavity housing by driving electricity
The drive gear of machine driving is used to engage with the gear part being fixedly installed in the middle part of the air-flow input closed-loop outer peripheral face, described
Be provided with the right side of body supports end wall ozone generating-device to by flexible pipe respectively with the phase in diametric(al)
To two air-flow input ports connection, it is described sterilization air chamber in be fixedly installed article on the left of the body supports end wall
Grid frame supported is provided with pivoted shutter door to place at medical wearable items, the left side opening of the sterilization air chamber;Its
In, the air flue group that blows that the multi-turn of axial directional distribution blows right part in air flue group has towards right inward and tilted
The blowing direction of air blowing;Thus, streams of ozone inputs to input closed-loop via the air-flow by the air-flow input port
In the air-flow input channel and in the distribution of air flow chamber that arrives, and then a plurality of blow air flue via described and arrive described
Sterilize in air chamber and form air-flow and sterilized so as to carry out multi-angle purging to the medical wearable items, the drive gear energy
The air-flow input closed-loop rotation is enough driven to change the circumferential position of the air-flow input channel;Wherein, described in two
Air-flow input port and the junction of the flexible pipe are provided with flow type calorifier the ozone gas inputted in annular air cavity to be flowed into
It is thermal current that row, which heats and caused the streams of ozone being input in annular air cavity, consequently facilitating efficiently quick to being placed on article branch
The medical wearable items held in rack carry out purging sterilization.
By the present invention, due to inputting closed-loop there is provided the air-flow that can be rotated, it can use two diametric(al)s
Upper relative gas channel and the circumferential position for being rotated to the gas channel and selecting air-flow to supply, thereby, it is possible to light
Micro- obstruction or the tangential gas flow passage not blocked completely carry out selective close and its windage loss are compensated, thus, it is possible to
The inhomogeneities of the circumferential air-flow of balance.And the routinely rotation of closed-loop is inputted by the air-flow, it can form different frequency
Rotary pulse, so as to carry out repeatedly strong purging to article, strengthen Disinfection Effect.In maintenance phase, the gas can be passed through
Stream inputs the rotation of closed-loop and carries out rapid purging to a plurality of air flue that blows, to remove the bits shape thing or wadding that wherein remain
Shape thing.The air-flow input channel component discrete by setting, enables to the air-flow to input closed-loop and is easily installed and safeguards, and
And it is easily installed the drive gear.Whole device stabilized structure is reliable, and performance is stablized and is easy to safeguard.
Brief description of the drawings
Fig. 1 is the overall structure diagram of the chlorination equipment of the present invention.
Fig. 2 is the cross section structure diagram along the direction of arrow in Fig. 1.
Embodiment
With reference to Fig. 1-2, the present invention is described in detail.
According to the Medical ozone disinfecting cabinet device with flow type calorifier of embodiment, including streams of ozone blowoff 5, institute
State streams of ozone blowoff 5 include be internally provided with it is columned sterilization air chamber 50 annular inner portion 53 and one into
It is provided with axially in the annular outer cover part 54 of the circular annular inner portion 53 of type, the annular inner portion 53
The multi-turn of directional spreding blows air flue group, often circle blow be evenly distributed with a plurality of radial direction in air flue group in circumference blow gas
Road 51 with by air-flow along it is described it is columned sterilization air chamber 50 radial direction input, the annular outer cover part 54 with it is described
It is the distribution of air flow chamber 540 of annular between annular inner portion 53, is inputted for receiving air-flow and by distribution of air flow to described
A plurality of blow is provided with revolvable air-flow input closed-loop at air flue 51, the left end of distribution of air flow chamber 540 closing, right-hand member
7, the air-flow inputs the air-flow input channel 71,710 being provided with closed-loop 7 in two diametrically opposed axial directions,
And connected between the left end and the annular inner portion 53 of the air-flow input closed-loop 7 by left side bearing 81 and in institute
State passing on left left side rotation inner seal ring 82 and sealing and coordinate for left side bearing, the air-flow input closed-loop 7 and the ring
Exterior seal ring 73 is rotated by left side between shape casing part 54 and seals and coordinates;The right side of the streams of ozone blowoff 5
It is fixedly connected with the air-flow input channel component 9 including body supports end wall 93, the left side of the body supports end wall 93
Convex extension part 98 is fixedly installed to be fixedly connected with the right-hand member of the annular inner portion 53, around the outer of the convex extension part 98
Enclose and be provided with air cavity housing 94 to be formed with straight between the air cavity housing 94 and the body supports end wall 93
The annular air cavity 940 of relative two air-flow input ports 941,942 on the direction of footpath, the right-hand member of the air-flow input closed-loop 7 is stretched
Enter into the annular air cavity 940, be connected between the outer circumference surface of the convex extension part 98 by right bearing 91 and on the right side
The right side of bearing is sealed by right side rotating interior seal circle 92 to be coordinated, and passes through the right side with the inner peripheral surface of the air cavity housing 94
Side rotates exterior seal ring 72 and seals and coordinate;The annular outer cover part 54 and the upside of the air cavity housing 94 are rotatably
The drive gear 61 driven by motor 6 is supported by be used to being fixedly installed on the air-flow input outer peripheral face of closed-loop 7
The gear part 77 at middle part is engaged, and the right side of the body supports end wall 93 is provided with ozone generating-device 991 to by soft
Pipe 99 and connected respectively with described in diametrically opposed two air-flow input ports 941,942, it is described sterilization air chamber 50 in
Article grid frame supported 20 is fixedly installed in the left side of the body supports end wall 93 to place medical wearable items, institute
Pivoted shutter door 21 is provided with the left side opening for stating sterilization air chamber 50;Wherein, the multi-turn of axial directional distribution is blowed
The air flue group that blows of right part has the blowing direction for tilting and blowing towards right inward in air flue group;Thus, streams of ozone
The air-flow input channel so as to be inputted via the air-flow in closed-loop 7 is inputted by the air-flow input port 941,942
71st, 710 and in the distribution of air flow chamber 540 that arrives, and then a plurality of blow air flue 51 and the sterilization air chamber that arrives via described
In 50 and form air-flow and sterilized so as to which the medical wearable items are carried out with multi-angle purging, the drive gear 61 can drive
Dynamic air-flow input closed-loop 7 rotation is so as to change the circumferential position of the air-flow input channel 71,710;Wherein, two institutes
State air-flow input port 941,942 and the junction of the flexible pipe 99 and be provided with flow type calorifier 69 annular air cavity will be inputted
Streams of ozone in 940 heated and so that the streams of ozone being input in annular air cavity 940 be thermal current, consequently facilitating high
The quick medical wearable items to being placed in article grid frame supported 20 of effect carry out purging sterilization.
Alternatively, wherein, the downside of the annular outer cover part 54 and the air cavity housing 94 is consolidated with fixed support 12
Fixed connection.
Alternatively, the multi-turn is blowed in air flue group, and the inclined angle of circle group closer to right side is bigger, and the leftmost side
Circle group angle of inclination it is minimum.
Due to inputting closed-loop there is provided the air-flow that can be rotated, it can use two diametrically opposed air-flows
Passage and the circumferential position for being rotated to the gas channel and selecting air-flow to supply, thereby, it is possible to little obstruction or not complete
The tangential gas flow passage blocked entirely carries out selective close and its windage loss is compensated, thus, it is possible to balance circumferential air-flow
Inhomogeneities.And the routinely rotation of closed-loop is inputted by the air-flow, it can form the rotary pulse of different frequency, from
And strong purging can be carried out repeatedly to article, strengthen Disinfection Effect.In maintenance phase, closed-loop can be inputted by the air-flow
Rotate and rapid purging is carried out to a plurality of air flue that blows, to remove the bits shape thing or floccule that wherein remain.By setting
Discrete air-flow input channel component, enables to the air-flow to input closed-loop and is easily installed and safeguards, and be easily installed institute
State drive gear.
By the way that with upper type, those skilled in the art can make various according to mode of operation within the scope of the invention
Change.