CN111938954A - Baby's incubator of blue light treatment structure - Google Patents

Abstract

The invention provides a baby incubator with a blue light treatment structure, which comprises an incubator, a blue light generation device, a moving device, a filtering device, a heat preservation device and a controller, wherein the blue light generation device, the filtering device and the heat preservation device are respectively in control connection with the controller; the blue light generating device is configured to irradiate the inside of the incubator; the moving device is configured to drive the blue light generating device to move in the heat preservation box; the filtering device is configured to filter the vent hole of the incubator; the heat-insulating device is configured to insulate the inside of the incubator. Through adopting the angle deviation device is used for adjusting the deviation angle of the blue light generating device, so that the light source can be adjusted to a proper angle, and any position in the heat preservation box is irradiated and conditioned.

Description

Baby's incubator of blue light treatment structure

Technical Field

The invention relates to the field of infant incubators, in particular to an infant incubator with a blue light treatment structure.

Background

The blue light therapy has important application in the aspects of acne, neonatal jaundice, acne removal and the like. Blue light radiation therapy is one of the most effective methods for treating neonatal jaundice.

For example, the CN209596420U prior art discloses a conventional blue light therapeutic device, which uses a halogen lamp, a fluorescent lamp or a light emitting diode as an irradiation light source, and adopts a direct irradiation or a light source non-direct skin-attached mode as a treatment mode. Another typical prior art jaundice treatment apparatus, such as WO2008119536a1, is not always able to be turned on again immediately after the light bulb is turned off, despite being cooled by a fan. Often, a cooling period of more than one minute is required, making the treatment inefficient. In addition, the jaundice treatment box disclosed in the prior art of EP0371168a1 cannot precisely control the temperature of the patient bed and cannot ensure that the infant patient is in a stable temperature environment, so that the infant patient is injured due to hypothermia.

The invention aims to solve the problems that the cooling time is too long, the efficiency is low, the temperature in the incubator is not suitable, the angle of the light source is not adjustable, the fixed connection of the position of the light source is not easy to move and the like in the treatment process commonly existing in the field.

Disclosure of Invention

The invention aims to provide a baby incubator with a blue light treatment structure, which aims at overcoming the defects of the existing incubator and finds a set of baby incubator which is really feasible, has an excellent conditioning effect, an adjustable light source angle and a convertible light source position through a large amount of researches.

In order to overcome the defects of the prior art, the invention adopts the following technical scheme:

a baby incubator with a blue light treatment structure comprises an incubator, a blue light generation device, a moving device, a filtering device, a heat preservation device and a controller, wherein the blue light generation device, the filtering device and the heat preservation device are respectively in control connection with the controller; the blue light generating device is configured to irradiate the inside of the incubator; the moving device is configured to drive the blue light generating device to move in the heat preservation box; the filtering device is configured to filter the vent of the incubator; the heat-insulating device is configured to insulate the inside of the incubator.

Optionally, the blue light generating device includes a lamp, an angle shift mechanism, a rotation mechanism, a set of supporting plates, a bottom plate, a sliding plate, and a lamp cover, wherein the set of supporting plates is disposed on one side of the bottom plate, one end of the set of supporting plates is connected to the bottom plate, and the other end of the set of supporting plates extends perpendicularly towards one side away from the bottom plate; the lampshade and one end of the supporting plate are mutually hinged to form a group of hinged parts, the hinged parts on one side are provided with sliding parts, and the outer periphery of one side, close to the supporting plate, of each sliding part is provided with teeth; the angle deviation device comprises a first driving mechanism, a supporting column and a group of rotating gears, wherein the group of rotating gears are arranged at two ends of the supporting column, one end of each rotating gear is in driving connection with the inside of the first driving gear, and the other end of each rotating gear is meshed with the corresponding tooth;

the rotating mechanism is configured to drive the bottom plate to rotate in the horizontal direction, and the sliding plate is connected with the rotating mechanism.

Optionally, the moving device includes a moving rail, a sliding wheel and a third driving mechanism, the top cover of the heat insulation box is provided with the moving rail, the moving rail extends along the length direction of the heat insulation box, and the sliding wheel is configured to be connected with the blue light generating device to form a sliding portion and slide along the extending direction of the moving rail; the third driving mechanism is configured to drive the sliding wheel to slide on the moving rail.

Optionally, the filtering device includes a plurality of ventilation openings, a transmission pipeline, and a filtering mechanism, each ventilation opening is disposed on an inner wall of the thermal insulation box, each ventilation opening is connected to the transmission pipeline, and the filtering mechanism is configured to be disposed in the transmission pipeline and filter air in the pipeline.

Optionally, the heat preservation device includes a placing plate, a heating device and a detection mechanism, and the heating mechanism is disposed in the placing plate; the detection mechanism is configured to detect the temperature in the placement plate and the heat preservation box, the placement plate is provided with the anti-skid lines extending along the length direction of the placement plate.

Optionally, the rotating mechanism includes a second driving mechanism, a rotating column, a set of rotating gears, a rotating wheel and a limiting part, a through hole is provided in the bottom plate, the rotating wheel is coaxially disposed with the through hole, the limiting part and the rotating gear are respectively disposed on two sides of the bottom plate, the rotating gear is disposed on one side of the bottom plate away from the lamp shade, one end of the limiting part is fixedly connected with the bottom plate, the other end of the limiting part extends to the right above of the axis of the rotating gear to abut against the axis, a rotating bump is disposed between the limiting part and the rotating gear, the bump is coaxially disposed with the rotating gear, a set of rotating gears are respectively coaxially disposed with two ends of the rotating column and fixedly connected with an end of the rotating column, wherein one side of the rotating gear is drivingly connected with the second driving mechanism to form a driving part, the rotating gear on the other side is meshed with the rotating gear, the driving part and the limiting part are arranged on one side of the bottom plate, a sliding plate is arranged on one side, away from the bottom plate, of the rotating gear, and the sliding plate is connected with the rotating gear.

The beneficial effects obtained by the invention are as follows:

1. the controller is matched with the filtering device, the heating device, the moving device and the blue light generating device, so that the whole system is high-efficient and reliable in the process of conditioning the jaundice and can be adjusted according to actual requirements, and the best effect of conditioning the jaundice among the whole systems is ensured;

2. the angle deviation device is used for adjusting the deviation angle of the blue light generation device, so that the light source can be adjusted to a proper angle, and the irradiation and conditioning of any position in the heat preservation box are ensured;

3. the efficiency and the effect of the filtering device on the air entering the heat preservation box are adopted, so that the reliable oxygen supply amount of the heat preservation box is ensured, and the conditioning process is more comfortable;

4. the supply pumps in the transmission pipeline are respectively in control connection with the supply pump controller, and further, the supply pump controller is in control connection with the controller, so that the supply pumps can be ensured to be differentially started according to actual requirements in the air treatment process;

5. the blue light generating device is driven to move through the sliding of the sliding device, so that the blue light generating device can irradiate any position in the heat insulation box, and more application scenes in the heat insulation box are improved.

Drawings

The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. Like reference numerals designate corresponding parts throughout the different views.

Fig. 1 is a schematic structural view of the incubator.

Fig. 2 is a schematic structural diagram of the blue light generating device.

Fig. 3 is an exploded view of the blue light generating device.

Fig. 4 is a front view of the blue light generating device.

Fig. 5 is a schematic structural view of the filter device.

Fig. 6 is a schematic structural view of the cover of the incubator.

The reference numbers illustrate: 1-a lampshade; 2-a blue light generating device; 3-a support plate; 4-a bottom plate; 5, filtering by using a filter screen; 6-air supply port; 7-a rotating gear; 8-a support column; 9-a first drive mechanism; 10-rotating convex blocks; 11-a sliding plate; 12-a limit piece; 13-a second drive mechanism; 14-a rotating gear; 15-a rotating gear; 16-a light source; 17-a slide; 18-a transport pipeline; 19-a supply pump controller; 20-a heat preservation box; 21-a moving rack; 22-a controller; 23-universal wheels; 24-a viewing port; 25-a cavity; 26-a filter disc; 27-a supply pump; 28-a third drive mechanism; 29-a moving track; 30-a sliding wheel; 31-a light-transmitting plate; 32-air inlet.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the embodiments thereof; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. Other systems, methods, and/or features of the present embodiments will become apparent to those skilled in the art upon review of the following detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the accompanying claims. Additional features of the disclosed embodiments are described in, and will be apparent from, the detailed description below.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper" and "lower" and "left" and "right" etc., which is based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the device or assembly referred to must have a specific orientation.

The first embodiment is as follows: a baby incubator with a blue light treatment structure comprises an incubator 20, a blue light generation device 2, a moving device, a filtering device, a heat preservation device and a controller, wherein the blue light generation device 2, the filtering device and the heat preservation device are respectively in control connection with the controller; the blue light generating device 2 is configured to irradiate the inside of the incubator 20; the moving device is configured to drive the blue light generating device 2 to move in the incubator 20; the filtering device is configured to filter the air vent of the incubator 20; the heat-insulating device is configured to insulate the inside of the incubator 20; the blue light generating device 2 comprises a lamp, an angle deviation mechanism, a rotating mechanism, a group of supporting plates 3, a bottom plate 4, a sliding plate 11 and a lampshade 1, wherein the group of supporting plates 3 are arranged on one side of the bottom plate 4, one ends of the group of supporting plates 3 are connected with the bottom plate 4, and the other sides of the group of supporting plates 3 extend out perpendicularly towards one side far away from the bottom plate 4; the lampshade 1 and one end of the support plate 3 are mutually hinged to form a group of hinged parts, a sliding part 17 is arranged at the hinged part at one side, and teeth are arranged on the periphery of one side, close to the support plate 3, of the sliding part 17; the angle deviation device comprises a first driving mechanism 9, a supporting column 8 and a group of rotating gears 157, wherein the group of rotating gears 157 are arranged at two ends of the supporting column 8, one end of each rotating gear 157 is in driving connection with the inside of the first driving gear, and the other end of each rotating gear 157 is meshed with the corresponding tooth; the rotating mechanism is configured to drive the bottom plate 4 to rotate in the horizontal direction, and the sliding plate 11 is connected with the rotating mechanism; the moving device comprises a moving track 29, a sliding wheel 30 and a third driving mechanism 28, the moving track 29 is arranged on the top cover of the heat preservation box 20, the moving track 29 extends along the length direction of the heat preservation box 20, the sliding wheel 30 is configured to be connected with the blue light generating device 2 to form a sliding part, and slides along the extending direction of the moving track 29; the third driving mechanism 28 is configured to drive the sliding wheels 30 to slide on the moving rail 29; the filtering device comprises a plurality of ventilation openings, a transmission pipeline 18 and a filtering mechanism, wherein each ventilation opening is arranged on the inner wall of the incubator 20, each ventilation opening is connected with the transmission pipeline 18 in a pipeline way, and the filtering mechanism is configured to be arranged in the transmission pipeline 18 and filter air in the pipeline; the heat preservation device comprises a placing plate, a heating device and a detection mechanism, wherein the heating mechanism is arranged in the placing plate; the detection mechanism is configured to detect the temperature in the placement plate and the incubator 20, the placement plate is provided with the anti-skid lines extending along the length direction of the placement plate; the rotating mechanism comprises a second driving mechanism 13, a rotating column, a set of rotating gears 14, a rotating wheel and a limiting part 12, a through hole is arranged in the bottom plate 4, the rotating wheel and the through hole are coaxially arranged, the limiting part 12 and the rotating gear 157 are respectively arranged at two sides of the bottom plate 4, the rotating gear 157 is arranged at one side of the bottom plate 4 far away from the lampshade 1, one end of the limiting part 12 is fixedly connected with the bottom plate 4, the other end of the limiting part extends to the right above the axis of the rotating gear 157 to be abutted against, a rotating bump 10 is arranged between the limiting part 12 and the rotating gear 157, the bump and the rotating gear 157 are coaxially arranged, a set of rotating gears 14 are respectively coaxially arranged with two ends of the rotating column and fixedly connected with the end part of the rotating column, wherein one side of the rotating gear 14 and the second driving mechanism 13 are in a driving connection to form a driving part, the rotating gear 14 on the other side is engaged with the rotating gear 157, the driving part and the stopper 12 are disposed on one side of the bottom plate 4, a sliding plate 11 is disposed on one side of the rotating gear 157 away from the bottom plate 4, and the sliding plate 11 is connected to the rotating gear 157.

Example two: the present embodiment should be understood to include at least all the features of any one of the foregoing embodiments, and further modified on the basis thereof, and in particular, to provide an infant incubator with a blue light therapy structure, which comprises an incubator 20, a blue light generating device 2, a moving device, a filtering device, a heat preservation device, and a controller, wherein the blue light generating device 2, the filtering device, and the heat preservation device are respectively in control connection with the controller; the blue light generating device 2 is configured to irradiate the inside of the incubator 20; the moving device is configured to move the blue light generating device 2 in the heat preservation box 20; the filtering device is configured to filter the vent of the incubator 20; the heat-insulating device is configured to insulate the inside of the incubator 20; specifically, in this embodiment, the heat insulation box 20 includes a cover and a base, the cover and the base are matched with each other, and the blue light generation device 2 is disposed inside the cover, so that the blue light generation device 2 can perform adaptive adjustment; in addition, in this embodiment, the controller is used in cooperation with the filtering device, the heating device, the moving device and the blue light generating device 2, so that the whole system is efficient and reliable in the process of conditioning jaundice, and can be adjusted according to actual needs, and the effect of conditioning jaundice between the whole systems is optimal; in this embodiment, the heat preservation device and the filtering device are cooperatively arranged, so that the temperature and the air in the heat preservation box 20 can reach the optimum living conditions; in this embodiment, the sliding structure of the heat insulation box includes a moving frame 21 and universal wheels 23, the heat insulation box is disposed on one side of the moving frame 21 and is parallel to the moving frame 21, the universal wheels 23 are disposed on one side of the moving frame 21 away from the heat insulation box, and each universal wheel 23 is fixedly connected to the moving frame 21; in addition, the heat preservation box is used in cooperation with the sliding structure, in the embodiment, the heat preservation box comprises a plurality of observation ports 24, each observation port 24 is partitioned by transparent glass, so that the inside of the heat preservation box can be observed from the outside, and in the embodiment, each observation port 24 is arranged along the peripheral surface of the heat preservation box; in addition, an operation screen for operation is arranged on a main body on one side of the heat preservation box, and the operation screen is used for performing man-machine interaction on the controller, setting parameters and adjusting through the operation screen according to actual needs;

the blue light generating device 2 comprises a lamp, an angle deviation mechanism, a rotating mechanism, a group of supporting plates 3, a bottom plate 4, a sliding plate 11 and a lampshade 1, wherein one group of supporting plates 3 is arranged at one side of the bottom plate 4, one end of one group of supporting plates 3 is connected with the bottom plate 4, and the other side of one group of supporting plates 3 extends out perpendicularly towards the side far away from the bottom plate 4; the lampshade 1 and one end of the support plate 3 are mutually hinged to form a group of hinged parts, the hinged parts on one side are provided with sliding parts 17, and the periphery of one side, close to the support plate 3, of each sliding part 17 is provided with teeth; the angle deviation device comprises a first driving mechanism 9, a supporting column 8 and a group of rotating gears 157, wherein the group of rotating gears 157 are arranged at two ends of the supporting column 8, one end of each rotating gear 157 is in driving connection with the inside of the first driving gear, and the other end of each rotating gear 157 is meshed with the corresponding tooth; the rotating mechanism is configured to drive the bottom plate 4 to rotate in the horizontal direction, and the sliding plate 11 is connected with the rotating mechanism; specifically, the rotating mechanism includes a second driving mechanism 13, a rotating column, a set of rotating gears 14, a rotating wheel and a limiting member 12, a through hole is provided in the bottom plate 4, the rotating wheel and the through hole are coaxially disposed, the limiting member 12 and the rotating gear 157 are respectively disposed at two sides of the bottom plate 4, the rotating gear 157 is disposed at one side of the bottom plate 4 away from the lamp housing 1, one end of the limiting member 12 is fixedly connected to the bottom plate 4, the other end of the limiting member extends to a position right above an axis of the rotating gear 157 to abut against, a rotating protrusion 10 is disposed between the limiting member 12 and the rotating gear 157, the protrusion and the rotating gear 157 are coaxially disposed, a set of rotating gears 14 are respectively coaxially disposed with two ends of the rotating column and fixedly connected with an end of the rotating column, wherein one side of the rotating gear 14 and the second driving mechanism 13 are in a driving connection to form a driving portion, the rotating gear 14 on the other side is meshed with the rotating gear 157, the driving part and the limiting part 12 are arranged on one side of the bottom plate 4, a sliding plate 11 is arranged on one side of the rotating gear 157 far away from the bottom plate 4, and the sliding plate 11 is connected with the rotating gear 157; specifically, in this embodiment, the blue light generating device 2 is connected to the controller for controlling the start time and power of the blue light generator; in this embodiment, the angle shifting device is used for adjusting the shifting angle of the blue light generating device 2, so that the light source 16 can be adjusted to a proper angle, and any position in the thermal container 20 can be irradiated and conditioned; in this embodiment, a light source 16 is disposed in the lamp housing 1, a limiting mechanism is disposed on a rotation path of the lamp housing 1, the limiting mechanism detects a rotation angle of the angle detection mechanism, when the lamp housing 1 rotates to a maximum angle, the limiting mechanism transmits a signal to the controller, and the controller receives the control signal and controls the rotation of the first driving mechanism 9, so that the sliding member 17 engages with the rotation gear 157 near the lamp housing 1 and is held at the position, and the light source 16 irradiates any position of the incubator 20; the two ends of the supporting columns 8 are respectively and fixedly connected with a group of the rotating gears 157 in a coaxial manner, the rotating gear 157 close to one side of the lampshade 1 is meshed with the sliding part 17, the rotating gear 157 far away from one side of the lampshade 1 is meshed with the first driving gear, so that the angle of the lampshade 1 can be adjusted in the rotating process of the first driving mechanism 9, in the embodiment, the lampshade 1 and the group of the supporting columns 8 are hinged with each other to form a rotating part, and the first driving mechanism 9 is driven by the sliding part 17 to rotate the lampshade 1 along the axis of the rotating part in the rotating process; in this embodiment, the sliding member 17 is a semicircular plate, and the teeth are provided on the side of the semicircular plate, and are engaged with the rotating gear 157 adjacent to the lamp housing 1; in the present embodiment, the angle rotation mechanism is used for swinging the rotation angle of the lampshade 1, and in the present embodiment, an operator can set the angle of the lampshade 1 according to actual needs and adjust the angle according to the actual needs; in this embodiment, the output shaft of the first driving mechanism 9 is provided with a screw thread which is engaged with the rotating gear 157 at the side away from the lamp housing 1;

the two ends of the rotating column are respectively and coaxially arranged with a group of rotating gears 14 and are fixedly connected to form a rotating part, the group of rotating gears 14 rotate along the axis of the rotating column, and the second driving mechanism 13 is arranged on one side close to the bottom plate 4 and close to the lampshade 1, namely: the first driving mechanism 9 and the second driving mechanism 13 are arranged at the same time, the rotating part vertically penetrates through the bottom plate 4, the two rotating gears 14 are respectively arranged at two sides of the bottom plate 4, the rotating gear 14 at the same side of the second driving mechanism is in driving connection with the second driving mechanism 13, and the rotating gear 14 at the other side of the bottom plate 4 is meshed with the rotating gear 157; in addition, in this embodiment, the bottom plate 4 is provided with a through hole, an axis of the rotating gear 157 is provided with a supporting rod, the supporting rod is coaxially disposed with the rotating gear 157 and penetrates through the through hole to form a protruding portion, one end of the limiting member 12 is fixedly connected with the bottom plate 4, the other end of the limiting member 12 extends toward one side of the protruding portion and abuts against an upper top portion of the protruding portion, a rotating protrusion 10 is disposed between the limiting member 12 and the protruding portion, the rotating protrusion 10 is used for limiting rotation of the rotating gear 157, the rotating protrusion 10 is in a Q shape, the rotating protrusion 10 includes a protruding foot and a middle hole, the middle hole is nested with the supporting rod and is fixedly connected with the supporting rod, so that the rotating protrusion 10 rotates along the axis of the supporting rod, and when the rotating protrusion hits against the limiting member 12, the rotating gear 157 is limited in rotation Using; in addition, stroke detection devices are arranged on two sides of the limiting member 12, and the stroke detection devices are used for transmitting the sensed signal to the controller when the rotating bump 10 approaches the stroke detection devices, the controller controls the driving of the second driving mechanism 13, so that the second driving mechanism 13 stops driving and is kept at the position, and then the blue light generating device 2 adjusts the corresponding angle, thereby ensuring that the blue light generating device 2 is just opposite to the proper position; in this embodiment, touching the stroke detection device is the maximum range, and at this time, the second driving mechanism 13 stops driving;

the moving device comprises a moving track 29, a sliding wheel 30 and a third driving mechanism 28, the top cover of the heat preservation box 20 is provided with the moving track 29, the moving track 29 extends along the length direction of the heat preservation box 20, the sliding wheel 30 is configured to be connected with the blue light generating device 2 to form a sliding part, and slides along the extending direction of the moving track 29; the third driving mechanism 28 is configured to drive the sliding wheel 30 to slide on the moving rail 29; specifically, in this embodiment, the sliding plate 11 is disposed on the rotating mechanism, the sliding plate 11 connects the rotating mechanism and the moving device, and the moving device drives the blue light generating device 2 to slide at any position of the cover; in this embodiment, the moving rail 29 extends along the longitudinal direction of the cover of the incubator 20, and the sliding wheel 30 slides along the rail of the moving rail 29; in this embodiment, two ends of the sliding plate 11 are respectively connected to the sliding device, the sliding wheels 30 are provided in two sets, specifically, the two sets of sliding wheels 30 are respectively provided on two sides of the sliding plate 11, and in addition, the sliding wheels 30 slide along the surface of the moving track 29, so that the blue light generating device 2 can stop or slide at any position; the sliding wheel 30 is configured to be connected with the blue light generating device 2 to form a sliding portion and slide along the extending direction of the moving track 29, specifically, the sliding wheel 30 is fixedly connected with the sliding plate 11 of the blue light generating device 2 to form a sliding portion, and the sliding portion slides along the extending direction of the sliding track;

the filtering device comprises a plurality of ventilation openings, a transmission pipeline 18 and a filtering mechanism, wherein each ventilation opening is arranged on the inner wall of the incubator 20, each ventilation opening is connected with the transmission pipeline 18, and the filtering mechanism is configured to be arranged in the transmission pipeline 18 and filter air in the pipeline; specifically, each of the ventilation openings of the filtering device is arranged on the inner wall of the heat insulation box 20, in this embodiment, the heat insulation box 20 is provided with a plurality of ventilation openings, each ventilation opening is provided with a filtering device, and the filtering devices ensure that air entering the heat insulation box 20 is clean and pure; in addition, in this embodiment, the filtering device may be replaced with an oxygen supply device configured to introduce the air into the incubator 20 after the air inside the incubator 20 and outside the incubator 20 is filtered and sterilized, and to discharge the carbon dioxide generated in the incubator 20 outside the incubator 20 through a dedicated passage; in this embodiment, a plurality of filtering mechanisms are disposed in the conveying pipeline 18, each filtering mechanism includes a plurality of filtering sheets 26, cleanliness of the oxygen passing through each filtering sheet 26 is gradually improved, and meanwhile, a plurality of supply pumps 27 are disposed in the conveying pipeline 18, and each supply pump 27 is paired with each filtering sheet 26, so that sufficient air enters the heat preservation box 20; the connecting channel comprises an air inlet 32, an air supply port 6 and a cavity 25, the air inlet 32 and the air supply port 6 are arranged at two ends of the connecting channel, the cavity 25 is arranged between the air inlet 32 and the air supply port 6, and the filter sheets 26 are arranged in the cavity 25 at equal intervals and are vertically connected with the extending direction of the inner wall of the cavity 25; in this embodiment, the filtering apparatus further comprises a supply pump 27 controller 19, an air supply port 6 and a filter screen 5, wherein the air supply port 6 is arranged right above the cover, the filter screen 5 is arranged on one side of the air supply port 6 facing the conveying pipeline 18, and the filter screen 5 enables external air to be preliminarily treated when entering the conveying pipeline 18; in addition, in this embodiment, each of the supply pumps 27 disposed in the transmission pipeline 18 is respectively connected to the controller 19 of the supply pump 27 in a control manner, and further, the controller 19 of the supply pump 27 is connected to the controller in a control manner, so as to ensure that each of the supply pumps 27 can be differentially started according to actual needs during air treatment;

the heat preservation device comprises a placing plate, a heating device and a detection mechanism, wherein the heating mechanism is arranged in the placing plate; the detection mechanism is configured to detect the temperature inside the placing plate and the incubator 20, the placing plate is provided with anti-skid lines, and the anti-skid lines extend along the length direction of the placing plate; specifically, the heating device comprises a heating plate and an induction device, and the induction device is arranged around the placing plate and used for detecting whether a person sits on the placing plate; in this embodiment, the sensing device includes, but is not limited to, several devices listed below, including: pressure sensors, gravity sensors and temperature sensors; the induction device is arranged on the upper surface or the lower bottom surface of the placing plate; in this embodiment, the heating plate is disposed inside the placing plate, and the detecting devices are disposed at various positions of the heat insulation box 20 including the placing plate, and are used for detecting the temperatures of the heat insulation box 20 and the placing plate, sharing the detection signal with the controller, and dynamically controlling or monitoring the temperature in the heat insulation box 20 by the controller; in this embodiment, place the board and still be equipped with anti-skidding line, anti-skidding line makes the article of placing in the top can not easy landing.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described or illustrated in detail in a certain embodiment, reference may be made to the descriptions of other embodiments.

In summary, the infant incubator with the blue light therapy structure of the present invention, through the cooperation between the controller and the filtering device, the heating device, the moving device, and the blue light generating device, ensures that the whole system has high efficiency and reliability in the process of conditioning jaundice, and can be adjusted according to actual needs, thereby ensuring that the effect of conditioning jaundice between the whole systems is optimal; the angle deviation device is used for adjusting the deviation angle of the blue light generation device, so that the light source can be adjusted to a proper angle, and any position in the heat preservation box is irradiated and conditioned; the efficiency and the effect of the filtering device on the air entering the heat insulation box are adopted, so that the reliable oxygen supply amount of the heat insulation box is ensured, and the comfort is improved in the conditioning process; the supply pumps in the transmission pipeline are respectively in control connection with the supply pump controller, and further, the supply pump controller is in control connection with the controller, so that the supply pumps can be differentially started according to actual requirements in the air treatment process; the blue light generating device is driven to move through the sliding of the sliding device, so that the blue light generating device can irradiate any position in the heat preservation box, and more application scenes in the heat preservation box are improved.

Although the invention has been described above with reference to various embodiments, it should be understood that many changes and modifications may be made without departing from the scope of the invention. In particular, it is to be understood that the methods, systems, and apparatus discussed above are examples. In particular, various configurations may omit, replace, or add various processes or components as appropriate. In particular, for example, in alternative configurations, the methods may be performed in an order different than that described, and/or various components may be added, omitted, and/or combined. In particular, features described with respect to certain configurations may be combined in various other configurations, such as different aspects and elements of a configuration may be combined in a similar manner. In particular, and in addition, elements therein may be updated as the art develops, i.e., many of the elements are examples and do not limit the scope of the disclosure or claims.

Specific details are set forth in the description in order to provide a thorough understanding of the exemplary configurations including implementations. In particular, however, configurations may be practiced without these specific details, for example, well-known circuits, processes, algorithms, structures, and techniques have been shown without unnecessary detail in order to avoid obscuring the configurations. In particular, this description provides example configurations only, and does not limit the scope, applicability, or configuration of the claims. In particular, rather, the foregoing description of the configuration will provide those skilled in the art with an enabling description for implementing the described techniques. In particular, various changes may be made in the function and arrangement of elements without departing from the spirit or scope of the disclosure.

In conclusion, it is intended that the foregoing detailed description be regarded as illustrative rather than limiting, and that it be understood that these examples are illustrative only and are not intended to limit the scope of the invention. In particular, after reading the description of the invention, the skilled person can make various changes or modifications to the invention, and these equivalent changes and modifications also fall into the scope of the invention defined by the claims.

Claims (6)

1. The infant incubator with the blue light treatment structure is characterized by comprising an incubator, a blue light generation device, a moving device, a filtering device, a heat preservation device and a controller, wherein the blue light generation device, the filtering device and the heat preservation device are respectively in control connection with the controller; the blue light generating device is configured to irradiate the inside of the incubator; the moving device is configured to drive the blue light generating device to move in the heat preservation box; the filtering device is configured to filter the vent hole of the incubator; the heat-insulating device is configured to insulate the inside of the incubator.

2. The infant incubator in a blue light therapy configuration according to claim 1, wherein the blue light generating means comprises a lamp, an angular offset mechanism, a rotation mechanism, a plurality of support plates, a bottom plate, a sliding plate, and a lamp cover, wherein a plurality of the support plates are disposed on one side of the bottom plate, one end of a plurality of the support plates is connected to the bottom plate, and the other end of a plurality of the support plates is vertically protruded toward the side away from the bottom plate; the lampshade and one end of the support plate are mutually hinged to form a group of hinged parts, the hinged parts on one side are provided with sliding parts, and the periphery of one side, close to the support plate, of each sliding part is provided with teeth; the angle deviation device comprises a first driving mechanism, a supporting column and a group of rotating gears, wherein the group of rotating gears are arranged at two ends of the supporting column, one end of each rotating gear is in driving connection with the inside of the first driving gear, and the other end of each rotating gear is meshed with the corresponding tooth;

the rotating mechanism is configured to drive the bottom plate to rotate in a horizontal direction, and the sliding plate is connected with the rotating mechanism.

3. The baby incubator in a blue light therapy structure according to any one of the preceding claims, wherein the moving device comprises a moving rail, a sliding wheel and a third driving mechanism, the moving rail is provided on the top cover of the incubator and extends along the length direction of the incubator, the sliding wheel is configured to be connected with the blue light generating device to form a sliding portion and slide along the extending direction of the moving rail; the third driving mechanism is configured to drive the sliding wheels to slide on the moving rail.

4. The baby incubator in a blue light therapy configuration according to any one of the preceding claims, wherein the filtering means comprises a plurality of ventilation openings, a transmission duct and a filtering mechanism, each of the ventilation openings being disposed on an inner wall of the incubator, each of the ventilation openings being connected to the transmission duct, the filtering mechanism being configured to be disposed within the transmission duct and to filter air within the duct.

5. A blue light therapy structured infant incubator as claimed in any one of the preceding claims, wherein said incubator assembly includes a placement plate, a heating device and a detection mechanism, said heating mechanism being disposed within said placement plate; the detection mechanism is configured to detect the temperature in the placement plate and the heat preservation box, the placement plate is provided with the anti-skid lines extending along the length direction of the placement plate.

6. The baby incubator with blue light therapy structure according to one of the preceding claims, wherein the rotation mechanism comprises a second driving mechanism, a rotation column, a set of rotation gears, a rotation wheel and a limiting member, a through hole is formed in the bottom plate, the rotation wheel is coaxially disposed with the through hole, the limiting member and the rotation gears are respectively disposed on two sides of the bottom plate, the rotation gears are disposed on one side of the bottom plate away from the lampshade, one end of the limiting member is fixedly connected with the bottom plate, the other end of the limiting member extends to abut against the top of the axis of the rotation gear, a rotation projection is disposed between the limiting member and the rotation gears, the projection is coaxially disposed with the rotation gears, a set of rotation gears are respectively coaxially disposed with two ends of the rotation column and fixedly connected with the end of the rotation column, the rotating gear on one side is in driving connection with the second driving mechanism to form a driving part, the rotating gear on the other side is meshed with the rotating gear, the driving part and the limiting part are arranged on one side of the bottom plate, a sliding plate is arranged on one side, far away from the bottom plate, of the rotating gear, and the sliding plate is connected with the rotating gear.

Images