CN216061711U - Neonatal jaundice treatment blue light multi-angle projection device - Google Patents

Abstract

The application discloses a blue light multi-angle projection device for treating neonatal jaundice, which comprises a bearing frame body, wherein the bearing frame body comprises a bottom plate and a telescopic rod, the telescopic rod is fixed on one side of the upper end of the bottom plate, lamp panels used for emitting blue light are arranged on two sides of the telescopic rod, and a bracket used for bearing a neonatal is arranged in the middle of the two lamp panels; the outer side of the lamp panel is sleeved with a frame, the edges of two ends of the frame are in rotating connection with pin shafts, the other end edges of the pin shafts are fixed with the end face of the lamp panel on the near side, and the pin shafts and the lamp panel form a lamp panel group frame together; the frame is provided with a first driving assembly for driving the lamp panel group frame to alternately swing up and down, the back side of the frame is provided with a second driving assembly for driving the frame to alternately rotate left and right, and the second driving assembly is fixed at the tail end close to the telescopic rod; this application is through combining first drive assembly, second drive assembly, bracket, guarantees that the neonate can be by all-round, efficient the shining of blue light source, reduces neonate's morbidity.

Description

Neonatal jaundice treatment blue light multi-angle projection device

Technical Field

The utility model relates to the technical field of neonatal jaundice treatment equipment, in particular to a neonatal jaundice treatment blue light multi-angle projection device.

Background

Newborn babies always easily suffer from various diseases and are prevented too much, wherein neonatal jaundice is one of the most common diseases faced after the birth of the newborn, clinically about 85% of full-term babies and most of premature babies suffer from jaundice within one week after the birth, jaundice of the babies who are not full of the month (within 28 days of the birth) is called neonatal jaundice in medicine, and the main symptoms are skin, mucous membrane and sclera yellowing, inappetence and restlessness of the babies, and possible rise of body temperature.

Once a newborn has jaundice, the conventional means is to adopt a non-drug mode of breast milk breaking and milk powder feeding to discharge jaundice by excretion, and when a small number of newborns are difficult to discharge jaundice by excretion, the conventional means is matched with drug therapy, however, drugs have great irritation to intestines and stomach of the newborn, so that a general doctor can recommend adopting a blue light irradiation mode to eliminate jaundice, and meanwhile, in order to avoid the injury of the continuously irradiated blue light to the eyes and genital parts of the newborn, the newborn can be provided with an eye shield and a paper diaper, and the newborn usually needs to be continuously irradiated for about 12 to 24 hours. The emergence source of blue light adopts blue light therapeutic instrument usually, and a current portable blue light therapeutic instrument of a section (as fig. 1) common on the existing market uses, and during the use, the staff first need push away this equipment appointed place (the place is the bed that the neonate stayed, chair), through the angle and the flexible post of manual adjustment (height-adjusting) of manual regulation lamp panel to the blue light that makes the lamp panel produce can furthest shine the neonate's body surface.

However, the conventional mobile blue light therapy apparatus has problems in that: all need fix again after carrying out angle adjustment with this blue light therapeutic instrument's lamp panel at every turn, it wastes time and energy to operate repeatedly many times, and this blue light therapeutic instrument can only shine a body side of neonate simultaneously, if need shine another body side of neonate, still need stand up the health of neonate, and the upset many times will cause the injury to the health of neonate.

Disclosure of Invention

In view of this, the present invention provides a blue light multi-angle projection device for treating neonatal jaundice, which combines a first driving assembly, a second driving assembly and a bracket to ensure that a neonatal can be irradiated by a blue light source in an omnidirectional and efficient manner, thereby reducing neonatal morbidity.

The utility model discloses a blue light multi-angle projection device for treating neonatal jaundice, which comprises a bearing frame body, wherein the bearing frame body comprises a bottom plate and a telescopic rod, the telescopic rod is fixed on one side of the upper end of the bottom plate, lamp panels used for emitting blue light are arranged on two sides of the telescopic rod, and a bracket used for bearing a newborn is arranged in the middle of the two lamp panels; the outer side of the lamp panel is sleeved with a frame, the edges of two ends of the frame are in rotating connection with pin shafts, the other end edges of the pin shafts are fixed with the end face of the lamp panel on the near side, and the pin shafts and the lamp panel form a lamp panel group frame together; the frame is provided with a first driving assembly used for driving the lamp panel group frame to swing up and down alternately, the back side of the frame is provided with a second driving assembly used for driving the frame to rotate left and right alternately, and the second driving assembly is fixed at the tail end of the near end of the telescopic rod. The effect of first driving piece lies in guaranteeing to realize constantly swinging on vertical face, makes the blue light beam that the lamp panel was beaten shine the body side of neonate different positions at the swing in-process, strengthens the probability that neonate was shone to a certain extent. The lamp panel can be indirectly guaranteed to the second drive assembly constantly to realize controlling the rotation in turn, and in the in-process is shone to the same position of neonate's one side, the lamp panel of constantly rotatory can make blue light ray constantly shine the neonate's body surface, avoids appearing shining the dead angle at the body surface of neonate. Can effectively control the interval between lamp panel and the neonate through the length of adjustment telescopic link, can be according to the size of disease severity of neonate and the size concrete decision interval of neonate, make the practicality of this application stronger.

When the first driving source and the second driving source are specifically arranged, the first driving source and the second driving source respectively comprise sliding rails, two rows of racks are respectively arranged on the upper wall surface and the lower wall surface of the inner side of each sliding rail, a gear lacking is matched between the two rows of racks, the two rows of racks and the gear lacking jointly form a transmission structural part and are linked, the gear lacking is in concentric transmission connection with a power output shaft of a motor, a tooth socket matched with a full gear is arranged on the outer side wall of each sliding rail, and the extending direction of the tooth socket is consistent with the length extending direction of the two rows of racks; the full gear on the first driving component is concentrically and fixedly connected with the pin shaft on the near side, and the motor on the first driving component is fixed with the frame; the full gear on the second driving component is fixed with the frame at the near side, and the motor on the second driving component is fixed with the wall surface of the telescopic rod.

When the bracket is arranged specifically, the bracket comprises two inserting frames, the gear shaping on the two inserting frames are inserted and matched with each other, the two inserting frames jointly form a spliced bed body structure, and the two inserting frames are both in transmission connection with a driving source for driving the inserting frames to move; wherein, the first embodiment: the driving source comprises a screw rod, a screw hole matched with the screw rod is formed in the inserting frame, and a servo motor used for driving the screw rod to rotate is connected to the screw rod in a transmission mode; second embodiment: the driving source is an electric telescopic rod used for driving the inserting frame to move. No matter the embodiment is used, the effect of moving the inserting frames can be achieved, and the two inserting frames are spliced; effectively guaranteed the variety of this application, guaranteed that this application has many sets of implementation schemes, in case other schemes can't be implemented, can also adopt the standby scheme to replace and use.

When specifically setting up above-mentioned frame of inserting, the end of inserting the frame articulates there is the storage plate, inserts and sets up the stop gear who is used for carrying out the locking with the storage plate on the frame. When one of the containing plates is pulled out from the other containing plate, the containing plates and the inserting frame need to be adjusted to be at the same level, so that the phenomenon that a newborn touches and is accidentally injured in the process of pulling out the containing plates is avoided; when the inserting frame is used as a bearing object for supporting a newborn, the accommodating plate is required to rotate above the inserting frame and form a certain angle with the inserting frame, so that the newborn is effectively prevented from falling off from the inserting frame.

The utility model has the following beneficial effects:

first, this application is through combining first drive assembly and second drive assembly, ensures to carry out all-round, the irradiation at no dead angle to the neonate's body wall that suffers from jaundice, ensures that the jaundice on the neonate can subside rapidly, avoids the jaundice not to withdraw for a long time and causes the risk of other diseases, and the efficiency of disease is got rid of in the reinforcing, blocks on the maximum probability that the neonate leaves the sequela.

Second, this application is through combining slide rail, scarce gear, full gear isotructure, compares in directly adopting the motor, effectively avoids frequently making the power shaft just reverse easily to lead to the motor impaired, prolongs the life of motor, has saved use cost.

Thirdly, when the bracket is used, the servo motor on one side is driven independently to separate the inserting frame and the other inserting frame on the same side, so that the blue light beam on the lower part can effectively penetrate through the gap of the other inserting frame to irradiate the local part of the newborn, correspondingly, the other servo motor is driven by adopting the same method, and the continuous irradiation of the unirradiated bar part of the newborn is realized, and the following attention is paid to: when the other side of the rack is used, the former rack needs to be moved back to the original position.

Drawings

Fig. 1 is a schematic structural diagram of a conventional blue light therapeutic apparatus.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic structural view of the carrier body.

Fig. 4 is a schematic view of a connection structure of the lamp panel, the angle adjustment structure, the telescopic rod and the frame.

Fig. 5 is a schematic structural view of the frame.

Fig. 6 is a schematic view of an assembly structure of a two-panel lamp.

Fig. 7 is a schematic view of the mounting structure of the bracket.

Fig. 8 is a schematic structural diagram of the first driving assembly and the second driving assembly.

Fig. 9 is a schematic structural view of the bracket.

Fig. 10 is a schematic view of an installation structure of the receiving plate.

In the figure, a bottom plate 1, an expansion link 2, a universal wheel 3, a lamp panel 4, a frame 5, a pin shaft 6, a slide rail 7, a rack 8, a missing gear 9, a full gear 10, an inserting frame 11, a screw rod 12 and a storage plate 13.

Detailed Description

For clear understanding of the technical solution of the present application, a neonatal jaundice treatment blue light multi-angle projection device provided by the present application will be described in detail below with reference to specific embodiments and accompanying drawings.

The terminology used in the following examples is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the specification of the present application and the appended claims, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, such as "one or more", unless the context clearly indicates otherwise. It should also be understood that in the following embodiments of the present application, "at least one", "one or more" means one, two or more.

Reference throughout this specification to "one embodiment" or "some embodiments," or the like, means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the present application. Thus, appearances of the phrases "one embodiment," "in some embodiments," "in other embodiments," or the like, in various places throughout this specification are not necessarily all referring to the same embodiment, but rather "one or more but not all embodiments" unless specifically stated otherwise. The terms "comprising," "including," "having," and variations thereof mean "including, but not limited to," unless expressly specified otherwise.

Newborn babies always easily suffer from various diseases and are prevented too much, wherein neonatal jaundice is one of the most common diseases faced after the birth of the newborn, clinically about 85% of full-term babies and most of premature babies suffer from jaundice within one week after the birth, jaundice of the babies who are not full of the month (within 28 days of the birth) is called neonatal jaundice in medicine, and the main symptoms are skin, mucous membrane and sclera yellowing, inappetence and restlessness of the babies, and possible rise of body temperature. Once a newborn has jaundice, the conventional means is to adopt a non-drug mode of breast milk breaking and milk powder feeding to discharge jaundice by excretion, and when a small number of newborns are difficult to discharge jaundice by excretion, the conventional means is matched with drug therapy, however, drugs have great irritation to intestines and stomach of the newborn, so that a general doctor can recommend adopting a blue light irradiation mode to eliminate jaundice, and meanwhile, in order to avoid the injury of the continuously irradiated blue light to the eyes and genital parts of the newborn, the newborn can be provided with an eye shield and a paper diaper, and the newborn usually needs to be continuously irradiated for about 12 to 24 hours. The emergence source of blue light adopts blue light therapeutic instrument usually, and a current portable blue light therapeutic instrument of a section (as fig. 1) common on the existing market uses, and during the use, the staff first need push away this equipment appointed place (the place is the bed that the neonate stayed, chair), through the angle of manual regulation lamp panel 4 and the flexible post of manual adjustment (height-adjusting) to make the blue light that lamp panel 4 produced can furthest shine the neonate's body surface.

However, the conventional mobile blue light therapy apparatus has problems in that: all need fix again after carrying out angle adjustment with this blue light therapeutic instrument's lamp panel 4 at every turn, the operation is repeatedly wasted time and energy a plurality of times, and this blue light therapeutic instrument can only shine a body side of neonate simultaneously, if need shine another body side of neonate, still need stand up the health of neonate, and the upset many times will cause the injury to the health of neonate.

Referring to fig. 2 to 10, a blue light multi-angle projection device for treating neonatal jaundice in the present application is illustrated, which includes a bearing frame body (as shown in fig. 3), the bearing frame body has an installation and support effect on other devices as the name implies, the bearing frame body is composed of a bottom plate 1 and an expansion link 2 (the expansion link 2 is a common prior art in the market, and is not described herein again), a universal wheel 3 for moving the bottom plate 1 and the expansion link 2 is installed on a bottom wall of the bottom plate 1, so as to facilitate moving the present application to different positions, the expansion link 2 is fixed (bolted, welded, bonded, etc.) on one side of an upper end of the bottom plate 1, a lamp panel 4 for emitting blue light is disposed on one side of the expansion link 2, specifically, as shown in fig. 4, a frame 5 (as shown in fig. 5) is sleeved on an outer side of the lamp panel 4, a pin shaft 6 is rotatably connected to two end edges of the frame 5, the other end edge of the pin shaft 6 is fixed (welded, etc.) to an end surface of the lamp panel 4 on an adjacent side, the pin shaft 6 and the lamp panel 4 jointly form a lamp panel 4 group frame, the frame 5 is provided with a first driving assembly for driving the lamp panel 4 group frame to alternately swing up and down, and the first driving piece is used for ensuring that the first driving piece continuously swings on a vertical surface, so that blue light beams emitted by the lamp panel 4 irradiate different parts of the newborn body in the swinging process, and the probability of irradiating the newborn is enhanced to a certain degree; the dorsal part of frame 5 is provided with and is used for driving frame 5 to carry out the second drive assembly that rotates about in turn (first drive assembly and second drive assembly are identical in structure and principle), the second drive assembly is fixed in on the end of the near end of telescopic link 2, the second drive assembly can guarantee indirectly that lamp panel 4 constantly realizes rotating about in turn, in-process is shone the same position to neonate's one side, constantly rotatory lamp panel 4 can make blue light ray constantly shine the neonate's body surface, avoid appearing shining the dead angle at the body surface of neonate. This application is through combining first drive assembly and second drive assembly, ensures to carry out all-round, the irradiation at no dead angle to the neonate's body wall that suffers from jaundice, ensures that the jaundice on the neonate body can subside rapidly, avoids jaundice not withdrawing the risk that causes other symptoms for a long time, and the efficiency of disease is got rid of in the reinforcing, blocks on the maximum probability that the neonate leaves the sequela. Can effectively control the interval between lamp panel 4 and the neonate through the length of adjustment telescopic link 2, can make the practicality of this application stronger according to the size of disease severity of neonate and the size concrete decision interval of neonate. Considering that when one lamp panel 4 is arranged, only the body surface of a newborn not attached to a bed or a chair can be irradiated, and if the newborn is frequently turned, the newborn can be injured, based on the situation, as shown in fig. 6, the other end of the telescopic rod 2 is provided with the other lamp panel 4, the two lamp panels 4 are arranged in a mirror image manner, and the first driving assembly, the second driving assembly, the frame 5 and the pin shaft 6 arranged on the lamp panel 4 are identical to the structure and the connection relation of the previous lamp panel 4; two lamp panels 4 mutually support, ensure to need not under the circumstances of standing up at the neonate, can effectively carry out abundant effectual shining to the antecedent chest and the back of neonate, further strengthen the practicality and the suitability of this application, it is all-round to realize under the neonate's the condition of stewing, high efficiency blue light shines, effectively support the neonate in order to guarantee, as shown in fig. 7, the middle part of two lamp panels 4 is provided with and is used for carrying out the bracket that bears to the neonate, and simultaneously, all be provided with the perforation more than two on the wall of each branch of bracket (perforation is common prior art on the market, here is no longer repeated description), make things convenient for lamp panel 4 light that is in the bracket bottom to beat on the body surface of neonate after perforating.

When the first driving source and the second driving source are specifically arranged, as shown in fig. 8, each of the first driving source and the second driving source comprises a sliding rail 7, two rows of racks 8 are respectively arranged (welded or bonded) on the upper wall surface and the lower wall surface of the inner side of the sliding rail 7, a missing gear 9 is adapted between the two rows of racks 8, the two rows of racks 8 and the missing gear 9 jointly form a transmission structural member and are linked, the missing gear 9 is in concentric transmission connection with a power output shaft of a motor, a tooth socket adapted to an all-gear 10 is arranged on the outer side wall of the sliding rail 7, and the extending direction of the tooth socket is consistent with the length extending direction of the two rows of racks 8; the full gear 10 on the first driving component is concentrically and fixedly connected with the pin shaft 6 at the near side, and the motor on the first driving component is fixed with the frame 5; the full gear 10 of the second drive assembly is fixed to the frame 5 on the near side, and the motor of the second drive assembly is fixed to the wall of the telescopic rod 2. During the use, through driving motor's rotation, and then drive and lack gear 9 and rotate, the tooth on lacking gear 9 and the two rows of rack 8 on the slide rail 7 cooperate in turn, and then drive slide rail 7 at reciprocating motion, reciprocating motion's slide rail 7 correspondingly drives full gear 10 and realizes alternately just reversing, full gear 10 on the first drive assembly, full gear 10 on the second drive assembly drive round pin axle 6 and frame 5 respectively and realize just reversing, finally make lamp panel 4 realize the regulation of multi-angle, thereby realize shining the neonate in all directions. As an embodiment can directly adopt the motor to drive round pin axle 6 or frame 5 and carry out just reversing, but directly adopt the motor to compare in above-mentioned technical scheme, the risk that exists lies in: the frequent control motor power shaft carries out just reversing, can cause the damage to motor power shaft and other inner structure to reduce the life of motor, the motor in the aforementioned embodiment only need in same direction constantly rotatory can, prolonged the life of motor on the big probability, saved use cost.

When the bracket is specifically arranged, the bracket comprises two inserting frames 11, inserting teeth on the two inserting frames 11 are inserted and matched with each other, the two inserting frames 11 jointly form a spliced bed body structure, and driving sources for driving the inserting frames 11 to move are connected to the two inserting frames 11 in a transmission manner; as a first embodiment, as shown in fig. 9, the driving source includes a screw 12, a screw hole adapted to the screw 12 is provided on the frame 11, and a servo motor for driving the screw 12 to rotate is drivingly connected to the screw 12; as another embodiment, the driving source is directly selected from an electric telescopic rod (an electric telescopic rod is a common product in the market and not shown in the figure) for driving the inserting frame 11 to move. No matter the embodiment that uses above-mentioned kind, can all reach the effect of inserting frame 11 and remove, through using two to insert frame 11 to splice, when using, the servo motor of one side is driven alone, makes the frame 11 of inserting of homonymy separate with another frame 11, thereby the blue light beam of lower part can effectively pass another frame 11's gap and shine neonate's part, correspondingly, adopts the same method to drive another servo motor, thereby does and continue to shine neonate's unirradiated bar portion, notice: when the insert frame 11 on the other side is used, the former insert frame 11 needs to be moved back to the original position. Meanwhile, the two embodiments are real-time, so that the diversity of the application is effectively guaranteed, the application is ensured to have multiple sets of implementation schemes, and once other schemes cannot be implemented, a standby scheme can be adopted for replacement.

When the above-mentioned inserting frame 11 is specifically arranged, as shown in fig. 10, the end of the inserting frame 11 is hinged with the receiving plate 13, when one of the receiving plates 13 is pulled out from the other receiving plate 13, the receiving plate 13 and the inserting frame 11 need to be adjusted to be at the same level, so as to avoid accidental touch injury of a newborn during the pulling out of the receiving plate 13; when the insert frame 11 is used as a carrier for supporting a newborn, the required article receiving plate 13 rotates above the insert frame 11 and forms a certain angle with the insert frame 11, so that the newborn is effectively prevented from falling off the insert frame 11; the insertion frame 11 is provided with a stopper mechanism (e.g., a bolt) for locking the storage plate 13.

In order to enhance the comfort of the newborn when the cradle 11 is specifically provided, a soft material (not shown), such as gum, is wrapped on the surface of the cradle 11.

It should be noted that the electrical equipment related in this embodiment is electrically connected to the power generation device and the controller, which are common in the prior art in the market, and are not described herein again.

Claims (6)

1. The utility model provides a jaundice of neonate treatment blue light multi-angle projection arrangement which characterized in that: the baby carrier comprises a carrier body, wherein the carrier body comprises a bottom plate (1) and an expansion link (2), the expansion link (2) is fixed on one side of the upper end of the bottom plate (1), lamp panels (4) used for emitting blue light are arranged on two sides of the expansion link (2), and a bracket used for carrying a newborn baby is arranged in the middle of each of the two lamp panels; a frame (5) is sleeved on the outer side of the lamp panel (4), two end edges of the frame (5) are in rotating connection with a pin shaft (6), the other end edge of the pin shaft (6) is fixed with the end face of the panel lamp on the near side, and the pin shaft (6) and the panel lamp form a panel lamp group frame together; the frame (5) is provided with a first driving assembly for driving the panel lamp assembly frame to swing up and down alternately, the back side of the frame (5) is provided with a second driving assembly for driving the frame (5) to rotate left and right alternately, and the second driving assembly is fixed at the tail end of the near end of the telescopic rod (2).

2. The blue-light multi-angle projection device for treating neonatal jaundice, according to claim 1, wherein:

the first driving source and the second driving source respectively comprise sliding rails (7), the upper wall surface and the lower wall surface of the inner side of each sliding rail (7) are respectively provided with two rows of racks (8), a gear lacking (9) is matched between the two rows of racks (8), the two rows of racks (8) and the gear lacking (9) jointly form a transmission structural part and are linked, the gear lacking (9) is in concentric transmission connection with a power output shaft of a motor, a tooth socket matched with a full gear (10) is arranged on the outer side wall of each sliding rail (7), and the extending direction of the tooth socket is consistent with the length extending direction of the two rows of racks (8); the full gear (10) on the first driving component is concentrically and fixedly connected with the pin shaft (6) on the nearby side, and the motor on the first driving component is fixed with the frame (5); an all-gear (10) on the second driving component is fixed with the frame (5) at the near side, and a motor on the second driving component is fixed with the wall surface of the telescopic rod (2).

3. The blue-light multi-angle projection device for treating neonatal jaundice, according to claim 1, wherein:

the bracket comprises two inserting frames (11), inserting teeth on the two inserting frames (11) are mutually inserted and matched, the two inserting frames (11) jointly form a spliced bed body structure, and the two inserting frames (11) are connected with a driving source for driving the inserting frames (11) to move in a transmission manner.

4. The blue-light multi-angle projection device for treating neonatal jaundice, according to claim 3, wherein:

the driving source comprises a screw rod (12), a screw hole matched with the screw rod (12) is formed in the inserting frame (11), and a servo motor used for driving the screw rod (12) to rotate is in transmission connection with the screw rod (12).

5. The blue-light multi-angle projection device for treating neonatal jaundice, according to claim 3, wherein:

the driving source is an electric telescopic rod (2) used for driving the inserting frame (11) to move.

6. The blue-light multi-angle projection device for treating neonatal jaundice, according to claim 3, wherein:

the end of the inserting frame (11) is hinged with a containing plate (13), and the inserting frame (11) is provided with a limiting mechanism used for locking the containing plate (13).

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