CN219208747U - Blue light treatment box of on-line measuring - Google Patents

Abstract

The utility model discloses an online detection blue light treatment box, which comprises a blue light treatment box body, an image acquisition camera, a color comparison component, a blue light irradiation component, a skin temperature detection component, a voice module, a WiFi connection module and a processor, wherein the blue light treatment box body is provided with a blue light detection module; the baby crib is arranged in the blue light treatment box body, and the image acquisition camera is movably connected in the blue light treatment box body; the color contrast component is arranged above the crib and is connected with the blue light treatment box body in a lifting manner; the blue light irradiation component is arranged above the crib and is fixedly connected with the blue light treatment box body; the voice module, the WiFi connection module and the processor are all arranged on the blue light treatment box body; the skin temperature detection component is in communication connection with the processor; the skin temperature detection assembly is worn on the neonate. The utility model can dynamically monitor bilirubin value and reflect treatment effect in real time, so that medical staff can adjust treatment scheme in time, and simultaneously reduce blood sampling times of newborns and reduce wounds of newborns.

Description

Blue light treatment box of on-line measuring

Technical Field

The utility model relates to the technical field of blue light treatment boxes, in particular to an online detection blue light treatment box.

Background

Neonatal jaundice is one of the most common clinical diseases to be evaluated and managed in neonatal period, and partial neonatal jaundice may progress to bilirubin encephalopathy or nuclear jaundice if not intervened in time, causing permanent damage to the nervous system, and serious cases may cause death. In clinical work, the most commonly used treatment method is blue light therapy, and monitoring of bilirubin values plays a significant role in blue light therapy in reflecting treatment effects and adjusting intervention treatment schemes, and particularly for ABO hemolysis and RH hemolytic jaundice, real-time monitoring of bilirubin values plays a key role in selecting treatment modes. If bilirubin dynamic real-time monitoring is adopted during blue light therapy, bilirubin abnormality of a neonate can be found in time, a blood change therapy or other effective treatment schemes can be adopted in time, but an existing blue light treatment box does not have the function of monitoring bilirubin concentration in real time, as disclosed in patent application number CN202021772064.0, a novel jaundice treatment box is only used for blue light treatment, and does not have the function of real-time monitoring, the body state of the neonate cannot be known in time, bilirubin value is required to be measured through blood sampling or a percutaneous jaundice instrument every time bilirubin concentration is measured, damage to the neonate can be caused, skin damage or infection risk can be possibly caused, and meanwhile, due to the fact that hysteresis exists in data acquisition, the blue light treatment duration cannot be adjusted in time, and the treatment scheme is adjusted.

Disclosure of Invention

The utility model provides an online detection blue light treatment box, which can dynamically monitor bilirubin value and reflect treatment effect in real time, so that medical staff can adjust treatment scheme in time, and meanwhile, the blood sampling frequency of newborns is reduced, and the wounds of the newborns are reduced.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

an online detection blue light treatment box comprises a blue light treatment box body, an image acquisition camera, a color contrast component, a blue light irradiation component, a skin temperature detection component, a voice module, a WiFi connection module and a processor; the baby crib is arranged in the blue light treatment box body, and the image acquisition camera is movably connected in the blue light treatment box body; the color contrast component is arranged above the crib and is connected with the blue light treatment box body in a lifting manner; the blue light irradiation component is arranged above the crib and is fixedly connected with the blue light treatment box body; the voice module, the WiFi connection module and the processor are all arranged on the blue light treatment box body, and the image acquisition camera, the voice module and the WiFi connection module are all electrically connected with the processor; the skin temperature detection assembly is in communication connection with the processor through the WiFi connection module; the skin temperature detection assembly is worn on a neonate and is used for detecting the body temperature of the neonate.

Further, the blue light treatment box body is provided with a transparent incubator, and the temperature in the incubator can be adjusted; the crib and the image acquisition cameras are uniformly distributed in the incubator, and the image acquisition cameras are connected with the inner wall of the top of the incubator through a spherical joint.

Further, the blue light treatment box body is provided with a supporting arm, the top of the supporting arm is bent and extends towards the direction of the crib, and the blue light irradiation component is fixedly connected above the crib through the supporting arm.

Further, a plurality of blue light tubes are arranged in the middle of the blue light irradiation assembly, and a plurality of white light tubes are arranged around the blue light irradiation assembly.

Further, the color comparison component comprises a color chart, a mounting block and a plurality of sections of electric push rods; the middle part of the supporting arm extends towards the direction of the crib and is provided with a supporting arm, and the mounting block is connected with the end part of the supporting arm in a lifting manner through the multi-section electric push rod; the colorimetric card is fixedly connected to the mounting block; the incubator is provided with a dodging hole corresponding to the lifting movement direction of the mounting block, and the mounting block penetrates through the dodging hole and enters the incubator.

Further, the skin temperature detection component is a detection bracelet; the detection bracelet is provided with a body temperature sensor, a WiFi connection module, an information processor and a lithium battery, wherein the body temperature sensor, the WiFi connection module and the lithium battery are electrically connected with the information processor; the detection bracelet is connected with the processor through the WiFi connection module and used for transmitting neonate body temperature data to the processor.

Further, the crib comprises a bed head, a bed body and an electric push rod; the utility model discloses a blue light therapeutic box, including lathe bed, electric putter, lathe bed, lathe head, electric putter, lathe bed, lathe head one end with the lathe bed is articulated, the lathe bed bottom is equipped with two sharp spouts and a slide shaft, the slide shaft slip inlays the dress two in the straight spout, electric putter's bottom with blue light therapeutic box body fixed connection, electric putter's top with the slide shaft is articulated, electric putter goes up and down to drive the lathe bed is followed the lathe bed upset.

Further, the baby crib is also provided with a pure-color anti-slip pad.

Further, the periphery of the incubator is provided with an anti-collision strip, and the anti-collision strip is made of soft rubber or soft cotton materials.

The beneficial effects of the utility model are as follows:

1) According to the utility model, the bilirubin value of the neonate is monitored in real time through the image acquisition camera and the color contrast component, the treatment effect is reflected in real time, multiple invasive blood sampling and percutaneous jaundice instrument measurement can be avoided, the detection time can be shortened, the neonate pain is lightened, the requirements of timeliness, dynamics, noninvasive, convenience and economy are basically met, cross infection can be effectively avoided, and meanwhile, medical staff can timely adjust the treatment scheme according to the acquired data.

2) The middle part of the light irradiation component is provided with a plurality of blue light tubes, and the periphery of the blue light irradiation component is provided with a plurality of white light tubes. The blue light tube is used for carrying out blue light treatment, the white light tube is used for carrying out photos after the blue light treatment, and when the image acquisition camera acquires image data, the photos can be carried out under relatively consistent illumination intensity, so that the interference of light intensity changes on color recognition is avoided.

3) The angle of the head of a bed can be adjusted through the electric push rod so as to adjust the position of the upper half of the neonate, medical staff can control the angle of the head of the bed according to the state of the neonate so as to correspondingly lift the upper half of the neonate, the problems of vomiting, choking and the like caused by the lying of the neonate after feeding are prevented, and the comfort of the neonate in the phototherapy process is ensured.

4) The anti-slip pad can adopt pure cotton cloth, the color can be white, and the influence of variegated colors on the accuracy of image acquisition data is avoided.

Drawings

The utility model is described in further detail below with reference to the attached drawing figures, wherein:

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

FIG. 2 is a schematic top view of a crib according to the present utility model;

FIG. 3 is a schematic view of the structure of the crib according to the present utility model;

the attached drawings are identified:

1-blue light therapeutic box body, 2-image acquisition camera, 3-color contrast component, 4-blue light irradiation component, 5-skin temperature detection component, 11-crib, 12-thermostated container, 13-supporting arm, 14-supporting arm, 15-slipmat, 111-head of a bed, 112-lathe bed, 113-electric putter, 114-straight chute, 115-slide shaft, 31-color chart, 32-installation block, 33-multisection electric putter.

Detailed Description

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

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present, as well as being disposed not only in an intermediate position but also in both ends as far as they are within the scope defined by the intermediate position. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 3, an on-line detection blue light treatment box comprises a blue light treatment box body 1, an image acquisition camera 2, a color contrast component 3, a blue light irradiation component 4, a skin temperature detection component 5, a voice module, a WiFi connection module and a processor; the baby crib 11 is arranged in the blue light treatment box body 1, and the image acquisition camera 2 is movably connected in the blue light treatment box body 1; the color contrast component 3 is arranged above the crib 11 and is connected with the blue light treatment box body 1 in a lifting manner; the blue light irradiation component 4 is arranged above the crib 11 and is fixedly connected with the blue light treatment box body 1; the voice module, the WiFi connection module and the processor are all arranged on the blue light treatment box body 1, and the image acquisition camera 2, the voice module and the WiFi connection module are all electrically connected with the processor; the skin temperature detection assembly 5 is in communication connection with the processor through the WiFi connection module; the skin temperature detection assembly 5 is worn on a neonate and is used for detecting the body temperature of the neonate. The processor also comprises a storage module and a control module; the storage module stores the comparison data of the counted skin color and bilirubin value, the blue light irradiation assembly 4 provides blue light irradiation for the neonate, the image acquisition camera 2 acquires pictures of the skin color and the color comparison assembly 3 of the neonate after each blue light treatment, the skin color image data is analyzed by taking the color of the color comparison assembly 3 as a reference, and the processor compares the acquired skin color image data with background data and analyzes to obtain a real-time bilirubin value; the storage module can also record the total duration, intermittent duration and dynamic process of bilirubin value change of each blue light irradiation so as to analyze big data in the later period, and explore and count the optimal duration of blue light therapy suitable for most newborns; the control module is used for controlling the blue light treatment box body 1 to work, and can be realized by adopting a touch screen mode or adopting the combination of keys and a display screen. The voice module can send out voice alarm, when the skin temperature detection assembly 5 reaches abnormal data, namely the body temperature of a newborn is beyond the normal range and lower than 35.8 ℃ or higher than 37.8 ℃, an alarm system can be automatically triggered, real-time skin temperature is voice-broadcast, medical staff is reminded to adjust, and adverse phenomena of hypothermia or overhigh body temperature are effectively avoided; the voice module can play music, calm the neonate, ensure that the neonate has a sense of safety, promotes hypnosis and prevents crying in the phototherapy process, and ensure the safety and comfort of the neonate. According to the utility model, the bilirubin value of the newborn is monitored in real time through the image acquisition camera 2 and the color contrast component, the treatment effect is reflected in real time, multiple invasive blood sampling and percutaneous jaundice instrument measurement can be avoided, the detection time can be shortened, the pain of the newborn is relieved, the requirements of timeliness, dynamics, noninvasive, convenience and economy are basically met, cross infection can be effectively avoided, and meanwhile, medical staff can timely adjust the treatment scheme according to the acquired data.

The blue light treatment box body 1 is provided with a transparent incubator 12, and the temperature in the incubator 12 can be adjusted; the crib 11 and the image acquisition cameras 2 are uniformly distributed in the incubator 12, and the image acquisition cameras 2 are connected with the inner wall of the top of the incubator 12 through a spherical joint. Specifically, the blue light therapeutic box body 1 is provided with a heating and refrigerating device, and the temperature in the constant temperature box can be adjusted. The image acquisition camera 2 is aligned to the precordial region of the neonate, and the skin color state of the position is acquired.

The blue light treatment box body 1 is provided with a support arm 13, the top of the support arm 13 is bent and extends towards the direction of the crib 11, and the blue light irradiation component 4 is fixedly connected above the crib 11 through the support arm 13. The middle part of the blue light irradiation component 4 is provided with a plurality of blue light tubes, and the periphery of the blue light irradiation component 4 is provided with a plurality of white light tubes. Specifically, the blue light tube is used for performing blue light treatment, the white light tube is used for performing photos after the blue light treatment, and the photos can be performed under relatively consistent illumination intensity when the image acquisition camera 2 acquires image data, so that the interference of light intensity changes on color recognition is avoided.

The color contrast component 3 comprises a color chart 31, a mounting block 32 and a plurality of sections of electric push rods 33; a support arm 14 extends from the middle part of the support arm 13 towards the direction of the crib 11, and the mounting block 32 is connected with the end part of the support arm 14 in a lifting manner through the multi-section electric push rod 33; the colorimetric card 31 is fixedly connected to the mounting block 32; the incubator 12 is provided with a dodging hole corresponding to the lifting movement direction of the mounting block 32, and the mounting block 32 passes through the dodging hole and enters the incubator 12.

The skin temperature detection component 5 is a detection bracelet; the detection bracelet 5 is provided with a body temperature sensor, a WiFi connection module, an information processor and a lithium battery, wherein the body temperature sensor, the WiFi connection module and the lithium battery are electrically connected with the information processor; the detection bracelet is connected with the processor through the WiFi connection module and used for transmitting the body temperature data of the neonate to the processor. The skin temperature detection component 5 can also adopt a wired detection bracelet, and is connected with the processor through a circuit.

The crib 11 comprises a bed head 111, a bed body 112 and an electric push rod 113; one end of the bed head 111 is hinged with the bed body 112, two linear sliding grooves 114 and a sliding shaft 115 are arranged at the bottom of the bed head 111, the sliding shaft 115 is embedded in the two linear sliding grooves 114 in a sliding manner, the bottom of the electric push rod 113 is fixedly connected with the blue light therapeutic box body 1, the top of the electric push rod 113 is hinged with the sliding shaft 115, the electric push rod 113 is lifted to drive the bed head 111 to turn over along the bed body 112, the electric push rod 113 is stable in output and adjustable in speed, no setback is caused, and discomfort is avoided for newborns. The angle of the head of a bed can be adjusted through the electric push rod 113 so as to adjust the position of the upper half of the neonate, medical staff can control the angle of the head of the bed 111 according to the state of the neonate so as to correspondingly lift the upper half of the neonate, so that the problems of vomiting, choking and the like caused by lying of the neonate after feeding are prevented, and the comfort of the neonate in the phototherapy process is ensured.

The crib 11 is also provided with a pure-color anti-slip pad 15. The anti-slip pad 15 can be made of pure cotton cloth, the color of the anti-slip pad can be white, and the influence of variegated colors on the accuracy of image acquisition data is avoided.

The circumference of the incubator 12 is provided with an anti-collision strip, and the anti-collision strip is made of soft rubber or soft cotton materials. The box body of the incubator 12 is made of transparent organic glass products, the texture is hard, the limbs and the head are easy to collide with the box body in the phototherapy process of a newborn, skin abrasion of different degrees is caused, and anti-collision strips are arranged to avoid collision.

The above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and any modifications or equivalent substitutions without departing from the spirit and scope of the present utility model should be covered in the scope of the technical solution of the present utility model.

Claims (9)

1. The online detection blue light treatment box is characterized by comprising a blue light treatment box body, an image acquisition camera, a color comparison component, a blue light irradiation component, a skin temperature detection component, a voice module, a WiFi connection module and a processor; the baby crib is arranged in the blue light treatment box body, and the image acquisition camera is movably connected in the blue light treatment box body; the color contrast component is arranged above the crib and is connected with the blue light treatment box body in a lifting manner; the blue light irradiation component is arranged above the crib and is fixedly connected with the blue light treatment box body; the voice module, the WiFi connection module and the processor are all arranged on the blue light treatment box body, and the image acquisition camera, the voice module and the WiFi connection module are all electrically connected with the processor; the skin temperature detection assembly is in communication connection with the processor through the WiFi connection module; the skin temperature detection assembly is worn on a neonate and is used for detecting the body temperature of the neonate.

2. The on-line detection blue light therapeutic box according to claim 1, wherein the blue light therapeutic box body is provided with a transparent incubator, and the temperature in the incubator is adjustable; the crib and the image acquisition cameras are uniformly distributed in the incubator, and the image acquisition cameras are connected with the inner wall of the top of the incubator through a spherical joint.

3. The on-line detecting blue light therapeutic box according to claim 2, wherein the blue light therapeutic box body is provided with a supporting arm, the top of the supporting arm is bent and extends towards the direction of the crib, and the blue light irradiation component is fixedly connected above the crib through the supporting arm.

4. The online detection blue light therapeutic box according to claim 3, wherein a plurality of blue light tubes are arranged in the middle of the blue light irradiation assembly, and a plurality of white light tubes are arranged around the blue light irradiation assembly.

5. The online detection blue light therapeutic box according to claim 3, wherein said color contrast assembly comprises a color chart, a mounting block and a plurality of segments of electric push rods; the middle part of the supporting arm extends towards the direction of the crib and is provided with a supporting arm, and the mounting block is connected with the end part of the supporting arm in a lifting manner through the multi-section electric push rod; the colorimetric card is fixedly connected to the mounting block; the incubator is provided with a dodging hole corresponding to the lifting movement direction of the mounting block, and the mounting block penetrates through the dodging hole and enters the incubator.

6. The on-line detection blue light treatment box according to claim 1, wherein the skin temperature detection component is a detection bracelet; the detection bracelet is provided with a body temperature sensor, a WiFi connection module, an information processor and a lithium battery, wherein the body temperature sensor, the WiFi connection module and the lithium battery are electrically connected with the information processor; the detection bracelet is connected with the processor through the WiFi connection module and used for transmitting neonate body temperature data to the processor.

7. The on-line detection blue light therapy box according to claim 2, wherein said crib comprises a head of a bed, a bed body and an electric push rod; the utility model discloses a blue light therapeutic box, including lathe bed, electric putter, lathe bed, lathe head, electric putter, lathe bed, lathe head one end with the lathe bed is articulated, the lathe bed bottom is equipped with two sharp spouts and a slide shaft, the slide shaft slip inlays the dress two in the straight spout, electric putter's bottom with blue light therapeutic box body fixed connection, electric putter's top with the slide shaft is articulated, electric putter goes up and down to drive the lathe bed is followed the lathe bed upset.

8. The on-line detection blue light therapy box according to claim 7, wherein the crib is further provided with a solid-color anti-slip pad.

9. The online detection blue light therapy box of claim 7, wherein an anti-collision strip is arranged on the periphery of the incubator, and the anti-collision strip is made of soft rubber or soft cotton materials.

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