CN217767639U - Interactive children health education robot - Google Patents

Abstract

The utility model discloses an interactive children health education robot, including the chest abdomen subassembly that is used for access demonstration mould, head assembly is installed to the higher authority of chest abdomen subassembly, the last human facial position of representing of head assembly installs touch display screen, nurse's cap subassembly is installed to the higher authority of head assembly, install the switch on the nurse's cap subassembly, upper limbs subassembly is installed to the both sides of chest abdomen subassembly, put the thing cabinet through the telescopic link with representing human buttock below the chest abdomen subassembly and be connected, put and install the low limbs subassembly of high scalable regulation below the thing cabinet, install the wheel subassembly below the low limbs subassembly, touch display screen, a switch, chest abdomen subassembly, upper limbs subassembly, the telescopic link, low limbs subassembly and wheel subassembly are connected with the controller of locating in the head subassembly. The utility model discloses can realize effectual health education to children, interactive and interesting strong, the effect of publicity is secure, is suitable for popularization.

Description

Interactive children health education robot

Technical Field

The utility model relates to a robot for medical knowledge propagation, in particular to an interactive robot for children health education.

Background

Health education work is indispensable in disease prevention and control, and effectual health education can reduce the disease incidence, improves treatment correct rate and validity, prolongs patient's life-span, and wherein children's health education is one of paediatrics medical care's important work content. However, compared with adults, children have the characteristics of poor comprehension, difficulty in concentrating attention, strong curiosity and the like, so that some existing health education modes such as bedside iPad, brochures, weChat public numbers, oral announcements of medical staff and the like are not suitable for children and cannot achieve sufficient health education effects due to the fact that boring theoretical knowledge is not interesting and is difficult to remember. Different from adults, the health education content of children needs to be simpler and easier to understand, and has strong interest and attraction, so that the children can better actively understand the health education content, and the disease prevention and treatment capability of the children is improved. Therefore, the design of a health education tool with strong interactivity and capability of attracting the attention of children is a problem which needs to be solved urgently at present.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an interactive children health education robot, its health education effect to children is showing, and safety and sanitation are suitable for popularization.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an interactive child health education robot, characterized in that: it is including the chest abdomen subassembly that is used for accessing the demonstration mould, head assembly is installed to the higher authority of chest abdomen subassembly, touch display screen is installed to the facial position of representative human body on the head assembly, nurse's cap subassembly is installed to the higher authority of head assembly, install the switch on the nurse's cap subassembly, upper limbs subassembly is installed to the both sides of chest abdomen subassembly, put the thing cabinet through the telescopic link with representing human buttock below the chest abdomen subassembly and be connected, put the low limbs subassembly of installing high scalable regulation below the thing cabinet, install wheel subassembly below the low limbs subassembly, touch display screen, the switch, chest abdomen subassembly, upper limbs subassembly, the telescopic link, low limbs subassembly and wheel subassembly are connected with the controller of locating in the head subassembly.

The utility model has the advantages that:

the utility model has the advantages of reasonable design, can realize effectual health education to children, interactive and interesting strong, the effect of publicity is secure, easy operation is convenient, has reduced medical personnel's work load, is suitable for popularization.

Drawings

Fig. 1 is a schematic structural view of the interactive child health education robot of the present invention.

Fig. 2 is a circuit connection block diagram of the interactive child health education robot of the present invention.

Fig. 3 is a schematic structural view of the thoracoabdominal assembly.

Fig. 4 is a schematic structural view of the storage cabinet.

Detailed Description

As shown in fig. 1 to 4, the interactive child health education robot of the present invention includes a thoracoabdominal component 30 for accessing a demonstration mold 36, a head component 10 is installed on the thoracoabdominal component 30, a touch display screen 11 is installed on the head component 10 in a position representing the face of a human body, a nurse cap component 20 is installed on the head component 10, a switch 21 (for example, located at a cross position on a nurse cap) is installed on the nurse cap component 20, upper limb components 40 are installed on both sides of the thoracoabdominal component 30, the lower face of the thoracoabdominal component 30 is connected with a storage cabinet 60 representing the hip of the human body through a telescopic rod 50, a lower limb component 70 with adjustable height is installed below the storage cabinet 60, a wheel component 80 is installed below the lower limb component 70, the signal ports of the touch display screen 11, the switch 21, the thoracoabdominal component 30, the upper limb components 40, the telescopic rod 50, the lower limb components 70 and the wheel component 80 are respectively connected with corresponding control ports on a controller 90 installed in the head component 10.

In practical design, the head assembly 10 includes a head frame representing the head of a human body, a controller 90 and a rechargeable power supply 100 for supplying power are provided in the head frame, the head frame is provided with a touch display screen 11 toward the front side (representing the face of the human body), the head frame is provided with a USB charging interface 12 toward the rear side (representing the occipital region of the brain of the human body), wherein: the signal port of the USB charging interface 12 is connected to the charging port of the rechargeable power supply 100, and the switch 21 is connected to the power supply start control port of the rechargeable power supply 100 to start the external power supply of the rechargeable power supply 100, i.e. the medical staff presses the switch 21 to start the robot of the utility model, i.e. the rechargeable power supply 100 is started to supply power to each device.

When the robot of the present invention needs to be charged, the USB charging interface 12 is connected to the power supply via the charging cable to charge the rechargeable power supply 100.

Furthermore, the back side of the head frame (representing the occipital region of the back of the human brain) can be further provided with a USB communication interface 13, and a signal port of the USB communication interface 13 is connected with a corresponding control port on the controller 90. The USB communication interface 13 may be used to update the health education content through a medium such as a USB flash disk, and may also be used to transmit the health education content to an external terminal (e.g., a smart phone) through a wireless network.

As shown in fig. 1 and fig. 3, the thoracoabdominal assembly 30 includes a storage cabinet 31 in an upright elliptical shape, the storage cabinet 31 is provided with a semi-elliptical closed door 32 and a semi-elliptical manual door 33 on a front side (representing the thoracoabdominal portion of a human body), the manual door 33 can be opened and closed vertically, the closed door 32 and the manual door 33 together with the storage cabinet 31 divide the interior of the storage cabinet 31 into two regions, namely a thoracic invisible region 311 and an abdominal visible region 312, a plurality of containers 34 are generally installed on a top side by side in the thoracic invisible region 311, demonstration molds 36 are stored in the containers 34, the demonstration molds 36 are connected with telescopic connectors 35 (such as telescopic ropes) of the containers 34, and signal ports of the containers 34 are connected with corresponding control ports on the controller 90, wherein: the receiver 34, under the control of the controller 90, is capable of releasing and retracting the telescoping connection 35, thereby lowering the demonstration mold 36 from the receiver 34 to the abdomen visible area 312 and retracting the demonstration mold 36 upwardly into the receiver 34.

In the present invention, the container 34 may include a cylinder for storing the demonstration mold 36, a telescopic driving member is installed in the cylinder, the telescopic driving member is used for controlling the telescopic connection member 35 to extend and contract, the container 34 is a well-known device in the field, and the detailed structure thereof is not described in detail.

In practical implementation, for example, more than ten demonstration molds 36 can be stored in the storage cabinet 31, and the demonstration molds 36 can be spoons, vials, bands, and syringes.

In the actual design, the ultraviolet disinfection lamps 91 are installed in the storage cabinet 31, the installation number and the positions of the ultraviolet disinfection lamps 91 can be reasonably designed according to needs without limitation, and the signal ports of the ultraviolet disinfection lamps 91 are connected with the corresponding control ports on the controller 90 through the disinfection timer 92.

As shown in fig. 1 and 4, the storage cabinet 60 includes a transverse oval storage cabinet body 61, a two-piece door 62 is installed on a front side of the storage cabinet body 61, two pieces of doors of the two-piece door 62 can be opened and closed transversely and oppositely, a plurality of storage areas 610 are partitioned by a partition plate 63 inside the storage cabinet body 61, a storage area 610 for storing a custom mold 65 is provided with a button switch 64 with a lamp, and a signal port of the button switch 64 with a lamp is connected with a corresponding control port on the controller 90.

When the medical staff needs to demonstrate other moulds except the mould 36, the medical staff firstly adds the self-defined mould 65, namely, the medical staff puts the self-defined mould 65 into a storage area 610 and then presses the button switch 64 with the lamp in the storage area 610, so that the medical staff selects the name corresponding to the self-defined mould 65 on the touch display screen 11, the mapping configuration between the storage area 610 and the self-defined mould 65 is completed, and the adding of the self-defined mould is completed. Therefore, when the self-defining mold 65 is used, when medical staff select the self-defining mold 65 through the touch display screen 11, the lamp on the button switch 64 with the lamp in the storage area 610 where the self-defining mold 65 is placed can flash for a certain time, so that the medical staff are prompted to take the self-defining mold 65 in the storage area 610.

In the present invention, the button switch with lamp 64 is a conventional device in the art, and therefore, will not be described in detail.

Further, install ultraviolet ray disinfection lamp 91 in the storing cabinet body 61, the installation quantity and the position of ultraviolet ray disinfection lamp 91 are reasonable designed as required, are not restricted, and the signal port of ultraviolet ray disinfection lamp 91 is connected with the corresponding control port on controller 90 via disinfection timer 92.

During the use, medical personnel start the disinfection procedure through touch display screen 11, and then, under the timing control of disinfection timer 92, the ultraviolet ray disinfection lamp 91 in the storage cabinet body 31, the ultraviolet ray disinfection lamp 91 in the storing cabinet body 61 begin to carry out the disinfection operation of certain time (for example 30 minutes). In practice, the sterilization operations in the storage cabinet 31 and the storage cabinet 61 may be performed simultaneously or independently, respectively, without limitation.

In addition, the barrel of the container 34 in the storage cabinet 31 is detachably mounted, and the partition plate 63 in the storage cabinet 61 is detachably mounted, so that the container can be detached for comprehensive disinfection during disinfection operation.

In the present invention, the ultraviolet sterilizing lamp 91 and the sterilizing timer 92 are conventional devices in the art, and therefore, they will not be described in detail here.

Referring to fig. 1, the upper limb assembly 40 is provided with a part near the chest and abdomen assembly 30 and representing the upper arm of the human body, the chest and abdomen assembly 30 surrounds four parts around the navel of the human body, the backward side of the storage cabinet 60 represents two parts of the hip of the human body, and the lower limb assembly 70 is provided with a simulated skin (see the part indicated by 200 in fig. 1) made of silica gel at the part near the storage cabinet 60 and representing the outer side of the thigh of the human body, so that the simulated skin is used for medical care personnel to demonstrate the injection process and children to practice the injection.

In a practical design, the head assembly 10 may also have a speech processor 14 mounted thereon, with signal ports of the speech processor 14 connected to corresponding control ports on the controller 90. In practice, the voice function is enabled by the medical staff by touching the display screen 11, so that the medical staff can control the operation of the robot by voice, and the child can directly interact with the robot by voice, which is well known in the art and not described in detail herein.

In the present invention, nurse cap assembly 20 includes a frame contoured to the nurse cap. Further, the two upper limb assemblies 40 can be rotatably mounted on two sides of the chest and abdomen assembly 30 in a simulated arm manner, the two upper limb assemblies 40 are tightly attached to the sides of the chest and abdomen assembly 30 when not unfolded, and can rotate in all directions after being unfolded, elbows can be designed to be bendable, and hands can be designed to be capable of clamping objects. When the two lower limb assemblies 70 are in the fully contracted state, only the wheel assembly 80 is exposed to the outside. The wheel assembly 80 includes a wheel and a drive mechanism for driving the wheel to rotate by the controller 90.

The utility model discloses in, telescopic link 50 can stretch out and draw back on vertical direction and adjust self length under controller 90's control, and telescopic link 50 overcoat has the ripple section of thick bamboo etc. that represents the waist. Likewise, the lower limb assembly 70 can also be vertically extended or retracted to adjust its length under the control of the controller 90. For example, lower limb assembly 70 may include a lower leg portion and an upper leg portion that is configured to contract and extend relative to the lower leg portion. In practice, lower limbs subassembly 70 is used for the regulation of great height to the utility model discloses the height adjustment when the robot is in the face of the great children of age bracket difference, telescopic link 50 is used for high micro-adjustment, with the utility model discloses the height adjustment when the robot is in the face of the little difference of the nevertheless height of same age bracket children.

The utility model discloses in, touch display screen 11 mainly used medical personnel input operating command controls the function of robot, plays picture, video etc.. For example, the medical staff inputs the height of the child to be educated on health by touching the display screen 11, so that the lower limb assembly 70 and the telescopic rod 50 are contracted and adjusted to reach a suitable height, thereby giving the child a sense of esteem and familiarity. For example, the movement of the upper limb assembly 40 and the wheel assembly 80 is controlled by touching the display screen 11. For another example, when a department needs a model (custom model) other than the existing demonstration model for health education, the medical staff adds the custom model by touching the display screen 11. As another example, the disinfection program is initiated by touching the display screen 11. For another example, a voice function is enabled by touching the display screen 11 and the operation of the robot is controlled based on the voice.

In the present invention, the upper limb assembly 40, the telescopic rod 50, the lower limb assembly 70, the wheel assembly 80, the voice processor 14 and the touch display screen 11 are all devices known in the art, and the controller 90 is a well-known device, and therefore, will not be described in detail herein.

In the present invention, the robot is regarded as a human body, and the front and rear directions are defined by the direction viewed by the human body, for example, the face of the robot is front and the occipital part of the brain is rear, the thorax and abdomen parts are front and the back is rear.

Use the utility model discloses during the robot, add self-defined mould 65 as required earlier, then click switch 21 starts the utility model discloses the robot, but charging power supply 100 is to each equipment power supply, gets into operating condition. Then the robot of the utility model is brought into the ward by medical staff. Medical personnel input the children's height (or the age bracket of the department) of treating health education through touch display screen 11, borrow by telescopic link 50 and low limbs subassembly 70 right the utility model discloses the height of robot is adjusted. After the adjustment is completed, the child can watch the health education contents (such as department → disease → health education contents, which can be characters, pictures, audio or video) selected on the touch display screen 11.

When having watched health education content, when needing the operation exercise, accessible touch display screen 11 makes the storage device 34 that has the storage corresponding demonstration mould 36 under controller 90's control, releases its telescopic connection 35 to demonstration mould 36 is transferred to belly visible area 312 from storage device 34, and medical personnel or children can take out through opening manual door 33, then based on health education content, hold demonstration mould 36 and operate the exercise step by step. After the operation exercise is finished, the display screen 11 is touched to enable the container 34 to retract the telescopic connecting piece 35, so that the demonstration mold 36 is retracted into the container 34, and the demonstration mold 36 is effectively prevented from being lost.

If medical personnel need use custom mould 65, then select corresponding custom mould 65 through touch display screen 11, open and to run from opposite directions door 62, place the lamp scintillation on the button switch 64 of taking the lamp in this storage area 610 of this custom mould 65 this moment to medical personnel take out the custom mould 65 in this storage area 610 and operate the exercise can.

When injection practice is needed, medical staff or children can carry out injection practice on the simulated skin of the corresponding part of the robot. Further, when a site for injection exercise is selected by touching the display screen 11, the corresponding components are driven to operate. For example, when selecting an upper arm part of the upper limb module 40 for injection practice, the upper limb module 40 is unfolded to smoothly perform injection practice.

After the health education is finished, the medical staff can start the disinfection program through the touch display screen 11, and disinfect (such as 30 minutes) the demonstration mould 36 in the storage cabinet 31 and the self-defined mould 65 in the storage cabinet 61 through the ultraviolet disinfection lamp 91.

The utility model has the advantages that:

1. the utility model discloses a children watch the mode of video and manual operation and carry out health education, and interactive and interesting strong, the propaganda effect is secure, has reduced medical personnel's work load, is suitable for the popularization.

2. The utility model discloses be equipped with the storage cabinet body and put the thing cabinet for the mould of healthy education is deposited in the concentration, has effectively avoided scattered mould to take place the problem of losing, and can concentrate the disinfection to the mould, has ensured the safety and sanitation in the use.

3. The utility model discloses the low limbs subassembly that is equipped with the scalable regulation of shrink pole and height to according to the height of the whole robot of children's height accessible time adjustment, satisfied different age bracket children's health education demand well, promoted the effect of publicity.

4. The utility model discloses can help medical personnel to carry out health education to children better, with theoretical knowledge and the better combination of practice exercise, improve health education's propaganda efficiency and quality, really reach the purpose of prevention and cure disease.

The above description is the preferred embodiment of the present invention and the technical principle applied by the preferred embodiment, and for those skilled in the art, without departing from the spirit and scope of the present invention, any obvious changes based on the equivalent transformation, simple replacement, etc. of the technical solution of the present invention all belong to the protection scope of the present invention.

Claims (9)

1. An interactive child health education robot, characterized in that: it is including the chest abdomen subassembly that is used for accessing the demonstration mould, head assembly is installed to the higher authority of chest abdomen subassembly, touch display screen is installed to the facial position of representative human body on the head assembly, nurse's cap subassembly is installed to the higher authority of head assembly, install the switch on the nurse's cap subassembly, upper limbs subassembly is installed to the both sides of chest abdomen subassembly, put the thing cabinet through the telescopic link with representing human buttock below the chest abdomen subassembly and be connected, put the low limbs subassembly of installing high scalable regulation below the thing cabinet, install wheel subassembly below the low limbs subassembly, touch display screen, the switch, chest abdomen subassembly, upper limbs subassembly, the telescopic link, low limbs subassembly and wheel subassembly are connected with the controller of locating in the head subassembly.

2. The interactive child health education robot of claim 1, wherein:

the head subassembly is equipped with including the head frame that represents human head the chargeable power supply of controller with provide electric power in the head frame, the head frame is towards one side installation touch display screen, the head frame is towards the back one side and is equipped with the USB interface that charges, wherein: the USB charging interface is connected with a rechargeable power supply, and the switch is connected with a power supply starting control port of the rechargeable power supply to start external power supply of the rechargeable power supply.

3. The interactive child health education robot of claim 2, wherein:

the head frame is provided with a USB communication interface towards the back side, and the USB communication interface is connected with the controller.

4. The interactive child health education robot of claim 1, wherein:

chest abdomen subassembly is including being the oval-shaped storage cabinet body that stands vertically, and the storage cabinet body installs semi-oval-shaped closed door and semi-oval-shaped manual door forward the one side about, and closed door and manual door and the storage cabinet body divide into chest invisible area and belly visible area from top to bottom the internal portion of storage cabinet together, install a plurality of accommodators side by side in the chest invisible area, are stored with the demonstration mould in the accommodator, and the demonstration mould is connected with the telescopic connection spare of accommodator, accomodate the ware with the controller is connected, wherein: the storage device is in under the control of controller, can release and withdraw telescopic connection spare to make the demonstration mould transfer to the belly visible area in the storage device, and make the demonstration mould upwards withdraw in the storage device.

5. The interactive child health education robot of claim 4, wherein:

an ultraviolet disinfection lamp is installed in the storage cabinet body and is connected with the controller through a disinfection timer.

6. The interactive child health education robot of claim 1, wherein:

put the thing cabinet including being horizontal oval-shaped storing cabinet body, the storing cabinet body is installed towards one side forward and is run from opposite directions the door, and a plurality of storage areas are separated out through the cellular board to the storing cabinet internal portion for be equipped with in the storage area of saving self-defined mould and take lamp button switch, take lamp button switch with the controller is connected.

7. The interactive child health education robot of claim 6, wherein:

an ultraviolet disinfection lamp is installed in the storage cabinet body and is connected with the controller through a disinfection timer.

8. The interactive child health education robot of any one of claims 1 to 7, wherein:

each upper limbs subassembly is gone up and is close to chest abdomen subassembly, the position that represents human upper arm, four positions around representing around human navel are gone up to chest abdomen subassembly, put the thing cabinet towards two positions of human buttock of one side representation behind to and each lower limbs subassembly is gone up and is close to put the thing cabinet, represent the position of human thigh outside and all install the emulation skin of making by silica gel.

9. The interactive child health education robot of claim 8, wherein:

the head assembly is provided with a voice processor, and the voice processor is connected with the controller.

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