Volume 15 Issue 08, August 2025
Impact factor: 2019: 4.679 2020: 5.015 2021: 5.436, 2022: 5.242, 2023:
6.995, 2024 7.75
http://www.internationaljournal.co.in/index.php/jasass
560
INNOVATIVE PROTECTION MEANS ENSURING THE SAFETY OF YOUNG
CHILDREN IN CARS
"MY SAVED CHILD"
Tukhtasinova Gulsara Abduraimjon kizi
Master’s student of Andijan State Technical Institute
Email: gulsara.tuhtasinova@mail.ru
Davydova Dilnoza Tadjibayevna
Andijan State Technical Institute
Assistant of the Department of Economics
E-mail:
ANNOTATION:
This project is dedicated to the development of an innovative solution aimed
at ensuring the safety of children moving in a car. It is known that due to insufficient protection
of children from inertia forces during road accidents, serious bodily injuries and even life-
threatening consequences often occur. In order to eliminate this problem, a special 3D-modeled
protective device based on shock-absorbing materials with an ergonomic shape was created
within the framework of the project. The main advantages of the device are: low cost, simple
installation, and adaptability to local conditions. In this respect, it is recognized not only as a
technological innovation, but also as a practical tool for solving a pressing security problem for
the general public.
KEYWORDS:
Vehicle safety, child protection, 3D model, biomedicine, ergonomics, innovative
device, inertia force, startup, technical safety, technological solution.
Today, children's injuries in road accidents are considered one of the serious safety problems
worldwide. Especially in developing countries, the lack of affordable and effective protective
equipment suitable for local conditions is exacerbating this problem. This project is aimed at
filling this gap and offering a practical solution that serves to save the lives of the younger
generation [1].
Within the framework of the project, a special innovative protective device was developed to
ensure the safety of children in passenger cars. The device has an ergonomic shape and was
created using 3D modeling technologies based on shock-absorbing materials. It serves to protect
children from inertia forces during vehicle movement. From practical observations, it is known
that children, especially those sitting in the front seat or without a seatbelt, suffer serious injuries
in road accidents. In this regard, this protective device is capable of significantly reducing the
risk of injury.
Its main advantages are cost-effectiveness, ease of installation, and adaptability to local
conditions. The device also has social significance and provides additional guarantees for
ensuring the safety of children in our country [2].
This protective device is designed based on a 3D model, the design of which corresponds to
ergonomic principles and is developed in the form of a module. As a result of the use of soft,
shock-absorbing materials in the device, it is possible to effectively reduce the inertial forces
arising during road accidents. The project is scientifically based on the laws of biomechanics,
Volume 15 Issue 08, August 2025
Impact factor: 2019: 4.679 2020: 5.015 2021: 5.436, 2022: 5.242, 2023:
6.995, 2024 7.75
http://www.internationaljournal.co.in/index.php/jasass
561
achievements in materials science, and safety standards. This approach guarantees that the
device will be not only functional, but also safe for human health[3].
It is also planned that the process of production and application of protective equipment will be
carried out in stages, and the product will undergo certification and practical tests. These
processes serve to confirm its quality indicators, durability, and compliance with international
safety requirements. As a result, the created device can be widely implemented as an innovative,
economically and socially significant practical solution in ensuring the safety of children.
This project is a solution that meets local capabilities, is economically inexpensive, and useful
for the general public. It not only serves to save children's lives, but also has the opportunity to
find its place in the domestic and foreign markets as a national product. The main goal of the
project is to create and implement an innovative protective device that ensures the safety of
children in passenger cars.
The assigned tasks are:
1.
Development of an ergonomic construction, taking into account the anatomical features
of the child's div.
2.
Preparation of a 3D model and functional prototype of the device.
3.
Selection and use in production of impact-absorbing, environmentally safe materials.
4.
Testing of the device in laboratory conditions and in real practical experience.
5.
Development of mechanisms for patenting, standardization, and commercialization of
products.
The protective device created as a result of the project will be based on the scientific foundations
of biomechanics, materials science, and technical safety. This approach, along with ensuring the
safety of children, also serves to form a new direction in our economy through the production of
domestic innovative products.
This project is based on the principles of biomechanics, materials science, and transport safety
and is aimed at creating an ergonomic and safe means of protection for children. The modular
design of the device allows it to be adapted for children of different ages. The product can also
be manufactured using CNC technologies and 3D printers. This approach significantly reduces
production costs and allows for the widespread popularization of the device.
Due to the fact that the product is mainly made from local raw materials, it serves as an import-
substituting solution. Its average price is expected to be several times lower than foreign
alternatives. This, along with creating favorable financial opportunities for the population, also
creates the basis for the creation of new jobs. There are opportunities to export products not only
to the domestic market, but also to neighboring countries.
Unlike analogues, the product is made of soft and durable polypropylene yarn. It has front,
middle, side, and bottom parts, the side parts are woven relatively thicker, and the middle part is
woven in a mesh shape. The upper part of the device is attached to the headrest, which holds the
head of the front seats, and the lower part to the seat frame. This solution ensures its installation
in a simple, convenient, and safe way.
The dimensions of the protective device consist of the following parameters: appearance:
trapezoidal, height 60 cm, width 35 cm, upper part 20 cm, lower part 20 cm, weight 300-350
Volume 15 Issue 08, August 2025
Impact factor: 2019: 4.679 2020: 5.015 2021: 5.436, 2022: 5.242, 2023:
6.995, 2024 7.75
http://www.internationaljournal.co.in/index.php/jasass
562
g. The raw material used is polypropylene yarn.
Figure 1
. project drawing
Figure 2.
real project image
In conclusion, this project, by its very nature, is an innovative initiative that serves not only to
protect the lives of children, but also to strengthen a culture of safety in society. The created
device is distinguished by its scientific validity, since it is based on the principles of
biomechanics, materials science, and transport safety. At the same time, it is economically
feasible, and production based on local raw materials allows for import substitution, creation of
new jobs, and competitiveness in the market as a national product.
In practical terms, the device is a convenient solution for the general public due to its simple
installation, low cost, and modular structure. Along with ensuring the safety of children, it
occupies a special place in the national innovation ecosystem as a startup product. This
protective device, created as a result of the project, is not limited to the domestic market, but can
also be exported to neighboring countries. Thus, the project is considered as an innovation of
scientific and practical significance in protecting children's lives, developing a culture of national
security, and contributing to the country's economic potential.
References:
1. European Automobile Safety Standards (ECE R44/04, UN R129).
2. NHTSA (USA) - Child Passenger Safety Guidelines.
3. Miradullaeva G.B. et al. "Innovative solutions to ensure the safety of young children in
passenger cars" - Andijan State Technical University, 2025.
