Description:FIELD OF THE INVENTION

[0001] The present invention relates to an automated sunscreen lotion production device that is capable of providing a convenient and automated way of producing high-quality sunscreen by utilizing natural ingredients, provides customizable protection based on location, and ensures consistent production and this eco-friendly process makes it simple to access reliable and effective sunscreen, ideal for those prioritizing sustainability and convenience.

BACKGROUND OF THE INVENTION

[0002] Sunscreen is essential for protecting the skin from the harmful effects of the sun's ultraviolet (UV) radiation. Prolonged exposure to UV radiation increases the risk of skin cancers, including melanoma, basal cell carcinoma, and squamous cell carcinoma. Sunscreen helps reduce this risk by blocking or absorbing harmful UV rays. Oils derived from plants like castor oil and sesame oil, which had some natural SPF qualities were used, though they were not scientifically understood at the time. These natural substances, while offering some degree of protection, were not highly effective at blocking harmful UV rays and did not provide the broad-spectrum protection needed for long-term sun exposure.

[0003] Chemists began to isolate organic compounds capable of absorbing UV radiation. Certain benzophenone derivatives could absorb UV radiation. Early sunscreens were mainly designed to protect against UVB radiation, which is primarily responsible for sunburn. However, they did not provide adequate protection against UVA rays, which penetrate deeper into the skin and contribute to premature aging and skin cancer. Advancements in sunscreen chemistry led to the development of broad-spectrum sunscreens, which protect against both UVA and UVB radiation. Mineral sunscreens, particularly those with high levels of zinc oxide or titanium dioxide, often left a white residue on the skin, which some consumers found undesirable.

[0004] US6858200B2 disclosed are formulations for topical application, the formulation comprising a C15 branched polyalphaolefin, an aqueous phase, a non-aqueous phase, and at least one sunscreen active agent, alone or in combination with an insect repellant.

[0005] WO1996041614A1 invention relates to novel sunscreen compositions containing inorganic sunscreen agents, anionic emulsifiers and an oil component which permit the use of low amounts of inorganic sunscreen agents in the compositions while achieving high sun protection factors or the use of high amounts of inorganic sunscreens for very high sun protection factors without whiteness.

[0006] Conventionally, current methods for sunscreen production typically involve centralized manufacturing processes, which is resource-intensive and time-consuming. Additionally, most commercially available sunscreens come with a standard SPF (Sun Protection Factor), not necessarily tailored to the local sun exposure conditions or the user's specific needs.

[0007] In order to overcome the aforementioned drawbacks, there exists a need in the art to develop a device that requires to offer a solution to customize sunscreen formulation based on real-time environmental factors, such as changes in UV radiation intensity due to geographic location, altitude, or time of day. In addition, the developed device also needs to be capable of maintaining their effectiveness after prolonged exposure to sunlight, sweating, or water, requiring frequent reapplication.

OBJECTS OF THE INVENTION

[0008] The principal object of the present invention is to overcome the disadvantages of the prior art.

[0009] An object of the present invention is to provide an automated device for sunscreen production that efficiently utilizes Calotropis procera leaves as a raw material, ensuring a high-quality, eco-friendly, and natural sunscreen formulation.

[0010] Another object of the present invention is to enable real-time customization of sunscreen formulations, including optimal SPF levels tailored to a user's specific location and sun exposure.

[0011] Yet another object of the present invention is to automate the entire production process, from the collection and cleaning of raw leaves to the extraction of active compounds, evaporation, and the final mixing of sunscreen ingredients for precise regulation.

[0012] The foregoing and other objects, features, and advantages of the present invention will become readily apparent upon further review of the following detailed description of the preferred embodiment as illustrated in the accompanying drawings.

SUMMARY OF THE INVENTION

[0013] The present invention relates to an automated sunscreen lotion production device that is capable of automatically producing sunscreen by using natural ingredients to make the sunscreen, which are cleaned, dried, and then mixed with other ingredients as well as allows users to input their location to determine the optimal level of sun protection needed.

[0014] According to an embodiment of the present invention, an automated sunscreen lotion production device, comprising a housing developed to be positioned over a ground surface, a touch interactive display panel installed with the housing to allow a user to provide input commands for their location coordinates, a GPS (Global Positioning System) module integrated with a microcontroller linked with the device and synced with a weather detection module, which is integrated in the microcontroller to detect intensity of sunlight at the user’s location, an electronic sprayer having a vessel stored with water attached with the chamber to spray the water over the leaves to remove the dust and dirt from the leaves, a pair of vertical sliders installed at side wall of the chamber and having a horizontal mesh, which is situated in between the sliders by means of a motorized hinge to slide the plate upwards for filtering and transferring it over a platform arranged in the housing, a moisture sensor embedded with the platform for monitoring presence of moisture over the leaves, a pivot joint arranged in between the housing and the platform for tilting the platform and transfer the leaves inside a mixing compartment mounted beneath the platform, a first container arranged with a hemi-spherical shaped member at its bottom portion, having concentrated methanol, a circular slider arranged at ceiling portion of the first container and having a vertical hydraulic piston is connected with the slider to adjust height of a conical structure integrated with free-end of the rod, a vacuum container having a top surface that refer as a cover that gets open and close via motorized hinges installed in between vacuum container and cover, a first conduit that transfers extracted fluid from the first container into the vacuum container to remove alcohol, multiple nets installed within the first conduit to mitigate solid particles from entering the vacuum container and a second container is installed within the vacuum container and configured with a DC (Direct Current) motor, which results in rotating the second container to move the fluid that prevents clogging while evaporation and condensation process.

[0015] According to another embodiment of the present invention, the proposed device further comprises of a vacuum pump installed with the vacuum container to maintain internal pressure at specified level to remove oxygen, a first electronic nozzle connected with the vessel to dispense nitrogen into the second container, a third container arranged beneath the vacuum container for receiving the dispensed fluid by means of a second conduit arranged in between the second and third container, a multi-sectioned box that stores multiple different oils and emulsifiers, which are dispensed with the help of second electronic nozzles installed with the boxes, a motorized stirrer installed beneath the second section to stir the ingredients for making sunscreen formulation, a primary Peltier unit installed in the first container to maintain ideal temperature for extraction process, a hollow pipe connected to top of the second container to accommodating evaporated fluid, a second Peltier unit arranged with pipe to lower temperature of evaporated fluid for enabling condensation and promoting return of the fluid back into second container, a nichrome wire with the second container to provide localized heating for enabling temperature within the second container, an electronic pore arranged with the third chamber via a hollow tube allowing the users to accesses the manufactured sunscreen with ease and a battery is associated with the device to supply power to electrically powered components which are employed herein.

[0016] While the invention has been described and shown with particular reference to the preferred embodiment, it will be apparent that variations might be possible that would fall within the scope of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] These and other features, aspects, and advantages of the present invention will become better understood with regard to the following description, appended claims, and accompanying drawings where:
Figure 1 illustrates an isometric view of an automated sunscreen lotion production device.

DETAILED DESCRIPTION OF THE INVENTION

[0018] The following description includes the preferred best mode of one embodiment of the present invention. It will be clear from this description of the invention that the invention is not limited to these illustrated embodiments but that the invention also includes a variety of modifications and embodiments thereto. Therefore, the present description should be seen as illustrative and not limiting. While the invention is susceptible to various modifications and alternative constructions, it should be understood, that there is no intention to limit the invention to the specific form disclosed, but, on the contrary, the invention is to cover all modifications, alternative constructions, and equivalents falling within the spirit and scope of the invention as defined in the claims.

[0019] In any embodiment described herein, the open-ended terms "comprising," "comprises,” and the like (which are synonymous with "including," "having” and "characterized by") may be replaced by the respective partially closed phrases "consisting essentially of," consists essentially of," and the like or the respective closed phrases "consisting of," "consists of, the like.

[0020] As used herein, the singular forms “a,” “an,” and “the” designate both the singular and the plural, unless expressly stated to designate the singular only.

[0021] The present invention relates to an automated sunscreen lotion production device that is capable of offering a seamless blend of convenience, automation, and eco-friendliness, this process utilizes natural ingredients to produce high-quality sunscreen, tailored to individual locations, with consistent results, making reliable and effective sun protection easily accessible.

[0022] Referring to Figure 1, an isometric view of an automated sunscreen lotion production device is illustrated, comprising a housing 101 installed with a chamber 102, a touch interactive display panel 103 is attached with the housing 101, an electronic sprayer 104 attached with a vessel 105, a horizontal mesh plate 106 is positioned between a pair of vertical sliders 107 provided on inner lateral walls of the chamber 102, a platform 108 installed inside the housing 101, a pivot joint 109 integrated in between side wall of housing 101 and platform 108, a first container 110 installed underside the platform 108, a hemi-spherical shaped member 111 placed on a bottom portion of the first container 110.

[0023] Figure 1 further illustrates a circular slider 112 is positioned at a ceiling portion of the first container 110, a vertical hydraulic piston 113 is connected with the slider, a conical structure 114 integrated with free-end of the piston, a vacuum container 115 with a top surface that serves as a cover, a first conduit 116 connects first container 110 to the vacuum container 115, a second container 117 is positioned inside the vacuum container 115, a receptacle 125 stored with nitrogen is connected inside the vacuum container 115, a first electronic nozzle 118 connected with the receptacle 125, a third container 119 installed underside the vacuum container 115 divided into two sections: a first section 120 and a second section 121, arranged with a multi-sectioned box 122, each box 122 via second electronic nozzles 123, a motorized stirrer 124 attached inside second section 121.

[0024] The device disclosed herein, comprises of a housing 101, which serves as a main structure of the device and developed to be positioned over a ground surface, wherein the housing 101 arranged with a chamber 102 that stores Calotropis procera leaves. The process begins where a user required to provide input commands about their location coordinates over a touch interactive display panel 103 installed with the housing 101.

[0025] The touch interactive display panel 103 as mentioned herein is typically an LCD (Liquid Crystal Display) screen that presents output in a visible form. The screen is equipped with touch-sensitive technology, allowing the user to interact directly with the display using their fingers. A touch controller IC (Integrated Circuit) is responsible for processing the analog signals generated when the user inputs details regarding their location coordinates. A touch controller is typically connected to a microcontroller through various interfaces which may include but are not limited to PI (Serial Peripheral Interface) or I2C (Inter-Integrated Circuit).

[0026] After receiving the commands, the microcontroller accordingly process these commands and results in actuating a GPS (Global Positioning System) module integrated with a microcontroller linked with the device and synced with a weather detection module to detect intensity of sunlight at the user’s location.

[0027] The GPS module provides location-specific data, including the user's latitude, longitude, and altitude. This data is then synced with a weather detection module, which uses this location information to retrieve real-time weather data from a network of weather stations or satellite imagery. The weather detection module uses this data to estimate the sun's intensity at the user's location. To do this, it takes into account various factors such as time of day and year, latitude and longitude, cloud cover and atmospheric conditions, and seasonal variations in solar radiation. By considering these factors, the microcontroller accurately determine the amount of solar radiation reaching the user's location. By combining GPS location data with real-time weather information, the system can accurately monitor sun intensity at the user's location.

[0028] Based on the monitored intensity of sunlight, the microcontroller evaluates an optimal SPF (sun protection factor) level for manufacturing sunscreen from the Calotropis procera leaves. Based on the monitored SPF (sun protection factor) level, the microcontroller actuates an electronic sprayer 104 having a vessel 105 stored with water attached with the chamber 102 to spray the water over the leaves to remove the dust and dirt from the leaves.

[0029] The electronic sprayer 104 works by utilizing electrical energy to automize the flow solution in a controlled flow pattern by converting the pressure energy of a fluid into kinetic energy, which increases the fluid's velocity. Upon actuation of nozzle by the microcontroller, the electric motor or the pump pressurizes the incoming water, increasing its pressure significantly. High pressure enables the water to be sprayed out with a high force.

[0030] After cleaning the leaves, the microcontroller actuates a pair of vertical sliders 107 installed at side wall of the chamber 102 and having a horizontal mesh, which is situated in between the sliders 107 by means of a motorized hinge to slide the plate upwards for filtering and transferring it over a platform 108 arranged in the housing 101. The slider consists of a motor, and a rail unit integrated with ball bearings to allow smooth linear movement. As the motor rotates the rotational motion of the motor is converted into linear motion through a pair of belts and linkages. This linear motion provides a stable track and allows the plate to get move upwards, which results in transferring the leaves over the platform 108.

[0031] A moisture sensor embedded with the platform 108 for monitoring presence of moisture over the leaves. The core of the moisture sensor consists of two metal probes that interacts with the leaves’ moisture content. Moisture in the leaves acts as an electrical conductor. Dry leaves have high electrical resistance, while wet has low electrical resistance due to the presence of ions in the water. A low voltage electrical current is applied in the metal probes.

[0032] One probe serves as the positive electrode and the other serves as the negative electrode. The resistance between the probes is measured which is indicative of the leaves’ moisture content. The data interpreted by the sensor is then compared with the threshold level of moisture stored in the database. If the moisture content of the leaves recedes the threshold value, the microcontroller linked with the moisture sensor activates a heating unit integrated within the platform 108 to dry the leaves.

[0033] When the leaves get dry, the microcontroller actuates a pivot joint 109, which connects the housing 101 to the platform 108, tilting the platform 108. The motorized pivot joint 109 typically involves the use of an electric motor to control the movement of the pivot joint 109 and the connected component. The pivot joint 109 provides the pivot point around which the movement occurs. The motor is the core component responsible for generating the rotational motion. It converts the electrical energy into mechanical energy, producing the necessary torque that drives the pivot joint 109. As the motor rotates, the motorized pivot joint 109 orients the platform 108 in such a way that the platform 108 securely transfer the leaves inside a first container 110 mounted beneath the platform 108.

[0034] The first container 110 arranged with a hemi-spherical shaped member 111 at its bottom portion, having concentrated methanol, wherein a circular slider 112 arranged at ceiling portion of the first container 110 and having a vertical hydraulic piston 113 is connected with the slider to adjust height of a conical structure 114 integrated with free-end of the rod to ensure optimal pressure during extraction, thereby ensuring homogeneous mixing and maintaining a consistent texture.

[0035] A vacuum container 115 having a top surface that refer as a cover that gets open and close via motorized hinges installed in between vacuum container 115 and cover, wherein the vacuum chamber 102 linked with the first container 110 via a first conduit 116 that transfers extracted fluid from the first container 110 into the vacuum container 115 to remove alcohol, wherein multiple nets installed within the first conduit 116 to mitigate solid particles from entering the vacuum container 115.

[0036] A second container 117 is installed within the vacuum container 115 and configured with a DC (Direct Current) motor, which results in rotating the second container 117 to move the fluid that prevents clogging while evaporation and condensation process. The DC motor on the principle of electromagnetic induction: the stator and the rotor. The stator generates a magnetic field which usually consists of a permanent magnet or as set of coils through which direct current flows. The rotor is the moving part of the motor. The armature is connected to a commutator which is a rotary switch that reverses the direction of the current in the coil every half-turn.

[0037] As the armature rotates, the brushes ensure a continuous flow of current by reversing its direction at the right moments. When the DC is applied to the armature, a magnetic field is created around the coil due to the current flowing through the coil. As the DC electric motor rotates, the rotational force rotates the second container 117. As the second container 117 rotates, it facilitates movement in the fluid.

[0038] A vacuum pump installed with the vacuum container 115 to maintain internal pressure at specified level to remove oxygen, wherein a receptacle 125 having nitrogen, is connected within the vacuum container 115. A first electronic nozzle 118 connected with the receptacle 125 to dispense nitrogen into the second container 117 for evaporation process, thereby preventing extracted fluid from oxidation.

[0039] A third container 119 arranged beneath the vacuum container 115 for receiving the dispensed fluid by means of a second conduit arranged in between the second and third container 119, wherein the third container 119 split into two sections, a first section 120 and second section 121. The first section 120 is arranged with a multi-sectioned box 122 that stores multiple different oils and emulsifiers, which are dispensed with the help of second electronic nozzle 123 installed with the boxes 122. The second section 121 having a motorized stirrer 124 at its beneath that is actuated by the microcontroller to stir the ingredients for making sunscreen formulation. The base portion of the first section 120 is carved with multiple iris pore in order to allow easy and smooth transfer of ingredients the into the second section 121.

[0040] The stirrer 124 is equipped with blades or paddles that are capable of effectively mixing the ingredients when in operation. These blades are strategically positioned to create turbulence and ensure thorough mixing of the ingredients. The blades or paddles of the stirrer 124 are shaped and positioned to create a vortex within the ingredients second section 121, ensuring that all the components of the ingredients are thoroughly blended. The stirrer 124 is connected to a small and powerful electric motor that provides the necessary rotatory motion to the stirrer 124 to effectively blend the ingredients.

[0041] A primary Peltier unit installed in the first container 110 to maintain ideal temperature for extraction process to ensure extraction without degradation of sensitive compounds in the Calotropis procera leaves. The Peltier unit is a thermoelectric cooler that uses the Peltier effect to transfer heat from one side of the unit to the other when an electrical current is passed. The Peltier unit consists of two semiconductor materials connected in a sandwich-like fashion. These materials are typically made of bismuth telluride and one side of the Peltier unit is called the hot side and the other is the cold side.

[0042] When a direct current is applied to the Peltier unit, electrodes within the semiconductor material start moving from one side to the other. The Peltier effect occurs as a result of electron movement. When electrons flow from the cold side to the hot side, they carry heat with them. This leads to one side of the Peltier unit becoming colder, and the other side becoming hooter. This effect allows the Peltier unit to effectively transfer heat from one side to the other, creating a temperature gradient.

[0043] A hollow pipe connected to top of the second container 117 to accommodating evaporated fluid and arranged with a second Peltier unit to lower temperature of evaporated fluid for enabling condensation and promoting return of the fluid back into second container 117. The second container 117 arranged with a nichrome wire to provide localized heating for enabling temperature within the second container 117 to be increased when required, thereby assisting in evaporation of alcohol and further processing of extracted fluid. The second section 121 having a third Peltier unit to maintain ideal temperature while blending process in such manner that the original essence of extracted fluid remains same without degrading sensitive ingredients.

[0044] An electronic pore arranged with the third chamber 102 via a hollow tube, and free end of the tube extend out from front wall of the housing 101 and allowing the users to accesses the manufactured sunscreen with ease.

[0045] A battery is associated with the device to supply power to electrically powered components which are employed herein. The battery is comprised of a pair of electrode named as a cathode and an anode. The battery uses a chemical reaction of oxidation/reduction to do work on charge and produce a voltage between their anode and cathode and thus produces electrical energy that is used to do work in the device.

[0046] The present invention works best in following manner, the housing 101 as disclosed in the invention is developed to be positioned over the ground surface, the touch interactive display panel 103 allows the user to provide input commands for their location coordinates, the GPS (Global Positioning System) module monitors intensity of sunlight at the user’s location, the electronic sprayer 104 sprays the water over the leaves to remove the dust and dirt from the leaves. Simultaneously, the pair of vertical sliders 107 having the horizontal mesh plate 106 slides upwards for filtering and transferring it over the platform 108, then the moisture sensor for monitoring presence of moisture over the leaves, the pivot joint 109 for tilting the platform 108 and transfer the leaves inside the mixing compartment. The first container 110 having concentrated methanol, the circular slider 112 having the vertical hydraulic piston 113 to adjust height of the conical structure 114, the vacuum container 115 refer as the cover that gets open and close via motorized hinges and cover, the first conduit 116 that transfers extracted fluid from the first container 110 into the vacuum container 115 to remove alcohol. Further, multiple nets mitigates solid particles from entering the vacuum container 115, the DC (Direct Current) motor rotating the second container 117 to move the fluid that prevents clogging while evaporation and condensation process, the vacuum pump to maintain internal pressure at specified level to remove oxygen, the first electronic nozzle 118 to dispense nitrogen into the second container 117, the third container 119 for receiving the dispensed fluid by means of the second conduit, the multi-sectioned box 122 that stores multiple different oils and emulsifiers, which are dispensed with the help of second electronic nozzles 123. Then the motorized stirrer 124 to stir the ingredients for making sunscreen formulation, the primary Peltier unit to maintain ideal temperature for extraction process, the hollow pipe to accommodating evaporated fluid, the second Peltier unit to lower temperature of evaporated fluid for enabling condensation and promoting return of the fluid back into second container 117, the nichrome wire to provide localized heating for enabling temperature within the second container 117, the electronic pore via the hollow tube allowing the users to accesses the manufactured sunscreen with ease and the battery to supply power to electrically powered components which are employed herein.

[0047] Although the field of the invention has been described herein with limited reference to specific embodiments, this description is not meant to be construed in a limiting sense. Various modifications of the disclosed embodiments, as well as alternate embodiments of the invention, will become apparent to persons skilled in the art upon reference to the description of the invention. , Claims:1) An automated sunscreen lotion production device, comprising:

i) a housing 101 developed to be positioned on ground surface, installed with a chamber 102 stored with Calotropis procera leaves, wherein a touch interactive display panel 103 is attached with said housing 101, accessed by a user to input details regarding their location coordinates;
ii) a GPS (Global Positioning System) module integrated with a microcontroller associated with said device, and a weather detection module is integrated within said microcontroller that works in collaboration to detects intensity of sunlight at said user’ location, wherein based on which said microcontroller estimates an optimal SPF (sun protection factor) level of sunscreen that is to be manufactured from said Calotropis procera leaves;
iii) an electronic sprayer 104 attached with a vessel 105 stored with water and configured inside said chamber 102, that is activated by said microcontroller for sprinkling water over said leaves for removing dust and dirt from said leaves, wherein a horizontal mesh plate 106 is positioned between a pair of vertical sliders 107 provided on inner lateral walls of said chamber 102, said plate being connected to motorized hinge that allow said plate to slide upwards to filter and securely hold said leaves and transfer over a platform 108 installed inside said housing 101;
iv) a moisture sensor installed on platform 108 that detects presence of moisture over said leaves, and accordingly said microcontroller regulates actuation of a heating unit integrated within said platform 108 to dry said leaves, wherein post drying of said leaves, said microcontroller actuates a pivot joint 109 integrated in between side wall of housing 101 and platform 108 to tilt and transfer said leaves inside a first container 110 installed underside said platform 108;
v) a hemi-spherical shaped member 111 placed on a bottom portion of said first container 110, filled with concentrated methanol, wherein a circular slider 112 is positioned at a ceiling portion of said first container 110, a vertical hydraulic piston 113 is connected with said slider, configured to adjust height of a conical structure 114 integrated with free-end of said piston as needed to ensure optimal pressure during extract, ensuring homogeneous mixing and maintaining a consistent texture;
vi) a vacuum container 115 with a top surface that serves as a cover, said cover being operable to open and close via motorized hinges attached between vacuum container 115 and cover, wherein a first conduit 116 connects first container 110 to said vacuum container 115, designed to transfer extracted fluid from first container 110 into said vacuum container 115 for alcohol removal;
vii) multiple nets positioned inside said first conduit 116 to filter and prevent solid particles from entering said vacuum container 115, wherein a second container 117 is positioned inside said vacuum container 115, placed over a DC (Direct Current) motor, configured to rotate said second container 117 at a controlled RPM to facilitate fluid movement and prevent clogging during evaporation and condensation process;
viii) a vacuum pump attached to said vacuum container 115 to maintain internal pressure at desired level and to remove oxygen, wherein a receptacle 125 stored with nitrogen is connected inside said vacuum container 115, with a first electronic nozzle 118 connected with said receptacle 125, designed to dispense nitrogen into said second container 117, facilitating evaporation process and protecting extracted fluid from oxidation; and
ix) a third container 119 installed underside said vacuum container 115 for receiving said fluid via a second conduit integrated between said second and third container 119, said third container 119 divided into two sections: a first section 120 and a second section 121, said first section 120 installed arranged with a multi-sectioned box 122, each box 122 stored with different oils and emulsifiers that are dispensed via second electronic nozzles 123 connected with said boxes 122, and synchronously said microcontroller regulates actuation of a motorized stirrer 124 attached inside second section 121 to thoroughly mix said ingredients, ensuring uniformity in final sunscreen formulation.

2) The device as claimed in claim 1, wherein a primary Peltier unit is attached to said first container 110 to maintain optimal temperature for extraction process, ensuring efficient extraction while preventing degradation of sensitive compounds in the Calotropis procera leaves.

3) The device as claimed in claim 1, wherein a hollow pipe is connected to top of said second container 117 to carry evaporated fluid, said quipped with a second Peltier unit to lower temperature of evaporated fluid, enabling condensation and promoting return of the fluid back into second container 117.

4) The device as claimed in claim 1, wherein nichrome wire is attached inside said second container 117 to provide localized heating, enabling temperature inside said second container 117 to be increased when necessary, assisting in evaporation of alcohol and further processing of extracted fluid.

5) The device as claimed in claim 1, wherein a third Peltier unit attached to said second section 121 to regulate and maintain optimal temperature during blending process, ensuring that original essence of extracted fluid remains intact and preventing degradation of sensitive ingredients.

6) The device as claimed in claim 1, wherein a multiple iris pore is carved on a base portion of said first section 120, to facilitate transfer of ingredients and extract inside said second section 121.

7) The device as claimed in claim 1, wherein said third container 119 is installed with an electronic pore, connected with a hollow tube, and free of said tube radiates out from front wall of said housing 101, allowing users to accesses said manufactured sunscreen with ease.