Description:FIELD OF THE INVENTION

[0001] The present invention relates to a flower extract based cream formulation device that is capable of creating customized skincare creams based on real-time assessment of a user’s skin condition and is equipped with a means to execute preparation of cream formulations within minimal manual intervention, with ensuring that each of the products is customized to the user’s specific skin conditions.

BACKGROUND OF THE INVENTION

[0002] Creating flower extract-based creams has been a long-standing tradition, where people have used natural flowers for their soothing and healing properties. In the past, making these creams was a hands-on process. People usually grind flowers and mix them with oils using simple tools like mortar and pestles or manual mixers. The process was slow and required a lot of effort, and it was hard to get the right consistency and quality every time. Since there was no easy way to control the temperature or the amount of ingredients, and the final product often varied, making quite difficult to achieve the same results consistently. Hence, an equipment needs to be developed that formulate creams within minimal manual intervention.

[0003] Traditionally, steam distillation used for extracting essential oils from flowers. The method involved heating plant materials with steam, which usually extract volatile oils, but this process was complex and required specialized equipment. After the extraction, oils were mixed with fat-based substances like animal fats or plant oils. These mixtures were emulsified manually using hand blenders or rudimentary mixers. Some creams also required continuous stirring to achieve a uniform consistency. However, the overall process is labour-intensive and time-consuming. So, people also use some machines for performing formulation of cream via extracted flowers. But a skilled worker is required for operating such machines as well as these machines are quite costly.

[0004] CA2831597C discloses about an invention that includes topical skin compositions and corresponding methods for their use that include plant extracts. One such composition can include a TNF-an inhibitor, wherein the inhibitor is an aqueous extract from the whole plant of Polygonum multiflorum, an antioxidant and a tyrosinase inhibitor, wherein the antioxidant and tyrosinase inhibitior is an aqueous extract from the whole plant of Lonicera japonica, and a dermatologically acceptable carrier, wherein the composition can include at least 50% by weight of water.

[0005] US4268526A discloses about an invention that includes a skin cream formulation, which is one of four components used in a cosmetic regime, is disclosed. Applying the regime to the skin increases epidermal cell turnover without skin irritation. The other three components used in the regime are a cleanser, a lotion, and a tonic.

[0006] Conventionally, many devices have been developed that are capable of formulating cream. However, these devices are incapable of assessing a user’s skin condition and lacks in ensuring that a personalized cream formulation is developed for the user. Additionally, these existing devices also fail in dispensing the prepared cream or lotion to the user with minimal effort.

[0007] In order to overcome the aforementioned drawbacks, there exists a need in the art to develop a device that requires to be capable of automatically formulating skincare products by considering a user’s skin type, medical history, and environmental factors. In addition, the developed device also needs to dispense the prepared cream or lotion to the user in a hygienic and easy manner, with minimal effort required from the user.

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 develop a device that accurately assesses a user’s skin condition and ensures that a personalized cream formulation is developed for the user.

[0010] Another object of the present invention is to develop a device that is capable of automatically formulating skincare products by considering a user’s skin type, medical history, and environmental factors, thereby ensuring a customized cream for each individual.

[0011] Another object of the present invention is to develop a device that is capable of dispensing the prepared cream or lotion to the user in a hygienic and easy manner, with minimal effort required from the user.

[0012] Yet another object of the present invention is to develop a device that is capable of maintaining optimal conditions for storing and preparing skincare ingredients, thereby ensuring quality and effectiveness of the final product.

[0013] 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

[0014] The present invention relates to a flower extract based cream formulation device that is able to analyse user skin and prepare skin treatments suited to an individual’s needs.

[0015] According to an embodiment of the present invention, a flower extract based cream formulation device comprises of a cuboidal housing having a conical bottom portion, supported on a ground surface by means of four telescopic rods, a multi-section chamber, disposed within the housing for storing items such as flowers, water, oils, and solvents, a primary Peltier unit provided in each the section of the chamber to maintain temperature of the items in the chamber within a predetermined temperature range, a water sprayer in each the section of the chamber to maintain moisture level of the items in the chamber within a predetermined level of moisture level, the formulation of cream is based on above items dispersion that based on actuation of an artificial intelligence-based imaging unit, which is installed on the housing and integrated with an OCT (optical coherence tomography) sensor embedded in the housing, to determine skin issues suffered by the user including fine lines, sagging, age spots, dryness, rough texture, inflation, infection and thinning skin, identity of user is determined from facial data captured by a facial recognition module, to fetch historical medical data of the user from a database, a touch enabled display unit mounted on the housing to display medical profile of the user and detect skin issues for reference of the user, a holographic projection unit installed on the housing projects infographics for a reference of the user, regarding remedies for detected skin issues, accordingly determine formulation of cream to be prepared, each of the sections is provided with conduit configured with iris holes for dispensing the items on a compartment that is provided in the housing, and a pair of rectangular plates facing each other, attached in the compartment, by means of pneumatic pushers, for crushing of flowers.

[0016] According to another embodiment of the present invention, the proposed device further comprises of a pressure sensor embedded in the plate detects a pressure applied by the pneumatic pusher to enable regulation of actuation of the pneumatic pushers, a level sensor provided in each the section to detect level of items in the chamber, a wireless communication unit provided on the housing to push a notification to a computing unit of the user, a receptacle provided in the housing, configured with motorised stirrer, receives the crushed flower via a pipe connected with the compartment, and the items from the chamber via the conduits, for mixing, a partitioned container having water and ethanol, dispenses the water and ethanol into the receptacle for mixing with the items, a secondary Peltier unit is provided within the receptacle for mixing of the cream within a predetermined temperature range, a testing platform provided with the housing, receives a sample of prepared cream from the receptacle via a pipe, a UV (ultraviolet) spectrometer installed on the platform to detect magnitude of antioxidant activity and display the magnitude on the display unit and a nozzle incorporated at an outer bottom portion of the housing, connected with the receptacle via a tube configured with a pump, for dispensing the cream to a user, the cream is dispensed when a proximity sensor embedded in the housing detect presence of a hand of the user in front of the nozzle.

[0017] 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

[0018] 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 a perspective view of a flower extract based cream formulation device.

DETAILED DESCRIPTION OF THE INVENTION

[0019] 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.

[0020] 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.

[0021] 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.

[0022] The present invention relates to a flower extract based cream formulation device that automatically creates personalized skincare products by taking into account the user’s skin type, medical background, and environmental conditions, thereby ensuring a customized cream for each individual. Additionally, the proposed device dispenses the prepared cream or lotion to the user in a hygienic and effortless way, requiring minimal input from the user.

[0023] Referring to Figure 1, a perspective view of a flower extract based cream formulation device is illustrated, respectively, comprising a cuboidal housing 101 having a conical bottom portion, supported on a ground surface by means of four telescopic rods 102, a multi-section chamber 103, disposed within the housing 101, an artificial intelligence-based imaging unit 104, installed on the housing 101, a touch enabled display unit 105 mounted on the housing 101, a water sprayer 106 in each of the section of the chamber 103, a compartment 107 provided in the housing 101, having a pair of rectangular plates 108 facing each other, attached in the compartment 107, by means of pneumatic pushers 109.

[0024] Figure 1 further illustrates a receptacle 110 provided in the housing 101, configured with motorised stirrer 111, a partitioned container 112 arranged in the housing 101, a testing platform 113 provided with the housing 101, a UV (ultraviolet) spectrometer 114 installed on the platform 113, a holographic projection unit 115 installed on the housing 101, a nozzle 116 incorporated at an outer bottom portion of the housing 101.

[0025] The device disclosed herein comprising a cuboidal housing 101 with a conical bottom portion, designed to provide stability and efficient support. The housing 101 is strategically mounted on a ground surface through four telescopic rods 102, each attached at the corners of the cuboidal structure. These rods 102 are adjustable in length, allowing for fine-tuning of the housing 101 height and ensuring that the housing 101 remains level and firmly positioned on various surface types. The telescopic rods 102 enable the housing 101 to adapt to uneven ground conditions, thereby maintaining optimal stability during operation.

[0026] The rods 102 are pneumatically actuated, wherein the pneumatic arrangement of the rods 102 comprises of a cylinder incorporated with an air piston and the air compressor, wherein the compressor controls discharging of compressed air into the cylinder via air valves which further leads to the extension/retraction of the piston. The piston is attached to the telescopic rods 102, wherein the extension/retraction of the piston corresponds to the extension/retraction of the rods 102. The actuated compressor allows extension of the rods 102 to position the housing 101 securely over the surface.

[0027] A multi-section chamber 103, strategically positioned within the housing 101 to store various items essential for the formulation process. This chamber 103 is designed to accommodate items such as flowers, water, oils, and solvents, each placed within designated sections for organization and easy access. The multi-section design ensures that each substance is kept separate to prevent cross-contamination, thereby preserving the integrity of each material. The chamber 103 is constructed to provide optimal conditions for the storage of these items, maintaining their quality and suitability for the formulation process. This configuration facilitates efficient handling and ensures that all necessary ingredients are readily available for use in the formulation of the cream.

[0028] Each of the section of the chamber 103 is embedded with a primary Peltier unit which maintain temperature of the items in the chamber 103. The primary Peltier unit consists of two semiconductor plates, known as Peltier plates, connected in series and sandwiched between two ceramic plates. When an electric current is applied to the Peltier unit, one side of the unit absorbs heat from its surroundings, while the other side releases heat, thereby maintain temperature of the items in the chamber 103 within a predetermined temperature range.

[0029] Synchronously, the microcontroller directs a water sprayer 106 which is arranged in each of the section of the chamber 103 to maintain moisture level of the items in the chamber 103. Upon activation, the sprayer 106 releases a controlled stream of water over the items in the chamber 103. The water is dispensed through the sprayer 106 connected to a water reservoir, ensuring even distribution. The sprayer 106 directs the water flow in a uniform pattern, ensuring thorough wetting of the materials. The sprayer 106 operation is precise, allowing for controlled amounts of water to be applied at specific intervals, which helps in maintaining optimal moisture level of the items stored within the chamber 103 for the formulation of the cream.

[0030] The formulation of cream is based on dispensing of above items that based on actuation of an artificial intelligence-based imaging unit 104, which is installed on the housing 101 and integrated with an OCT (optical coherence tomography) sensor that is embedded in the housing 101. The imaging unit 104 disclosed herein comprises of an image capturing arrangement including a set of lenses that captures multiple images of the surroundings and the captured images are stored within memory of the imaging unit 104 in form of an optical data. The imaging unit 104 also comprises of the processor which processes the captured images.

[0031] This pre-processing involves tasks such as noise reduction, image stabilization, or color correction. The processed data is fed into AI protocols for analysis which utilizes machine learning techniques, such as deep learning neural networks, to extract meaningful information from the visual data which are processed by the microcontroller to determine skin issues suffered by the user including fine lines, sagging, age spots, dryness, rough texture, inflation, infection and thinning skin.

[0032] In synchronization, the Optical Coherence Tomography (OCT) sensor uses light waves to capture high-resolution, cross-sectional images of the skin. The Optical Coherence Tomography (OCT) sensor works by sending near-infrared light into the skin, where it reflects off different layers. These reflections are then analyzed to create detailed images of skin structure and abnormalities. OCT is particularly effective for detecting skin issues like fine lines, sagging, age spots, dryness, rough texture, inflation, infection and thinning skin.

[0033] A facial recognition module captures the facial data of the user. Upon capturing the facial data, the microcontroller cross-references this data with an existing database to retrieve the user’s historical medical information. This medical data is used to analyze the user’s skin type, conditions, and other relevant health details. Based on this analysis, the microcontroller then determines the appropriate formulation for the cream to be prepared. This personalized approach ensures that the cream is tailored to the specific needs of the user, thereby taking into account their individual medical and skin conditions.

[0034] The facial recognition module captures a live image or video feed of the user's face through the imaging unit 104. The microcontroller then processes the captured data using protocols to identify unique facial features such as the distance between eyes, nose shape, and jawline. These features are compared against a pre-existing database of facial data, where the user’s identity is matched. Once identified, the microcontroller retrieves the corresponding historical medical data associated with the user. This medical data is then used to determine the appropriate cream formulation tailored to the user’s specific skin conditions and needs.

[0035] The housing 101 is installed with a touch enabled display unit 105 which display medical profile of the user and detect skin issues for reference of the user. The display unit 105 comprises an LED or LCD screen, a control board, a backlight arrangement, and input connectors. The LED/LCD screen serves as the main visual output, while the control board manages data input and image processing. The backlight arrangement, often made of LEDs, illuminates the screen, ensuring visibility. When information is sent to the display, the control board processes the data and directs the LED/LCD pixels to show specific colors, creating images or text. The backlight adjusts brightness for optimal clarity. This combined functionality enables the unit to accurately display medical profile of the user and detect skin issues for reference of the user.

[0036] Simultaneously, the microcontroller generates a command and directs a holographic projection unit 115 which is installed on the housing 101 to project infographics for a reference of the user, regarding remedies for detected skin issues. The holographic projection unit 115 disclosed herein, comprises of multiple lens. After getting the actuation command from the microcontroller, a light source integrated in the projection unit 115 emits various combination of lights toward the lens which is further portrayed to project the pre-saved virtual images for projecting infographics for a reference of the user, regarding remedies for detected skin issues.

[0037] The formulation of the cream begins with the dispensing of various items such as flowers, water, oils, and solvents into a compartment 107 arranged within the housing 101. Each section of the multi-section chamber 103 is equipped with conduits that are fitted with iris holes to precisely control the dispensing of these ingredients. The compartment 107, contains a pair of rectangular plates 108 facing each other. These plates 108 are connected to pneumatic pushers 109, which are activated to apply controlled force for the crushing of flowers. This crushing process ensures the extraction of essential compounds from the flowers, which are subsequently used in the cream formulation.

[0038] The pushers 109 are pneumatically actuated and works in the similar manner as of rods 102 mentioned above. On actuation the pushers 109 extend and positions the plates 108 in an appropriate position in order to crush the flowers dispensed from the chamber 103 via conduits. The plates 108 are installed with a pressure sensor which detects a pressure applied by the pneumatic pushers 109.

[0039] The pressure sensors disclosed herein includes a sensing element that is the core component that directly interacts with the pressure being measured. It typically consists of a diaphragm or a membrane that deforms under the applied pressure. When pressure is applied to the sensing element, it causes a diaphragm or membrane present within the sensor to flex or deform. The amount of deformation is proportional to the applied pressure. The deformation of the sensing element is converted into a measurable electrical signal which is processed by the microcontroller to determine the pressure applied by the pneumatic pushers 109 while crushing flowers, thereby regulates the pushers 109 accordingly.

[0040] After the dispersion of the items, the microcontroller detects level of items in the chamber 103 by means of a level sensor that is provided each of the section. The level sensor used herein is a preferably an ultrasonic level sensor. The ultrasonic level sensor works by emitting ultrasonic waves and then measuring the time taken by these waves to bounce back after hitting the surface of the items. The ultrasonic sensor includes two main parts viz. transmitter, propagator, reflector and a receiver for measuring the level of items in the chamber 103.

[0041] The transmitter sends a short ultrasonic pulse towards the surface of items which propagates through the air at the speed of sound and reflects back as an echo to the transmitter as the pulse hits the items. The transmitter then detects the reflected eco from the surface of the items and calculations is performed by the sensor based on the time interval between the sending signal and receiving echo to determine the level of items in the chamber 103.

[0042] The determined data is sent to the microcontroller in a signal form, based on which the microcontroller actuate a wireless communication unit that is provided on the housing 101 to push a notification to a computing unit of the user. The computing unit includes but not limited to a mobile and laptop that comprises a processor where the input received from the user is stored to process and retrieve the output data in order to display in the computing unit. The microcontroller is wirelessly linked with the computing unit via a communication module which includes but not limited to Wi-Fi (Wireless Fidelity) module, Bluetooth module. GSM (Global System for Mobile communication). The communication module acts as a medium between various electronic unit for establishing communication between the computing unit and device to process the, level of items in the chamber 103.

[0043] The communication module employed herein acts as an intermediate between various electronic components, wherein the module is used to establish the communication between the user’s computing unit and the microcontroller. The customized Global System for Mobile communication (GSM) module is designed for establishing a wireless connection between computing unit and the microcontroller. This module is able to receive serial data from radiation monitoring devices such as computing unit and transmit the data as text SMS to the microcontroller.

[0044] The receptacle 110, located within the housing 101, is equipped with a motorized stirrer 111 designed to mix the crushed flower and other ingredients. The crushed flower is transferred through a pipe connected to the compartment 107, and the items from the chamber 103 are delivered into the receptacle 110 via the conduits. Prior actuation of the stirrer 111, the microcontroller maintains temperature within the receptacle 110 by means of a secondary Peltier unit that is provided within the receptacle 110. The secondary Peltier unit works in the similar manner as of primary Peltier unit.

[0045] As the predetermined temperature range is maintained, the microcontroller performs mixing of the cream by means of motorised stirrer 111. The motorised stirrer 111 is coupled with a motor, and upon activation, the motor drives the stirrer 111, which consists of rotating blades or paddles. These blades move through the ingredients, ensuring thorough and even mixing. The stirrer 111’s speed and direction are controlled by the microcontroller to achieve the desired consistency and homogeneity. The stirring motion facilitates the integration of all components, ensuring that the ingredients are uniformly combined. This process continues until the mixture reaches the required texture for cream formulation.

[0046] A partitioned container 112 is incorporated within the housing 101, containing separate sections for water and ethanol. The container 112 is equipped with a dispensing mechanism, which is activated by the microcontroller upon receiving input from the user. When activated, the dispensing mechanism releases a predefined amount of water and ethanol into the receptacle 110, where these are mixed with the previously introduced ingredients. The dispensing process ensures that both water and ethanol are accurately proportioned and delivered to the receptacle 110 for the purpose of blending with the other items in the formulation.

[0047] A testing platform 113 is integrated within the housing 101, positioned to receive a sample of the prepared cream from the receptacle 110 through a connected pipe. Once the cream is mixed and prepared, the pipe directs a measured sample of the cream onto the testing platform 113. The platform 113 is designed to facilitate further examination, testing, or analysis of the cream to ensure its consistency, texture, and formulation quality before final use or distribution. The testing platform 113 serves as a crucial component for quality control and verification of the prepared cream's suitability for the intended purpose.

[0048] A UV (ultraviolet) spectrometer 114 is installed on the testing platform 113 to measure the magnitude of antioxidant activity in the prepared cream. The spectrometer 114 utilizes ultraviolet light to assess the sample's absorption and response, providing data on its antioxidant properties. This data is then processed by the microcontroller and displayed on the display unit 105, thereby allowing the user to view the precise level of antioxidant activity present in the cream. The inclusion of the UV spectrometer 114 ensures the formulation meets the desired antioxidant standards, for aiding in quality control and confirming the cream's efficacy before use or distribution.

[0049] The UV (ultraviolet) spectrometer 114 emits ultraviolet light onto the cream sample placed on the testing platform 113. The sample absorbs certain wavelengths of UV light, and the spectrometer 114 measures the amount of light absorbed by the sample at specific wavelengths. This data is then processed to calculate the antioxidant activity based on the level of UV light absorption, which correlates to the presence of active compounds in the cream. The results are displayed on the connected display unit 105, providing real-time data on the antioxidant properties of the cream sample.

[0050] A nozzle 116 is integrated at the outer bottom portion of the housing 101, wherein the nozzle 116 is connected to a receptacle 110 by means of a tube and a pump. This arrangement is configured to facilitate dispensing of the prepared cream. The nozzle 116 is designed to discharge the cream upon detection of a user's hand, triggered by a proximity sensor embedded within the housing 101. The proximity sensor is responsible for identifying the presence of the user's hand when placed in front of the nozzle 116.

[0051] The proximity sensor consists of an emitter and a receiver. The sensor emits infrared rays through an emitter, towards the surroundings and receives the bounced back rays via receiver and convert the detected data into an electric signal that is sent to the microcontroller. The microcontroller processes the received signal from the proximity sensor in order to detect presence of the hand of the user in front of the nozzle 116.

[0052] The nozzle 116 consists of an outlet located at the bottom portion of the housing 101, connected to the receptacle 110 via the tube and pump. When the proximity sensor detects the presence of a user's hand near the nozzle 116, it triggers the activation of the pump. The pump then draws the cream from the receptacle 110 and pushes it through the tube, out of the nozzle 116. The cream is dispensed in a controlled manner, based on the proximity signal. Once the hand is no longer detected, the sensor deactivates the pump, ceasing the dispensing process. This ensures hygienic, hands-free operation.

[0053] Moreover, a battery is associated with the device for powering up electrical and electronically operated components associated with the device and supplying a voltage to the components. The battery used herein is preferably a Lithium-ion battery which is a rechargeable unit that demands power supply after getting drained. The battery stores the electric current derived from an external source in the form of chemical energy, which when required by the electronic component of the device, derives the required power from the battery for proper functioning of the device.

[0054] The present invention works best in the following manner, where the cuboidal housing 101 as disclosed in the invention possesses conical bottom portion that is supported on the ground surface by means of four telescopic rods 102. The multi-section chamber 103, stores items such as flowers, water, oils, and solvents. The primary Peltier unit maintain temperature of the items in the chamber 103 within the predetermined temperature range. Thereafter the water sprayer 106 in each of the section of the chamber 103 maintains moisture level of the items in the chamber 103 within the predetermined level of moisture level. The formulation of cream is based on dispensing of above items, based on actuation of the artificial intelligence-based imaging unit 104, which is installed on the housing 101 and integrated with the OCT (optical coherence tomography) sensor embedded in the housing 101, to determine skin issues suffered by the user including fine lines, sagging, age spots, dryness, rough texture, inflation, infection and thinning skin. Also, identity of user is determined from facial data captured by the facial recognition module, to fetch historical medical data of the user from the database. Afterwards the touch enabled display unit 105 mounted on the housing 101 displays medical profile of the user and detects skin issues for reference of the user. Synchronously, the holographic projection unit 115 projects infographics for the reference of the user, regarding remedies for detected skin issues.

[0055] In continuation, then for the formulation of cream to be prepared, each of the sections is provided with conduit configured with iris holes for dispensing the items in the compartment 107 having pair of rectangular plates 108 facing each other, and attached in the compartment 107, by means of pneumatic pushers 109, for crushing of flowers. Thereafter the pressure sensor detects the pressure applied by the pneumatic pushers 109. Afterwards the level sensor provided in each of the section detects level of items in the chamber 103. Now wireless communication unit provided on the housing 101 pushes notification to the computing unit of the user. The receptacle 110 provided in the housing 101 receives the crushed flower via the pipe connected with the compartment 107, and the items from the chamber 103 via the conduits, configured with motorized stirrer 111, for mixing. Thereafter the partitioned container 112 having water and ethanol, dispenses the water and ethanol into the receptacle 110 for mixing with the items. Also, the secondary Peltier unit is provided within the receptacle 110 for mixing of the cream within the predetermined temperature range. Further the testing platform 113 receives the sample of prepared cream from the receptacle 110 via the pipe. Simultaneously the UV (ultraviolet) spectrometer 114 detects magnitude of antioxidant activity and displays the magnitude on the display unit 105. Furthermore, the nozzle 116 incorporated at the outer bottom portion of the housing 101, connected with the receptacle 110 via the tube configured with the pump, for dispensing the cream to the user. And finally, the cream is dispensed when the proximity sensor embedded in the housing 101 detects presence of the hand of the user in front of the nozzle 116.

[0056] 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) A flower extract based cream formulation device, comprising:

i) a cuboidal housing 101 having a conical bottom portion, supported on a ground surface by means of four telescopic rods 102;
ii) a multi-section chamber 103, disposed within said housing 101 for storing items such as flowers, water, oils, and solvents, wherein each of said sections is provided with conduit configured with iris holes for dispensing;
iii) an artificial intelligence-based imaging unit 104, installed on said housing 101 and integrated with a processor for recording and processing images in a vicinity of said housing 101, in synchronisation with an OCT (optical coherence tomography) sensor embedded in said housing 101, to determine skin issues suffered by said user including fine lines, sagging, age spots, dryness, rough texture, inflation, infection and thinning skin, wherein identity of user is determined from facial data captured by a facial recognition module, to fetch historical medical data of said user from a database, to determine formulation of cream to be prepared;
iv) a touch enabled display unit 105 mounted on said housing 101 to display medical profile of said user and detect skin issues for reference of said user;
v) a primary Peltier unit provided in each said section of said chamber 103 to maintain temperature of said items in said chamber 103 within a predetermined temperature range;
vi) a water sprayer 106 in each said section of said chamber 103 to maintain moisture level of said items in said chamber 103 within a predetermined level of moisture level;
vii) a level sensor provided in each said section to detect level of items in said chamber 103 to trigger said microcontroller to actuate a wireless communication unit provided on said housing 101 to push a notification to a computing unit of said user;
viii) a compartment 107 provided in said housing 101, having a pair of rectangular plates 108 facing each other, attached in said compartment 107, by means of pneumatic pushers 109, for crushing of flowers dispensed into said compartment 107 via said conduits;
ix) a receptacle 110 provided in said housing 101, configured with motorized stirrer 111, receives said crushed flower via a pipe connected with said compartment 107, and said items from said chamber 103 via said conduits, for mixing, wherein a partitioned container 112 having water and ethanol, dispenses said water and ethanol into said receptacle 110 for mixing with said items; and
x) a testing platform 113 provided with said housing 101, receives a sample of prepared cream from said receptacle 110 via a pipe, wherein a UV (ultraviolet) spectrometer 114 installed on said platform 113 to detect magnitude of antioxidant activity and display said magnitude on said display unit 105.

2) The device as claimed in claim 1, wherein a holographic projection unit 115 installed on said housing 101 projects infographics for a reference of said user, regarding remedies for detected skin issues.

3) The device as claimed in claim 1, wherein a nozzle 116 incorporated at an outer bottom portion of said housing 101 is connected with said receptacle 110 via a tube configured with a pump, for dispensing said cream to a user, wherein said cream is dispensed when a proximity sensor embedded in said housing 101 detect presence of a hand of said user in front of said nozzle 116.

4) The device as claimed in claim 1, wherein a pressure sensor embedded in said plates 108 detects a pressure applied by said pneumatic pushers 109 to enable regulation of actuation of said pneumatic pushers 109.

5) The device as claimed in claim 1, wherein a secondary Peltier unit is provided within said receptacle 110 for mixing of said cream within a predetermined temperature range.