HAS INDUSTRIES

Engineering Excellence, Precision Performance: HAS Industries

Our Machineries

Elevate your food production with cutting-edge processing machines from HAS Industries. Our precision-engineered equipment ensures optimal efficiency and superior quality output. From grinding to mixing and beyond, trust our innovative solutions to streamline your food processing operations. Experience the difference with HAS Industries – where quality meets innovation in every bite.

In the realm of food processing and spice manufacturing, efficiency and precision are paramount. Enter a suite of innovative machines meticulously crafted by Has Industries, each designed to elevate your production processes and ensure the highest quality end products.

At the heart of our operations lies the Destoner Machine, a robust apparatus engineered to remove stones and foreign particles from raw materials with unparalleled accuracy. This crucial step not only enhances product purity but also safeguards downstream equipment from damage, ensuring uninterrupted production flow.

Once purified, the spices find their way into the Spices Mixer, where a symphony of flavors is harmoniously blended to perfection. Whether crafting complex spice blends or simple seasonings, this versatile mixer guarantees uniform distribution, tantalizing aroma, and exceptional taste in every batch.

Efficient material handling is facilitated by the Screw Conveyor, seamlessly transporting ingredients between processing stages with precision and reliability. Its customizable design ensures compatibility with various production layouts, optimizing space utilization and workflow efficiency.

For precise particle separation, the Vibro Sifter takes center stage, employing vibratory motion to sift and classify materials with exceptional accuracy. Whether removing oversized particles or achieving fine powder consistency, this indispensable machine delivers consistent results, meeting the most stringent quality standards.

Complementing the Vibro Sifter is the Micro Pulverizer, a powerhouse of fine grinding capabilities, transforming spices and herbs into exquisite powders with unmatched fineness and uniformity. Its compact design and high-speed operation make it a cornerstone of spice processing operations worldwide.

To refine turmeric to perfection, the Turmeric Polisher Dust Proof ensures a flawless finish, while the Turmeric Pulverizer delivers precise grinding tailored to your exact specifications.

From the pungent heat of chili peppers to the piquant zest of garlic and ginger, Has Industries’ machinery transforms raw ingredients into culinary delights. Whether it’s the meticulous cleaning process of the Chilly Cleaning Plant or the precision sieving of the Dresser Sieving Powder Machine, every step is executed with unmatched precision and efficiency.

With a diverse range of equipment including the Roaster Cum Mixer, Ginger Washer Machine, Garlic Peeler Machine, and Garlic Bulb Breaker, Has Industries empowers spice manufacturers to unlock their full potential, delivering excellence in every aspect of production.

And powering this intricate network of machinery is the Rotary Valve, a mechanical marvel ensuring seamless material flow and precise dosing, essential for optimizing production efficiency and maintaining product integrity.

For processing neem seeds, the Neem Seed Pulverizer offers unparalleled performance, grinding seeds to perfection for a multitude of applications, from pharmaceuticals to agriculture.

With Has Industries’ comprehensive lineup of cutting-edge equipment, spice manufacturers can embark on a journey of innovation, efficiency, and unmatched quality, setting new standards of excellence in the food processing industry.

Destoner Machine

Destoner Machine is a piece of equipment used in the food processing industry to remove stones, pebbles, and other unwanted foreign materials from food products such as grains, pulses, seeds, and nuts. These machines are particularly crucial in ensuring the quality and safety of the final product, as ingesting stones or other hard objects can be harmful to consumers and may damage processing equipment.
Destoner machines typically employ a combination of sieving, gravity separation, and air flow to separate the heavier stones and debris from the lighter food products. They often consist of a feed hopper where the raw material is loaded, followed by a series of screens or perforated plates through which the material passes. As the material moves along the machine, vibrations or airflow are applied to encourage the stones and heavier materials to settle out from the product stream, while the desired food product continues its journey through the machine.
Depending on the specific application and scale of operation, destoner machines can vary in size and complexity, ranging from small, manually operated units suitable for small-scale processing to large, automated systems used in industrial food processing facilities. These machines play a critical role in ensuring the quality, safety, and efficiency of food processing operations.


Spices Mixer

A Spices Mixer, also known as a spice blender or spice mixing machine, is a piece of equipment used in the food processing industry to blend various spices and seasonings together. These machines are essential for achieving consistent flavor profiles in spice blends and ensuring uniform distribution of spices throughout the mixture.
Spices mixers come in various forms and sizes, ranging from small countertop models suitable for small-scale operations to large industrial units used in commercial food production facilities. They typically consist of a mixing chamber or vessel where the spices are combined, along with mechanisms for mixing the ingredients thoroughly.
The mixing action can be achieved through different methods, including:
⦁ Tumbling: The spices are placed in the mixing chamber, and the machine rotates or tumbles the ingredients to blend them evenly.
⦁ Paddle Mixing: Paddle mixers use rotating paddles or agitators to stir and mix the spices inside the mixing chamber.
⦁ Ribbon Mixing: Ribbon mixers utilize helical ribbons or blades to create a swirling motion, effectively blending the spices together.
Some advanced spice mixers may also incorporate features such as adjustable mixing speeds, programmable mixing cycles, and automated controls to optimize the blending process and ensure consistent results.
Spices mixers are commonly used in the production of spice blends for various culinary applications, including seasoning mixes, curry powders, rubs, marinades, and spice pastes. They help food manufacturers and spice producers maintain quality standards, improve production efficiency, and meet the demand for diverse and flavorful spice products.


Screw Conveyor

A Screw Conveyor is a versatile and efficient mechanical conveying device used to transport bulk materials horizontally, vertically, or at an inclined angle. It consists of a rotating helical screw blade, also known as an auger, enclosed within a cylindrical casing or trough.
Here’s Has Industries a screw conveyor typically works:
⦁ Material Input: Bulk materials such as grains, powders, pellets, or granular substances are fed into the screw conveyor’s inlet hopper or directly into the conveyor’s trough.
⦁ Helical Screw Rotation: The screw blade, powered by an electric motor or other driving mechanism, rotates within the trough, pushing the material along the length of the conveyor.
⦁ Material Conveyance: As the screw rotates, the helical flights or blades push the material forward or upward, depending on the conveyor’s orientation. The design of the screw flight and the conveyor’s inclination determine the conveying capacity and efficiency.
⦁ Discharge: The transported material reaches the discharge point, where it can be unloaded into a downstream process or storage vessel. The discharge can be controlled using gates, valves, or other mechanisms.
Screw conveyors offer several advantages:
⦁ Versatility: Screw conveyors can handle a wide range of bulk materials, including both free-flowing and non-free-flowing substances.
⦁ Efficiency: They are efficient and reliable, requiring minimal maintenance and offering low operating costs.
⦁ Space-saving: Screw conveyors can be designed to fit into tight spaces and can be configured to convey materials at various angles and distances.
⦁ Gentle Conveyance: The gentle conveying action of screw conveyors makes them suitable for handling delicate or fragile materials.
Screw conveyors find applications in various industries, including agriculture, food processing, mining, pharmaceuticals, construction, and wastewater treatment, among others. They are used for tasks such as conveying grains in agriculture, transporting powders in chemical processing plants, and moving bulk materials in manufacturing facilities.


Vibro Sifter

A Vibro Sifter, also known as a vibratory sieve or vibrating screen, is a screening device used to separate and classify particles or materials based on their size, shape, and composition. It operates on the principle of vibration, where an oscillating motor generates vibrations that cause the screen or sieve to vibrate, thereby separating the particles according to their size.
Here’s Has Industries a vibro sifter typically works:
Material Input: The material to be screened is fed into the vibro sifter through a feed inlet or hopper.
⦁ Vibration Generation: The vibro sifter is equipped with one or more vibratory motors or eccentric weights that generate controlled vibrations. These vibrations are transmitted to the screen mesh or sieve, causing it to vibrate.
⦁ Screening Process: As the material moves along the vibrating screen, particles smaller than the mesh openings pass through the screen, while larger particles are retained on the surface of the screen.
⦁ Particle Separation: Depending on the application and the desired outcome, multiple layers of screens with different mesh sizes may be used in a single vibro sifter. This allows for the separation of particles into multiple size fractions.
⦁ Discharge: The separated particles are discharged from the vibro sifter through respective outlets, which may be equipped with discharge chutes or conveyors for further processing or collection.
Vibro sifters are commonly used in industries such as pharmaceuticals, food processing, chemicals, cosmetics, and ceramics for various purposes, including:
⦁ Grading and sizing of powders and granules
⦁ Separation of solids from liquids or slurries
⦁ Removing oversize or undersize particles
⦁ De-dusting and removing foreign contaminants
⦁ Conditioning materials for further processing
Vibro sifters offer several advantages, including high screening efficiency, low maintenance requirements, and the ability to handle a wide range of materials. They come in various designs and configurations to suit different applications, including circular, rectangular, and gyratory models. Additionally, they can be customized with features such as adjustable vibration intensity, interchangeable screens, and dust-tight enclosures to meet specific process requirements.


Vibro Sifter

A Vibro Sifter, also known as a vibratory sieve or vibrating screen, is a screening device used to separate and classify particles or materials based on their size, shape, and composition. It operates on the principle of vibration, where an oscillating motor generates vibrations that cause the screen or sieve to vibrate, thereby separating the particles according to their size.
Here’s Has Industries a vibro sifter typically works:
⦁ Material Input: The material to be screened is fed into the vibro sifter through a feed inlet or hopper.
⦁ Vibration Generation: The vibro sifter is equipped with one or more vibratory motors or eccentric weights that generate controlled vibrations. These vibrations are transmitted to the screen mesh or sieve, causing it to vibrate.
⦁ Screening Process: As the material moves along the vibrating screen, particles smaller than the mesh openings pass through the screen, while larger particles are retained on the surface of the screen.
⦁ Particle Separation: Depending on the application and the desired outcome, multiple layers of screens with different mesh sizes may be used in a single vibro sifter. This allows for the separation of particles into multiple size fractions.
⦁ Discharge: The separated particles are discharged from the vibro sifter through respective outlets, which may be equipped with discharge chutes or conveyors for further processing or collection.
Vibro sifters are commonly used in industries such as pharmaceuticals, food processing, chemicals, cosmetics, and ceramics for various purposes, including:
⦁ Grading and sizing of powders and granules
⦁ Separation of solids from liquids or slurries
⦁ Removing oversize or undersize particles
⦁ De-dusting and removing foreign contaminants
⦁ Conditioning materials for further processing
Vibro sifters offer several advantages, including high screening efficiency, low maintenance requirements, and the ability to handle a wide range of materials. They come in various designs and configurations to suit different applications, including circular, rectangular, and gyratory models. Additionally, they can be customized with features such as adjustable vibration intensity, interchangeable screens, and dust-tight enclosures to meet specific process requirements.


Micro Pulverizer

A Micro Pulverizer, also known as a micro pulveriser or micro mill, is a machine used for reducing the size of very fine and small particles of materials by pulverizing them into fine powders. It is a type of mechanical impact mill, which operates on the principle of high-speed rotating blades striking the material and reducing it to smaller particles.
Here’s Has Industries a typical micro pulverizer works:
⦁ Material Input: The material to be pulverized is fed into the feed hopper of the pulverizer. This can include various materials such as grains, spices, herbs, chemicals, pharmaceuticals, and other small particles.
⦁ Grinding Chamber: Inside the micro pulverizer, there is a grinding chamber where the material encounters high-speed rotating blades or hammers. These blades or hammers impact the material and break it into smaller particles.
⦁ Particle Size Reduction: As the material is continuously impacted by the rotating blades or hammers, it is pulverized into fine particles. The size of the particles can be controlled by adjusting the speed of the blades, the gap between the blades and the grinding chamber, and the feed rate of the material.
⦁ Air Classification (Optional): Some micro pulverizers are equipped with an air classifier that separates the fine particles from the coarse ones. This helps to achieve a more uniform particle size distribution and to separate the desired fine powder from any larger particles.
⦁ Discharge: The pulverized material exits the micro pulverizer through a discharge outlet, typically into a collection container or downstream process equipment.
Micro pulverizers are commonly used in various industries, including pharmaceuticals, food processing, chemical processing, and cosmetics, for size reduction and fine grinding of materials. They are favored for their compact size, high efficiency, and versatility in processing a wide range of materials.

Micro pulverizers come in different designs and configurations, including pin mills, hammer mills, and impact mills, each suitable for specific applications and particle size requirements. Additionally, they can be equipped with various features such as interchangeable screens, dust collection systems, and automatic feeding mechanisms to enhance their performance and usability.


An Elbow Pulverize

An Elbow Pulverizer, also known as an elbow jet mill or elbow-type jet mill, is a type of pulverizing machine used for grinding and pulverizing materials into fine powders. It belongs to the family of jet mills, which utilize high-speed jets of compressed air or gas to impact and pulverize the material particles.
The distinguishing feature of an elbow pulverizer is its unique design of the grinding chamber, which includes a sharp turn or elbow in the path of the material flow. This design enhances the efficiency of particle grinding and classification by creating a strong vortex flow within the chamber, allowing for effective particle collisions and separation.
Here’s Has Industries elbow pulverizer typically works:
⦁ Material Introduction: The material to be pulverized is introduced into the grinding chamber through a feed inlet, usually located at the top of the mill.
⦁ High-Speed Jet Action: Compressed air or gas is introduced into the grinding chamber through nozzles or jets located around the periphery of the chamber. These jets create high-velocity streams of air or gas that entrain the material particles and propel them towards the center of the chamber.
⦁ Elbow Turn: As the material particles approach the center of the grinding chamber, they encounter a sharp turn or elbow in the flow path. This abrupt change in direction creates a strong vortex flow, causing the particles to collide with each other and with the chamber walls.
⦁ Grinding and Pulverization: The high-speed collisions between the particles and the chamber walls, combined with the impact of the high-velocity jets, result in the pulverization of the material into fine particles.
⦁ Particle Classification: After passing through the elbow turn, the particles are subjected to centrifugal forces that separate them based on their size and density. Finer particles are carried upward by the air or gas stream and collected in a separate chamber or cyclone, while larger particles are recirculated back into the grinding zone for further pulverization.
Elbow pulverizers are commonly used in industries such as pharmaceuticals, chemicals, food processing, and minerals processing, where fine particle size reduction and precise particle classification are required. They offer advantages such as high grinding efficiency, narrow particle size distribution, and low contamination risk, making them suitable for processing a wide range of materials.


Turmeric Polisher Dust Proof

Turmeric Polisher Dust Proof is a specialized machine used in the spice processing industry to polish and enhance the appearance of turmeric rhizomes. Turmeric is a commonly used spice and medicinal herb known for its vibrant yellow color and earthy flavor. However, fresh turmeric rhizomes often have rough surfaces with soil and other impurities adhering to them, which can affect their appearance and quality.
The Has industries Turmeric polisher is designed to remove the outer layer of skin and impurities from the turmeric rhizomes, resulting in a smoother and more polished surface. This process not only improves the appearance of the turmeric but also helps to reduce microbial contamination and prolong shelf life.
Here’s how a typical turmeric polisher works:
⦁ Loading: Fresh turmeric rhizomes are loaded into the hopper or feeding mechanism of the polisher.
⦁ Abrasive Action: The turmeric rhizomes are conveyed through a series of abrasive rollers or brushes inside the polisher. These rollers or brushes gently rub against the surface of the turmeric, removing the outer layer of skin and impurities.
⦁ further clean and enhance the appearance of the turmeric.
⦁ Collection: The polished and cleaned turmeric rhizomes are discharged from the polisher and collected for packaging or subsequent processing steps, such as grinding or slicing.
Turmeric polishers are available in various designs and configurations to suit different production requirements and capacities. They may be integrated into larger spice processing lines or operated as standalone units, depending on the scale of production. Additionally, turmeric polishers may incorporate features such as adjustable roller speeds, water spray systems, and stainless steel construction to meet hygiene and quality standards in food processing environments.


Turmeric Pulverizer

A Turmeric Pulverizer, Cone Type also known as a turmeric grinder or turmeric pulverizing machine, is a specialized piece of equipment used to grind dried turmeric rhizomes into a fine powder. This powder is then used as a spice in cooking, as a coloring agent, or for its medicinal properties.
Here’s Has industries typical turmeric pulverizer works:
⦁ Material Loading: Dried turmeric rhizomes are loaded into the feed hopper of the pulverizer.
⦁ Grinding Chamber: The turmeric rhizomes enter the grinding chamber, where they come into contact with high-speed rotating blades or hammers. These blades or hammers pulverize the turmeric into fine particles.
⦁ Particle Size Reduction: As the turmeric rhizomes are subjected to the grinding action of the blades or hammers, they are reduced in size to achieve the desired particle size distribution. The size of the particles can be controlled by adjusting the speed of the blades, the clearance between the blades and the grinding chamber, and the feed rate of the material.
⦁ Air Classification (Optional): Some turmeric pulverizers may include an air classification system that separates the fine particles from the coarse ones. This helps to achieve a more uniform particle size distribution and to separate the desired fine powder from any larger particles.
⦁ Discharge: The pulverized turmeric powder exits the pulverizer through a discharge outlet, typically into a collection container or downstream processing equipment.
Turmeric pulverizers are commonly used in spice processing facilities, food processing plants, and pharmaceutical industries for grinding dried turmeric rhizomes into powder form. They offer advantages such as high grinding efficiency, uniform particle size distribution, and versatility in processing a wide range of materials.
Turmeric pulverizers come in various designs and configurations, including hammer mills, impact mills, and pin mills, each suitable for specific applications and particle size requirements. Additionally, they can be equipped with features such as interchangeable screens, dust collection systems, and automatic feeding mechanisms to enhance their performance and usability.


Ginger Garlic Paste Machine

A Ginger Garlic Paste Machine is a piece of equipment used in commercial kitchens or food processing facilities to efficiently grind and blend ginger and garlic into a smooth paste. This paste is commonly used as a flavoring agent in various culinary dishes, such as curries, sauces, marinades, and stir-fries.
Here’s Has Industries a typical ginger garlic paste machine works:
⦁ Preparation: Fresh ginger and garlic are peeled and cleaned to remove any dirt or debris. They may be chopped into smaller pieces to facilitate the grinding process.
⦁ Metal Quality : Stainless Steel 304 Food Grade Quality Metal
⦁ Loading: The prepared ginger and garlic pieces are loaded into the feed hopper of the paste machine.
⦁ Grinding: Inside the machine, the ginger and garlic pieces come into contact with rotating blades or grinding stones. These components crush and grind the ginger and garlic into a smooth paste. Some machines may use a combination of crushing and shearing actions to achieve the desired consistency.
⦁ Mixing and Blending: As the ginger and garlic are ground, they are mixed and blended together to form a homogeneous paste. This ensures even distribution of flavors and ingredients.
⦁ Discharge: The freshly prepared ginger garlic paste is discharged from the machine through a discharge outlet or nozzle. It may be collected directly into containers for immediate use or transferred to storage containers for later use.
Ginger garlic paste machines come in various sizes and capacities, ranging from small countertop units suitable for restaurant kitchens to larger industrial-scale machines used in food processing plants. They may be manually operated or fully automated, depending on the specific requirements of the operation.
These machines offer several advantages, including:
⦁ Efficiency: They can process large quantities of ginger and garlic quickly and efficiently, saving time and labor.
⦁ Consistency: They ensure consistent quality and texture of the ginger garlic paste, resulting in uniform flavor in dishes.
⦁ Hygiene: Many machines are designed with easy-to-clean surfaces and removable parts, making them hygienic and easy to maintain.
⦁ Versatility: Some machines can also be used to prepare other pastes or purees from ingredients such as onions, chilies, or herbs.
Overall, a ginger garlic paste machine is a valuable tool for commercial kitchens and food processing facilities looking to streamline the preparation of ginger garlic paste and enhance the efficiency of their culinary operations.


Chilly Cleaning Plant

A Chilly Cleaning Plant, also known as a chili cleaning plant, is a facility used in the food processing industry to clean and prepare chili peppers for further processing or packaging. Chilies, also spelled as chillies or peppers, are a widely used spice and ingredient in various cuisines around the world.
Here’s Has Industries a typical powder sieving machine works:
Receiving and Inspection: Raw chilies are delivered to the plant and inspected for quality, freshness, and cleanliness. Any damaged or spoiled chilies are removed from the batch.
Cleaning and Destemming: The chilies are subjected to a series of cleaning processes to remove dirt, debris, stems, and other impurities. This may involve techniques such as air blowing, washing with water or steam, or passing through vibrating screens or separators.
Drying: After cleaning, the chilies may be dried to reduce moisture content and prevent spoilage. Drying methods can include air drying, sun drying, or using specialized drying equipment such as conveyor dryers or fluidized bed dryers.
⦁ Sorting and Grading: Cleaned and dried chilies are sorted and graded based on factors such as size, color, and quality. This ensures uniformity and consistency in the final product.
⦁ Packing and Packaging: The processed chilies are packed into bags, boxes, or other containers for storage, distribution, or retail sale. Packaging may include labeling, sealing, and other quality control measures to maintain product integrity.
⦁ Quality Control and Assurance: Throughout the cleaning and processing stages, quality control measures are implemented to ensure that the chilies meet regulatory standards and customer specifications. This may include visual inspection, sensory evaluation, and laboratory testing for factors such as moisture content, microbial contamination, and spice levels.
Chilly cleaning plants vary in size and complexity depending on the scale of production and specific requirements of the operation. They may be designed for small-scale artisanal processing or large-scale industrial production. Additionally, modern chilly cleaning plants may incorporate advanced equipment and automation technologies to optimize efficiency, minimize waste, and ensure food safety and quality.


Dresser Sieving Powder Machine

A Dresser Sieving Powder Machine, also known as a powder sifter or powder screening machine, is a device used to separate particles of powdered materials based on their size. It is commonly used in various industries such as pharmaceuticals, food processing, chemicals, and cosmetics to ensure the quality and consistency of powdered products.
Here’s Has Industries a typical powder sieving machine works:
⦁ Material Loading: The powdered material to be sieved is loaded into the machine’s hopper or feeding mechanism.
⦁ Screening Surface: The powder sieving machine contains one or more layers of mesh screens or sieves with specific aperture sizes. These screens are typically made of stainless steel or other durable materials and are mounted within a frame.
⦁ Vibration or Agitation: The machine applies mechanical motion, typically in the form of vibration or agitation, to the sieves. This motion causes the powdered material to move across the surface of the screens.
⦁ Particle Separation: As the powdered material moves across the screen surface, particles smaller than the sieve openings pass through the mesh, while larger particles are retained on the screen. This separation process effectively classifies the particles based on their size.
⦁ Multiple Sieving Stages (Optional): Some powder sieving machines feature multiple screening stages with different mesh sizes. This allows for finer classification and separation of particles into different size fractions.
⦁ Collection and Discharge: The separated particles are collected and discharged from the machine through separate outlets or chutes. Depending on the application, the sieved powder may be collected directly for packaging or further processing.
Powder sieving machines come in various designs and configurations to suit different applications and production requirements. They may vary in size, capacity, number of screening layers, and types of motion (e.g., circular, gyratory, or linear).
These machines offer several advantages, including:
⦁ Efficient particle separation and classification.
⦁ Consistent and uniform product quality.
⦁ Increased productivity and throughput.
⦁ Reduction of oversize particles and impurities.
⦁ Ease of operation and maintenance.
Overall, powder sieving machines play a crucial role in ensuring the quality, purity, and consistency of powdered materials in various industrial processes.


Roaster Cum Mixer

A Roaster Cum Mixer is a versatile piece of equipment used in food processing and manufacturing facilities for roasting and mixing various ingredients simultaneously. It combines the functionalities of a roaster and a mixer into a single machine, allowing for efficient and streamlined processing of ingredients.
Here’s Has Industries a typical roaster cum mixer works:
⦁ Loading: The ingredients to be roasted and mixed are loaded into the machine’s chamber. These ingredients can vary widely depending on the specific application and recipe, but common examples include nuts, seeds, grains, spices, and snack food ingredients.
⦁ Roasting: The roasting component of the machine applies heat to the ingredients, typically through direct or indirect heat transfer mechanisms such as gas burners, electric heating elements, or hot air circulation. The ingredients are evenly roasted to the desired level of color, flavor, and texture. Roasting times and temperatures can be adjusted based on the requirements of the product being processed.
⦁ Mixing: Simultaneously with the roasting process, the mixer component of the machine agitates and blends the ingredients to ensure uniform distribution of heat and flavor. Mixing can be achieved using various mechanisms such as paddles, augers, or tumbling drums, depending on the design of the machine.
⦁ Cooling (Optional): Some roaster cum mixer machines may include a cooling stage where the roasted and mixed ingredients are cooled down rapidly to prevent overcooking and ensure product quality. This can be achieved through airflow, water spray, or other cooling methods.
⦁ Discharge: Once the roasting and mixing process is complete, the finished product is discharged from the machine’s chamber. It can then be transferred to packaging equipment for further processing or directly packaged for distribution.
Roaster cum mixer machines come in various sizes, configurations, and capacities to suit different production needs and applications. They are commonly used in industries such as snack food manufacturing, nut processing, spice blending, and coffee roasting, among others.
These machines offer several advantages, including:
⦁ Efficiency: They allow for the simultaneous roasting and mixing of ingredients, reducing processing time and labor requirements.
⦁ Versatility: They can accommodate a wide range of ingredients and recipes, making them suitable for diverse applications.
⦁ Consistency: They ensure consistent product quality and uniformity through precise control of roasting and mixing parameters.
⦁ Customization: They can be customized with features such as adjustable temperature and mixing settings to meet specific production requirements.
Overall, roaster cum mixer machines are valuable tools in food processing operations, enabling efficient and high-quality production of roasted and mixed food products.


Ginger Washer Machine

A Ginger Washer is a Machine used in the food processing industry to clean and prepare ginger roots for further processing or packaging. Ginger, a popular spice known for its pungent flavor and medicinal properties, is often harvested with soil and debris adhering to its surface. A ginger washer helps to remove these impurities, ensuring that the ginger roots are clean and ready for consumption or processing.
Here’s Has Industries a typical ginger washer works:
⦁ Loading: Freshly harvested ginger roots are loaded into the machine’s hopper or feeding mechanism. These roots may vary in size and shape, so the machine is designed to accommodate different sizes of ginger.
⦁ Washing: The ginger roots are conveyed through the washer, where they come into contact with water or a gentle cleaning solution. Various washing techniques may be employed, such as spraying, soaking, or agitation, to remove soil, dirt, and other impurities from the surface of the ginger.
⦁ Scrubbing and Brushing (Optional): Some ginger washers may include brushes or scrubbers that gently agitate the ginger roots to further loosen and remove stubborn dirt or debris. This helps to ensure thorough cleaning of the ginger roots.
⦁ Rinsing: After the initial washing and scrubbing process, the ginger roots may be rinsed with clean water to remove any remaining cleaning solution or residue.
⦁ Drying (Optional): Depending on the application and processing requirements, the washed ginger roots may be dried using air blowers or other drying mechanisms. This step helps to reduce moisture content and prevent spoilage during storage.
⦁ Discharge: The cleaned and possibly dried ginger roots are discharged from the washer and collected for further processing or packaging. They are now ready for use in cooking, manufacturing ginger products, or other applications.
Ginger washers come in various designs and configurations to suit different production needs and capacities. They may be manual, semi-automatic, or fully automated, depending on the scale of operation and level of mechanization desired. Additionally, modern ginger washers may incorporate features such as adjustable water flow, variable speed controls, and stainless steel construction for hygiene and durability.
Overall, a ginger washer plays a crucial role in the food processing chain by ensuring that ginger roots are clean, safe, and of high quality before they are used in various culinary or manufacturing applications.


Garlic Peeler Machine

A Garlic Peeler Machine is a device used in commercial kitchens or food processing facilities to automate the task of removing the peel from garlic cloves. Peeling garlic by hand can be time-consuming and labor-intensive, especially when dealing with large quantities of garlic. Garlic peeler machines streamline the process, making it faster, more efficient, and less labor-intensive.
Here’s Has Industries a typical garlic peeler machine works:
⦁ Loading: Whole garlic bulbs or cloves are loaded into the machine’s hopper or feeding mechanism. Some machines may require the cloves to be separated from the bulbs beforehand, while others can handle whole bulbs.
⦁ Friction or Pressure: The garlic cloves are conveyed through the peeler machine, where they come into contact with a surface that applies friction or pressure to the cloves. This friction or pressure causes the outer peel of the garlic cloves to loosen and separate from the cloves.
⦁ Peel Removal: As the garlic cloves move through the machine, the loosened peel is removed from the cloves. This can be achieved through various methods, such as airflow, rubbing against surfaces, or mechanical agitation.
⦁ Separation: Once the peel has been removed, the peeled garlic cloves are separated from the peel. This may be done using mechanisms such as screens, rollers, or air blowers, which allow the peeled cloves to pass through while retaining the peel.
⦁ Collection: The peeled garlic cloves are discharged from the machine and collected in a separate container or conveyor belt for further processing or packaging. The removed garlic peels are typically collected and discarded as waste.
Garlic peeler machines come in various designs and configurations to suit different production needs and capacities. They may be manual, semi-automatic, or fully automated, depending on the scale of operation and level of mechanization desired. Some machines may also incorporate features such as adjustable settings for peel removal and variable speed controls to optimize performance.
Overall, a garlic peeler machine helps food processing operations increase efficiency, reduce labor costs, and maintain consistency in garlic peeling. It is a valuable tool in commercial kitchens, food manufacturing facilities, and other settings where large quantities of garlic are processed regularly.


Garlic Bulb Breaker

Garlic Bulb Breaker is a Machine designed to separate individual cloves from a whole garlic bulb efficiently. It’s commonly used in commercial food processing operations where large volumes of garlic need to be prepared quickly.
Here’s Has Industries a typical garlic bulb breaker works:
⦁ Loading: Whole garlic bulbs are typically manually loaded into the machine’s hopper or feeding mechanism. Depending on the design, the bulbs may be loaded one at a time or in batches.
⦁ Breaking Mechanism: The garlic bulbs move through the machine, where they encounter a breaking mechanism. This mechanism applies pressure to the bulbs, causing them to crack open and release the individual cloves.
⦁ Separation: Once the garlic bulbs are cracked open, the cloves are separated from each other. This separation can be achieved through various methods, such as gravity separation, vibration, or mechanical sorting.
⦁ Discharge: The separated garlic cloves are discharged from the machine and collected for further processing or packaging. The remaining husks or waste material from the garlic bulbs may also be discharged separately.
Garlic bulb breakers come in different sizes and configurations to accommodate various production needs. Some machines are designed for small-scale operations, while others are capable of processing large quantities of garlic quickly and efficiently. Additionally, modern garlic bulb breakers may feature adjustable settings for different garlic sizes and varieties, as well as safety mechanisms to prevent damage to the cloves during processing.
Overall, a garlic bulb breaker streamlines the garlic preparation process, saving time and labor costs in food processing facilities where garlic is a staple ingredient.


Rotary Valve is a type of Mechanical Device

A Rotary Valve is a type of Mechanical Device used in various industries for controlling the flow of bulk materials or fluids between different sections of a processing system. It consists of a cylindrical or tubular housing with an internal rotating rotor or vane assembly that regulates the flow of material or fluid through the valve.
Here’s Has Industries a rotary valve typically works:
⦁ Inlet and Outlet Ports: The rotary valve is installed within a pipeline or duct system, typically between two sections where material or fluid flow needs to be controlled. The valve has inlet and outlet ports that allow the material or fluid to enter and exit the valve.
⦁ Rotor or Vane Assembly: Inside the housing of the rotary valve, there is a rotor or vane assembly mounted on a shaft. The rotor contains vanes or blades that extend radially from the shaft and form pockets or chambers between them.
⦁ Rotation: The rotor is connected to a drive mechanism, such as an electric motor or pneumatic actuator, which rotates the rotor within the housing. As the rotor turns, the vanes sweep through the inlet and outlet ports, alternately opening and closing them.
⦁ Material or Fluid Flow Control: As the rotor rotates, the pockets or chambers formed by the vanes create a seal between the inlet and outlet ports. This allows the valve to control the flow of material or fluid by regulating the timing and duration of the openings between the ports.
⦁ Discharge: The material or fluid flows through the valve from the inlet port to the outlet port as the rotor rotates. The rotary valve can be configured to discharge the material or fluid continuously or in batches, depending on the specific requirements of the application.
Rotary valves are commonly used in a wide range of industries and applications, including:
⦁ Material Handling: They are used in pneumatic conveying systems to transfer bulk materials such as powders, granules, pellets, and grains between different processing equipment or storage vessels.
⦁ Bulk Solids Processing: They are employed in processes such as mixing, blending, feeding, and metering of bulk solids in industries such as food processing, pharmaceuticals, chemicals, plastics, and mining.
⦁ Dust Collection: They are utilized in dust collection systems to control the flow of air and dust between different sections of the system, such as between dust collectors and filtration units.
⦁ Industrial Process Control: They are integrated into various industrial processes to regulate the flow of fluids, gases, or materials in manufacturing operations.
Overall, rotary valves are versatile and reliable devices that play a crucial role in the efficient and controlled movement of materials and fluids in industrial processes.


Neem Seed Pulverizer

A Neem Seed Pulverizer is a Machine used to grind neem seeds into a fine powder. Neem seeds, derived from the neem tree (Azadirachta indica), contain various compounds with insecticidal, fungicidal, and medicinal properties, making them valuable in agricultural, pharmaceutical, and cosmetic industries.
Here’s Has Industries a typical neem seed pulverizer works:
⦁ Loading: Neem seeds are loaded into the machine’s hopper or feeding mechanism. The seeds may be cleaned and dried before loading to ensure optimal grinding efficiency.
⦁ Grinding Chamber: The neem seeds enter the grinding chamber of the pulverizer, where they come into contact with rotating blades or hammers. These blades or hammers pulverize the neem seeds into a fine powder.
⦁ Particle Size Reduction: As the neem seeds are subjected to the grinding action of the blades or hammers, they are reduced in size to achieve the desired particle size distribution. The size of the particles can be controlled by adjusting the speed of the blades, the clearance between the blades and the grinding chamber, and the feed rate of the material.
⦁ Air Classification (Optional): Some neem seed pulverizers may include an air classification system that separates the fine powder from the coarse particles. This helps to achieve a more uniform particle size distribution and to separate the desired fine powder from any larger particles.
⦁ Discharge: The pulverized neem seed powder exits the pulverizer through a discharge outlet, typically into a collection container or downstream processing equipment. It can then be collected for packaging or further processing.
Neem seed pulverizers come in various designs and configurations to suit different production needs and capacities. They may vary in size, capacity, and features such as dust collection systems and material handling options.
Overall, a neem seed pulverizer is a valuable tool in processing neem seeds efficiently, allowing for the production of neem seed powder for various applications in agriculture, pharmaceuticals, and cosmetics.