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Who We Are

We design, integrate, and maintain robotic welding & automation cells—from layout and fixtures to safety, commissioning, and lifecycle service.

Vision

To be a driving force in enabling progressive manufacturers to compete with global benchmarks through our automation solutions, robotic technologies and engineering services.

Mission

To support tertiary and growing manufacturers with affordable robotic and automation solutions, backed by dependable service and long-term partnership.

Our Partners

Authorized Dealer Ecosystem

Our Story

About Kavin Inc

Founded in 2020 at Coimbatore, Kavin Inc was established with a clear vision — to transform Indian manufacturing through advanced welding automation and robotics to compete best in global market

Our Journey

We began our journey by designing and manufacturing welding automation systems and Special Purpose Machines (SPMs). Within just one year, driven by customer demand and engineering capability, Kavin Inc expanded into robotic welding solutions, setting new benchmarks in productivity, quality, and reliability.

Our strong focus on quality, performance, and customer success led to rapid growth and industry recognition. Kavin Inc was honoured by ABB as a “Global Value Provider”, acknowledging our ability to deliver world-class robotic solutions that meet global standards.

Today, Kavin Inc is the No.1 robotic welding systems provider in South India, trusted by leading manufacturers across multiple sectors:

  • Automotive & Auto Components
  • Engineering & General Fabrication
  • Defence & Heavy Fabrication
  • Construction & Earth-Moving Equipment
  • Electrical Panels & Equipment Manufacturing

    • Our Promise:

    We are known not just for supplying systems, but for delivering complete, reliable welding solutions — from process design and integration to commissioning and lifecycle support.
    Driven By Innovation | Design With Purpose | Deliver With Value
    Primary Solution

    ABB IRB 1520ID Welding Robot – Powered by Kavin Inc

    ABB IRB 1520ID Side View
    ABB IRB 1520ID Top View
    ABB Robot Integration

    Key Features

    • 1
      Dedicated Arc Welding Robot:

      Designed for high-precision arc welding tasks with optimized performance and energy routing.

    • 2
      Integrated Dressing (ID):

      Hose package and welding media (power, shielding gas, wire, air) routed inside arm for enhanced durability and reduced maintenance.

    • 3
      Reach:

      1.5 meters work envelope.

    • 4
      Flexible Installation:

      Can be floor-mounted or inverted for versatile cell layouts.

    • 5
      Superior Accuracy & Motion:

      TrueMove™ and QuickMove™ motion control technologies for accurate path and rapid movement.

    • 6
      Easy Programming:

      Intuitive ABB FlexPendant interface with touchscreen and joystick for faster setup.

    • 7
      Offline Support:

      Compatible with RobotStudio™ for simulation and offline programming.

    High Capacity Precision

    ABB IRB 2600ID – High Precision Productivity

    ABB IRB 2600 System
    Robotic Arm 01
    Robotic Arm 10
    ABB Robot Workstation
    Industrial Installation

    Core Features & Capabilities

    • Compact, high-payload design: Available variants include 12 kg & 20 kg payloads with reaches ranging from ~1.65 m to 1.85 m.
    • Best-in-class accuracy: Achieves ~±0.04 mm repeatability using ABB’s TrueMove™ motion control.
    • Fast cycle times: Lower arm weight and QuickMove™ control enable cycle time reductions up to ~25%.
    • Flexible mounting: Supports floor, wall, shelf, tilted or inverted installations.
    • Durability & protection: Standard IP67 protection.

    Value Analysis

    Benefit Area Description
    Productivity Boost Up to 25% faster cycles, extremely high accuracy
    Flexibility & Layout Compact footprint, multi-mount ability
    Uptime & Support Local rapid-response teams from Kavin
    Fast ROI Typically achieved within 12–18 months

    Specifications (IRB 2600ID)

    Shorter Cycle Times

    Integrated dressing ensures maximum acceleration without restriction.

    Reduced Cost of Ownership

    Torch exchange costs reduced by up to 75%.

    Faster Programming

    Total programming time reduced by up to 90% via RobotStudio.

    Main Applications

    Machine tending, material handling, arc welding.

    Services

    Robotic Welding Solutions & Support

    Choose a service to view details, process steps, deliverables, and what info we need for quotation.

    Robot Services

    Installation, shifting, troubleshooting, health-checks, spares planning, and on-site support.

    What we do

    • Robot inspection, backups & safety checks
    • Torch/cable dressing, calibration & tuning
    • Cycle time and repeatability improvements

    What we need from you

    • Robot make/model, controller type
    • Issue description + photos/videos
    • Plant location + downtime window

    Weld Proving

    Prove weld quality on your component with stable parameters, jigs, and acceptance support.

    Deliverables

    • WPS parameter window & trial report
    • Sample welding + defect analysis guidance
    • Recommendations for fixture & torch angles

    Inputs required

    • Material grade, thickness, joint type
    • Acceptance criteria (NDT/visual)
    • Production takt target

    Robot AMC

    Annual Maintenance Contract for uptime, preventive checks, spares, and priority support.

    Coverage

    • Quarterly/Monthly preventive visits
    • Breakdown response (as per SLA)
    • Backup/version control & documentation

    Good for

    • Multi-robot plants
    • High utilization welding lines
    • Repeated minor stoppages

    Robot Programming

    New programs, optimization, touch-ups, sequence logic, IO handshakes, and cycle reduction.

    Includes

    • Weld path planning & seam strategy
    • Interlock logic, error handling
    • Cycle-time optimization & stability

    Needed

    • Part drawing / CAD / fixture info
    • Sequence requirement
    • Existing backup (if any)

    Robot Welding Demo

    Live demo on sample component to evaluate feasibility, cycle, and weld appearance.

    Outcome

    • Feasibility confirmation
    • Rough cycle estimate
    • Initial parameter guidance

    Bring

    • Sample parts (min qty)
    • Material details
    • Acceptance criteria

    Robot Welding Consultancy Service

    Process troubleshooting, defect reduction, line balancing, and root-cause improvements.

    We help with

    • Porosity / spatter / undercut / burn-through
    • Fixture influence & distortion issues
    • Parameter window stabilization

    Data required

    • Defect photos + frequency
    • Current parameters & torch setup
    • Weld joint & material info

    Welding Robot Rental

    Short-term robot rental for urgent production, trials, or temporary capacity ramp-up.

    Options

    • Robot + controller
    • With operator/programmer support
    • With fixture and torch package (if needed)

    Needed

    • Duration, shift hours
    • Component details & station layout
    • Power/safety readiness

    Robot Refurbishing

    Restore robot health: inspection, service kits, calibration, and reliability improvements.

    Includes

    • Mechanical check, backlash assessment
    • Cable harness / dress pack cleanup
    • Backup, mastering and validation

    Best for

    • Old robots with frequent stops
    • Cells with inconsistent accuracy
    • Planned shutdown maintenance

    Special Material Cladding Work

    Protective cladding for wear/corrosion resistance using controlled deposition techniques.

    Applications

    • Wear surfaces & rebuild
    • Corrosion resistance layers
    • Tooling and industrial components

    Needed

    • Base material & overlay requirement
    • Area dimensions / thickness
    • Service environment details

    Additive Welding

    Layer-by-layer deposition for build-up, repair, and near-net shaping.

    Use cases

    • Component repair and restoration
    • Build-up for machining allowance
    • Custom geometry development

    Needed

    • CAD/dimensions
    • Material & wire/filler details
    • Post-processing requirements

    Dual Metal Additive Welding

    Dual-material deposition for functional surfaces + structural base combinations.

    Benefits

    • Hard surface + tough core
    • Cost-effective material usage
    • Optimized performance zones

    Needed

    • Target properties / application
    • Material pairing preference
    • Geometry & tolerance needs
    Service

    Robot Programming

    New programs, optimization, touch-ups, sequence logic, IO handshakes, and cycle time improvements for stable production.

    Cycle time reduction Stable weld paths Error handling ABB / FANUC ready
    Fast commissioning Structured programming flow
    Higher repeatability Touch-ups + validation
    🛡
    Safer logic Interlocks + recovery
    Share robot model + controller + current issue for faster turnaround.
    Overview

    What this service includes

    New Program Build

    Paths, sequences, approach/retract, speed profiles, and stable arc start/stop strategy.

    Optimization

    Reduce cycle time while maintaining weld quality and safe robot motion.

    IO & Interlocks

    PLC handshake, safety interlocks, alarms, retries, and recovery logic.

    Deliverables

    What you will receive

    Outputs

    • Robot programs & structured job files
    • Parameter notes + recommended window
    • Backup + version notes (before/after)
    • Basic operator instructions

    Inputs needed

    • Robot make/model + controller
    • Part drawing / fixture details
    • Sequence requirement & takt target
    • Existing backup (if available)
    Process

    How we execute (interactive steps)

    Assessment

    Review current cycle, issues, fixture, joint type, and controller capabilities. Collect backups and baseline metrics.

    Programming

    Create/optimize paths, timings, IO handshakes, recovery routines, and safe motion zones.

    Validation

    Run trials, refine parameters, confirm repeatability, verify safety interlocks, and document final settings.

    Handover

    Provide backups, change logs, operator notes, and basic maintenance tips. Optional training can be included.

    FAQ

    Common questions

    Yes. Share robot model and controller details. We will propose a safe programming flow based on your cell hardware and process.
    Yes—by optimizing approach/retract, travel paths, arc timing, and eliminating unnecessary waits while maintaining parameters.
    Robot make/model + controller, part/joint details, current sequence, and (if possible) a backup or videos of the issue.
    Get Quote

    Request Robot Programming Support

    Service

    Weld Proving

    Prove weld quality on your component with controlled trials, parameter window finalization, and acceptance-ready documentation for stable production.

    Trial welds + validation WPS window support Defect reduction ABB / FANUC cell proving
    🧪
    Prove feasibility Before investing in full automation
    📈
    Stable window Parameters that survive variation
    🔍
    Quality readiness Visual / NDT acceptance support
    Share material grade, thickness, joint type, and acceptance criteria (visual/NDT) to start proving quickly.
    Overview

    What weld proving covers

    Feasibility & Repeatability

    Confirm the weld is achievable consistently (manual/robot), with repeatable torch access and positioning.

    Parameter Window Finalization

    Identify a stable window for current, voltage, speed, wire feed, and torch angle to handle variation.

    Quality & Acceptance

    Align output to your acceptance criteria—visual checks, NDT requirements, and production-ready proof.

    Deliverables

    What you will receive

    Outputs

    • Trial report with selected weld parameters (window)
    • Weld sequence / torch angle recommendations
    • Defect observation notes + corrective actions
    • Sample weld results (as per agreed quantity)
    • Basic acceptance checklist (visual/NDT-ready)

    Inputs needed

    • Material grade + thickness range
    • Joint type (lap/butt/fillet), gap tolerance
    • Component drawing / photo + accessibility
    • Acceptance criteria (visual, PT, MT, UT etc.)
    • Production target (takt time / weld length)
    Process

    How we execute (interactive steps)

    Input Review

    We review material, thickness, joint design, access, and quality criteria. We define trial plan, samples, and acceptance method.

    Trial Runs

    Execute test welds with controlled changes to parameters. We observe bead profile, penetration, spatter, and heat input.

    Validation

    Confirm repeatability across sample set. If needed, perform basic checks (visual, mock NDT prep) and refine settings.

    Handover

    Provide the parameter window, process notes, recommendations on fixturing, and a checklist for production acceptance.

    FAQ

    Common questions

    No. Weld proving can be done for manual or robotic welding. The goal is to confirm feasibility and define a stable parameter window.
    Yes. Share your acceptance standard and test method. We will align the trial plan to your inspection expectations.
    We diagnose root causes (gas, wire, torch angle, travel speed, heat input, joint gap) and iterate until the window becomes stable.
    Depending on complexity and sample availability, a basic proving can be completed quickly. For high-critical joints, we plan more iterations.
    Get Quote

    Request Weld Proving

    Service

    Robot AMC (Annual Maintenance Contract)

    Preventive maintenance + priority breakdown support to keep your welding robots stable, accurate, and production-ready throughout the year.

    Preventive visits Priority support Backups + health checks ABB / FANUC support
    🧰
    Less downtime Planned checks prevent surprises
    🕒
    Faster response Priority breakdown handling
    📋
    Better documentation Logs, backups, and reports
    Share robot count, make/model, controller type, shift hours, and plant location to get an accurate AMC quote.
    Overview

    Why Robot AMC matters

    Preventive Maintenance

    Regular inspections, cleaning, calibration checks, and early fault detection to avoid unexpected breakdowns.

    Production Stability

    Consistency in weld quality and cycle time by keeping torch dress pack, cables, and critical parameters in control.

    Priority Support

    Faster troubleshooting and planned shutdown support with a structured service log and spares guidance.

    AMC Plans

    Choose a coverage level

    Basic AMC

    Planned preventive visits + health report + backup check.

    • Quarterly preventive visit
    • Backup verification & housekeeping
    • Basic checklist & report

    Standard AMC

    More frequent checks + priority response + performance monitoring.

    • Monthly/bi-monthly preventive visit
    • Priority breakdown response (SLA based)
    • Cycle/quality drift observations

    Premium AMC

    Maximum uptime focus + shutdown support + spares planning.

    • Monthly preventive + audit checks
    • Planned shutdown support
    • Spares recommendation + training support

    Included (common)

    • Robot health checklist & reports
    • Backup & version hygiene (before/after)
    • Torch / cable dressing inspection guidance
    • Basic alarm diagnostics & recovery checks

    Typically excluded (unless agreed)

    • Spare parts cost (can be planned separately)
    • Major mechanical replacement work
    • Consumables (tips, nozzles, liner etc.)
    • New fixture/build changes (project basis)
    Coverage

    How AMC runs (interactive steps)

    Onboarding

    We collect robot list, controller versions, shift timings, past issues, and baseline checks. We define the AMC schedule and SLA.

    Preventive Visits

    Periodic inspections: backups, alarm history review, cable/torch checks, calibration observation, safety interlock verification, and housekeeping.

    Breakdown Support

    Priority response as per AMC plan. Troubleshooting includes root-cause analysis, quick recovery, and preventive recommendations.

    Reporting & Improvement

    Service logs, visit reports, spares recommendations, and improvement actions to reduce repeat failures across the year.

    FAQ

    Common questions

    Usually per robot/cell based on count, controller type, shift hours, distance, and required visit frequency. For large plants, we can quote plant-level coverage.
    Typically AMC covers service and support. Spares/consumables are excluded unless you choose a plan that includes spares budgeting or pre-approved spare list.
    Yes. Share the robot list (make/model/controller) and we will propose a combined AMC plan with clear visit schedule and SLA.
    Backup health, alarm trend check, axis movement observation, cable dress pack check, torch and wire feed checks, safety IO/interlocks, and basic performance stability review.
    Get Quote

    Request Robot AMC Quote

    Service

    Robot Welding Demo

    A live robotic welding demo on your sample component to confirm feasibility, estimate cycle time, and showcase weld appearance before full-scale automation.

    Feasibility check Cycle-time estimate Weld look & stability ABB / FANUC demo ready
    🎯
    Decision clarity Know what’s possible quickly
    Rough cycle time Planning & ROI support
    Weld appearance Bead profile + spatter control
    Bring sample parts + material details + acceptance criteria to get the best demo outcome.
    Overview

    What you get from the demo

    Feasibility Confirmation

    We check torch access, joint geometry, distortion risk, and whether robotic welding is suitable for your part.

    Initial Parameter Guidance

    We propose starting parameters (current/voltage/speed) and torch angles for stable bead profile and penetration.

    Early ROI Visibility

    Get a rough cycle-time estimate and understand what fixture/safety needs may be required for production.

    Deliverables

    What you will receive

    Outputs

    • Demo trial weld (as per agreed sample count)
    • Feasibility notes + observations
    • Rough cycle time estimate (indicative)
    • Parameter starting point + torch angle guidance
    • Fixture/safety recommendations (high level)

    What we need from you

    • Sample part(s) + drawing/photo
    • Material grade, thickness, joint type
    • Quality criteria (visual / NDT requirement)
    • Target output per shift / takt expectations
    • Any known welding defects (if existing)
    Process

    How the demo is executed (interactive steps)

    Preparation

    Review part, joint, and acceptance criteria. Set torch setup, wire, gas, and fixture holding to ensure stability for trials.

    Trial Weld

    Execute initial robotic weld path and record observations: bead profile, penetration feel, spatter, and arc stability.

    Tuning

    Adjust speed, angles, and basic parameters to improve bead shape and stability. Repeat trial for consistency.

    Review & Recommendation

    Share results, feasibility confirmation, rough cycle time estimate, and required changes for production-level setup.

    FAQ

    Common questions

    Based on requirement. Many demos are done with sample parts at a demo setup; plant demos are possible if access and safety readiness are ensured.
    Demo provides initial parameter direction and feasibility. Full WPS window and acceptance-ready documentation comes under Weld Proving service.
    Yes. Share your preferred robot brand/model and welding process requirements. We will plan accordingly.
    We can propose basic holding for demo. For production, we’ll recommend fixture requirements based on accuracy, access, and repeatability.
    Book Demo

    Request a Robot Welding Demo

    Service

    Robot Welding Consultancy

    Expert analysis and guidance to fix weld defects, improve stability, optimize cycle time, and design reliable robotic welding processes for long-term production success.

    Defect root-cause Process optimization Fixture & joint review ABB / FANUC expertise
    🔬
    Root-cause clarity Not just symptom fixes
    ⚙️
    Process stability Repeatable & scalable
    📉
    Downtime reduction Fewer reworks & stoppages
    Share defect photos, current parameters, joint details, and production issues for faster diagnosis.
    Overview

    What our consultancy covers

    Defect Diagnosis

    Root-cause analysis for porosity, spatter, lack of fusion, undercut, burn-through, and inconsistent bead profiles.

    Process Optimization

    Parameter tuning, torch angle correction, travel strategy, heat input balance, and cycle-time improvement.

    Cell & Fixture Review

    Evaluate fixture rigidity, part positioning, access, distortion risks, and robot reach for long-term stability.

    Outcomes

    What you will gain

    Consultancy Outputs

    • Defect root-cause report with evidence
    • Recommended parameter window & torch setup
    • Process flow & weld sequence suggestions
    • Fixture/joint design improvement notes
    • Action plan for long-term stability

    Information Required

    • Material grade, thickness, joint details
    • Current weld parameters & robot programs
    • Defect images/videos + frequency data
    • Production rate & rejection trends
    Process

    How consultancy engagement works

    Study Current State

    Understand application, production goals, defect history, fixture condition, and robot programming approach.

    Analyze Root Causes

    Correlate defects with parameters, joint gaps, torch angles, heat input, and cell conditions.

    Optimize & Validate

    Apply controlled changes, validate improvements, and confirm repeatability.

    Guide & Document

    Provide clear recommendations, do/don’t guidelines, and roadmap for stable production.

    FAQ

    Common questions

    Yes. Consultancy focuses on diagnosing and improving existing problems, while weld proving is for validating feasibility and parameters before production.
    Yes. Initial analysis can be remote; on-site visits are recommended for fixture, access, and distortion-related issues.
    Based on engagement scope. We can guide changes or implement them as part of a combined consultancy + programming service.
    Consult

    Request Welding Consultancy

    Specialized Service

    Special Material Cladding Work

    Robotic and semi-automatic cladding solutions for wear resistance, corrosion protection, and surface property enhancement using specialized alloys and hardfacing materials.

    Wear resistance Corrosion protection Hardfacing & overlays Robot-assisted cladding
    🧪
    Metallurgy-focused Material-specific approach
    🤖
    Robotic precision Uniform bead & dilution control
    🛡️
    Extended component life Reduced replacement cost
    Share base material, operating environment, and failure mode (wear/corrosion/erosion) for accurate solution design.
    Overview

    Why special material cladding is used

    Wear & Abrasion Protection

    Hardfacing layers to protect components exposed to friction, impact, and abrasive environments.

    Corrosion Resistance

    Overlaying corrosion-resistant alloys for chemical, marine, or high-temperature applications.

    Life Extension

    Restore worn components and extend service life without full replacement.

    Materials

    Special materials we work with

    Common Cladding Materials

    • Stellite & cobalt-based alloys
    • Inconel & nickel-based alloys
    • Hardfacing alloys (Cr-carbide, Fe-based)
    • Stainless steel overlays
    • Custom alloy wires (application-based)

    Applications

    • Valves & seats
    • Shafts, rollers & wear plates
    • Mining & cement components
    • Power plant & process industry parts
    Process

    How cladding work is executed

    Application Study

    Understand operating conditions, failure mode, base material, and expected life improvement.

    Material & Parameter Selection

    Select suitable alloy, cladding thickness, heat input, and dilution limits.

    Cladding Execution

    Perform controlled robotic or manual cladding with uniform bead geometry.

    Inspection & Validation

    Visual checks, thickness measurement, hardness testing, and optional NDT.

    FAQ

    Common questions

    Robotic cladding offers better repeatability, controlled dilution, and consistent quality, especially for critical components.
    Yes. Components are evaluated and prepared before cladding to ensure proper bonding and performance.
    Yes, basic process documentation is included. Detailed metallurgical testing can be arranged if required.
    Get Quote

    Request Special Material Cladding

    Advanced Manufacturing

    Additive Welding

    Layer-by-layer metal deposition using controlled welding processes to build, repair, or enhance components—ideal for part restoration, near-net shaping, and functional metal add-ons.

    Layer-by-layer build Repair & restoration Near-net shaping Robot-assisted welding
    🏗️
    Build-up accuracy Controlled bead geometry
    🧠
    Process control Heat & dilution managed
    ♻️
    Cost effective Repair instead of replace
    Share component drawing, build-up height, material, and final machining requirement for feasibility evaluation.
    Overview

    What is additive welding?

    Metal Build-Up

    Add material precisely where needed to rebuild worn zones or create new features.

    Repair-Oriented Manufacturing

    Ideal for shafts, dies, molds, and heavy components where replacement is expensive.

    Hybrid Manufacturing

    Combine additive welding with machining for near-net-shape components.

    Applications

    Where additive welding is used

    Typical Components

    • Shafts, rollers & journals
    • Dies, molds & tooling repairs
    • Flanges & sealing surfaces
    • Heavy machine components

    Industries

    • Automotive & heavy engineering
    • Power & process industries
    • Mining, cement & steel plants
    • Oil & gas maintenance
    Process

    Additive welding workflow

    Feasibility Study

    Review component geometry, base material, target build height, and service conditions.

    Planning & Setup

    Define deposition strategy, bead overlap, heat control, and robot path planning.

    Layer Deposition

    Execute controlled welding passes with consistent geometry and minimal dilution.

    Finishing & Validation

    Post-weld inspection, machining allowance check, and dimensional validation.

    FAQ

    Common questions

    No. Additive welding uses welding processes for metal deposition and is best for large, repair-focused, or heavy components.
    Carbon steel, stainless steel, nickel alloys, hardfacing alloys, and application-specific wires.
    Usually yes, for dimensional accuracy and surface finish, depending on tolerance requirements.
    Get Quote

    Request Additive Welding Service

    Advanced Manufacturing

    Dual Metal Additive Welding

    Advanced additive welding technique enabling the deposition of two different metals in a single component—engineered for functional gradients, wear–corrosion combinations, and performance-driven material transitions.

    Multi-material build Functionally graded zones Repair + performance upgrade Robotic precision control
    🧬
    Material intelligence Right metal at right zone
    🔥
    Controlled transition Minimized dilution & cracking
    🏭
    Industrial scale Large & heavy components
    Share base material, second alloy, service conditions, and zone-wise requirements for feasibility validation.
    Overview

    What is dual metal additive welding?

    Two Metals, One Component

    Deposit dissimilar metals in defined zones to combine strength, toughness, wear, and corrosion resistance.

    Functional Gradients

    Gradual or stepped transition layers reduce thermal stress and metallurgical incompatibility.

    High-Value Repairs

    Upgrade worn components by adding superior surface material over a structural base.

    Applications

    Where dual metal deposition excels

    Typical Metal Combinations

    • Carbon steel + Stainless steel
    • Steel + Hardfacing alloy
    • Steel + Nickel-based alloy
    • Stainless steel + Cobalt alloy

    Use Cases

    • Wear-resistant surfaces on load-bearing parts
    • Corrosion-resistant overlays on structural components
    • Hybrid tooling and dies
    • High-temperature & erosive environments
    Process

    Dual metal additive welding workflow

    Feasibility & Metallurgy Study

    Evaluate metal compatibility, thermal behavior, dilution limits, and cracking risk.

    Zone Design & Path Planning

    Define base material zones, transition layers, and top-layer geometry.

    Multi-Material Deposition

    Sequential or blended deposition using controlled parameters and robotic path accuracy.

    Inspection & Finishing

    Visual, dimensional, hardness checks with optional machining and NDT.

    FAQ

    Common questions

    Yes, if not engineered correctly. We mitigate this through material pairing, transition layers, and heat control.
    In many repair and low-volume cases, yes—additive welding offers flexibility without tooling costs.
    Usually yes, especially for precision fits and sealing surfaces.
    Get Quote

    Request Dual Metal Additive Welding

    Service

    Welding Robot Rental

    Short-term or project-based rental of welding robots to meet urgent production demands, trials, pilot runs, or temporary capacity expansion—without long-term capital investment.

    Short-term rental Urgent capacity boost With/without programmer ABB / FANUC options
    Immediate capacity No long procurement cycles
    💼
    Flexible duration Daily / weekly / monthly
    🧑‍🏭
    Expert support Optional programmer/operator
    Share rental duration, part details, and site readiness (power/safety) to get quick availability confirmation.
    Overview

    When rental makes sense

    Urgent Production Demand

    Handle sudden order spikes, seasonal demand, or backlog clearance without permanent investment.

    Trials & Pilot Runs

    Validate automation feasibility, cycle time, and weld quality before buying a robot.

    Temporary Replacement

    Keep production running when an existing robot is under repair or upgrade.

    Rental Options

    What we can provide

    Robot Only

    Welding robot + controller supplied for your existing cell.

    • Robot & controller
    • Basic startup support
    • Best for prepared cells

    Robot + Programmer

    Rental with on-site programming and commissioning support.

    • Robot + controller
    • Program creation / tuning
    • Quick production start

    Complete Rental Package

    Robot, programmer, and basic welding setup for fast deployment.

    • Robot + controller
    • Programming & demo weld
    • Short-term production support

    Typically Included

    • Robot & controller (as agreed)
    • Basic commissioning support
    • Initial backup & handover

    Typically Excluded

    • Consumables (wire, gas, tips)
    • Custom fixtures or safety fencing
    • Major mechanical modifications
    Process

    How rental engagement works

    Requirement Collection

    We understand duration, part details, production target, preferred robot brand, and site readiness.

    Feasibility & Planning

    Confirm availability, cell compatibility, safety needs, and scope of programming/support.

    Deployment

    Deliver robot, commission, perform initial welds, and stabilize the process for production use.

    Rental Support

    Provide agreed support during rental period and assist in smooth de-installation after completion.

    FAQ

    Common questions

    Rental duration depends on availability and scope. Short-term rentals are possible for demos and urgent needs.
    In some cases, yes. We can discuss options based on robot condition, usage period, and availability.
    Basic guidance is provided. Physical fencing, fixtures, and safety hardware are typically arranged at the customer site.
    Responsibilities are clearly defined in the rental agreement, including handling, misuse, and normal wear.
    Check Availability

    Request Welding Robot Rental

    Service

    Robot Refurbishing

    Restore accuracy, reliability, and uptime of aging or heavily used robots through structured inspection, service kits, calibration, and validation—extending asset life at a fraction of replacement cost.

    Accuracy recovery Downtime reduction Life extension ABB / FANUC expertise
    🧩
    Mechanical health Backlash & wear checks
    🎯
    Accuracy restored Mastering & calibration
    🧾
    Documented results Before/after validation
    Share robot make/model, age, cycle hours, and key issues (repeatability drift, alarms, vibration) for a quick assessment.
    Overview

    When refurbishing is the right choice

    Accuracy Drift

    Inconsistent TCP, missed seams, or growing touch-ups caused by wear or mastering loss.

    Frequent Alarms

    Axis, cable, or dress pack related alarms disrupting production.

    End-of-Life Extension

    Extend usable life of robots nearing mid/late lifecycle at lower cost than replacement.

    Scope

    What refurbishing includes

    Included Activities

    • Comprehensive health inspection & reports
    • Backlash/play assessment (axis-wise)
    • Dress pack & cabling inspection/cleanup
    • Mastering, TCP & calibration checks
    • Controller backup, version hygiene
    • Functional test & validation runs

    Optional / As Needed

    • Service kits & consumable replacement
    • Axis motor/encoder evaluation
    • Program touch-up & revalidation
    • Post-refurb training for operators
    Process

    How refurbishing is executed

    Assessment

    Collect robot history, alarms, backups; perform axis movement observation and baseline accuracy checks.

    Service & Rectification

    Address identified issues—dress pack, cables, lubrication checks, tightening, and service kits as required.

    Calibration & Mastering

    Restore mastering, TCP, and frames; align robot geometry for accurate path execution.

    Validation & Handover

    Run validation programs, compare before/after results, document improvements, and hand over backups.

    FAQ

    Common questions

    Many mid-to-late lifecycle robots are good candidates. Feasibility depends on wear level, spares availability, and application criticality.
    Significant improvements are typical. Final accuracy depends on mechanical wear and calibration limits; results are validated and documented.
    Yes, usually planned during a shutdown window. Duration varies by scope and robot condition.
    Get Quote

    Request Robot Refurbishing

    Welding Positioners

    Start your
    Automation journey.

    sales@kavininc.com

    +91 9790346891

    Product

    Fronius Welding Machines

    Kavin Inc offers a complete range of Fronius welding machines and solutions, trusted globally for arc stability, energy efficiency, and superior weld quality. We support manufacturers with manual and robotic welding systems, along with genuine Fronius spares and service support.

    Whether for manual fabrication or fully automated robotic welding, Fronius welding equipment delivers consistent performance across industries such as automotive, engineering fabrication, defence, construction equipment, and electrical manufacturing.

    Manual + Robotic Arc stability Energy efficient Genuine spares
    Fronius Welding Machine
    Manual Welding
    Fronius Robotic Welding
    Robotic Platforms
    Fronius Spares & Service
    Spares & Service
    Portfolio

    Product Range Offered by Kavin Inc

    1. Fronius Manual MIG / MAG Welding Machines

    Designed for high productivity and ease of use in fabrication environments.

    Popular Models & Series
    Series Models
    TransSteel Series 2200 / 2700 / 3000 / 4000
    TPS/i Series TPS 270i / 320i / 400i / 500i
    TPS/i Pulse Advanced pulse & double pulse welding
    Applications
    Industries / Uses
    Structural fabrication
    Automotive parts
    General engineering
    Job shops

    2. Fronius Manual TIG Welding Machines

    High-precision TIG welding with excellent arc control and finish.

    Popular Models & Series
    Series Models
    MagicWave Series 190 / 230 / 300
    TransTig Series 170 / 210 / 300 / 400
    Applications
    Industries / Uses
    Stainless steel
    Aluminium
    Thin sheet welding
    High-quality TIG work

    3. Fronius Robotic MIG / MAG Welding Systems

    Industry-leading robotic welding power sources optimized for automation.

    Robotic Models & Platforms
    Robotic Series
    TPS/i Robotic
    TPS/i Robotic Pulse
    TPS/i Robotic CMT
    TPS/i Robotic CMT Advanced
    TPS/i Robotic PMC
    Key Technologies
    Technology Description
    Pulse & Double PulseControlled heat input
    CMT (Cold Metal Transfer)Low spatter, low heat
    PMC (Pulse Multi Control)Adaptive arc control
    Robot CommunicationEthernet-based robot interface
    Applications
    Industries / Uses
    Automotive
    Heavy fabrication
    Defence
    Construction equipment
    Serial production

    4. Fronius Robotic TIG Welding Systems

    Precision TIG welding solutions for automated and critical applications.

    Robotic TIG Models
    Model
    MagicWave Robotic
    TransTig Robotic
    Applications
    Industries / Uses
    Aluminium
    Stainless steel
    Aerospace & precision components
    Spares

    Genuine Fronius Spares & Accessories

    Spare Category Coverage
    Torches & Torch Spares Complete torch assemblies and wear parts
    Wire Feeders & Liners Precision wire feeding components
    Contact Tips, Nozzles & Cables Consumables for stable arc and weld quality
    Cooling Units & Consumables Thermal control and system protection
    Control Boards & Electronic Spares OEM electronics for reliability & compliance
    Using genuine spares ensures weld quality, safety, and warranty compliance.
    Why Us

    Why Buy Fronius from Kavin Inc?

    Strength
    Authorized supplier & system integrator
    Expertise in manual and robotic welding integration
    Strong process knowledge and application support
    Fast service response & after-sales support
    Proven experience in automation and robotic welding systems
    We don’t just sell machines — we deliver welding solutions.
    Industries

    Industries We Serve

    Automotive & auto components Engineering & heavy fabrication Defence & railways Construction & earth-moving equipment Electrical panels & equipment manufacturing
    Get Quote

    Request Fronius Quote

    Product

    Kemppi Welding Machines

    Kemppi Welding Machines – Intelligent Welding Solutions by Kavin Inc
    Kavin Inc offers a complete portfolio of Kemppi welding machines, globally recognized for arc intelligence, durability, and digital welding control. We supply and support manual and robotic welding solutions, helping manufacturers achieve consistent weld quality, higher productivity, and global standards.

    Kemppi welding systems are designed for modern fabrication environments, combining smart control, energy efficiency, and easy usability—ideal for both job shops and automated production lines.

    Manual + Robotic Intelligent Arc Control Digital Welding Platforms Genuine spares
    Kemppi Manual Welding Machines
    Manual Welding
    Kemppi Robotic Welding Platforms
    Robotic Platforms
    Kemppi Spares and Service Support
    Spares & Service
    Portfolio

    Kemppi Product Range Offered by Kavin Inc

    1. Kemppi Manual MIG / MAG Welding Machines

    Reliable, high-performance welding systems with intelligent arc control.

    Latest & Popular Models
    Series Models
    FastMig X Series FastMig X 350 / 450 / 550
    Master M Series Master M 205 / 323 / 355
    X5 FastMig Industrial modular MIG system
    A7 MIG Welder Digital MIG platform for production welding
    Applications
    Industries / Uses
    General fabrication
    Automotive components
    Structural steel
    MSME job shops

    2. Kemppi Manual TIG Welding Machines

    Precision TIG welding with excellent control for high-quality applications.

    Latest & Popular Models
    Series Models
    MasterTig Series MasterTig 235 / 335 / 535
    MinarcTig Evo 200 / 300
    Applications
    Industries / Uses
    Stainless steel
    Aluminium
    Thin sheets
    Precision & aesthetic welds

    3. Kemppi Robotic MIG / MAG Welding Systems

    Advanced robotic welding platforms optimized for automation and repeatability.

    Robotic Welding Platforms
    Platform
    AX MIG Welder
    AX MIG Power Source
    A7 MIG Robotic System
    FastMig Robotic
    Key Technologies
    Technology Description
    Intelligent arc control Adaptive weld behavior for stable quality
    High-speed digital communication Robust interface for production automation
    Stable robotic arc performance Repeatable arc characteristics for robots
    Robot integration Seamless integration with ABB and industrial robots
    Applications
    Industries / Uses
    Automotive
    Heavy fabrication
    Construction equipment
    Defence
    Serial production

    4. Kemppi Robotic TIG Welding Systems

    Automated TIG solutions for precision and critical welding operations.

    Robotic TIG Platforms
    Platform
    MasterTig Robotic
    A7 TIG System
    Applications
    Industries / Uses
    Stainless steel
    Aluminium
    Aerospace
    Pressure components
    Spares

    Genuine Kemppi Spares & Accessories

    Spare Category Coverage
    Welding torches & consumables OEM torch systems and wear parts
    Wire feeders & liners Precision wire handling components
    Contact tips, nozzles & cables Consumables for stable arc and consistent weld quality
    Cooling units Thermal control and system protection
    Control modules & electronic spares Digital control reliability and long service life
    Using genuine spares ensures machine life, safety, and consistent weld quality.
    Why Us

    Why Choose Kemppi from Kavin Inc?

    Strength
    Expertise in manual and robotic welding solutions
    Strong process knowledge and application support
    Seamless robotic integration with ABB systems
    Fast service response & dependable after-sales support
    Proven experience across automation and welding industries
    At Kavin Inc, we integrate Kemppi systems as complete welding solutions — not just machines.
    Industries

    Industries We Serve

    Automotive & auto components Engineering & heavy fabrication Defence & railways Construction & earth-moving equipment Electrical panels & equipment manufacturing
    Get Quote

    Request Kemppi Quote

    Product

    SKS Welding Systems

    High-Performance Welding Solutions by Kavin Inc
    Kavin Inc offers a complete range of SKS welding systems, known for their robust design, stable arc performance, and cost-effective welding solutions. SKS machines are well suited for Indian manufacturing environments, delivering reliable performance for both manual fabrication and robotic welding applications.

    With strong capability in high-amperage welding and automation-ready platforms, SKS welding systems are widely used in automotive fabrication, heavy engineering, defence, and construction equipment manufacturing.

    Heavy-duty welding High amperage Automation ready Cost effective
    SKS Manual Welding Machines
    Manual Welding
    SKS Robotic Welding Systems
    Robotic Welding
    Portfolio

    SKS Product Range Offered by Kavin Inc

    1. SKS Manual MIG / MAG Welding Machines

    Heavy-duty welding machines designed for high deposition and continuous operation.

    Popular & Current Models
    Model
    SKS MIG 400
    SKS MIG 500
    SKS MIG 600
    SKS MIG 800
    Applications
    Industries / Uses
    Structural fabrication
    Heavy fabrication
    Automotive parts
    Job shops

    2. SKS Manual TIG Welding Machines

    Reliable TIG welding systems for precision and quality welding needs.

    Popular Models
    Model
    SKS TIG 300
    SKS TIG 400
    SKS TIG AC/DC Series
    Applications
    Industries / Uses
    Stainless steel
    Aluminium
    Pressure components
    Precision fabrication

    3. SKS Robotic MIG / MAG Welding Systems

    Automation-ready welding power sources designed for robotic integration.

    Robotic Welding Models
    Model
    SKS Robotic MIG 400
    SKS Robotic MIG 500
    SKS Robotic MIG 600
    SKS Robotic MIG 800
    SKS Pulse & Synergic Series
    Key Features
    Feature
    Synergic and pulse welding modes
    Stable arc for robotic repeatability
    High-amperage capability for thick sections
    Ethernet / digital robot communication
    Applications
    Industries / Uses
    Automotive
    Heavy fabrication
    Defence
    Construction equipment
    Serial production

    4. SKS Robotic TIG Welding Systems

    Automated TIG solutions for controlled and critical welding applications.

    Robotic TIG Platforms
    Platform
    SKS Robotic TIG Series
    SKS AC/DC Robotic TIG
    Applications
    Industries / Uses
    Aluminium
    Stainless steel
    Precision & critical welds
    Spares

    Genuine SKS Spares & Accessories

    Spare Category
    Welding torches & torch spares
    Wire feeders & liners
    Contact tips, nozzles & cables
    Cooling units
    Control boards & electronic spares
    Why Us

    Why Choose SKS Welding Systems from Kavin Inc?

    Strength
    Expertise in manual and robotic welding integration
    Proven experience with high-amperage welding
    Process optimization for productivity and quality
    Fast service response & dependable after-sales support
    Complete automation-ready welding solutions
    At Kavin Inc, SKS welding systems are delivered as complete, production-ready solutions backed by strong engineering and support.
    Industries

    Industries We Serve

    Automotive & auto components Engineering & heavy fabrication Defence & railways Construction & earth-moving equipment Electrical panels & equipment manufacturing
    Get Quote

    Request SKS Welding System Quote

    Kavin Inc Assistant Robotic & Welding Solutions
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