Product Description

 

Company Profile

HangZhou HORD RAPIDTOOLS CO., LTD   was established in 2013 by Johnny CHINAMFG and is located in the beautiful city of HangZhou, enjoying convenient transportation and a graceful environment. We are a professional custom manufacturer specializing in rapid tooling & small-volume production including  plastic Injection molding ,  CNC machining ,  silicone heat compression ,  aluminum pressure die casting ,  aluminum extrusion , etc.

Covering an area of 2,1000 square CHINAMFG and having over 250 employees, our factory is equipped with advanced injection molding machines, CNC machines, inspection equipment, etc. We have excellent in-house production capacity and refined manufacturing processes to deliver high-quality production parts at cost-effective prices. Meanwhile, backed by stable material suppliers. Strict quality control covers every procedure, from material sourcing and processing to testing and packing.

With high-quality products, excellent service, and a good reputation, we have won great support from customers around the world. We are looking CHINAMFG to good cooperation with partners at home and abroad to create a glorious future.

Product Description

 

Service Custom rapid tooling & small-volume production including plastic Injection molding
Quotation Quote as per your drawing/design(size, material, feature and structure, processing method, and required technology, etc)
Tolerance & Surface Roughness Customize available
Materials Available ABS,PC,PEEK,TPE,PA66,etc.(other specified material)
Processing Injection molding
Payment method T/T, wire transfer, Paypal, etc
Drawing Formats STP, IGS, Auto CAD, CHINAMFG Works, UG, CAD, PDF, etc.
MOQ No MOQ requirement for common parts, except for the MOQ of special materials required by the resin supplier.

 

Our Advantages

One-Stop Service
Hundreds of MUD mold base making to achieve the cost and lead time-saving!

1. Instant quote:  Response within 24 hours
2. Cost saving: quote with MUD mold base
3. Quick Turnaround: 7-14 days for mold making after DFM/drawing is confirmed. It depends on the complexity of the Design.
4. No MOQ Requirement, except for the MOQ of special material required by the resin supplier.
5. DFM Analysis: Preliminary DFM provided if needed at the quotation stage. Formal DFM is provided after the order is confirmed.
6.T1/T0 samples were provided to customers for further check after the mold trial.
7. Inspection report: FAI and dimensional report provided if needed.
8. Logistics: we have our own logistic team for the shipment arrangement. 

Attention: All parts are custom-made according to the customer’s design/ drawings or existing samples. There are no ready parts in stock for sale.

HordRT Team

Our Mold Factory

 

 

Our Injection Molding Factory

 

 

Quality Assurance Inspections

Quality Control at Every Step

We take inspection and quality control seriously. Our quality control process combines expertise and experience with advanced equipment for measuring and reviewing client specifications against produced samples before final runs. If there is a need from a customer, we always can provide the COA, COC, dimensional report and relevant inspection reports, etc.
 

Certificates

 

HordRT has passed ISO 9001, IATF 16949, and UL certifications.

How to get a free quote from us?
 

1. Send an inquiry to us
2. Provide related files(drawings) if possible.
3. Tell us your requirement(Material/Qty/Surface finish/etc) for parts.
4. Analyze with our engineers and get back a quote within 24 hours.

 

FREQUENTLY ASKED QUESTIONS

 

Q1. Are you able to sign an NDA before we transfer the CAD data to you?
A1.  We guarantee to keep your design and content secure and confidential. If needed, we can CHINAMFG an NDA document for you. You can send your company’s NDA to us directly , and we will CHINAMFG it back to you.

Q2. Are the lead times in working days or calendar days?
A2.  The lead times are quoted in calendar days. That is calculated from the approval of the DFM and the beginning of the actual production.

Q3. What are the shipping terms of HordRT?
A3. For regular production orders, our standard terms are Ex Works (EXW), which means that the customer is responsible for shipping, customs clearance, and all other associated fees once the goods have left our premises.

Q4. What are the advantages of HordRT compared with other suppliers?
A4. 1.  Support rapid tooling and low-volume production
       2. Making hundreds of shared mold bases(MUD) to save costs and time for customers .

       3. Equipped with a great deal of advanced injection molding machines, CNC machines, inspection equipment, etc.
       4. Choose a suitable processing method for different designs based on the consideration of cost/qty/lead-time/design and so on. 

Q5.What are the payment terms of HordRT?
A5.1.Typically, all tooling orders require a 50% deposit in advance, the balance needs to be paid before the T1 sample is shipping.
     2. The CNC machining parts require 100% payment before shipment.
     3. Unless otherwise agreed, the amount due shall be paid by bank transfer as designated by HordRT

 

Ready to Work On your Next Project?

Let us help you provide high-quality parts in a short time. 

Get your project started now!

/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Plastic Type: Thermoplastic
Plastic Form: Solid
Molding Method: Injection Molding

.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}

Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

How does the injection molding process contribute to the production of high-precision parts?

The injection molding process is widely recognized for its ability to produce high-precision parts with consistent quality. Several factors contribute to the precision achieved through injection molding:

1. Tooling and Mold Design:

The design and construction of the injection mold play a crucial role in achieving high precision. The mold is typically made with precision machining techniques, ensuring accurate dimensions and tight tolerances. The mold design considers factors such as part shrinkage, cooling channels, gate location, and ejection mechanisms, all of which contribute to dimensional accuracy and part stability during the molding process.

2. Material Control:

Injection molding allows for precise control over the material used in the process. The molten plastic material is carefully measured and controlled, ensuring consistent material properties and reducing variations in the molded parts. This control over material parameters, such as melt temperature, viscosity, and fill rate, contributes to the production of high-precision parts with consistent dimensions and mechanical properties.

3. Injection Process Control:

The injection molding process involves injecting molten plastic into the mold cavity under high pressure. Advanced injection molding machines are equipped with precise control systems that regulate the injection speed, pressure, and time. These control systems ensure accurate and repeatable filling of the mold, minimizing variations in part dimensions and surface finish. The ability to finely tune and control these parameters contributes to the production of high-precision parts.

4. Cooling and Solidification:

Proper cooling and solidification of the injected plastic material are critical for achieving high precision. The cooling process is carefully controlled to ensure uniform cooling throughout the part and to minimize warping or distortion. Efficient cooling systems in the mold, such as cooling channels or conformal cooling, help maintain consistent temperatures and solidification rates, resulting in precise part dimensions and reduced internal stresses.

5. Automation and Robotics:

The use of automation and robotics in injection molding enhances precision and repeatability. Automated systems ensure consistent and precise handling of molds, inserts, and finished parts, reducing human errors and variations. Robots can perform tasks such as part removal, inspection, and assembly with high accuracy, contributing to the overall precision of the production process.

6. Process Monitoring and Quality Control:

Injection molding processes often incorporate advanced monitoring and quality control systems. These systems continuously monitor and analyze key process parameters, such as temperature, pressure, and cycle time, to detect any variations or deviations. Real-time feedback from these systems allows for adjustments and corrective actions, ensuring that the production remains within the desired tolerances and quality standards.

7. Post-Processing and Finishing:

After the injection molding process, post-processing and finishing techniques, such as trimming, deburring, and surface treatments, can further enhance the precision and aesthetics of the parts. These processes help remove any imperfections or excess material, ensuring that the final parts meet the specified dimensional and cosmetic requirements.

Collectively, the combination of precise tooling and mold design, material control, injection process control, cooling and solidification techniques, automation and robotics, process monitoring, and post-processing contribute to the production of high-precision parts through the injection molding process. The ability to consistently achieve tight tolerances, accurate dimensions, and excellent surface finish makes injection molding a preferred choice for applications that demand high precision.

What is the role of design software and CAD/CAM technology in optimizing injection molded parts?

Design software and CAD/CAM (Computer-Aided Design/Computer-Aided Manufacturing) technology play a crucial role in optimizing injection molded parts. They provide powerful tools and capabilities that enable designers and engineers to improve the efficiency, functionality, and quality of the parts. Here’s a detailed explanation of the role of design software and CAD/CAM technology in optimizing injection molded parts:

1. Design Visualization and Validation:

Design software and CAD tools allow designers to create 3D models of injection molded parts, providing a visual representation of the product before manufacturing. These tools enable designers to validate and optimize the part design by simulating its behavior under various conditions, such as stress analysis, fluid flow, or thermal performance. This visualization and validation process help identify potential issues or areas for improvement, leading to optimized part designs.

2. Design Optimization:

Design software and CAD/CAM technology provide powerful optimization tools that enable designers to refine and improve the performance of injection molded parts. These tools include features such as parametric modeling, shape optimization, and topology optimization. Parametric modeling allows for quick iteration and exploration of design variations, while shape and topology optimization algorithms help identify the most efficient and lightweight designs that meet the required functional and structural criteria.

3. Mold Design:

Design software and CAD/CAM technology are instrumental in the design of injection molds used to produce the molded parts. Mold design involves creating the 3D geometry of the mold components, such as the core, cavity, runner system, and cooling channels. CAD/CAM tools provide specialized features for mold design, including mold flow analysis, which simulates the injection molding process to optimize mold filling, cooling, and part ejection. This ensures the production of high-quality parts with minimal defects and cycle time.

4. Design for Manufacturability:

Design software and CAD/CAM technology facilitate the implementation of Design for Manufacturability (DFM) principles in the design process. DFM focuses on designing parts that are optimized for efficient and cost-effective manufacturing. CAD tools provide features that help identify and address potential manufacturing issues early in the design stage, such as draft angles, wall thickness variations, or parting line considerations. By considering manufacturing constraints during the design phase, injection molded parts can be optimized for improved manufacturability, reduced production costs, and shorter lead times.

5. Prototyping and Iterative Design:

Design software and CAD/CAM technology enable the rapid prototyping of injection molded parts through techniques such as 3D printing or CNC machining. This allows designers to physically test and evaluate the functionality, fit, and aesthetics of the parts before committing to mass production. CAD/CAM tools support iterative design processes by facilitating quick modifications and adjustments based on prototyping feedback, resulting in optimized part designs and reduced development cycles.

6. Collaboration and Communication:

Design software and CAD/CAM technology provide a platform for collaboration and communication among designers, engineers, and other stakeholders involved in the development of injection molded parts. These tools allow for easy sharing, reviewing, and commenting on designs, ensuring effective collaboration and streamlining the decision-making process. By facilitating clear communication and feedback exchange, design software and CAD/CAM technology contribute to optimized part designs and efficient development workflows.

7. Documentation and Manufacturing Instructions:

Design software and CAD/CAM technology assist in generating comprehensive documentation and manufacturing instructions for the production of injection molded parts. These tools enable the creation of detailed drawings, specifications, and assembly instructions that guide the manufacturing process. Accurate and well-documented designs help ensure consistency, quality, and repeatability in the production of injection molded parts.

Overall, design software and CAD/CAM technology are instrumental in optimizing injection molded parts. They enable designers and engineers to visualize, validate, optimize, and communicate designs, leading to improved part performance, manufacturability, and overall quality.

Are there different types of injection molded parts, such as automotive components or medical devices?

Yes, there are various types of injection molded parts that are specifically designed for different industries and applications. Injection molding is a versatile manufacturing process capable of producing complex and precise parts with high efficiency and repeatability. Here are some examples of different types of injection molded parts:

1. Automotive Components:

Injection molding plays a critical role in the automotive industry, where it is used to manufacture a wide range of components. Some common injection molded automotive parts include:

  • Interior components: Dashboard panels, door handles, trim pieces, instrument clusters, and center consoles.
  • Exterior components: Bumpers, grilles, body panels, mirror housings, and wheel covers.
  • Under-the-hood components: Engine covers, air intake manifolds, cooling system parts, and battery housings.
  • Electrical components: Connectors, switches, sensor housings, and wiring harnesses.
  • Seating components: Seat frames, headrests, armrests, and seatbelt components.

2. Medical Devices:

The medical industry relies on injection molding for the production of a wide range of medical devices and components. These parts often require high precision, biocompatibility, and sterilizability. Examples of injection molded medical devices include:

  • Syringes and injection pens
  • Implantable devices: Catheters, pacemaker components, orthopedic implants, and surgical instruments.
  • Diagnostic equipment: Test tubes, specimen containers, and laboratory consumables.
  • Disposable medical products: IV components, respiratory masks, blood collection tubes, and wound care products.

3. Consumer Products:

Injection molding is widely used in the production of consumer products due to its ability to mass-produce parts with high efficiency. Examples of injection molded consumer products include:

  • Household appliances: Television and audio equipment components, refrigerator parts, and vacuum cleaner components.
  • Electronics: Mobile phone cases, computer keyboard and mouse, camera components, and power adapters.
  • Toys and games: Action figures, building blocks, puzzles, and board game components.
  • Personal care products: Toothbrushes, razor handles, cosmetic containers, and hairdryer components.
  • Home improvement products: Light switch covers, door handles, power tool housings, and storage containers.

4. Packaging:

Injection molding is widely used in the packaging industry to produce a wide variety of plastic containers, caps, closures, and packaging components. Some examples include:

  • Bottles and containers for food, beverages, personal care products, and household chemicals.
  • Caps and closures for bottles and jars.
  • Thin-walled packaging for food products such as trays, cups, and lids.
  • Blister packs and clamshell packaging for retail products.
  • Packaging inserts and protective foam components.

5. Electronics and Electrical Components:

Injection molding is widely used in the electronics industry for the production of various components and enclosures. Examples include:

  • Connectors and housings for electrical and electronic devices.
  • Switches, buttons, and control panels.
  • PCB (Printed Circuit Board) components and enclosures.
  • LED (Light-Emitting Diode) components and light fixtures.
  • Power adapters and chargers.

These are just a few examples of the different types of injection molded parts. The versatility of injection molding allows for the production of parts in various industries, ranging from automotive and medical to consumer products, packaging, electronics, and more. The specific design requirements and performance characteristics of each part determine the choice of materials, tooling, and manufacturing processes for injection molding.

China manufacturer Durable and Reliable Custom-Molded Parts  China manufacturer Durable and Reliable Custom-Molded Parts
editor by CX 2024-02-16