News

June 9 2003

Technical Paper - Integrated Hot Runner Systems improve efficiencies, reduce costs

June 9, 2003
Technical Paper - Integrated Hot Runner Systems improve efficiencies, reduce costs

 

Plastics Machinery & Auxiliaries

Integrated Hot Runner Systems improve efficiencies, reduce costs

Machinery
Auxiliaries
Tooling
Components
Materials                        
For some time now, hot runner manufactures have provided injection half (hot half) systems that reduce the overall assembly time of a mold by building the hot runner system as a completely self – contained unit. The systems also tend to reduce errors in wiring. An extension of this concept are unitized systems – complete drop-in, preassembled units, including electrical connections as well as either the pneumatic or hydraulic plumbing required for valve-gate systems. Unitized systems provide the advantages of a complete injection half at a reduced cost.
Image 1
With minor modification to the mold and use of a unitized hot runner design, integrated hot runner systems can reduce hot runner installation time, eliminate wiring errors, and reduce costs compared to conventional injection-half systems.

Design and Benefits

The heart of the integrated system lies in the unitized manifold design. Nozzles are threaded directly into the manifold, eliminating the need for a retainer plate. A uniform heat profile is ensured because the junction of nozzle and manifold is inside the manifold, eliminating any transitional heat loss that can occur with conventional bushing-type systems. Bushing-type systems often require a separate heater band on the flange to provide heat to this area, thus increasing operating cost.

An integrated design also reduces power use because the manifold system has very little contact with the mold. This minimal contact reduces heat loss from the manifold and allows the mold to maintain a more consistent temperature level. Threaded nozzles eliminate the tendency for plastic leaks between the nozzles and manifold, which can occur during heat expansion of bushing type system designs, halting production for repairs.

Since the integrated system is based on using the unitized prewired design for installation in the mold, the chance for pinched or severed heater and thermocouple wires during assembly is eliminated. All wiring from heater to junction box is encased within a specially designed conduit. This is a benefit whenever the mold/hot runner system is disassembled. Also, since the unitized manifold system is fully functional before installation in the mold, full testing -of electrical and thermal functions can be performed at the factory before shipment.
An integrated hot runner system provides further benefits:


Routine maintenance can be performed without removing the hot runner system from the molding machine. Conventional injection halves allow some maintenance to be performed while in the molding machine, but it is limited to the very front of the nozzle area because of the retainer plate. Servicing beyond this point requires removal of the hot runner manifold system from the machine to expose the manifold system.

  A simple hot runner system and mold-inserts can be easily swapped without mold removal.

  Valve- gate operational plumbing can be serviced without disassembly.

Putting the system to work

Incorporating the integrated design involves preliminary review with the mold manufacturer to ensure proper operation. The unitized hot runner manifold is mounted directly to the top plate of the mold. Also added to the cavity plate are staps that can be placed in two positions: one on the cavity side of the mold, the other placed to capture both the cavity and core side of the mold joined at the parting line.

The integrated system doesn’t compromise normal production function in injection molding. When routine maintenance is required, use the following procedure:

1. open the mold using the setup mode of the molding machine.

2. Remove the socket head screw used to fix the cavity plate to the top plate.

3. Close the mold using the setup mode of the molding machine.

4. Move the strap from the cavity plate and place it over the parting line, so that the core and cavity plates are joined.

5. Slowly actuate the opening stoke, again using the setup mode of the molding machine. This action pulls both the mold core and cavity plate from the top plate and exposes the entire hot runner system.

Any of the following operations can now be performed without removing the integrated system from the injection-molding machine:
  Gate –tip exchange
  End – cap exchange
  Nozzle- heater exchange
  Nozzle – Thermocouple exchange
  Manifold- Thermocouple exchange
  Complete hot runner inspection
The integrated design substantially reduces the downtime normally required compared with a conventional hot runner design from up to a full shift to an hour or two, since the entire hot runner system is now completely exposed and easily accessible. If complete removal of the hot runner system is required, a lifting hook can be placed on the top plate, the mold clamps can be removed, and the assembly can be moved to a workbench. The unitized hot runner system can then be completely removed by unscrewing the socket head screws used to fix the system to the top plate.

1.  In the integrated hot runner system, nozzles are threaded into the manifold and wiring is unitized. The system becomes a self-contained assembly.

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2. In the integrated hot runner valve-gate system, valve-gate connections and plumbing are also attached to the manifold and become part of the self-contained assembly.

Image 3

3. The mold strap in the position shown captures both the core and cavity plates as the moving platen is retracted.

Image 4

4. To get to the hot runner system, remove the socket head screw used to fix the cavity plate to the top plate.

Image 5

5. The integrated hot runner system is fully exposed inside the press

Image 6

6. If necessary, only the top plate and the integrated hot runner system need to be removed from the press.

Image 7

7. Once outside the press, the integrated hot runner system is easily detached from the top plate.


About INCOE® Corporation
Since 1958, INCOE® has engineered productivity built hot runner systems starting with their original patented design of the first commercial hot runner nozzle. Today, a wide range of nozzles and manifolds, pre-wired unitized systems, complete hot halves and advanced control technologies provide optimized systems suitable for appliances, automotive, electronics, medical disposables, packaging and technical markets. A network of representatives in over 35 countries are supported by INCOE® facilities located in the United States, Germany, Brazil, China, Hong Kong and Singapore. Wherever your molding operation is, INCOE® can support your business with complete hot runner systems engineered for your application. That's
INCOE® Hot Runner Performance.


For more information:


INCOE® CORPORATION
1740 E. Maple Road
Troy, MI 48083
T (248) 616 0220
F (248) 616 0225
e-mail: info@incoe.com

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