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| Quantity: | |
|---|---|
Soren20060209
JINGCHENG
3917290000 3904610000 3917390000
Water Heating Hose (Electrically Heated Hose)
When water lines cool down, you lose temperature stability, see process drift, and risk freezing/condensation—especially in long runs, intermittent duty, or cold environments. A water heating hose is designed to keep water at a controlled temperature during transfer, combining insulation + electric heat tracing in one robust assembly.
From the catalog’s “constant-temperature water heating” section, the water heating hose is positioned for stable-temperature transfer with a rated heat resistance up to 100°C (higher on request), and is built with a uniform woven heating layer and high-efficiency insulation materials to reduce inner-wall temperature variation.
Max media temperature: up to 100°C (design-dependent; higher temperature available by customization request)
Voltage range: 12Vac to 380Vac (design-dependent)
Power options: 110 / 150 / 170 / 200 W/m (design-dependent)
Minimum bend radius: 0.2 m (design-dependent; tighter bending is prohibited for safety and reliability)
Reference pressure capability (size-dependent): up to 173 bar working / 690 bar burst (design-dependent; confirm your actual assembly rating)
Water transfer sounds simple—until temperature drop causes performance problems. A heated water hose helps you:
Maintain stable outlet temperature across long hose runs
Reduce heat loss, prevent freezing and temperature-related instability
Improve process repeatability by minimizing temperature fluctuation inside the hose using uniform heating + insulation
Build a safer, cleaner setup versus external wrap heaters and ad-hoc insulation
Uniform Heating Structure
Woven heating elements are designed to reduce temperature differences along the hose inner wall.
High-Insulation Efficiency
Insulation-focused construction helps control surface temperature while keeping heat where it matters—in the flow path.
Built as a Complete Assembly (Power + Control Ready)
Configurable voltage, power, sensors, length, and fittings make it faster to integrate into your equipment
Reference table for the water heating hose section (values are size-dependent; final rating is design-dependent).
| ID (inch) | OD (mm, ±0.2) | Working Pressure (bar) | Working Pressure (psi) | Burst Pressure (bar) | Burst Pressure (psi) | Min Bend Radius (mm) |
|---|---|---|---|---|---|---|
| 1/4” | 9.0 | 173 | 2501 | 690 | 10005 | 30 |
| 5/16” | 11.0 | 158 | 2284 | 630 | 3915 | 40 |
| 3/8” | 12.4 | 135 | 1958 | 540 | 7830 | 60 |
| 1/2” | 15.9 | 118 | 1704 | 470 | 6815 | 150 |
| 5/8” | 19.0 | 88 | 1269 | 350 | 5075 | 180 |
| 3/4” | 22.6 | 85 | 1234 | 340 | 4930 | 260 |
| 1” | 29.5 | 75 | 1088 | 300 | 4350 | 300 |
Common build-to-spec options from the catalog include:
Voltage: 12Vdc / 110Vac / 220Vac / 380Vac (incl. 3-phase options)
Temperature sensors: J / K thermocouple, PT100 / PT1000, NI120, or none
Length: 0.1 m to 10 m (and longer upon request)
Hose size: multiple diameters (e.g., Φ8/12/16/19/25 options listed)
Max use temperature: 100 / 120 / 200 / 400°C options listed (final depends on design)
Pressure class: 4 / 10 / 20 / 35 MPa options listed (final depends on design)
Heater power density: 110 / 150 / 170 / 200 W/m
Fittings: metric / imperial / BSP (and special connectors by drawing)
Inner liner / core material options (for different duty needs): PTFE and other constructions referenced in the model coding description
Catalog example format (key fields):
JCH – [Temp] – [ID] – [Liner] – [Voltage] – [Sensor] – [Pressure]
[Temp] = Working temperature (°C)
[ID] = Hose inner diameter code (e.g., 16 = Φ16)
[Liner] = Inner liner construction (e.g., B / TB / T / X)
[Voltage] = 220V, or 3-phase format (e.g., 3×220)
[Sensor] = PT100 (2-wire/3-wire), K, J, none, etc.
[Pressure] = Pressure rating code (e.g., 8 = 8 MPa)
To quote accurately, send:
Media: water type (DI water / tap / additives), and any cleaning fluid exposure
Target setpoint temperature (°C) + max start-up temperature
Ambient temperature range and installation environment
Flow rate and viscosity assumptions (if any)
Working pressure + safety margin (and any pressure spikes)
Hose length, preferred ID/OD, routing constraints, and minimum bend radius requirement
Power supply (12/110/220/380V; single/3-phase) and preferred W/m
Sensor type needed (PT100/K/J/none) and controller method
End fittings: standard type (metric/BSP/NPT) or custom drawing
The catalog outlines a clear build process: inquiry → spec confirmation → quotation → production → inspection & packaging → shipment to your address.
The company profile notes a focus on R&D and production of PTFE hoses and PTFE heated hoses, supporting multiple industries with thermal-fluid insulation/transfer solutions.
Water Heating Hose (Electrically Heated Hose)
When water lines cool down, you lose temperature stability, see process drift, and risk freezing/condensation—especially in long runs, intermittent duty, or cold environments. A water heating hose is designed to keep water at a controlled temperature during transfer, combining insulation + electric heat tracing in one robust assembly.
From the catalog’s “constant-temperature water heating” section, the water heating hose is positioned for stable-temperature transfer with a rated heat resistance up to 100°C (higher on request), and is built with a uniform woven heating layer and high-efficiency insulation materials to reduce inner-wall temperature variation.
Max media temperature: up to 100°C (design-dependent; higher temperature available by customization request)
Voltage range: 12Vac to 380Vac (design-dependent)
Power options: 110 / 150 / 170 / 200 W/m (design-dependent)
Minimum bend radius: 0.2 m (design-dependent; tighter bending is prohibited for safety and reliability)
Reference pressure capability (size-dependent): up to 173 bar working / 690 bar burst (design-dependent; confirm your actual assembly rating)
Water transfer sounds simple—until temperature drop causes performance problems. A heated water hose helps you:
Maintain stable outlet temperature across long hose runs
Reduce heat loss, prevent freezing and temperature-related instability
Improve process repeatability by minimizing temperature fluctuation inside the hose using uniform heating + insulation
Build a safer, cleaner setup versus external wrap heaters and ad-hoc insulation
Uniform Heating Structure
Woven heating elements are designed to reduce temperature differences along the hose inner wall.
High-Insulation Efficiency
Insulation-focused construction helps control surface temperature while keeping heat where it matters—in the flow path.
Built as a Complete Assembly (Power + Control Ready)
Configurable voltage, power, sensors, length, and fittings make it faster to integrate into your equipment
Reference table for the water heating hose section (values are size-dependent; final rating is design-dependent).
| ID (inch) | OD (mm, ±0.2) | Working Pressure (bar) | Working Pressure (psi) | Burst Pressure (bar) | Burst Pressure (psi) | Min Bend Radius (mm) |
|---|---|---|---|---|---|---|
| 1/4” | 9.0 | 173 | 2501 | 690 | 10005 | 30 |
| 5/16” | 11.0 | 158 | 2284 | 630 | 3915 | 40 |
| 3/8” | 12.4 | 135 | 1958 | 540 | 7830 | 60 |
| 1/2” | 15.9 | 118 | 1704 | 470 | 6815 | 150 |
| 5/8” | 19.0 | 88 | 1269 | 350 | 5075 | 180 |
| 3/4” | 22.6 | 85 | 1234 | 340 | 4930 | 260 |
| 1” | 29.5 | 75 | 1088 | 300 | 4350 | 300 |
Common build-to-spec options from the catalog include:
Voltage: 12Vdc / 110Vac / 220Vac / 380Vac (incl. 3-phase options)
Temperature sensors: J / K thermocouple, PT100 / PT1000, NI120, or none
Length: 0.1 m to 10 m (and longer upon request)
Hose size: multiple diameters (e.g., Φ8/12/16/19/25 options listed)
Max use temperature: 100 / 120 / 200 / 400°C options listed (final depends on design)
Pressure class: 4 / 10 / 20 / 35 MPa options listed (final depends on design)
Heater power density: 110 / 150 / 170 / 200 W/m
Fittings: metric / imperial / BSP (and special connectors by drawing)
Inner liner / core material options (for different duty needs): PTFE and other constructions referenced in the model coding description
Catalog example format (key fields):
JCH – [Temp] – [ID] – [Liner] – [Voltage] – [Sensor] – [Pressure]
[Temp] = Working temperature (°C)
[ID] = Hose inner diameter code (e.g., 16 = Φ16)
[Liner] = Inner liner construction (e.g., B / TB / T / X)
[Voltage] = 220V, or 3-phase format (e.g., 3×220)
[Sensor] = PT100 (2-wire/3-wire), K, J, none, etc.
[Pressure] = Pressure rating code (e.g., 8 = 8 MPa)
To quote accurately, send:
Media: water type (DI water / tap / additives), and any cleaning fluid exposure
Target setpoint temperature (°C) + max start-up temperature
Ambient temperature range and installation environment
Flow rate and viscosity assumptions (if any)
Working pressure + safety margin (and any pressure spikes)
Hose length, preferred ID/OD, routing constraints, and minimum bend radius requirement
Power supply (12/110/220/380V; single/3-phase) and preferred W/m
Sensor type needed (PT100/K/J/none) and controller method
End fittings: standard type (metric/BSP/NPT) or custom drawing
The catalog outlines a clear build process: inquiry → spec confirmation → quotation → production → inspection & packaging → shipment to your address.
The company profile notes a focus on R&D and production of PTFE hoses and PTFE heated hoses, supporting multiple industries with thermal-fluid insulation/transfer solutions.
