Description
Chiller Water Cooling System
Model JL5000/CW5000

Machine Dimension Chiller Water Cooling

Industrial Cooling System

Industrial Cooling System / Water Chiller for Factories
Precise Temperature Control Industrial Cooling System




- In tropical climates, industrial machinery, electronic devices, and other equipment are susceptible to overheating, leading to inefficiency, damage, and potential fire hazards. Similar to how excessive body heat causes illness, machine overheating impairs performance. Chillers are essential for maintaining optimal operating temperatures and preventing such issues.


- Chillers are refrigeration units designed to produce cold, regulate temperature, and dissipate heat. They utilize water as a primary medium for heat exchange and transfer. Industrial chillers are widely employed to cool machinery, prolong equipment lifespan, and maintain operational efficiency.

- Utilizes water for heat exchange and cooling.
- Chillers are integral in industrial settings for machine cooling, ensuring longevity and performance.
- Applications include: Closed system ponds, hydraulic injection molding machines, and CNC machinery.
- For example: Closed system pond, Hydraulic injection molding machine, CNC Engraving Cutting CO2, CNC Laser Engraving UV, CNC Router Milling, CNC Fiber Laser, and others.
Industrial Chiller for Sale – Model JL-5000
Designed for cooling CNC and Fiber Laser machines, ensuring optimal performance by preventing overheating during operation.

FEATURES
- JL – 5000/5200 refrigerating capacity up to 1750 W.
- Employing a solenoid valve for real-time control of cold flow, ensuring stability and accuracy of the cooling system.
- Features intelligent and constant two-mode operation, adaptable to various environmental temperatures.
- Equipped with over-temperature alarm and sensor self-diagnosis functions.
- Includes compressor overload protection and water flow alarm capabilities.
Machine Dimensions


Technical Parameters

Download User Manual for Chiller JL-5000/5200 Click Here
Comparison: Chiller-5000 vs. Chiller-5200

Comparison of All Water Chiller Models
Chiller Water Cooling Model JL Series



BTU Measurement Explained
BTU, or British Thermal Unit, is a unit of measurement used to quantify the amount of heat energy required to raise the temperature of one pound of water by one degree Fahrenheit at a constant pressure. It’s commonly used in the United States and other countries for measuring heating and cooling capacities.
The process of measuring BTUs involves several steps:
- Define the System: Determine the system for which the BTU measurement is being made. For example, it could be a heating system, a cooling system, or an appliance like a stove or water heater.
2. Identify the Substance: Determine the substance for which the heat energy is being measured. In many cases, this is water, but it can vary depending on the application.
3. Measure Temperature Change: Measure the initial temperature and final temperature of the substance. For example, if measuring the BTUs generated by burning fuel in a furnace, you would measure the temperature of the water before and after the heat exchange process.
4. Calculate Heat Energy: Use the formula to calculate the heat energy in BTUs:
Heat energy (BTU)
=
mass (lb)
×
specific heat (BTU/lb°F)
×
temperature change (°F)
Heat energy (BTU)=mass (lb)×specific heat (BTU/lb°F)×temperature change (°F)
5. Here, “mass” refers to the mass of the substance in pounds, “specific heat” refers to the specific heat capacity of the substance in BTU per pound per degree Fahrenheit (BTU/lb°F), and “temperature change” refers to the change in temperature in degrees Fahrenheit.
6. Account for Efficiency: In some cases, the efficiency of the system or device being measured may need to be taken into account to determine the actual BTU output or input.
Overall, BTU measurement provides a standardized way to quantify heat energy, which is essential for various applications, including HVAC (heating, ventilation, and air conditioning), cooking, and industrial processes.
Operational Interaction Between CO2 Laser Tubes and Chillers



Optional Add-on: Heat Exchanger

The Heat Exchanger connects to the Chiller and is submerged in water, further reducing water temperature.
Price: Only 3,600 THB!!




Heat Exchanger Installation with Chiller Unit



Heat Exchanger – Additional Accessory for Chillers to Further Lower Water Temperature | SALECNC.net
Chiller Water Cooling VS Cooling Tower
Cooling Towers are primarily used in industries such as Hydraulic Injection Molding. However, their significant drawbacks include large size, open system complexity, and susceptibility to dust and sediment ingress, which impairs performance and reduces lifespan. Consequently, industrial facilities increasingly favor Chiller Water Cooling systems. These units are compact, space-saving, operate as closed systems, effectively prevent contaminant entry, and offer extended service life.

| Cooling Tower | Chiller Water Cooling |
|---|---|
| ❌ Open system | ✅ Closed system |
| ❌ Open system design leads to easy ingress of dust and sediment, causing clogging, corrosion, and negative impact on machine usability. | ✅ Closed system design prevents dust and sediment ingress, ensuring better protection. Water changes are conveniently performed. |
| ❌ Difficult cleaning and maintenance. | ✅ Easy cleaning and maintenance. |
| ❌ Large footprint requiring significant workspace. | ✅ Compact size saves valuable workspace. |
| ❌ Shorter operational lifespan. | ✅ Extended operational lifespan. |
| ❌ Lower initial cost but uneconomical in the long term due to maintenance, repairs, and short lifespan, leading to higher future expenditures. | ✅ Higher initial cost but cost-effective due to ease of maintenance, reduced repair needs, and longer lifespan, yielding significant long-term savings. |


Add Line: @123wotsb Fern (sales engineer)
Add Line: @sales Chompoo (sales engineer)


salecnc.net