Wechat:17720812054 Whatsapp:+86 17720812054 Email:David@batterymaking.com
David Yuan
18659217588
Wechat:17720812054
Whatsapp:+86 17720812054
Email:David@batterymaking.com
Item NO.:
TMAX-80EPayment:
L/C,T/T,Western Union, PaypalProduct Origin:
ChinaShipping Port:
XiamenLead Time:
5 daysCertificate:
CE ROHS Certificate
-60 ℃~150 ℃ Laboratory Walk-in High and Low Temperature Constant Temperature and Humidity Test Chamber
The thermal testing system is built based on the thermal test requirement UN 38.3.4.2 of Lithium-ion battery testing requirements of the UN manual of tests and criteria. An observation window is mounted on the front panel to monitor the real-time status of recharge batteries. The draining system could easily collect unexpected liquids.
Main Features
1.The constant temperature and humidity test box is mainly composed of the control panel, distribution panel, insulation layer, air supply fan, heater, humidifier, and refrigeration unit. The main specifications can be divided into 6 standard sizes and 10 specifications under different conditions.
2. The controller can be connected to the computer through a LAN interface. Users can design programs on the computer screen, collect test data and records, call program execution, remote control machine switch, and other functions.
3. The use of multi-wing air supply fan strong air circulation, to avoid any dead angle, so that indoor temperature and humidity distribution is uniform.
4. Complete safety protection device, if abnormal conditions occur, the controller screen will automatically display the fault status, cut off the power switch, and provide troubleshooting methods.
SPECIFICATIONS
Model |
TMAX-80(A~F) |
TMAX-150(A~F) |
TMAX-225(A~F) |
TMAX-408(A~F) |
TMAX-800(A~F) |
TMAX-1000(A~F) |
Internal Dimension |
400x500x400 |
500x600x500 |
600x750x500 |
600x850x800 |
1000x1000x800 |
1000x1000x1000 |
Internal Dimension WxHxD (mm) |
950x1650x950 |
1050x1750x1050 |
1200x1900x1150 |
1200x1950x1350 |
1600x2000x1450 |
1600x2100x1450 |
TemperatureRange |
Low Temperature(A:25°C B:0°C C:-20°C D:-40°C E:-60°C F:-70°C) High Temperature 150°C The temperature range can be customized |
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HumidityRange |
20%~98%R.H.(10%-98% R.H. / 5%-98% R.H ,is a special optional condition, need Dehumidifier) |
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Analytic Accuracy/ |
0.1°C; 0.1% R.H/±2.0°C; ±3.0% R.H. |
Temperature range |
-60℃~+150 ℃(Air-cooled type) |
Humidity range |
20%-98% RH (the distribution range is as follows)
|
The cooling rate (no-load) |
About 1℃/min |
The heating rate (no load) |
About 3℃/min |
Temperature stability |
±0.5℃ |
Analytical accuracy of temperature |
0.a01℃ |
Precision of humidity control |
±2%R.H |
Temperature uniformity |
±2.0℃ |
Humidity uniformity |
≤±3%R.H(+2、-3%RH) |
Working noise |
A sound level is less than 75 dB (A) (measured in a soundproof room with 25 C ambient temperature and less echo; measured the average value of 8 points by A weighting; measured the level of each test point is 1 metre from the noise source and the height is 1 metre from the ground). |
Material of inner and outer boxes |
SUS # 304 |
Outer box light source |
High brightness lamp |
Structural design of stratosphere |
Effective avoidance of condensation at the top of the box |
Observation Window |
Observation sample use (W*L 28*35 cm) |
Anti-sweat design of windows |
Electrical heating device to prevent condensation of water and gas (40 W) |
Test Holes
|
Can be used for connect external test power cord and signal (diameter 50 mm) |
Machine pulley |
Pulleys are movable and positioned with strong bolts (200Kg/wheel) |
Insulation Layer |
Rigid polyurethane foam (its advantages are: 1. High efficiency and energy saving, seamless after filling, strong bonding after curing. 2. Seismic and compressive resistance, no cracking, no decay, no falling off after solidification. 3. It has ultra-low temperature heat conductivity, weather resistance and heat preservation. 4. High efficiency insulation, sound insulation, waterproof and moisture-proof after curing. 5. waterproof performance is good, because the foam hole is closed, the sealing rate is 95%, and the rainwater will not permeate through the hole. |
Inner rack |
Movable adjustable grids and two stainless steel strip grids (5.0 cm per grille) |
Box door
|
Double-channel heat insulation and tight gas to effectively isolate external temperature leakage |
Leakage/Surge Protection |
FUSE. RC electronic surge protection for leakage circuit breakers |
Internal self-automatic detection and protection device of controller |
1. Data transmission detection between microcomputers 2. Temperature/Humidity Sensor→ circuit break or short circuit (+/- OVER) 3. Layer 1 high/low temperature over-temperature protection → Settings for operation control high and low temperature over-temperature protection |
Fault Detection and Control Interface(Automatic Detection and Protection Device for External Faults) |
1. High Temperature Overtemperature Protection of the Second Layer→Electronic high temperature overtemperature protection device 2. Layer 3 High Temperature Overtemperature Protection→High temperature overtemperature protection device 3. Protection of water-cut incineration→Humidity water cut-off protection and electric heat water cut-off air incineration protection 4. Compressor protection→Refrigerant pressure protection and overload protection. 5. Extended Protective Device→Reserve two sets of fault detection input expansion protection devices for use. |
Fault Abnormal Protection |
Cut off control power supply and fault reason indication and alarm output signal when abnormal fault occurs. |
Active Water Shortage Indicator |
Initiative prompt for lack of water on machine. |
Dynamic High and Low Temperature Protection |
Dynamic adjustment of high and low temperature protection value with setting conditions. |
Normal Temperature Protection |
After shutdown, the test area of the machine will be protected automatically by lowering to the normal temperature. |
Leakage/Surge Protection |
FUSE. RC electronic surge protection for leakage circuit breakers |
Internal self-automatic detection and protection device of controller |
1. Data transmission detection between microcomputers 2. Temperature/Humidity Sensor→ circuit break or short circuit (+/- OVER) 3. Layer 1 high/low temperature over-temperature protection → Settings for operation control high and low temperature over-temperature protection |
Fault Detection and Control Interface(Automatic Detection and Protection Device for External Faults) |
1. High Temperature Overtemperature Protection of the Second Layer→Electronic high temperature overtemperature protection device 2. Layer 3 High Temperature Overtemperature Protection→High temperature overtemperature protection device 3. Protection of water-cut incineration→Humidity water cut-off protection and electric heat water cut-off air incineration protection 4. Compressor protection→Refrigerant pressure protection and overload protection. 5. Extended Protective Device→Reserve two sets of fault detection input expansion protection devices for use. |
Control Mode
|
1. The control system automatically adjusts the operation of the refrigerator according to the test conditions, so that the equipment is in the best energy-saving condition. 2. The refrigeration capacity of the evaporator is switched by the solenoid valve driven by the control system. 3. Compressor return air cooling circuit. |
Working Methods |
The first-order compression is adopted for the 0 ~40℃ model. Binary cascade refrigeration is adopted at 40 ~70℃. |
Refrigeration Compressor |
The original imported French Taikang fully enclosed low noise rotor compressor. |
Refrigerant |
R404a/R23 (ozone depletion index is 0, R23 is used in cascade refrigeration system). |
Condenser |
Air-cooled: Finned tube heat exchanger. Water-cooled: shell-and-tube heat exchanger. |
Evaporator |
Finned tube heat exchanger (also used as dehumidifier). |
Plate heat exchanger |
Stainless steel brazed plate heat exchanger (cascade refrigeration system used). |
Throttling Device |
Expansion valve + capillary. |
Control Mode
|
1. The control system automatically adjusts the operation of the refrigerator according to the test conditions, so that the equipment is in the best energy-saving condition. 2. The refrigeration capacity of the evaporator is switched by the solenoid valve driven by the control system. 3. Compressor return air cooling circuit. |
Working Methods |
The first-order compression is adopted for the 0 ~40℃ model. Binary cascade refrigeration is adopted at 40 ~70℃. |