100% Original Factory Thermostatic Wax Series Supply to Amman
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100% Original Factory Thermostatic Wax Series Supply to Amman Detail:
The characteristic of Thermostatic Wax consists of its volume expansion amount can reach up to 13 ~ 15 % when it is heated from solid to liquid. We use this characteristic, when it is heated to a solid-liquid transformation, its’ heat energy can translate into mechanical energy. Thermostatic Wax has been widely applied to temperature auto regulation of thermal-driving and various thermal-starting devices.
For example, automobile thermostat has been most widely well known, it has cylindrical seal part that loads some Thermostatic Waxes inside. To realize automatic temperature control, it was designed by a special technical specification for the solid-liquid transformation of Thermostatic Wax. When the cylindrical part is heated, Thermostatic Wax in the part is also heated and making a solid-liquid transformation expansion, Thermostatic Wax pushes thermostat’s itself handspike to open the valve. When the cylindrical part gets cold, Thermostatic Wax also cooled and start to shrink, Thermostatic Wax pushes itself handspike back to original situation under the return load force to close up the valve to realize automatic temperature control.
Depending on the main principle of Thermostatic Wax, The developed thermal driving devices and thermostats have been widely applied to automobile thermostat, automobile temperature-control switch for electric fan, various engines cooling water temperature auto controller, lubricant oil temperature auto control, auto cycle enriching valve, industry electric power control valve, water temperature regulating valve, safety device, space heating, fire protection, air filtering, temperature regulating device, sanitary ware and heating temperature controlling valve, air temperature control, ventilating control, solar water heater, automatic door and window, thermal driving electric switch, alarm apparatus, house ventilating, radiator temperature control valve, hot landing device for aviation and automaton etc.
Within temperature control range of –20 ~ 180 ℃ of Thermostatic Wax may compound with different temperature range and different efficient distance according to client’s technical demand. Our company may offer the relative technical service.
Model Number |
Appearance (Normal Temperature) |
Quality Standard |
|||
Range of Temperature Control |
Effective Distance Travel |
Water-Solubility Acid and Alkali |
Mechanical Impurity |
B100 |
Powder, Slice , Column |
90/100 |
≥10 |
Non. |
Non. |
B105 |
Powder, Slice , Column |
95/105 |
≥10 |
Non. |
Non. |
B110 |
Powder, Slice , Column |
100/110 |
≥10 |
Non. |
Non. |
B115 |
Powder, Slice , Column |
105/115 |
≥10 |
Non. |
Non. |
B120 |
Powder, Slice , Column |
110/120 |
≥10 |
Non. |
Non. |
B125 |
Powder, Slice , Column |
115/125 |
≥10 |
Non. |
Non. |
B130 |
Powder, Slice , Column |
120/130 |
≥10 |
Non. |
Non. |
B135 |
Powder, Slice , Column |
125/135 |
≥10 |
Non. |
Non. |
B140 |
Powder, Slice , Column |
130/140 |
≥10 |
Non. |
Non. |
B145 |
Powder, Slice , Column |
135/145 |
≥10 |
Non. |
Non. |
B150 |
Powder, Slice , Column |
140/150 |
≥10 |
Non. |
Non. |
B155 |
Powder, Slice , Column |
145/155 |
≥10 |
Non. |
Non. |
B160 |
Powder, Slice , Column |
150/160 |
≥10 |
Non. |
Non. |
B165 |
Powder, Slice , Column |
155/165 |
≥10 |
Non. |
Non. |
B170 |
Powder, Slice , Column |
160/170 |
≥10 |
Non. |
Non. |
B175 |
Powder, Slice , Column |
165/175 |
≥10 |
Non. |
Non. |
B180 |
Powder, Slice , Column |
170/180 |
≥10 |
Non. |
Non |
Product detail pictures:
We now have a skilled, performance team to supply good quality services for our consumer. We often follow the tenet of customer-oriented, details-focused for 100% Original Factory Thermostatic Wax Series Supply to Amman, The product will supply to all over the world, such as: Slovakia , Malaysia , Sierra Leone , We have got constantly insisted on the evolution of solutions, spent good funds and human resource in technological upgrading, and facilitate production improvement, meeting the wants of prospects from all countries and regions.
How to troubleshoot a Samsung refrigerator problem.
I’ve owned the refrigerator for 2 years. Today, the freezer stopped working. The temperature reached 59 degrees F and power cooling had no effect after 2 hours. I unplugged the unit from the electrical outlet, plugged it back in, and turned on power freeze again.
While waiting for it to cool, I called A&E Factory Service since I purchased the extended warranty. A&E had my information and what I purchased in their computer system. The woman put me on hold before transferring me to Samsung support department. That was very odd because my warranty is with A&T, not Samsung. The Samsung politely said she has no record of the extended warranty and would charge me for a technician visit. Samsung did say if I unplug the unit and wait 30 seconds before plugging it back in, that will reset the onboard computer.
I left the power freeze on and checked back 2 hours later. The temperature dropped below 0 F and the contents in the freezer started to harden.
It sucks that this fairly new top of the line Samsung refrigerator failed after 2 years.
I’ll keep you posted on future developments.
Samsung RF32FMQDBSR
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Samsung RS267TDRS
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Samsung RS265TDRS
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User Friendly Fuzzy Logic based “Farm Automation” using Arduino and Labview with X-bee based Control System
Team Members : Sanjay Raam , Bharatwaj, Ramakrishnan, Prasanna, Vignesh
College : Meenakshi Sudararajan Engineering College (Department of EEE)
In spite of the vast advancement in technology, the exposure of a primary sector like agriculture to technology is quite limited in India. With an exponential decrease in the labour availability for agriculture, a second green revolution is the order of the day. The objective of this paper is to reduce the pressure on manual labour. This is done with the help of Arduino, LabView and X-bee Technology. Essential parameters of the field are sensed to have a continuous unmanned supervision.
The Literature Survey of our project can be viewed at:
https://www.youtube.com/watch?v=mIhVfJGFkdM
There are basically three levels in the project which work independently. The first level is the field level which is placed in the field itself. This measure the various parameters of the environment of the field using the sensors. The values measured by these sensors are sent to the next level by means of Xbee. The next level is the monitoring level, this level receives the data from the field level through Xbee shield connected to Arduino and is sent to Labview through Arduino. The parameters can be monitored using Labview. The fuzzy algorithm for the outputs are also coded in the Labview. The fuzzy inputs are Soil Moisture Level, Humidity and Temperature. The Humidity is given higher priority or preference as the spraying of water to increase humidity in turn increases soil moisture level to an extent. The fuzzy outputs are Drip System for irrigation and Sprayer system to control humidity in air. The Drip system is also used to fertilize the plants while the sprayer system can be used to spray weedicide before sowing the crops. The other input from the Light Dependant Resistor(LDR) is directly used to control the artificial lighting system. The third level is the control level. This level is used to control the outputs using relays connected through Arduino. The other feature of the project is that the various sensor values are regularly uploaded to the server which ca be used for agricultural research in future.