2017 China New Design Thermostatic Wax Series to Australia Importers
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2017 China New Design Thermostatic Wax Series to Australia Importers 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.
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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:
abide by the contract", conforms to the market requirement, joins in the market competition by its high quality as well as provides more comprehensive and excellent service for clients to let them become big winner. The pursue of the company, is the clients' satisfaction for 2017 China New Design Thermostatic Wax Series to Australia Importers, The product will supply to all over the world, such as: Ghana , Iraq , South Korea , If you give us a list of products you are interested in, along with makes and models, we can send you quotations. Please email us directly. Our goal is to establish long-term and mutually profitable business relationships with domestic and overseas clients. We look forward to receiving your reply soon.
IDEA NOTE: This idea is open for working models and improvements. I have hardly any experience with steppor motors/worm gears, and have few tools and material to do this. (Update: It is very possible to use regular motors of particular qualities) So if you want to try it, and it works, you will be given credit in the overall design and construction. Just because I have designed this does not mean you cant try something based on this design. Every design, even patents, can be improved, its valid logic so that growth is not limited. Off the shelf solar trackers, perhaps two of them, have a good possibility in this system. There are pro’s and cons to every heliostat system, for example weather it is electronically or (blindly) steered using an electronic timing program, or senses the sunlight for steering. Some systems here on YouTube even uses a “water timing” method to steer at 15 degrees per hour.
Your input is needed on the forums where all the nuts and bolts about related things can be discussed.
The benefits of this design: Simplicity and perhaps low cost. Does not need any computer for timing. The same heliostat would work on Earth, the Moon, Mars, etc., without any new computer timing and the corresponding computer/.electronic timing program to actuate the motors to move the mirror.
Downside to the benefits: May have to be manually steered/aligned a bit at least once a day if the sensors cannot handle it. It is possible that the sensors can be turned/adjusted a bit to assist this daily alignment if need be, along with the gears.
This is basically like my previous video (please view and read the notes there), but here I show were the light sensors would be, as I described before.
For the light sensors, there is no “pots” (voltage/current potentiometers) that I was thinking of in the circuitry. Just some “comparator” or “logic” circuitry. When the (say vertical) sensor is aimed at the sun both will be “illuminated on” giving a signal as such. This signal should “shut/turn off” the motor. When one sensor of the (say vertical) sensor team is illuminated a motor will be turned on to rotate the gear so that both sensors will be illuminated and then the motor will turn off.
The sensors might be: light dependent resistors, small solar cells, photo resistors, certain color led’s. All these are currently being used elsewhere on the internet to steer “solar trackers” for solar panels. You will have to be very conscience of stray light hitting the sensors. Small flat black tubes or shadeing needs to be considerd, and the size of the openings to the sensors.
I believe a steppor type motor is necessary, and probably a worm gear (or other low ratio gear system) to increase the “fine tuning” of the the adjustments the motors will take to track the sun. A very simple method/circuit to activate the motors is only necessary I believe. No special circuitry, except that the vertical motor will need to be reversable since the sun “goes up” and then “goes down” vertically in the sky throughout the daylight hours. Note, the motors can either be directly attached to the axis of the horizontal and vertical gears, or gear/pully connected to those gears. Most likely a gear/pully – non direct drive – would be used for “fine aligning” the heliostat….specifically, it would take several pulses of the motor to amount to one minimal movement of the heliostat.
Note, this is only a basic drawing to show the functional design possibilites. There’s lots to “improvee”. For example, the vertical adjust gears would most likely be in a upright/vertical position, perhaps afixed to a metal frame. Also, where the mirror is attached leaves some ideas open, such as the gear section where the mirror is attached should be flat for better holding of the mirror.
Along with the design, all the testing and improvements are needed.
There are several good websites with good discussions about heliostats. Here is one I recently found, with a DIY heliostat and discussions I think people interested (if not for yourself, but for others you know, etc): https://www.iwilltry.org/b/projects/build-a-heliostat-for-solar-heating-and-lighting/
redrok.com has good discussions also for DIY heliostats.
Please visit this forum for solar and cnc projects – make a connection and sign up for a forum if you havent by now:
https://cerebralmeltdown.com/forum/index.php
Please see my previous videos also on heliostat for any notes I didnt place here.
I recently put “non quartz” in the title. Basically this means no electronic/computer timing method is used for this heliostat to track the sun. A quartz crystal is used to keep the accurate timing of these devices, and was/is used alot in clocks/watches and many electronic devices today. Many good heliostats actually use electronic timing, but this project is for one without timing.
Screw or cone type log splitter.
Built using an ebay kit for the screw, shaft, bearings and 200mm pulley.
The Motor is a 2.2kw (3hp) single phase 2800rpm with an 80mm pulley giving approximately 1000rpm at the splitter. I used this motor as it is the biggest I could run safely on a 13amp plug.
In this video I’m splitting alder and birch.
It currently runs too quick to split large discs of harder woods but is nice and fast for splitting down smaller stuff and making kindling.
The last bit of the video shows the procedure for reversing it when it jams.
