£1,500.00 inc VAT
Qty

7ft Oval Stock Tank Kit includes:
- 7ft Oval Stock Tank
- Wood Fired Coil Heater
- Wooden Hot Tub Stirrer
- Canvas Cover
- Floating Chlorine Dispenser
- Hose Fittings

Free Delivery UK Mainland. Free collection from Newmarket Suffolk CB87SX

7ft Oval Stock Tank

Dimensions 2.15m x 75cm x 60cm
Capacity 1050 ltr
Weight 36kg
These tanks feature 4 ply locked seams with contained sealant. The top contains a 22mm (0.875in) steel pipe rolled into the top edge to create a smooth crush-proof finish. The tanks also have a 19mm (0.75in) zinc coated, threaded plug assembly to enable the tank to be drained.
Made with G90 steel, galvanised steel that has been subjected to a chemical process to prevent rusting.The diameter of the products supplied may vary approx. 10 cm from the specified diameter.

These tanks have a wide range of uses from paddling pools, hot tubs, Ice baths, planters, dog pools and ponds. We can also offer heaters, vinyl wrapping and personalised colours, patterns and text at additional costs, please contact us for further information.

'DISCLAIMER'
Hastings tanks are primarily intended for the use in agricultural watering of livestock and so may have small dents or scratches on them. The sizes vary by approx 10cm as they are stacked inside each other for transportation.

DELIVERY - Estimated at 1-2 weeks due to requiring a large product courier.

Coil Heater

High quality and extremely robust hot tub heater coil, made from six and a half metres of 1 and a quarter inch (32mm) 304 stainless steel tubing. The fireguard enhances the thermo-syphon effect of your heater coil, containing the heat of the fire and channeling airflow more effectively.

Inner diameter of approx 300mm, outer diameter of 360-370mm. Comes with 300mm tails as standard (tails measured from the outer edge of the coil). The fireguard is made of 0.9mm stainless steel plate, which is fitted and welded around the coil.

- Do not leave unattended
- Never leave children unattended
- In extreme heat the edge of the stock tank can become warm