Hire Martin JEM Compact Hazer Pro

Martin JEM Compact Hazer Pro is available to hire from Adlib in the UK. Request a JEM Compact Hazer Pro hire price below.
Hire Martin JEM Compact Hazer Pro uk

About Martin JEM Compact Hazer Pro

The Martin JEM Compact Hazer Pro is a popular hazer stocked by our lighting hire department.

Robust yet small and lightweight, the JEM Compact Hazer Pro is a versatile haze machine designed for the highly demanding professional live events market.

The JEM Compact Hazer Pro produces exceptional atmospheric haze effects in a short period of time while operating at low noise levels. This makes it ideal for nearly any application from concerts and tours to theatre, TV studios, clubs, and entertinament venues.

  • Ultra-fast 1 minute ready time
  • Shutdown cycle to prevent clogging
  • Actors' Equity/Broadway League Approved
Manufacturer:
Model Number:

Rental Price:

Request a Price

Get our best Martin JEM Compact Hazer Pro prices.

Rent

Hire Martin JEM Compact Hazer Pro

Our best UK Martin JEM Compact Hazer Pro hire prices are not published online. Request a rental price below. We will respond within 1 business working day.

Demo Martin JEM Compact Hazer Pro

You would be welcome to visit our demo facilities in Liverpool or Glasgow for a personal demo of Martin JEM Compact Hazer Pro. Click below to arrange. Request Demo

  Need help? Give us a call on +44 (0) 151 486 2214

Similar Martin Smoke, Haze, Effects

Martin JEM ZR 44 Smoke Machine
Martin JEM ZR 44 Smoke Machine
The Jem ZR44 Hi-Mass™ is a reliable and highly efficient fogger capable of precise fog delivery from subtle to massive. Ideal for a variety of ...
Martin Magnum 1800 Smoke Machine
Martin Magnum 1800 Smoke Machine
The Magnum 1800 is a high-powered fogger suitable for any installation - from the largest to the smallest. Highly flexible, the 1800 is built sleek...
Martin Magnum 2500 Hazer
Martin Magnum 2500 Hazer
The Magnum 2500 uses a newly-developed 900 W heat exchanger to produce a massive 2500 m3 of haze, which is then evenly distributed by the integrate...
-->