Posts Tagged "Elevator drive"

9Dec

Greener Elevators and Lifts can save you money

by Andrew @ Uppercut
Commercial Accessibility Home Accessibility Home Elevators News and Such

When I think of making an environmentally sound decision, especially if it pertains to green elevators or a lift purchase, I can point out 3 contributing factors .

 

                          alberta               #1 Where is the device  manufactured?

This seems pretty obvious but if you can purchase a locally manufactured elevator or lift, the transportation impact can be minimized. Buying local not only reduces emissions it saves you money on shipping costs associated with replacement parts.

 

 

#2 What impact could the drive mechanism have on the environment?

Devices that utilize large hydraulic pumps and reservoirs may need to have precautionary measures were taken, such as oil separators in the event of a hydraulic oil leak. This is to ensure that the oil cannot seep into the ground or water table. Some jurisdictions in the past have asked that food grade oil is used in order to alleviate this concern. Elevators and lifts that utilize a Traction Home elevatorCounter Weight or Screw Drive don’t actually pose this risk, as no hydraulic fluid is used. These greener solutions only require a 2″-3″  pit (or no pit at all) so there is less concern with disturbing ground water. You may even be able to save some money on your site preparation as hydraulic elevators can require anywhere from a 6″ to 60″ pit.

#3 What are the ongoing energy costs?

This cost is two fold; the energy consumed as it relates to the environment and the monetary cost directly to you. Do your research on how much energy your elevator or lift will require operating. Devices with a mechanical advantage such as a traction counterweight drive will be up to 50% more energy efficient that a comparative hydraulic unit. Hydraulic elevators have to pump fluid into a cylinder which is often located in a separate machine room.

It doesn’t matter if  your goal is to consciously protect the environment or simply save some money (energy costs, site preparation , and maintenance), it’s apparent that the two can go hand in hand.

 

For more information Elevators and Lifts please click here or contact us for a free consultation.

 

26May

Choosing a drive mechanism for your elevator

by Andrew @ Uppercut

While many of our clients seem to spend a lot of time selecting elevator car finishes and aesthetic options , very little time appears to be allocated to discussing the drive mechanism. I can’t really blame them; after all talking about what moves that fancy box you just designed can seem  quite boring.  We however, feel it is important for our clients to get as much information as possible, especially when it concerns such an important aspect like the drive of your elevator.

In this blog I will be discussing the strengths and weakness of the following drive mechanisms.

  • Hydraulic
  • Traction Counter Weight

Hydraulic

This system utilizes a pump motor and oil reservoir, to force hydraulic fluid through a hose to a cylinder. The pump motor and reservoir are usually located in a separate machine room. If you areHydraulic Drive unable to provide a  borehole at the bottom of the pit you can use a roped hydraulic system.

Strengths

  1. Price point for the equipment will be in the mid-range when comparing other drives
  2. Machine room is easily accessible for servicing
  3. Manual lowering is inside the machine room
  4. Smooth ride and landing function providing the valve settings are adjusted correctly
  5. Usually, incorporates battery lowering in  the standard product offering
  6. Many manufacturers to choose from

 

Weaknesses

  1. A machine room will be required which equates to extra construction costs
  2. Hydraulic fluid temperature can affect performance
  3. Typically a pit of 8″ – 14″ is required
  4. Some jurisdictions may require a pit drain and an oil separator to ensure leaking fluid can’t enter the water table
  5. Power consumption will be 2-3 times higher than a traction counterweight system – Therefore more ongoing costs
  6. Maintenance costs on hydraulic units will be 2- 4 times  higher (over a 10 year period) due to the potential of leaks and issues with valves , gaskets, and the pump.
  7. Variable usage patterns can accelerate fluid degeneration
  8. If hydraulic fluid leaks there is the potential for the smell to permeate throughout the building
  9. Levelling and re-adjusting (anti-creep) issues

Traction Counter Weight

A traction counterweight drive operates the elevator by having  the mass of a series of  weights counter the elevator car and its occupants. If the user selects a command the elevator motor powers a cable (through a sheave) past the balance point and the device travels at a regulate rate in that direction.

   Strengths  

  1. Lower power consumption than hydraulic or winding drum systemsHome elevator
  2. Minimal  maintenance due to simple design with lower repair costs
  3. No machine room required
  4. Minimal 3″ pit required (or no pit at all with a small threshold ramp)
  5. No worry of hydraulic leaks or smells over the life of the elevator
  6. Variable speed drive for soft stop and start
  7. Low standby power
  8. Minimal issues with levelling even with variable capacities

Weaknesses

  1. Typically the equipment cost will be 10% – 15% higher than Hydraulic units (overall cost may be less when you consider construction and maintenance)
  2. Access to the motor is at the top of the hoistway (for the service technician)
  3. Manual lowering crank is accessed from the top landing
  4. Auto car lowering (similar to battery back-up) can be added for an additional cost
  5. Not a lot of manufacturers to choose from in the Alberta marketplace

A PDF summary of this document can be found here ——> Hydraulic vs Traction