EVO

EVO

Crash-Rated Solution

  • Bollard Height

    1m

  • Excavation Depth

    1.1m

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EVO

Heald’s EVO Bollard range is a patent-protected high-security system with unique features unlike any other crash-tested rising bollards on the market.

Crash-tested as a single unit, the EVO Bollard provides protection for both lives and assets.

The HT2-EVO is one of the most resistant HVM bollards on the market, requiring only a 1.1m excavation. It has been IWA crash tested as a single unit to halt a 7.2-tonne truck travelling at 64kph (40mph). This variant rises to 1m and is coupled with unique internal reinforcement. Following the impact, the security bollard continued to function, ensuring continued access for emergency services and uninterrupted protection for both lives and assets.

The HT3-EVO is a slightly taller bollard (1.1m) and requires a slightly deeper excavation (1.2m). Crash tested to the latest ISO-22343 standard against a 7.2 tonne truck travelling at 50mph (80kph).

Both EVO variants have been designed as an electro-mechanically operated HVM rising bollard (semi automatic versions also available) with an excavation depth only 100mm deeper than the height of the bollard when fully raised.

A primary benefit of electromechanically operated bollards is their lower power consumption, with an operational saving of up to 60% compared to a standard hydraulically operated system. Additionally, the roadside cabinet can be much smaller as there is no requirement for a HPU. These two benefits combined give rise to a more sustainable HVM solution.

They are also available as a manually operated/semi automatic version for locations where traffic flow is less frequent or if running power to the area is cost prohibitive. The EVO can also be supplied as a hydraulically operated bollard but does not require the central ram prevalent in other manufacturers’ rising bollards, making it easier to maintain.

Bollard Shrouds

All EVO systems come with Stainless-Steel Covers as standard and can be provided with an extremely hardwearing coloured coating to match any RAL colour. Heald’s Intelligent Lighting System is also available housed within the bollard shroud.

Surface Finish

As standard, the top plate of the EVO is provided painted or alternatively can be provided as Textured Steel or Anti-Slip coated, all to the specific RAL colour of your choice.

All models are also available with Heald’s Architectural Paving System (APS), which is a proprietary set of trays and retaining steelwork fixed above the EVO Bollard’s top plate which can be filled with any surfacing material (Granite, Asphalt, Concrete, Resin, etc.) to create seamless integration with the architectural environment.

Although tested as a single unit, the EVO Bollard can be arranged in an array of multiple bollards and can be programmed to operate in unison or with different combinations of bollards to facilitate separate lane requirements e.g. Incoming and Outgoing traffic, Normal and Wide Loads, etc.

Three drive options are available for Heald’s EVO Bollard: Electromechanical, Manual and Hydraulic on request. Both Electromechanical and Manual drive options champion Heald’s commitment to sustainability:

The Electromechanical EVO

This is electrically operated requiring just a 3-phase 16A supply and can be up to 60% more efficient than hydraulic bollard systems.

There is also no requirement for hydraulic oil, eliminating the risk of spillages or environmental contamination.

An additional benefit is the elimination of hydraulic hoses which allows the roadside cabinet to be housed further away from the EVO without the need for long hydraulic hose runs which can be difficult to install and replace.

The roadside cabinet itself can also be smaller because the EVO does not require a bulky HPU, so less materials are required resulting in a smaller carbon footprint. This is also of benefit to the built environment as smaller cabinets are more easily concealed.

The Manually Operated EVO

This requires no power supply so is ideal for remote locations or for those areas where running electrical supplies would be prohibitive due to cost.

This is also cost-effective, efficient and an ideal way of installing high security physical protection measures whilst reducing initial project and running costs.

Heald design all their products to be long lasting and enable the easy replacement of serviceable components. We offer support and maintenance packages to all customers to ensure that the consistently high levels of service and protection you expect can be maintained by our specialist team of engineers giving you peace of mind that your security investment is in good hands.

  • ISO-22343 Tested
  • IWA-14 Tested

EVO

EVO

London, UK

EVO & Apex

Brisbane, Australia

EVO Benefits

  • Crash tested to IWA-14 and ISO-22343 standards
  • Excavation depths between 1.1 – 1.2m
  • Low maintenance
  • Integrate with the APEX bollard to close gaps in protected lines or extend the array
  • Paving tray option to seamlessly integrate with architecture
EVO & Apex Bollards Shrine Australia
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EVO Range

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  • HT2 EVO

    7.2T @ 40mph (64kph)

    Drive Options: All models available with either:

    1. Electromechanical Drive (Battery Drill can be used to Manually Operate in case of Power Failure)
    2. Manually Operated (Battery Drill)
    3. Hydraulically Operated (Manual Hand Pump at HPU in case of Power Failure)

    Bollard Height: 1000mm

    Bollard Core Diameter: 273 mm (306mm with Standard Stainless-Steel Covers)

    Excavation Depth: 1100mm

    Options:

    • Heald Intelligent LED Bollard Lighting
    • Emergency Fast Operation (EFO)
    • Architectural Paving System (APS) – 80mm or 110mm depth
    • Optional Hardwearing Colour Coating on Bollard Shroud
    • Trace Heating
    • Hydra Control
    Heald Evo Bollard

    HT2 EVO

    Performance Ratings:

    IWA14-1:2013 Bollard V/7200[N2A]/64/90:1.3 (7.2T @ 40mph)

    Patent Numbers:

    Granted EP patent EP3341524 (GB,FR,SE,NO,NL,IT,DE,TR)

    Granted US Patent US10,385,528

    Typical Use Cases of Single or Dual Arrays: Used to secure sites where there are narrow entrance gaps (e.g. Archway where approach is at 90° to the building).

    Typical Use Cases of Arrays of 3 Bollards or more: Entrances where a wide opening in the secure bollard line is required (e.g. for tight turning circles or unusually wide loads) or where multiple lanes of traffic need to be controlled.

    Steel Base Dimensions: 640mm x 955mm x 1120mm (if APS is added, +80mm or +110mm to depth).

    Operating Speed: 6 seconds.

    Data Sheet

  • HT3 EVO

    7.2T @ 50mph (80kph)

    Drive Options: All models available with either:

    1. Electromechanical Drive (Battery Drill can be used to Manually Operate in case of Power Failure)
    2. Manually Operated (Battery Drill)
    3. Hydraulically Operated (Manual Hand Pump at HPU in case of Power Failure)

    Bollard Height: 1100mm

    Bollard Core Diameter: 330mm (356mm with Standard Stainless-Steel Covers)

    Excavation Depth: 1200mm

    Options:

    • Heald Intelligent LED Bollard Lighting
    • Emergency Fast Operation (EFO)
    • Architectural Paving System (APS) – 80mm or 110mm depth
    • Extremely Hardwearing Colour Coating on Bollard Shroud
    • Trace Heating
    • Hydra Control
    Heald Evo Bollard

    HT3 EVO

    Performance Ratings:

    ISO 22343-1:2023 Bollard V/7200[N2A]/80/90:2.0/8.3 (7.2T @ 50mph)

    Patent Numbers:

    Granted EP patent EP3341524 (GB,FR,SE,NO,NL,IT,DE,TR)

    Granted US Patent US10,385,528

    Typical Use Cases of Single or Dual Arrays: Used to secure sites where there are narrow entrance gaps (e.g. Archway where approach is at 90° to the building).

    Typical Use Cases of Arrays of 3 Bollards or more: Entrances where a wide opening in the secure bollard line is required (e.g. for tight turning circles or unusually wide loads) or where multiple lanes of traffic need to be controlled.

    Steel Base Dimensions: 697mm x 1120.5mm x 1220mm (if APS is added, +80mm or +110mm to depth).

    Operating Speed: 6 seconds.

    Data Sheet

EVO USPs

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1.

1m rising bollard which only requires a 1.1m excavation

2.

Installation time is extremely fast with no blinding of the pit required and levels achieved using the built-in levelling feet

3.

Minimal assembly required with only 4 pieces of rebar to attach to the Bollard Base

4.

Can fully integrate with Heald’s APEX Bollard to close gaps in protected lines or extend the array of fixed bollards

5.

Very low, 1.3m penetration achieved on crash tests and the system continued to function afterwards with no repairs required

6.

Steel Construction provides excellent resistance from attack with hand tools.

7.

Can secure an opening of any size simply by extending the array of EVO Bollards

8.

Optional Paving Trays for seamless integration with Local Architecture. 110mm and 80mm depth APS trays available as standard options (other depths available on request)

9.

Optional visibility and warning for users can be added with the integration of Heald’s Intelligent Lighting System

10.

The bollard shroud is available in brushed 316 Stainless-Steel as standard or an optional choice of an extremely hardwearing colour coating, available in a huge variety of RAL colours

11.

Electromechanical operation provides many advantages over bollards which use hydraulic rams, such as lower environmental impact

12.

All serviceable parts within the EVO Bollard unit are close to the surface to make maintenance easier to conduct

13.

Relatively low maintenance requirements compared with other bollards

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