Bingman Construction Selected as Lead Construction Partner for UMSL’s Social Science Building's Elevator

Bingman Construction Company, a woman-owned Limited Liability Corporation (LLC) founded in 2005, has been a beacon of excellence in the construction industry in the greater St. Louis, Missouri area. With a strong commitment to delivering unparalleled results, the company has carved a niche for itself in the industry. The company’s ethos is deeply rooted in its mission to provide high-quality construction services that exceed client expectations. Over the years, Bingman Construction Company has undertaken a wide array of projects, ranging from residential to commercial and public works, thereby contributing significantly to the infrastructural development of St. Louis.

Bingman Construction Company’s Approach

The company’s approach to project management is unique and effective. Bingman Construction Company believes in partnering with the owner and architect right from the inception of the project, ensuring a seamless integration of ideas and execution. This collaborative approach not only helps in maintaining cost controls but also mitigates risks associated with the project. The company leverages cutting-edge technologies to evaluate the constructibility and schedule of the project, ensuring that the project is completed on time and within budget. Safety and quality are paramount in Bingman Construction Company’s approach, with rigorous safety protocols and quality checks in place to ensure the highest standards are met. Let’s dive deeper into Bingman’s methods on a complex project.

Partnering from Inception

Bingman Construction Company believes in partnering with the owner and architect right from the inception of the project. This early involvement allows them to understand the owner’s vision and the architect’s design intent thoroughly. It fosters a collaborative environment where ideas can be freely exchanged and potential issues can be identified and addressed early on. This approach ensures a seamless integration of ideas and execution, leading to a final product that aligns with the owner’s expectations and the architect’s design.

Cost Control and Risk Mitigation

The collaborative approach also helps in maintaining cost controls and mitigating risks associated with the project. By being involved from the start, Bingman Construction Company can provide valuable input on cost-effective construction methods and materials. They can also identify potential risks early in the process and develop strategies to mitigate them. This proactive approach to cost control and risk mitigation can lead to significant savings in both time and money.

Leveraging Technology

Bingman Construction Company leverages cutting-edge technologies to evaluate the constructability and schedule of the project. They use advanced software tools to create detailed 3D models of the project, allowing them to visualize the final product and identify potential issues before construction begins. These tools also enable them to develop a realistic and efficient construction schedule, ensuring that the project is completed on time and within budget.

Emphasis on Safety and Quality

Safety and quality are paramount in Bingman Construction Company’s approach. They have rigorous safety protocols in place to protect their workers and the public. These protocols are regularly reviewed and updated to reflect the latest industry standards and regulations.

In terms of quality, Bingman Construction Company conducts regular quality checks throughout the construction process. These checks ensure that the workmanship meets the highest standards and that the materials used are of the best quality. Any issues identified during these checks are promptly addressed, ensuring that the final product is of the highest quality.

In conclusion, Bingman Construction Company’s approach to project management combines collaboration, cost control, risk mitigation, technology, and a strong emphasis on safety and quality.

The UMSL’s SSB Elevator Project

While specific details about the UMSL’s SSB Elevator project are limited, the importance of such projects cannot be overstated. Elevators in educational institutions like UMSL play a crucial role in ensuring accessibility and safety for all students and staff. Given Bingman Construction Company’s track record, it’s likely that they brought their expertise and commitment to quality to this project, ensuring the elevator was constructed to the highest standards. Potential challenges such as coordinating with various stakeholders, adhering to safety regulations, and managing construction timelines would have been expertly handled by the Bingman team.

Past Projects

One notable project was the construction of UMSL’s Nursing Learning Resource and Simulation Center. This project was a significant undertaking, involving the renovation and expansion of the existing center. The goal was to create a state-of-the-art learning environment for nursing students, with the latest equipment and technology.

The project kicked off with a hybrid in-person and virtual event, reflecting Bingman’s adaptability in the face of the ongoing COVID-19 pandemic. The attendees, including UMSL’s Chancellor Kristin Sobolik and interim dean of the College of Nursing, Roxanne Vandermause, signed a construction beam and toured the facilities.

The 21,000-square-foot immersive learning center was designed by the St. Louis firm Archimages1. It aimed to provide a state-of-the-art space, equipment, and technology to train the next generation of nurses. The project was expected to cost a total of approximately $7 million, for both construction and equipment costs.

Throughout the project, Bingman Construction Company worked closely with UMSL to ensure that the center would meet the needs of the nursing students and faculty. They took into account the specific requirements of a nursing learning resource and simulation center, such as the need for practical learning spaces and advanced simulation equipment.

This project is a testament to Bingman Construction Company’s client-focused approach. They understand that each project is unique and requires a tailored solution. By partnering with their clients from the inception of the project, they ensure a seamless integration of ideas and execution. This collaborative approach not only helps in maintaining cost controls but also mitigates risks associated with the project.

Bingman Construction Company leverages cutting-edge technologies to evaluate the constructability and schedule of the project, ensuring that the project is completed on time and within budget. Safety and quality are paramount in Bingman Construction Company’s approach, with rigorous safety protocols and quality checks in place to ensure the highest standards are met.

In conclusion, Bingman Construction Company’s work with UMSL Nursing exemplifies their commitment to taking their clients’ needs seriously. Their collaborative approach, attention to detail, and commitment to quality and safety ensure that they deliver projects that meet and exceed their clients’ expectations.

1. Pre-Construction Phase

Site Assessment

The site assessment is a crucial first step in any construction project. It involves a thorough examination of the site to understand its characteristics and constraints. This could involve:

• Soil Testing: This is done to determine the type and properties of the soil at the site. The results of soil testing can influence the design of the building’s foundation and other structural elements.
• Environmental Impact Assessments: These assessments are conducted to identify any potential environmental concerns related to the construction project. This could include issues related to air and water quality, wildlife habitats, and more.
• Surveys: Surveys are conducted to determine the exact boundaries of the site. They also help identify any existing structures, utilities, or other features on the site that may impact the construction process.

Permit Acquisition

Permit acquisition is another critical step in the pre-construction phase. Depending on the location and nature of the project, various permits may be required before construction can begin. These could include:

• Building Permits: These permits are typically required for new constructions, additions, renovations, and demolitions. They ensure that the project complies with local building codes and regulations.
• Environmental Permits: If the construction project could potentially impact the environment, additional permits may be required. These permits ensure that the project complies with environmental laws and regulations.
• Specific Construction Permits: Depending on the nature of the project, additional permits may be required. For example, if the project involves plumbing or electrical work, separate plumbing or electrical permits may be needed.

Project Planning

Project planning involves developing a detailed plan for the project. This includes:

• Timeline: The timeline outlines the schedule for the project, including the start and end dates and the estimated completion dates for different phases of the project.
• Budget: The budget provides an estimate of the total cost of the project. It includes the cost of materials, labor, equipment, and other expenses related to the construction.
• Specifications: The specifications provide detailed information about the construction, including the materials to be used, the methods of construction, and the standards to be followed.
• Resources: The plan will also identify the resources needed for the project. This includes labor (such as architects, engineers, construction workers), materials (like concrete, steel, wood), and equipment (such as cranes, excavators, hand tools).

2. Design and Planning

Architectural Design

The architectural design phase is where the vision for the SSB comes to life. This involves creating detailed blueprints of the project, outlining the layout, appearance, and functionality of the building.

• Layout: The layout of the SSB would be designed to facilitate the flow of people and ideas. This could include strategically placed classrooms and offices, collaborative spaces for students and faculty, and amenities like cafeterias and restrooms.
• Appearance: The appearance of the SSB would be designed to be aesthetically pleasing while also reflecting its purpose as a place of learning and research. This could involve choices about the style of the building, the materials used, and the color scheme.
• Functionality: The functionality of the SSB would be a key consideration in the design. This could involve ensuring accessibility for all users, incorporating technology in the design, and considering sustainability and energy efficiency.

Engineering Design

The engineering design phase involves designing the structural, electrical, mechanical, and plumbing systems of the SSB. Engineers ensure that the design is safe, efficient, and meets all relevant codes and standards.

• Structural Design: The structural design of the SSB would ensure the building can withstand various loads and forces. This involves designing the foundation, walls, floors, and roof of the building.
• Electrical Design: The electrical design would ensure the building has a safe and efficient electrical system. This involves designing the lighting, power, and data communication systems.
• Mechanical Design: The mechanical design would ensure the building has effective heating, ventilation, and air conditioning (HVAC) systems. This could also involve designing other mechanical systems like elevators.
• Plumbing Design: The plumbing design would ensure the building has a safe and efficient system for water supply and waste disposal. This could also involve designing fire protection systems.

Cost Estimation

Cost estimation is a critical step in the design and planning phase. Based on the design, a detailed cost estimate is prepared. This includes the cost of materials, labor, equipment, and any other expenses related to the construction.

• Material Costs: The cost of all materials needed for the construction of the SSB would be estimated. This includes everything from concrete and steel for the structure, to electrical wiring and plumbing fixtures, to finishing materials like paint and flooring.
• Labor Costs: The cost of labor would be estimated based on the amount of work required and the prevailing wage rates for construction workers in the area.
• Equipment Costs: The cost of any equipment needed for the construction of the SSB would be estimated. This could include everything from cranes and excavators for the initial construction, to specialized equipment for installing electrical and mechanical systems.

Each of these steps in the design and planning phase requires careful planning and coordination. Any changes or issues that arise during this phase can have a significant impact on the project, making it a critical part of ensuring the success of the project.

3. Procurement

The procurement phase involves sourcing all the necessary resources for the project. This includes:

• Material Procurement: All the materials required for the construction are procured. This could include everything from concrete and steel to electrical wiring and plumbing fixtures.
• Labor Procurement: The necessary labor force is assembled. This could include a variety of professionals such as construction workers, electricians, plumbers, and carpenters.
• Equipment Procurement: Any equipment needed for the construction is procured. This could include heavy machinery like cranes and excavators, as well as smaller tools and equipment.

4. Construction

The construction phase is where the actual building takes place. This involves:

• Site Preparation: The site is prepared for construction. This could involve clearing the land, excavating for foundations, and setting up temporary facilities for the construction workers.
• Building Construction: The building is constructed according to the design plans. This involves a series of stages, including foundation work, framing, installation of systems, and finishing work.
• Quality Control: Throughout the construction process, quality control measures are in place to ensure that the construction meets the specified standards. This could involve regular inspections and testing of materials and workmanship.

5. Elevator Processes

1. Design and Planning: The design of the elevator shaft must align with the overall building design and comply with local building codes and safety regulations. The shaft must be designed to accommodate the elevator car, counterweights, and mechanical systems. The location and size of the shaft can significantly impact the building’s layout, so careful planning is necessary.
2. Structural Integrity: The elevator shaft must be structurally sound to safely support the elevator system. This involves careful selection of materials and construction techniques. The walls of the shaft must be strong enough to withstand the forces exerted by the moving elevator and counterweights.
3. Fire and Safety Regulations: Elevator shafts must comply with strict fire and safety regulations. They must be constructed with fire-resistant materials and include features like ventilation and emergency exits. The shaft must also be sealed properly to prevent the spread of fire or smoke between floors.
4. Mechanical and Electrical Systems: The elevator shaft houses various mechanical and electrical systems, including the elevator car, pulley systems, control systems, and lighting. These systems must be carefully installed and integrated into the shaft.
5. Precision: The construction of the elevator shaft requires a high level of precision. The shaft must be perfectly vertical, and the dimensions must be accurate to ensure the smooth operation of the elevator. Even minor deviations can lead to significant problems, such as uneven elevator movement or doors not aligning properly with the floors.
6. Inspections and Testing: Throughout the construction process, regular inspections and testing are necessary to ensure the quality and safety of the elevator shaft. After construction, the elevator system must be thoroughly tested before it can be put into operation.

Building an elevator shaft is a critical part of any multi-story construction project. It requires a high level of expertise and attention to detail to ensure the safety and efficiency of the elevator system. It’s a task that underscores the complexity and precision involved in modern construction.

6. Post-Construction

Clean-Up

Once the construction is complete, the clean-up process begins. This involves removing all construction debris from the site, including leftover materials, packaging, and waste. The site is thoroughly cleaned to ensure it’s safe and presentable. This could involve sweeping, dusting, washing, and other cleaning methods. In addition, any temporary structures or facilities used during construction, such as portable toilets or storage sheds, are removed.

Final inspections are conducted to ensure that the building meets all relevant codes and standards. These inspections are typically conducted by local building inspectors or other authorized officials. They check various aspects of the building, including the structural integrity, safety features, electrical systems, plumbing, HVAC systems, and more. Any issues identified during the inspection are addressed promptly. This could involve making necessary repairs or adjustments to the building.

Handover

The handover process involves transferring the ownership of the building from the construction company to the owner. This could involve a formal handover ceremony. As part of the handover process, the owner is provided with all necessary documentation. This could include:

• Building Plans and Specifications: These documents provide detailed information about the building and its systems.
• Warranties: Warranties for materials, equipment, or workmanship may be provided by the construction company or the manufacturers of the materials or equipment used in the construction.
• Operating Manuals: These manuals provide information on how to operate and maintain the building’s systems, such as the HVAC system, elevator, security system, etc.
• Maintenance Schedule: This document outlines the recommended schedule for maintaining various parts of the building, such as when to service the HVAC system or when to inspect the roof.

Conclusion

Bingman Construction Company’s work is indeed shaping the future of construction in St. Louis. Their commitment to excellence is evident in every project they undertake, and their innovative approach to project management sets them apart in the industry.

Their approach is not just about constructing buildings; it’s about creating value for their clients and the wider community. They understand that their projects are more than just physical structures - they are spaces where people live, work, and learn. Therefore, they strive to create buildings that are not only structurally sound and aesthetically pleasing, but also functional and sustainable.

While we await more details about the UMSL’s SSB Elevator project, we can be confident that Bingman Construction Company brought their usual dedication and expertise to the project. Given their track record, it’s safe to assume that they approached this project with the same level of professionalism and attention to detail that they bring to all their work.

Moreover, Bingman Construction Company’s ongoing contributions to the St. Louis community are a testament to their capabilities and commitment to excellence. They are not just building structures; they are helping to shape the city’s skyline and contribute to its growth and development. Each project they undertake adds to their legacy and cements their reputation as a reliable, high-quality construction company.

In conclusion, whether it’s a large-scale commercial project like the UMSL’s SSB Elevator or a smaller residential project, Bingman Construction Company’s commitment to excellence and innovative approach to project management ensure that they consistently deliver high-quality results. Their work is indeed shaping the future of construction in St. Louis, and we look forward to seeing what they will build next.