CDVBN(A) AND CDVBP(A)

CAST IRON STOVE AND BURNER SYSTEM

VENTING

INSTALLATION

Continued

Venting with Two 90° Elbows

Vertical (V)

Horizontal (H1) +

 

Horizontal (H2)

5' min.

6' max.

6' min.

12' max.

7' min.

18' max.

8' min.

20' max.

20' max.

20' max.

Figure 29 - Horizontal Termination Configuration for Rigid Venting Using Two 90° Elbows with Termination at 90° with Stove

INSTALLATION FOR VERTICAL TERMINATION

NOTICE: Use rigid pipe only. Flex venting is not to be used with a vertical termination.

1.Determine the route your vertical vent- ing will take. If ceiling joists, roof rafters, or other framing will obstruct the venting system, consider an offset (see Figure 30) to avoid cutting loadbearing members. Note: Pay spe- cial attention to these installation in- structions for required clearances (air space) to combustibles when passing through ceilings, walls, roofs, enclo- sures, attic rafters, etc. Do not pack air spaces with insulation. Also note maximum vertical rise of the venting system and any maximum horizontal offset limitations. Offsets must fall within the parameters shown in Fig- ure 18 on page 9.

2.Set the stove in desired location. Drop a plumb line down from the ceiling to the position of the burner system exit flue. Mark the center point where the vent will penetrate the ceiling. Drill a small locating hole at this point.

Drop a plumb line from the inside of the roof to the locating hole in the ceil- ing. Mark the center point where the vent will penetrate the roof. Drill a small locating hole at this point.

Roof

Flashing

Wall Strap

45° Elbow

Flat Ceiling Installation

1.Cut a 10" square hole in the ceiling us- ing the locating hole as a center point. The opening should be framed to 10"x10" (254mm x 254mm) inside di- mensions, as shown in Figure 22 on page 12 using framing lumber the same size as the ceiling joists. If the area above the ceiling is an insulated ceil- ing or a room, nail firestop from the top side. This prevents loose insulation from falling into the required clearance space. Otherwise, install firestop below the framed hole. The firestop should be installed with no less than three nails per side (see Figure 31, page 15).

2.Assemble the desired lengths of pipe and elbows necessary to reach from the burner system flue up through the firestop. All connections must be sealed with high temperature silicone sealant as specified in the second warn- ing statement on page 10. Be sure all pipe and elbow connections are fully twist-locked (see Figure 21, page 12).

Ceiling Firestop

Figure 30 - Offset with Wall Strap and 45°

Elbows

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Image 14
Desa CDVBP(A) Installation for Vertical Termination, Flat Ceiling Installation, Roof Flashing Wall Strap Elbow

CDVBP(A), CDVBN(A), CDVBP(A) specifications

Desa CDVBN(A), CDVBP(A), and CDVBP(A) are innovative and cutting-edge technological platforms designed to enhance communication and operational efficiency in various sectors, including business, education, and public services. Each of these platforms boasts unique features and characteristics that make them stand out in their respective fields.

Desa CDVBN(A) is known for its robust hybrid integration capabilities. It allows organizations to seamlessly connect on-premises systems with cloud applications, thereby enabling hybrid workflows and ensuring data consistency across different platforms. One of its main features is a versatile API management toolkit that facilitates the smooth exchange of information between disparate systems. This capability is especially beneficial for organizations looking to modernize their IT infrastructure without entirely discarding legacy systems. Furthermore, its user-friendly interface encourages ease of adoption among non-technical users.

On the other hand, Desa CDVBP(A) focuses primarily on business process optimization. It introduces advanced automation features that streamline repetitive tasks, reduce operational costs, and improve turnaround times. Equipped with machine learning algorithms, CDVBP(A) learns from user interactions to optimize workflows dynamically. This platform’s main selling point is its extensive analytics capabilities, providing organizations with valuable insights into productivity patterns, resource utilization, and areas for potential improvement. Its customizable dashboard allows users to visualize data effectively, thereby empowering informed decision-making.

Desa CDVBP(A), while sharing similarities with its counterpart, takes a more specialized approach aimed at enhancing collaborative efforts within teams. It integrates features such as real-time messaging, file sharing, and project management tools, creating a centralized space where team members can interact and collaborate seamlessly. The platform leverages cloud technology to ensure accessibility from anywhere, making it an ideal solution for remote teams. Additionally, it offers secure data encryption and compliance features, ensuring that sensitive information is protected against unauthorized access.

In summary, Desa CDVBN(A), CDVBP(A), and CDVBP(A) exemplify the future of communication and operational efficiency. Each platform serves distinct yet complementary roles, ranging from hybrid integration and business process optimization to teamwork enhancement. By embracing these technologies, organizations can position themselves competitively in an increasingly digital landscape, improving not only their internal operations but also their overall service delivery.