BE1018767A5 - DIAGONAL FAN. - Google Patents

Abstract

The diagonal fan or set of fans in this invention is used in partially or wholly enclosed spaces for heating or cooling products. This in both continuous and batch process with or without additional injection of heat or cold gas. The inlet flow (3) is radial and the outlet flow (4) is axial. Radical flow to axial deflection is achieved by employing specially designed fan blades (2) with a section with radial flow properties and a section with axial flow properties or by combined blades with a radial (6) and an axial action (5). This combination may or may not be effectively physically connected without this connection forming a fully enclosed flow channel. The shape of the support disk for the fan blades does not interfere with the reversal of the flow. The generated fan flow may or may not be directed through the elements in the duct to assist the transition from radial to axial.

Description

DIAGONAL FAN

Diagonal fan for heating or cooling products in partially or fully enclosed spaces.

1. DESCRIPTION.

1.1. Background.

The diagonal fan described is used for heating or cooling products. To support the generated flow of the gas mixture, they can be provided with single or closed deflector elements. The fans, one or more, are used in completely or partially enclosed spaces. By this is meant every space that is not the free space such as tunnels or cupboards.

The object of the invention is to improve the performance and the resulting heat transfer from or to the product of axial fans in wholly or partially enclosed spaces.

Heating or cooling products in fully or partially enclosed spaces with standard fans is difficult to achieve. Due to the limited available space or due to cleaning regulations, axial fans are used where the generated flow is supported or not by deflectors. The fact that the space is completely or partially enclosed interferes with the development of a fully developed flow, especially since the required free inflow for the axial fan cannot be realized.

Products are transported on a conveyor belt in cooling tunnels or cryogenic tunnels. The operation is based on the assumption that the flow of the cooling medium, with or without additional injection of cooling gas, is directed at the products by means of axial fans placed above the products. These standard axial fans often develop an upward flow from the product to the fan, contrary to what was to be expected based on the design and operation of the fan. These upward flows and mixing flows, however, greatly reduce the heat transfer in the products.

Figure 1 shows the inverse flow generated by an axial fan in a partially or completely closed space. The flow of the medium flows from the product to the fan rather than vice versa as is expected with an axial fan.

The proposed diagonal fan offers a solution to this problem. The result is an axial flow from the fan to the product, while the inlet flow is radial.

1.2. General description.

Any fan or combination of fans, with or without elements that guide the flow, wherein the inlet flow is directed radially toward the axis of rotation and where the outlet flow is axial along the axis of rotation, is covered by the description of this invention.

The diagonal fan, see figure 1, consists of a fan with specially designed blades (2) or a combination of blades rotating around the same axis (1). These special blades develop a radial inlet flow (3) and an axial outlet flow (4). In the case of a combination of blades, one part (5) will maintain the axial flow and another part (6) will maintain the radial flow. The combination of both parts can be physically connected or not.

The drawings 2, 3 and 4 represent a number of possible but not limitative designs to visually support the general description and to illustrate the functionality and operation of the invention.

Drawing 2 represents a design with a specially designed sheet. Figure 3 represents a combination of blades which are physically connected. Figure 4 shows a combination of blades that are not connected.

1.3. Detailed description.

The diagonal fan is used for heating or cooling products in a partially or completely closed room. The processing process of the Products can be continuous or in batch. Additional gas for heating or cooling may or may not be injected into the gas mixture during the process. The location of the injection point may or may not be directly in the axial outlet stream. The diagonal fan consists of a minimum of two blades.

The inlet flow is radial. The outlet flow is axial. The axial outlet flow is almost homogeneous across the majority of the outlet flow surface of the fan. This is achieved by a set of specially designed blades or by two sets of blades with which the combination of bending a radial inlet flow to an axial outlet flow is achieved. This combination may or may not be physically connected. Both sets in the combination always have the same rotation axis. In the case of a combination, one part axial flow and the other set processes the radial flow.

In the case of a single set of specially designed blades (see Figure 2).

The inlet flow (3) is radial. A part of this current is immediately turned over to an axial current along the axis of rotation (5) through the axial part of the blade (2). The remaining part of the inlet stream (6) is trapped by the radial part of the blade (2). This part of the flow is moved axially and further inwards to the axis of rotation (7). The number of blades and their geometric dimensions are not limited. The specific angles of attack for the flow are determined by the design requirements. They are adapted to the specific requirements with regard to the desired performance. The shape of the various parts of the blades is also determined by the prescribed performance to be achieved. The shape varies whether or not along the radial axis of the blade. The type of material is determined by the application and the process and is not limitative. The blades are connected to a central connecting piece (8). This central part is connected to a drive shaft (1). The central part can take any shape. The drive shaft can be of any shape or size. The number of revolutions per minute is determined by the prescribed performance.

Figure 2 shows a possible non-limitative embodiment as an example with indication of the flow vectors.

In the case of a combined set of blades (see figures 3 and 4).

The inlet flow (3) is radial. A part of this current is immediately turned over to an axial current along the axis of rotation (5) through the axial part of the blade (2). The remaining part of the inlet stream (6) is trapped by the radial part of the blade (2). This part of the flow is moved axially and further inwards to the axis of rotation (7). The number of blades and their geometric dimensions are not limited. The specific angles of attack for the flow are determined by the design requirements. They are adapted to the specific requirements with regard to the desired performance. The shape of the various parts of the blades is also determined by the prescribed performance to be achieved. The shape varies whether or not along the radial axis of the blade. The type of material is determined by the application and the process and is not limitative

The sets of blades are connected to a central connecting piece (8). This central part is connected to a drive shaft (1). The central part can take any shape. The drive shaft can be of any shape or size. The number of revolutions per minute is determined by the prescribed performance.

Figure 3 shows a possible non-limiting embodiment of a diagonal fan as an example with indication of the flow vectors. The version consists of two sets of blades that are effectively interconnected.

Figure 4 shows a possible non-limiting embodiment of a diagonal fan as an example with indication of the flow vectors. The version consists of two sets of blades that are not connected. The distance between the two sets is not limiting.

Claims (11)

A diagonal fan for heating or cooling products in a batch or continuous production process in a partially or completely closed space with a radial inlet flow and an axial outlet flow wherein the change of flow direction over the diagonal fan from radial to axial is achieved by either : a. a specially designed blade, with a section with radial flow properties and a section with axial flow properties, without forming a fully enclosed flow channel. b. a combination of a blade with an axial action and a blade with a radial action. These combinations are physically connected to each other, effectively or not, without this connection forming a fully enclosed flow channel. The rotation from radial to axial over the fan takes place without the intervention of: c. additional static deflectors, single or closed, which force the flow from radial to axial to pivot d. a specially shaped carrying disc for the fan blades. The diagonal fan, according to claim 1, can be equipped with static deflection elements, single or closed, which guide the flow to support the transition from radial to axial. 2. CONCLUSIONS The number of blades, the flow angles and the shape of the blades, the number of revolutions per minute, the dimensions of the fan and the individual parts of the diagonal fan, according to claim 2, is determined by the application. The dimensions and geometry of the partially or completely closed space in which the diagonal fan according to claim 3 is placed is determined by the application. The position of the diagonal fan, in the partially or fully enclosed space, according to claim 4, is determined by the application. The number and arrangement of the diagonal fans, according to claim 5, is determined by the application. 7. Any type of material can be used for the blades, the central part and the axis of the diagonal fan according to claim 6. 8. Any type of cooling or heating gas mixture can be used in the process with the diagonal fan according to claim 7. 9. Additional injection of heating or cooling gas is possible during the process. The location of the injection point is not limiting for the operation of the diagonal fan according to claim 8. 10. Any type of product for heating or cooling can be used in the process with the diagonal fan of claim 9. 11. Any heating or cooling process, continuous or batch, can be used with the diagonal fan of claim 10.