DE3816725A1 - LINK ELEMENTS AS AN ALTERNATIVE FOR BLADE AND FAN BLADES FOR AXIAL AND RADIAL BLOWERS - Google Patents

Abstract

Member elements as an alternative for blade wheels and blower rotors such as those used in axial-flow and radial-flow blowers. The member head has rotating, chain-like, mobile members which extend during operation due to centrifugal force and, upon standstill, collapse upon themselves due to gravity.

Description

The invention relates to link units as an alternative for Wing, shovel and fan wheels which are heavily soiled Transport gases such as those in axial and radial fans be set.

It is known that axial and radial fans work well efficiency and constant volume flow can be used everywhere. There are always faults with gases with a high dust load and costly shutdowns around the fan wheels To clean blades. Blower wheels in the heating area are sometimes high in the flue gas ducts Exposed to temperatures, so they are made of thick-walled Made of material and have the drive motor opposite a high proportion by weight and tend to make a lot of noise transfers.

The object of the invention is to be the cleaning problems sided that downtime is avoided and the operating security is guaranteed. In the known devices the gas flow is sucked in axially and through the blades or wheels directly blown coaxially. With radial fans, gas is blown out tangentially.

The alternative parts for impeller blades are preferably Wreaths from links, which in turn from single link elements exist, find different uses, and in one Rotate the unit as a link head.

The invention is characterized in that in axial fans the wall of the housing concentrically in the area of the link head is to the articulated head axis, and tapers towards the base plate and a baffle is arranged against the drive side, which prevents the incoming gases from escaping axially.

That the link head from a central hub and on the outside movably attached links over the circumference of the hub are distributed,  exists and that the limbs rotate almost to the Extend wall. The limbs penetrate the flow loose gas flow, causing large pressure gradients and in As a result of this turbulence. This causes the gases to pass through the differently designed links in rotation in the center to the outside to the periphery and or the scoop-like elements pressed and flow redirected over a conically expanded um steering surface opposite to the suction direction.

In the case of radial fans, the housing has a streamlined shape, so that the gases are only blown out tangentially and no longer around need to be directed.

The limbs extend when rotated due to the Centrifugal forces, radially outwards and thus take their for the gas promoting optimal position. When the spray stops on the other hand, they hang down due to gravity. The Limbs are self-cleaning due to the crust formation the movement of them when the link head starts and stops are subject.

The links are preferably made of steel, but they can also from a sufficiently heavy and stable other metal or plastic. To avoid crust formation the mobility of the individual limbs is advantageous and this is favored by the fact that there are several on the outside of the hub Links are attached, each consisting of several, in the manner of a ket pieces tied together with one another Link elements exist.

The gas-producing gas produced with the rotating members Effect is favored in that the links to two or several wreaths are arranged, each wreath of several at the same axial height distributed over the circumference orderly members. Because the gas flow on its way the path of the rotating Glie is diverted from the upstream side who must enforce, in this case, the various Push through wreaths at least once. The deflection by 90 °, which is caused by several such wreaths is the  half particularly intense and gas-producing because the neighboring ones Wreaths that influence each other and add to it stimulate gas production and the gases through the wall or baffle are forced to flow radially.

A particularly favorable one for the desired vortex formation Design of the links, which are also very easy to manufacture and is easy to maintain and reliable, it is ge indicates that a link consists of flat eyelets, which in interlinked and, based on their surface area, um Are rotated 90 ° with respect to the adjacent eyelets. Such links are known and common as a chain section and are available as mass production items in various Sizes available inexpensively.

Due to the 90 ° offset of adjacent eyelets, pressure gradients along the radially elongated member are produced in time with the member elements, which are favorable for the desired gas production. In this case it is advisable to arrange the inner eyelets parallel to the articulated head axis in relation to their surface area. The eyelets can be rings, preferably elongated oval rings. However, one can also design one or more eyelets to favor the formation of eddies only for the necessary free scope for hanging in the bar link elements after open design and furthermore ge closed design. The result is that the eyelet has the shape of a disk with two diametrically opposite the holes in which the adjacent eyelets are suspended. In such a case, all eyelets can be closed in this way, or only the vertical or another selection can be made. In the case of radial blowers and two arranged rings and more, a forward, backward curved or straight element, FIGS. 1 and 2, which is designed as a blade, is preferably arranged and is loosely connected to the link units, as shown in FIGS . 1 and 2.

The start phase in which the link head is set in rotation,  is started with a soft start as it is state of the art taken. Problems with the limbs when starting and stopping the There is no link head.

The invention will now be described with reference to the accompanying drawings explained in more detail.

The drawing shows:

Fig. 1 in partial section of a radial fan,

Fig. 2 shows the section I in Fig. 1 during operation,

Fig. 3 in partial section of an axial flow fan,

Fig. 4 shows the section I in Fig. 3,

FIGS. 5a and 5b shows a detail of Fig. 2 and 3 in the resting state of the link heads and

Fig. 6 shows a modified configuration of a link for the link head, which can also be used in conjunction with Figs. 3 and 4.

In the drawings, ( 1 ) denotes a housing for a Radialge blower, which in the area has an axis ( 2 ) concentric wall ( 3 ) which is closed against the suction direction by the housing ( 1 ) and serves as a motor mount. With ( 4 ) a tangential discharge opening is designated.

In the drawing 3 with ( 1 ) a housing for an Axialge blower is shown and designated, which has a concentric to the axis ( 2 ) wall ( 3 ) in the area and coaxial to the axis ( 2 ) has a blow-out opening ( 4 ). At the bottom of the concentric wall ( 3 ) is a conical wall piece ( 5 ), which is also concentric to the axis ( 2 ) and tapers at an angle ( 6 ) 45 ° downwards and at a distance via an intake duct ( 11 ) or ends open through a base plate ( 12 ), which is also the engine mount.

The link head ( 23 ) on the outflow side in the center of the blow-out opening ( 4 ) is assigned an impact surface ( 8 ) which prevents outflowing gas from being fed back to the link head ( 23 ) in the upper center, with ( 9 ) webs which denote the Firmly connect the baffle ( 8 ) to the wall ( 3 ).

Arranged in the housing section below, surrounded by the wall piece ( 5 ), is a link head, generally designated ( 23 ), which is mounted coaxially to the axis ( 2 ) and can be driven rotatably about the axis ( 2 ) as an axis of rotation via the shaft which is guided outwards ( 24 ). The direction of rotation is indicated by the arrows ( 25 ) in FIGS. 2 and 4, the arrows ( 10 ) indicate the gas flow direction.

The link head ( 23 ), by an axial fan Fig. 3, 4 and 5, consists of a central hub ( 26 ) and attached to it movably on the outside, chain-shaped links ( 30-45 ), which form two rings ( 46 , 47 ) on the Circumference of the hub are attached distributed. The links ( 30-37 ) form the upper ring ( 46 ) and the links ( 38-45 ) form the ring ( 47 ) located at a distance below. Both wreaths have the same number of links, which are in each case on the other wreath on a gap, as shown in Fig. 4. The members of the ring (47) are shorter than that of the ring (46) to compensate for the conical configuration of the Wandungs piece (5) and dimensioned so that they extend in Fig. 3 shown operating position almost to the wall piece (5). In the rest position, the limbs ( 30-45 ) hang down as shown in FIG. 5 due to gravity and find space there in the space enclosed by the wall ( 5 ). When they run out, the links ( 30-45 ) fall down into the position shown in FIG. 5 and when they start up they stand up in the position shown in FIG. 3.

The limbs ( 30-45 ) consist of elongated eyelets, for example the limb ( 60 ) from the eyelets ( 61-65 ), of which the innermost eyelet ( 61 ), that is to say in the example the eyelet ( 61 ) the hub is fixed immovably. The innermost eyelets ( 61 ) are vertical with the surface extension, the next eyelets, for example the eyelet ( 62 ), are horizontal and then the subsequent eyelets alternate vertically and horizontally. Standard chain sections can be used for the links.

There are modified designs of the links and eyelets possible, it is essential that they are movably attached and due to gravity take a different position when at a standstill than when rotating. One possibility of changing the design of the links ( 30-45 ) is shown in Fig. 6, in which link ( 60 ) consists of five link elements. The eyelet ( 61 ) is attached to the hub ( 26 ), the other links are loosely attached to one another in a chain. The link elements ( 30-45 ) are eyelets ( 65 ) as in the embodiment example of FIG. 6 in the form of open rings. The link element ( 63 ) is a flat, oval disc which has holes ( 67-68 ) at both ends, into which the neighboring eyelets ( 62-64 ) are suspended with play. Other or all link elements can also be designed, such as the link element ( 63 ).

The link head ( 23 ) of a radial fan Fig. 1- 2 and 5 consists of a central hub ( 26 ) and movably attached to it on the outside, chain-shaped links ( 30-37 ) which form two rings ( 46-47 ) parallel to the circumference of the Hub ( 26 ) are distributed on. The members of the ring ( 46 ) are movably connected to the members of the ring ( 47 ) by blade elements ( 27-29 ) as shown in FIGS. 1 and 2 and extend almost to the tear-off edge ( 7 ) of the wall ( 3 ).

The device is operated as follows:

The link head ( 23 ) is started and driven rotating via a soft start. As a result, gas is drawn into the intake duct ( 11 ). The link head ( 23 ) acts as a radial fan with a diagonal or axial component due to the conical design of the wall piece ( 5 ). The gas flow is sucked in by the vacuum on the inlet side. The flow is established by the links ( 30-45 ) and blade elements ( 27-29 ) of the link head ( 23 ). In the area of the rotating members of the link head ( 23 ), the flow is driven radially outward and exposed to different pressure ratios from link element to link element and the gas nozzle is pushed to the outlet ( 4 ) and blown out in the direction of the arrow ( 10 ).

Reference symbol list

1 housing
2 axis
3 wall
4 outlet opening
5 conical wall piece
6 angles
7 tear-off edge
8 baffle
9 bridges
10 arrows
11 intake duct
12 base plate
13 -
14 -
15 -
23 link head
24 drive shaft
25 arrows
26 hub
27 blade element
28 blade element
29 blade element
30 link
31 link
32 link
33 link
34 link
35 link
36 link
37 link
38 link
39 link
40 links
41 link
42 link
43 link
44 link
45 link
46 wreath
47 wreath
48 -
49 -
50 eyelet
51 eyelet
52 eyelet
53 eyelet
54 eyelet
55 eyelet
60 links
61 link element
62 link element
63 link element
64 link element
65 link element
67 holes
68 holes

Claims (9)

1. A arranged in the center of the housing ( 1 ) rotatable about a vertical axis drivable link head ( 23 ), which also acts as a fan for conveying the gases, characterized in that in the region of the link head ( 23 ) the wall ( 3 ) of the housing ( 1 ) concentric to the link head axis ( 2 ) is that the link head ( 23 ) consists of a central hub ( 26 ) and links ( 30-45 ) which are movably attached to the outside and are distributed over the circumference of the hub ( 26 ) , exists and that the links ( 30-45 ) extend almost to the wall ( 3 ) when rotating. 2. Device according to one of the preceding claims, characterized in that on the outside of the hub ( 26 ) a plurality of links ( 30-45 ) are attached, each of a plurality of link elements ( 61-65 ) which are attached to one another in the manner of chain pieces with mutual mobility. consist. 3. Device according to one of the preceding claims, characterized in that the links ( 30-45 ) to two or more eren wreaths ( 46 , 47 ) are arranged, each wreath of several members arranged at the same axial height on the circumference ( 30-45 ) exists. 4. Device according to one of the preceding claims, characterized in that a link head ( 23 ) which has a plurality of ring arrangements ( 46 , 47 ), movably connected by paddle elements 27-29 Figs. 1 and 2 and is connected to one another. 5. Device according to one of the preceding claims, characterized in that a link ( 50-55 ) consists of flat eyelets ( 65 ) which are interlocked and, based on their surfaces, are rotated by 90 ° relative to the adjacent eyelets (64) . 6. Device according to one of the preceding claims, characterized in that the innermost eyelets ( 61 ), based on their surface area, are arranged parallel to the link head axis ( 2 ). 7. Device according to one of the preceding claims, characterized in that one or more eyelets ( 63 ) are open and also closed only for the required free scope for hanging the neighboring link elements ( 61-65 ). 8. Device according to one of the preceding claims, characterized in that in the region of the link head ( 23 ) the wall ung ( 5 ) of the housing ( 1 ) is tapered to the suction side, preferably 45 °, and that above the wall ( 3 ) is concentrated Risch to the axis of rotation ( 2 ) of the link head ( 23 ) is continued and at the same time blow-out opening ( 4 ) and a baffle surface ( 8 ), Fig. 3, is arranged on the outflow side in the center. 9. Device according to one of the preceding claims, characterized in that the blade elements ( 27-29 ) are curved forward, backward or straight, as shown in Fig. 2.