FIXING DEVICE FOR REINFORCING THE JOINT OF A ROTARY HEAT EXCHANGER

Abstract

The invention relates to a fixing device (1) for reinforcing the joint of a rotary heat exchanger (2) which has a hub part (5) and a heat storage part (6) made of corrugated and flat layers that are wound in an alternating manner. The aim of the invention is to reinforce the joint of the rotary heat exchanger with as little technical complexity as possible. This is achieved in that the rotary heat exchanger (2) can be arranged in the fixing device (1) in a stationary manner, the fixing device (1) has a screw drill device (10) which is arranged on the outer circumference of the rotary heat exchanger (2) arranged in the fixing device (1) and by means of which at least one screw spoke (17) can be drilled or screwed from the outer lateral surface (9) of the rotary heat exchanger (2) through the corrugated and flat layers of the heat storage part (6) of the rotary heat exchanger (2) and into the hub part (5) thereof.

Claims

1. A stabilizing apparatus for reinforcing joints of a rotary heat exchanger having a hub around which is wound a heat-storage part made of alternating corrugated and flat layers, the apparatus comprising: a frame for holding the rotary heat exchanger stationarily in the stabilizing apparatus; and a screw/drill device juxtaposed with an outer wall of the rotary heat exchanger held in the frame for drilling/screwing at least one screw spoke from an outer wall of the rotary heat exchanger through the corrugated and flat layers of the heat-storage part of the rotary heat exchanger and into the hub.

2. The stabilizing apparatus according to claim 1, further comprising: a first stabilizer guide fittable into the hub of the rotary heat exchanger and a second stabilizer guide juxtaposed with the outer wall of the rotary heat exchanger.

3. The stabilizing apparatus according to claim 2, wherein the second stabilizer guide has an alignment part with at least one guide hole through which the screw spoke can be drilled/screwed into the rotary heat exchanger by the screw/drill device.

4. The stabilizing apparatus according to claim 3, wherein the alignment part has two guide holes spaced axially of the rotary heat exchanger from each other and both of which have approximately the same spacing as end walls of the rotary heat exchanger.

5. The stabilizing apparatus according to claim 1, wherein the screw/drill device has at least one guide rail extending radially of the rotary heat exchanger in the stabilizing apparatus and a feed slide of the screw/drill device movable longitudinally of the guide rail for drilling/screwing the screw spoke into the rotary heat exchanger.

6. A method of making a rotary heat exchanger in which a heat-storage part made of alternating corrugated and flat layers is wound around a hub of the rotary heat exchanger, and, in order to provide firm joints of the rotary heat exchanger, spoke members extending from the hub thereof to the outer circumference surface of the heat-storage part are inserted into the rotary heat exchanger, the method comprising the steps of: using screw spokes as spoke members of the rotary heat exchanger, and screwing the screw spokes from an outer wall of the heat-storage part of the rotary heat exchanger, through the corrugated and flat layers of the heat-storage part of the rotary heat exchanger forming guide holes in the corrugated and flat layers of the heat-storage part, and into the hub of the rotary heat exchanger, until screw heads of the screw spokes are in contact with the outer wall of the heat-storage part.

7. A rotary heat exchanger manufactured by a method according to claim 6.

8. An apparatus for stabilizing a heat exchanger rotatable about an axis and having a hub at the axis, a heat-storage part formed by alternating flat and corrugated elements wrapped around the hub, a cylindrical radially outer wall surrounding the heat-storage part, and a pair of axially spaced end walls axially flanking the heat-storage part, the apparatus comprising: a frame adapted to hold the heat exchanger stationarily; a guide assembly on the frame and extending radially outward from the end wall; and a screwing/drilling device displaceable radially along the guide assembly for screwing a screw spoke radially inward through the outer wall, through the heat-exchange part, and into the drum until a head of the screw spoke radially engages the outer wall.

Description

[0011] The invention will now be explained by way of an embodiment with reference to the drawing in which

[0012] FIG. 1 is a perspective schematic view of an embodiment of the inventive stabilizing apparatus for reinforcing the joints of a rotary heat exchanger;

[0013] FIG. 2 is a perspective schematic view of a rotary heat exchanger reinforced with regard to its joints in the inventive stabilizing apparatus shown in FIG. 1; and

[0014] FIG. 3 is a perspective enlarged partial view of a rotary heat exchanger reinforced with regard to its joints in the inventive stabilizing apparatus shown in FIG. 1.

[0015] An embodiment of an inventive stabilizing apparatus 1 shown in FIG. 1 in a schematic view for reinforcing the joints of a rotary heat exchanger 2 also shown in FIG. 1 has a support frame 3 standing on feet 4.

[0016] The rotary heat exchanger 2 is set in the stabilizing apparatus 1 or the support frame 3 thereof in a fixed spatial position.

[0017] The rotary heat exchanger 2 has a hub 5 and a heat-storage part 6 surrounding the hub 5 and formed from alternating wound corrugated and flat layers not shown in detail in FIG. 1.

[0018] A first stabilizer guide 7 and a second stabilizer guide 8 are attached to the support frame 3 of the stabilizing apparatus 1.

[0019] The first stabilizer guide 7 is on the support frame 3 of the stabilizing apparatus 1 in such a way that this first stabilizer guide 7 can fit tightly into the hub 5 of the rotary heat exchanger 2. The second stabilizer guide 8 is mounted on the support frame 3 of the stabilizing apparatus 1 such that this second stabilizer guide 8 can assume an exact position with respect to a cylindrical outer wall 9 of the rotary heat exchanger 2.

[0020] Due to establishing the exact placement between the first stabilizer guide 7 of the stabilizing apparatus and the hub 5 of the rotary heat exchanger 2 as well as the exact positioning of the second stabilizer guide 8 of the stabilizing apparatus 1 and the surface of the rotary heat exchanger 2 on the outer wall of the rotary heat exchanger 2, the rotary heat exchanger 2 can be fixedly positioned relative to the support frame 3 of the stabilizing apparatus 1.

[0021] In the region of the stabilizing apparatus 1 of the rotary heat exchanger 2 radially outside the second stabilizer guide 8 of the stabilizing apparatus 1 there is a screw/drill device 10 mounted on the support frame 3 of the stabilizing apparatus 1. This screw/drill device 10 has a guide rail 11 along which a feed slide 12 of the screw/drill device 10 can move longitudinally back and forth.

[0022] In the embodiment of the inventive stabilizing apparatus 1 shown in FIG. 1 the second stabilizer guide 8 juxtaposed with the outer wall 9 of the rotary heat exchanger 2 has an alignment part 13 formed with two guide holes 14 and 15. The two guide holes 14 and 15 are spaced from each other parallel to the axis of the rotary heat exchanger 2. The guide holes 14 and 15 are spaced apart about the same as the respective planar end walls 16.

[0023] In the embodiment shown in FIG. 1, two screw spokes 17 can be received in the screw/drill device 10. The two screw spokes 17 can be mounted between the feed slide 12 of the screw/drill device 10 on the one hand and the guide holes 14 and 15 of the alignment part 13 of the second stabilizer guide 8 of the stabilizing apparatus 1 in such a way that they extend radially from the rotary heat exchanger 2. The screw/drill device 10 can drill/screw the two screw spokes 17 in them through the corrugated and flat layers of the heat-storage part 6 of the rotary heat exchanger 2 fixed stationarily on the support frame 3 of the stabilizing apparatus 1 as far as into the hub 5 thereof. With this arrangement the screw spokes 17 are screwed by the screw/drill device 10 and the radially biased feed slide 12 from the outer wall 9 of the heat-storage part 6 of the rotary heat exchanger 2 through the corrugated and flat layers of the heat-storage part 6 of the rotary heat exchanger 2 forming their own guide holes in the corrugated and flat layers of the heat-storage part 6 into the hub 5 of the rotary heat exchanger 2. The lengths of the screw spokes 17 and the diameter of the rotary heat exchanger 2 are such way that the screw spokes 17 with their radial inner ends relative to the screw/drill device 10 are screwed into the hub 5 of the rotary heat exchanger 2 when screw heads 18 shown in particular in FIG. 3 enter into contact with the outer wall 9 of the heat-storage part 6 of the rotary heat exchanger 2.

[0024] In the embodiment shown in principle in FIG. 2 of the rotary heat exchanger 2 reinforced with regard to its joints by the inventive stabilizing apparatus 1, eight screw spokes 17 in total were inserted in the above-described manner. To this end the rotary heat exchanger 2 had to be fixed in the stabilizing apparatus 1 in four rotary positions offset by 90 degrees. Each of these screw spokes penetrates the heat-storage part 6 of the rotary heat exchanger 2 comprising the corrugated and flat layers from the outer wall 9 thereof up to the hub 5 thereof. This makes it possible, with comparatively little technical complexity, to considerably reinforce the mechanical joints of the rotary heat exchanger 2. On the one hand this is achieved due to the fact that the corrugated and flat layers of the heat-storage part 6 are fixed relative to each other due to the screw spokes 17 penetrating them, and on the other due to the fact that the space between the outer wall 9 of the rotary heat exchanger 2 and the hub 5 thereof is fixed.