The present disclosure relates to a method for fixing a metal sheet serving as a filter element, holding element, protective element, screen element, and the like to the inner peripheral wall of a filter device such as a centrifuge, a rotary filter and the like.
In such a method, a metal sheet, which can fulfill various functions and have a wide variety of structures, is inserted into the cylindrical housing or drum of a filter device and fixed therein in a rounded state to the inner peripheral wall of the housing. An example of such a method is described in DE 10 2009 024 760 A1, which involves inserting a protective screen into a centrifuge drum. Specifically, this publication describes a device for holding a filter foil or a filter cloth, which in the installed state in a centrifuge drum rests on a support device. The protective screen is inserted into the drum, and in the installed state it clamps the filter foil or the filter cloth and the support device between the sealing lips of the sealing element. The device also has at least one tension ring, which in the installed state presses the protective screen radially outward.
In this known solution, the metal sheet, which is designed here as a protective screen, is therefore fixed to the inner peripheral wall of the filter device with the aid of a tension ring.
In order for such a known method to function correctly, metal sheets having corresponding spring properties must be used so that they can be brought into the required round shape perfectly. Furthermore, these metal sheets must have a very high dimensional accuracy so that exact fixation is possible. In many cases, this is not the case or achieving this is correspondingly complicated. In addition, fixation with the aid of tension rings alone is not always reliable and is also complicated.
The object of the disclosure is to provide a method of the type described above with which such metal sheets can be fixed especially easily, conveniently, and accurately.
This object is achieved by a method of the type specified, which comprises the following steps:
In the method, an expansion device is used to spread the axial edge regions of the rounded sheet metal insertion apart in the circumferential direction of the housing or the drum and press it against the peripheral wall of the housing or against other filter elements, metal sheets, etc., already inserted in the housing. In this pressed state, the pressed metal sheet is then fixed in the spread-apart position, after which the expansion device is removed from the metal sheet and then removed from the housing of the filter device. When the expansion device is actuated, it comes into contact with the two axial edge regions of the sheet metal, for example by clamping, hooking, etc., so that during the subsequent spreading process the edge regions of the metal sheet move in the circumferential direction and the metal sheet is thus prestressed.
The housing of the filter device can be cylindrical, but can also be of other shapes (conical, etc.). The metal sheet can be formed as a single- or multi-piece sheet.
When the metal sheet has reached its prestressed end position by spreading it apart, it is fixed in this position. This can be done in a number of different ways. In one embodiment, the metal sheet is fixed in the spread-apart position by fastening it to the peripheral wall of the housing (or to elements or metal sheets inserted beforehand). For example, the metal sheet can then be screwed to the peripheral wall or other elements.
Another possibility is to clamp the metal sheet in position with the aid of tension rings.
In another variant of the method, the metal sheet is fixed in the spread-apart position by inserting a strip between the axial edge regions of the metal sheet. In this embodiment, it is assumed that a corresponding gap exists between the axial edges of the metal sheet in the spread-apart state, which is then closed by inserting a strip so that the metal sheet can no longer return to its relaxed position. The inserted strip thus fixes the metal sheet in its position pressed against the peripheral wall.
Such a strip for fixation can also be inserted in the form of several parts, for example when there is not enough space available to insert the strip. The strip or the individual strip pieces can be fixed to the metal sheet to prevent them from moving out of position.
The strip used can be a profile with two lateral grooves, for example, which engage the ends of the rounded metal sheet.
The expansion device thus causes the edge regions of the metal sheet to spread apart, as a result of which the metal sheet is pressed against the peripheral wall of the housing or other elements already arranged there. Preferably, an expansion device is used which has two locking pins which can be brought into engagement with the edge regions of the metal sheet. These locking pins are brought into engagement with the respective edge regions after arranging the expansion device over the edges of the metal sheet, for example hooked to the metal sheet if it is a perforated plate, screen plate, etc., and then moved apart by actuating the expansion device so that the edge regions spread apart accordingly. Depending on the desired type of fixation of the metal sheet, the spreading process can be performed so that the edges of the metal sheet are butt-to-butt, form a gap between them, or remain overlapped.
The expansion device as such can be operated manually or driven by a motor.
The present disclosure further relates to a filter device, in particular centrifuges, rotary filters, and the like, in particular with a cylindrical housing having a filter element, holding element, protective element, screen element, and the like that has been fixed to the inner peripheral wall of the housing using a method of the type described above.
The disclosure also relates to the use of an expansion device for performing a method of the type described above. Such an expansion device has, for example, a rotating spindle with left- and right-hand threads, with which adjusting elements exhibiting locking pins perpendicular to the spindle axis mesh. Such locking pins can be adjustable, for example by means of threaded connections, with respect to the adjusting elements.
Such an expansion device is used in that it is inserted into the housing in such a way that it covers the sheet metal seam, which is normally arranged at the lowest point in the transverse direction with respect to the seam. The locking pins of the expansion device are then moved downward so that they firmly engage the edge regions of the metal sheet, for example by hooking into the metal sheet. By turning the spindle, the adjusting elements, together with the locking pins, are then moved to the left and right at the same time so that the edge regions of the metal sheet spread apart accordingly. When the metal sheet has reached a certain spread-apart end position, it is fixed in position, for example by inserting a strip into the gap between the ends of the metal sheet, after which the locking pins are disengaged from the metal sheet, and the expansion device, possibly after moving the adjusting elements back to their original positions, can be removed from the housing.
In the method, for example, metal sheets with a thickness of 3-5 mm and having corresponding elastic properties enabling them to be bent round are used. The metal sheets may be provided with a marking to mark the location at which the expansion device is to be arranged. To enable the expansion device to engage the metal sheet, special preparations can also be made if the metal sheet does not directly have corresponding structures such as protrusions, holes, etc. For example, lugs, which are engaged by the locking pins of the expansion device, can be attached to the metal sheet.
The invention will be explained in detail below with reference to an exemplary embodiment in conjunction with the drawing. The following is shown:
The cylindrical cross-section 1 shown in
The screen plate 3 shall now be fixed in position inside the housing. For this purpose, an expansion device 6, shown only schematically in
Suitable adjusting elements 12,13, each of which bears a locking pin 14,15 extending perpendicular to the spindle axis, mesh with the corresponding threaded section 9,10. The locking pin 14,15 is connected to the adjusting element 12,13 via a threaded connection. One section 16 on the locking pin serves to engage a suitable assembly tool.
Each locking pin 14,15 is beveled on its tip to form a hook that can engage an opening in the edge region 4,5 of the screen plate 3.
To be able to insert the strip 7 into the gap between the spread-apart edge regions 4,5 of the screen plate 3, for example in the axial center of the screen plate 3, a corresponding recess is provided on both sides in the edge regions thereof, which allows two strip halves to be inserted in both directions. These strip halves can be fixed, for example, by clamping them to the screen plate 3.
The corresponding movements of the expansion device 6 can be performed manually or driven by a motor. An expansion device with motor drives is not shown here.
Number | Date | Country | Kind |
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10 2018 007 294.1 | Sep 2018 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/DE2019/000230 | 8/29/2019 | WO | 00 |