DE2709896A1 - Dust filter with cleaning action - having spring which moves cloth when suction fan is turned off - Google Patents

Abstract

Dusty air is pulled through a filter by means of a fan. The filter has a permeable wall on which is laid a medium, with springs between it and the wall. When the fan is switched off a slight movement is induced in the filter cloth by the spring. The permeable wall can consist of a flat plat with projections or a domed lattice type housing. The filter itself is flat and lies across the projection or is domed to fit the dome shaped support. Leaf springs of circular or bow shape can be used with several across the filter element. Used to remove dust from air streams. The filter is extremely simple and has a wide range of application.

Description

Filtering device

Summary There will be a device for filtering dusty Suggested air that is sucked in by a fan through a filter. The establishment consists of a plate-shaped, cup-shaped or tubular filter that has something is stretchable and is pressed against a permeable wall during suction. After completion During the suction process, the filter is turned against the suction direction by resilient elements moves, causing dust adhering to the filter to fall into a dust container.

State of the art In devices of this type, the Filter material a layer of dust that acts as a filter. This increases the flow resistance of the filter. To prevent this from happening, precautions must be taken that the dust falls off.

It is known, mechanical knocking and electrical vibrating devices to remove the dust adhering to the filter after switching off the fan. Such devices are very expensive and can damage the filters or even destroy it.

Advantages of the invention The device according to the invention with the characterizing Features of the main claim has the advantage that it is extraordinary is simple and protects the filters as much as possible.

The measures listed in the subclaims are advantageous Further developments and improvements to the features specified in the main claim are possible.

Exemplary embodiments of the invention are shown in the drawing and explained in more detail in the following description. It show figure 1 is a plan view of a half-illustrated housing for a filter, FIG 2 shows a section along II-II according to FIG. 1 with the filter in suction mode, FIG 3 the same section but with the filter in position with the fan switched off, figures 4 to 6 a modification of the embodiment according to FIG. 1, FIG. 7 a pot-shaped one Filter device in longitudinal section, shown in the right half at Suction operation, shown in the left half with the suction fan switched off, figure 8 a modification of the exemplary embodiment according to FIG. 7, FIGS. 9 and 10 a modification of the exemplary embodiment according to FIG. 7 shown in cross section, FIGS. 11, 11a, 12, 12a and 13, 13a further design options for filter devices.

Description of the invention In Figures 1 to 3, 10 is a housing referred to - half shown in Figure 1 and seen from below, in Figure 2 in section along II-II according to Figure 1 - on the underside of a larger number are formed by projections 11, which are all of the same length. At these protrusions is a flat filter 12, which is slightly stretchable. The said filter device located in a dust container 13. This has a lower opening 14, above a hose connected to the dust hood of a hammer drill, for example is. However, it can of course be other work equipment where Dust accumulates. In the upper part of the housing there is an opening 15, which at a suction fan is connected. So that air from the opening 14 over the filter can reach the opening 15, lateral slots 16 are formed in the housing 10, and slots 17 on the top of the housing. Between the housing 10 and the filter 12 one or more curved Blattfeclerrl # 8 are arranged, which are against the Place filter. The leaf springs are all attached to the housing at one end.

Dust-laden air enters at the opening III, it streaks Filter, with dust settling except on the filter. The cleaned air flows on it through the slots 16, 17 and the opening 15 to the suction fan.

The flow resistance of the filter decreases due to the accumulation of dust to. It can be measured as a pressure loss. The permeability of the filter and the Air speed will decrease. Less dusty air is sucked in. A part the layer of dust falls on the due to the reduced air speed Bottom of the dust container 13. This reduces the pressure loss and the air speed increases again and more dust air is pumped. However, the total pressure loss increases constantly up to the maximum pressure of the suction fan. But the dust container must first be filled.

If the suction fan is switched off before the dust container is full, the layer of dust must fall off the filter as much as possible in order to prevent the suction from running again to have a large permeability of the filter available. Dry concrete dust usually falls off easily from the filter. Damp concrete dust, brick dust and cement dust Due to their structure, they hold more firmly to the filter and also fall after being switched off the suction fan performs worse.

The inventive arrangement of the leaf springs 18, however achieved that after switching off the suction fan, the adhering to the filter falls off Dust is caused. As soon as the fan is switched off, the press on one side The easily stretchable filter is quickly removed from the pre-protrusions with the enclosed leaf springs 11, which causes the filter to vibrate so that the dust is removed from the Surface of the filter falls away into the dust container 13.

When the suction fan is subsequently switched on, the pilter the air flowing through it ticked back to the plumbing 11, whereupon the Leaf springs 18 are tensioned. Figure 2 shows the filter position in suction mode, FIG. 3 with the suction fan switched off.

The exemplary embodiment according to FIGS. 4 to 6 shows a modification of the exemplary embodiment according to FIG. 1. Only the spring element is changed here. It consists of a spring plate 20, which by several compression springs 21 against the filter 12 is pressed. The springs are on the one hand on the housing, on the other hand on the spring plate 20. The function is again the same as in the exemplary embodiment according to Figure 1. Figure 5 shows the filter in suction mode, where it is at the projections 11 is applied, Figure 6 shows the filter with the fan switched off, where it is through the springs are suddenly pushed away from the housing, so that the dust in the dust container 13 falls.

When the fan is switched on, the filter settles as a result of the Air back to the projections 11.

In the exemplary embodiment according to FIG. 7, there is a cup-shaped filter 23 is provided, which is against the outer wall of a likewise pot-shaped housing 24 sets, which is designed like a grid, so a large number of openings 25 has.

The filter device is in turn located in a dust container 26, which is now also pot-shaped. It has a central opening 27 that is connected to an implement, and an upper opening 28, which is connected to the suction fan connected.

The cup-shaped filter 23 is slightly expandable. Between him and A plurality of leaf springs 29 are arranged on the outer wall of the housing 24. You are near of the upper edge of the filter attached to the housing and extend to the lower edge of the case where they can move freely. Will open on 27 Dust air is sucked in, it penetrates the filter, the dust settles on it Surface, and the cleaned air flows through the interior of the housing to the opening 28 and to the fan. The leaf springs 29 are compressed. Will the blower turned off, the pre-tensioned leaf springs now press 29 that The filter suddenly moves outwards, causing the dust to fall off and settle in the bottom of the dust container 26 collects.

The exemplary embodiment according to FIG. 8 differs from that one according to FIG. 7 again only by the spring element. It is designed that way as in the exemplary embodiment according to FIG. 4, it consists of a spring plate 30, which is loaded by several compression springs 31. The effective area of this spring element is located approximately in the middle of the filter.

The exemplary embodiment according to FIGS. 9 and 10 shows cross sections through a cup-shaped filter, as shown in Figure 7, only the Spring elements are formed slightly differently. Again there are several arched ones Leaf springs 32 are provided, which now, however, do not extend along the filter, but across this. Each leaf spring is firmly attached to the housing in its center tied together. The function is self-evident after knowing the above.

The exemplary embodiments according to FIGS. 11 and 12 are is a modification of the spring element. In both cases it consists of one Pressure plate 33 which is loaded by a spring 34. This works through a role 35 on the pressure plate 33. Two are supported on opposite sides of the roller Rods 36, 37, the ends of which bear against spring-loaded pistons 38. The whole Device is designed in the manner of a Knichebclpresse, whereby after switching off of the fan achieved a snap effect by the spring 34 and said parts will, d. H. the filter is suddenly pushed outwards, creating a special good shaking off the dust results. Figures 11a and 12a show the spring element with the blower switched off The exemplary embodiment according to FIG. 12 differs from that of Figure 11 only by the other spring mounting of the rods 37. This is a rubber-like spring element 40.

In the embodiment according to FIG. 13, one is on the filter acting pressure plate 41 is provided, which is loaded by springs 42 at its ends is. In the middle of it engages a hydraulic piston 43, which has the purpose of the application movement of the filter when the fan is switched on. This is done in that from the bore 44 receiving the piston pressurized oil via a throttle 45 into a Side channel 46 is displaced.

From the above it can be seen that the filter material at least It must be slightly stretchable that the mobility of the filter in and against it the suction direction must be guaranteed by its shape, also that of the resilient Elements and that the movements and distortions of the filter is as large as possible. Switching the fan on and off can expediently take place in a cycle, z. B. by an electronic switching device.

Claims (8)

Claims Oi device for filtering dusty air that sucked in by a fan through a filter attached to a permeable wall applied, characterized in that between the filter (12, 23) and the permeable Wall (10, 24) resilient elements (18, 21, 29, 32, 34) are provided, which when Turning off the blower the at least slightly stretchable filter against the Move suction direction. 2. Device according to claim 1, characterized in that the permeable Wall (10) a suction plate with projections (11) or a cup-shaped grid-like Housing (24) is. 3. Device according to claim 1, characterized in that the filter is designed in the form of a flat plate (12) which is attached to housing projections (11) is present. 4. Device according to claim 1, characterized in that the filter (23) is tubular or cup-shaped and on a correspondingly shaped housing (2) is present. 5. Device according to one of claims 1 to 3, characterized in that that compression springs are used as the spring element or leaf springs with circular or Arch shape. 6. Device according to one of claims 1 to 4, characterized in that that several compression springs (21) act on the filter via a plate (20, 33). 7. Device according to claim 1, characterized in that compression springs (3ei) act on the filter via a knee joint (35 - 37) and the rods of the knee joint are resiliently mounted, for. B. on springs loaded piston (38) or rubber stoppers. 8. Device according to claim 1, characterized in that the movement the filter when the suction fan is switched on by a damping element (ei3), z. B. a hydraulic piston with a parallel throttle path (46) is separated.