DE4424552C2 - Filter cartridge for separating particles with a retention device - Google Patents

Description

Filter cartridges identified here are constructed with a Inner cavity, inner and possibly also outer support body, one or several filter media, at least two lids, one of which at least one is provided with an opening, and are by a fluid flows through this opening from the inside to the outside, the entrained particles on the inside of the Deposit filter medium as described in GB 2046614 A. According to a certain time is a filter cartridge change to maintain functionality required. For this purpose, the fluid flow is switched off. Because filter cartridges usually have no particle retention devices (see also DE-S 26 23 409 and DE 42 01 041 A1, the only Medium retention devices), falls when the Filter covering in the filter housing. This leads to pollution of the Lines, the upstream and downstream units and also the used new filter cartridges, both on the inner, as well as the outer, clean side. In addition, particles on seals of the Housing and the filter cartridge can get leaked and can cause leakage.

The invention specified in claim 1 is the problem to create a tight closing restraint that retains the particles in the filter cartridge and is a problem The filter cartridge can be changed without the filter effect affect.

This problem is solved with that listed under claim 1 Restraint released.  

With the invention it is achieved that in the case of replacement of Filter cartridge only due to the usual loss of fluid flow close the flaps of the restraint system, possibly on the necessary support grid and thus the Inflow opening is closed so tightly that only minimal particles can fall out. Although the restraint as Flow resistance can be seen is that Restraint designed so that during normal Filter operation the filtering effect is not affected and only a slight increase in pressure loss is triggered. Farther affect any particles between the individual flaps of the Retaining device not the tightness.

Advantageous embodiments of the invention are in the subclaims specified. The circular or star-shaped arrangement of the flaps without lots of moving parts that particles could get into, enables maintenance-free operation of the restraint. The Plastic material gives the flaps great flexibility so that they can when the fluid flow hits it open slightly and the filtering effect not affect the cartridge. Due to the special design the hinge points of the flaps do not experience any notch stress, causing the lifespan is extended considerably. With small nominal sizes can the support grid can be dispensed with.

An embodiment of the invention is explained with reference to FIGS. 1 to 3. Show it

Fig. 1 filter cartridge with lid with inflow opening, provided with dust retention device in the closed state.

Fig. 2 filter cartridge with cover with inflow opening, provided with dust retention device in the open state.

Fig. 3 section of the dust retention device

Fig. 1 shows the filter cartridge with the filter medium ( 3 ), which is connected by means of the casting compound ( 2 ) with the cover ( 1 ) and by means of the casting compound ( 2 ') with the open cover ring ( 6 ). The cover ring ( 6 ) is shown with the integrated retaining device ( 5 , 6 , 7 ) when changing the cartridge (filter housing is open). The flow of the medium has ceased, the flaps of the retaining device ( 5 ) are closed and lie firmly on the support grid ( 7 ). Due to the perforation of the hinge points ( 8 ), the flexible flaps arranged in a star shape lie tight. The falling filter covering ( 4 ) cannot fall out through the inflow opening of the filter cartridge.

Fig. 2 shows the same filter cartridge during filter operation. Due to the speed of the medium ( 9 ), the flaps of the retaining device ( 5 ) remain open, normal filtration is possible. The filter covering ( 4 ) is deposited on the inside when the flow of the medium passes through the filter medium ( 3 ).

Fig. 3 shows the individual components of the dust retention device with triangular, flexible flaps ( 5 ) complementing a circular disc with perforation of the hinge points ( 8 ) for reducing the notch stress and the supporting wire mesh ( 7 ) for the flaps ( 5 ).

Reference list

1 lid
2 molding compound at the closed end
2 ′ casting compound at the open end
3 filter medium
4 filter pad, filtered out of fluid flow
5 flaps of the restraint
6 Lid ring with inflow opening
7 support grids
8 perforation of the hinge points
9 flow direction

Claims (9)

1. Filter cartridge, which is flowed from the inside to the outside, with at least one inflow opening, characterized in that the inflow opening has a retaining device for the collected particles. 2. Filter cartridge according to claim 1, characterized, that the restraint is mechanically compliant Elements. 3. Filter cartridge according to one or more of the preceding Expectations, characterized, that the retaining device consists of a support element and a elastic element is made. 4. Filter cartridge according to one or more of the preceding Expectations, characterized, that the elastic element is movable from one or more Flaps exists. 5. Filter cartridge according to one or more of the preceding Expectations, characterized, that the flaps are arranged in a circle or star. 6. Filter cartridge according to one or more of the preceding Expectations, characterized, that the retention device several mechanically movable Has parts and is formed from one part. 7. Filter cartridge according to one or more of the preceding Expectations, characterized, that the restraint is made of a rubber-like material consists.   8. Filter cartridge according to one or more of the preceding Expectations, characterized, that the hinge points of the flaps have a perforation. 9. Filter cartridge according to one or more of the preceding Expectations, characterized, that the elastic element in one piece from a circular disc is made.