RU2027397C1 - Industrial vacuum-cleaner - Google Patents

Abstract

FIELD: aspiration of contaminated air. SUBSTANCE: vacuum-cleaner has body with axially positioned cover, air-sucker mounted in cover, filter sleeve disposed in body and having lower cut connected with pan. Carcass formed from perforated disks disposed one above the other and device for cleaning filter by stirring are disposed in cavity. Filter cleaning device has bar extending in filter cavity through disks. One end of bar is rigidly connected with pan. Vacuum-cleaner carrier handle is fixed on cover. Filter cleaning device has auxiliary bar extending in filter cavity through disks and spring-biased with respect to cover. One end of auxiliary bar is rigidly connected with pan and other ends of bars are receiver in openings made in cover. Other ends of bars are rigidly connected with handle and positioned in symmetry with respect to longitudinal axis of body. Bar axes space exceeds air-sucker cross size. EFFECT: increased efficiency and enhanced reliability in operation. 2 dwg

Description

 The invention relates to portable filtering devices for aspirating contaminated air and its recirculation cleaning and is intended for use in mobile workplaces and in confined spaces.

 Known industrial vacuum cleaner, design of the Kiev Research Institute of Occupational Health and Occupational Diseases. The vacuum cleaner contains two parallel mounted in the housing machine-shaped bag filters. Doubling the number of bag filters was required to increase their dust absorption in order to increase the inter-regeneration period, since regeneration is impossible without removing the filters from the housing. Inside the bag filters are central magnetic systems (CMS). CMSs are designed to create a magnetic field on the fabric of bag filters, which improves the filtration of ferromagnetic particles (welding aerosol). CMSs are tubular supports on which permanent ring magnets are fixed; disk magnetic cores are attached to the ends of the magnets. The latter serve as a frame for bag filters, which is necessary to prevent the removal of bags in the presence of vacuum in the housing. To close the magnetic field lines in the design of the vacuum cleaner, mesh ferromagnetic shells coaxial to the bag filters are introduced. The traction drive (air-suction vacuum unit) is located in the lid, which overlaps the bag filters from above.

 A disadvantage of the known device is the lack of a bag filter regeneration system. In the initial form, their cleaning from the settled welding aerosol is possible only after removing the cover, removing the central heating system, as well as removing the bag filters themselves from the housing. This operation is not only time-consuming, but also involves the dispersion of the captured dust filtration and, as a result, its entry into the respiratory organs of the maintenance personnel.

 The closest to the claimed device in technical essence is a filter-absorption unit UFP2-UHL4.

 The known device is an industrial vacuum cleaner with a bag-type filter equipped with a regeneration system based on mechanical shaking. The known device contains a cylindrical housing with a cover and an internal bag filter. The bottom end of the filter is secured to a pan. The pallet is connected by means of a central rod spring-loaded relative to the cover to the handle for shaking the filter. When the handle is pulled up, the filter cloth is creased, due to which the dust is shaken. The bag filter of the known device has a bellows-like structure, which is provided by a disk-shaped frame located in the filter cavity, as well as by external rubber rings arranged in a checkerboard pattern. The frame disks are perforated to allow air to pass through. The stem passes through the centers of the discs.

 The disadvantage of this device is the inconvenience of shaking the filter, since it is necessary to remove the traction stimulator, and then install it in its original place. This is due to the coaxial arrangement of the rod and the vacuum unit, as well as the fact that the handle is located under the said unit. In addition, the bellows-like structure of the filter makes it difficult to remove contaminants on its surface, since dust from the upstream protrusions of the filter surface is poured onto the downstream protrusions, which causes dust to be held along the path to the bottom of the housing.

 The aim of the invention is to increase the reliability and usability of the vacuum cleaner.

 The goal is achieved in that in a vacuum cleaner containing a housing with a coaxial cover, in which a coaxially mounted vacuum unit is installed, as well as a bag filter located in the housing with a frame in the form of perforated disks, the lower cut of the bag filter is fastened to a pan that is spring-loaded relative to the cover and kinematically connected with a handle for shaking the filter, according to the invention, the kinematic connection of the handle for shaking the filter with a disk disk is carried out by means of two equally spaced from the longitudinal axis of the filter ezhney missed through peripheral holes in the disc, thus removing the rods from the longitudinal axis of the vacuum cleaner exceeds the transverse dimension air-suction unit.

 It is known in the art to use traction drives, filters, and a filter regeneration device. However, a new set of known features has a new property - filter regeneration is carried out in the process of relocation of the vacuum cleaner from one workplace to another when transporting it by the handle. This leads to a positive result - improving the reliability and ease of use. Which confirms the presence of significant differences.

 Figure 1 shows a vacuum cleaner, the upper part; figure 2 is the same, the lower part.

 The device comprises a housing 1 with a coaxially located lid 2, in which a vacuum unit 3 is installed. A bag filter 4 is located in the housing, the lower cut of which is blocked by a pan 5 and rigidly connected to the latter. The pan 5 is kinematically connected with the handle 6 and is spring-loaded relative to the cover 2. The filter 4 has a frame in the form of perforated disks 7. The connection of the pan 5 with the handle 6 is made by two rods 8. Equal to the longitudinal axis of the device 8. The rods 8 pass through the holes in the disks 7 located on the periphery of the latter. All openings are coaxial with each other and with respect to the rods 8, and the axis of the filter 4, rods 8 and the device as a whole are mutually parallel.

 The housing 1 is made in the form of a cup with a flange 9 and a nozzle 10. The housing 1 is connected to the cover 2 by latches 11. The sealing of the interface between the housing and the cover is made by two rubber rings 12, one of which is glued to the flange 9, and the other to the cover 2.

 The cover 2 is a ring 13 and a shell 14, interconnected by a welding circular seam. The shell is flanged on its upper cut. The inner edge of the ring 13 protrudes inside the shell 14 and serves as a support for the vacuum unit 3 located in the shell 14. On top of the unit 3 is fixed by a disk cover 15, which is attached to the flanging of the shell 14 with screws. To seal the pressure section of the vacuum unit from its intake hole serves as a rubber seal ring on the inner edge of the ring 13.

 The filter 4 is mounted in the housing by means of a flange 15, on which the fabric sleeve of the filter is put on and fixed with a clamp 16. Similarly, the fabric sleeve is fastened to the pallet 5. In total, the flange 15, the pallet 5 and the fabric sleeve fixed between the flange and the pallet form a filter 4.

 In the ring 13 there are two through holes equidistant from the longitudinal axis of the ring. In these holes are fixed guide bushings 17, which provide support and centering of the rods 8.

 The frame in the form of perforated discs 7 serves to prevent crushing of the filter under the influence of pressure drops. The disks 7 are placed on the rods 8 with a rear step, for which the nuts 18 and the springs 19 serve. To prevent deformation of the disks due to the efforts of the springs 19, the disks are blocked in pairs when the filter is shaken, and coaxial rods 8 of the sleeve 20 are inserted between the disks in each block. Similar bushings are located between the uppermost disk of the frame and the cover 2, as well as between the lowest disk and the pallet 5. All these bushings serve as distance tubes.

 The ends of the rods 8 protrude beyond the ends of the bushings 17 and are used to connect with the rods of the handle 6. The connection is made by a nut 21. Between the nut 21 and the ends of the sleeve 17 there are two sealing gaskets 22, separated by an adjusting nut 23. The gaskets 22 prevent the atmospheric air from being sucked into the housing 1. The adjusting nut 23 sets the distance from the pan 5 to the cover 2.

 The handle is made in the form of a bracket having hinges 24. The hinges allow you to tilt the bracket when the handle is not used to carry the vacuum cleaner. In addition, the folding of the bracket is necessary to provide access to the vacuum unit 3 during its installation and repair service. Vacuum cleaner unit 3 is a standard product, for example, the AP-600M unit used in the Buran and Rocket vacuum cleaners.

 The proposed device can be equipped with ring magnets 25 coaxially fixed between pairwise interlocked disks 7. In this case, a fabric-knitted fabric containing steel threads can be used as the material of the filter 4. In this case, the filter frame acquires the function of the CMS.

 The lines of force of the magnetic field penetrate the filter cloth and contribute to better deposition of the ferromagnetic particles contained in the filtered air. Particles of this kind form the solid component of the welding spray. That is why the inventive device can be used as a filtering unit for aspiration and recirculation air purification in the welding zone.

 Position 26 in figure 1 indicates the perforation of the shell 14, position 27 - packet switch.

 The device operates as follows.

 The inclusion of the packet switch 27 sets the start of the unit 3, as a result of which a vacuum is created in the housing 1. Dirty air through the pipe 10 enters the body of the vacuum cleaner. Between the nozzles 10 and the suction opening of the unit 3 there is a filter 4, where the contaminated air is filtered, and enters the unit 3 in cleaned form, from it into the cavity of the shell 14. The cavity of the shell 14 corresponds to the pressure section of the air-suction unit 3, as a result of which there is excess pressure filtered air through the perforation 26 is released into the atmosphere.

 When pulling up the handles 6, the rods 8 slide along the sleeves 17. Since the rods 8 are connected to the pallet 5, the latter is also pulled towards the cover 2, by means of the springs 19, pulling the discs 7 in the same direction. The filter 4 is collected in folds, coagulated on the filter dust falls to the bottom of the body. When releasing the handle 6, the compressed springs 19 straighten, returning the frame, handle and filter to its original position.

 An advantage of the design described above is that the handle 6 serves not only for regeneration, but also for carrying the vacuum cleaner, which allows you to combine both of these operations. As a result, without additional distraction of the worker (along with carrying the vacuum cleaner in the process of changing the coordinates of the working area), the filter is regenerated. In the position raised above the floor (by the handle 6), the housing 1 with the cover 2 rigidly fixed thereon is suspended on the rods 8, which ensures the above-described filter regeneration process.

Claims (1)

 INDUSTRIAL VACUUM CLEANER, comprising a housing with a cover coaxially located on it, in which an air-suction unit is installed, a bag filter is placed in the housing, the lower cut of which is connected to the tray, and a frame of perforated disks mounted on top of one another and a filter cleaning agent by mechanical shaking, containing a rod passing in the filter cavity through the disks, one end of which is rigidly connected to the pan, and a handle for transferring the vacuum cleaner mounted on the cover, characterized in that then, in order to improve ease of use, the filter cleaning agent has an additional rod passing through the discs in the filter cavity, spring-loaded relative to the cover with the pan, and the cover has openings for the passage of the other ends of the rods, which are rigidly connected to the handle and are located symmetrically relative to the longitudinal the axis of the housing, while the distance between the axes of the rods is greater than the transverse dimension of the air suction unit.

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