RU2145182C1 - Cleaning apparatus engine fan (versions) - Google Patents

Abstract

FIELD: cleaning equipment. SUBSTANCE: fan has blowing member with curved blades providing passage of air from dust catcher chamber via suction opening due to suction force created by rotating fan and discharge of delivered air outside from casing via outlet openings and suction opening. Fan has strengthening member positioned in central part of blowing member. Suction device shaft is rigidly fixed by nut in strengthening member. Blowing member has central cylindrical through opening with diameter of upper part exceeding that of lower part. Vertical channels of predetermined depth are running at equal angles relative to and along inner surface of through opening. Effective operation of engine is provided even when gap between fan blades and engine casing is not adjusted. Such construction allows fan to be prevented from deformation. EFFECT: increased efficiency, enhanced reliability in operation and simplified construction. 6 cl, 13 dwg

Description

 The invention relates to a fan for a cleaning device, in particular to an engine fan, the deformation of which can be prevented, thereby ensuring greater reliability and efficiency of the suction of the fan, while the efficiency of the engine will be guaranteed, even if the gap between the fan blades and the motor housing is not adjustable.

 There are various types of devices for cleaning a room by aspirating dirt and dust using a drive motor installed in the housing of the cleaning device.

 As shown in FIG. 1 and 2, the cleaning device includes a housing 1, a dust collecting chamber 5, a drive and suction sleeve section 7. A housing 1, which forms a common external surface of the cleaning device, also has a connecting part 2 and an exhaust opening 3. In the chamber 5 for a dust bag 6 is placed for collecting dust, used to collect dust and foreign materials drawn into the housing 1. The drive section 7 includes a suction means 10 mounted therein by a support member 8. Finally, a suction sleeve 4 connected to the housing by with the sole part 2, is used to direct the air flow containing dirt and dust into the dust bag 6 during operation of the cleaning device.

 In addition, the suction means 10 has a lower housing 11 and an upper housing 17, which form its overall appearance. In the lower case 11, a rotor 12 is installed, which creates a rotation force when power is supplied. The upper casing 17 connected to the lower casing 11 comprises a fan or impeller for actually creating suction in the cleaning device by means of a rotor 12. The upper casing 17 also has a suction hole 18, usually located around its sleeve, and a plurality of air outlets 19, formed on its outer surface.

 The rotation force is transmitted from the rotor 12 by means of a shaft 13 connected to it to a fan 100, in which a built-in screw 15 is installed, the end of the shaft 13 having a stepped part 14.

 As shown in FIG. 3 and 4, on one side of the fan 100, there are many curved blades 110, integral with the fan 100, which cause the air from the dust chamber 5 to pass through the suction port 18 by suction when the fan connected to the rotor is rotated and the incoming air exits from housing 1 through the exhaust hole 3 and the exhaust holes 19.

 The fan 100 has in its central part or sleeve a groove 120 for engaging with the stepped part 14 and a through hole 130 adjacent to the groove 120 for mounting the screw 15.

 The connection of the groove 120 and the step portion 14 holds the lower part of the fan 100, while the upper part of the fan 100 is mounted on it with a screw. In addition, a nut 16 is used to secure the screw 15.

 However, a fan with this configuration has certain disadvantages. A fan 100 connected to the shaft 13 only by means of a nut 16 without a separate support means experiences an excessively large downward load. If a torque above a predetermined pressure is applied to the nut 16 for fastening, heat is generated when the fan 100 is rotated and the quality of the fastening is accordingly reduced. As a result, the curved blades are deformed, which leads to damage to the fan 100 and a decrease in suction efficiency and reliability.

 Known fan for a cleaning device associated with the rotor of the suction means installed in the cleaning device, providing for the absorption of extraneous materials such as dust, containing a fan element provided with many curved blades for air to pass from the chamber of the dust collector through the suction hole created by the rotation of the fan, and the output of incoming air out of the housing through the exhaust holes and the exhaust hole, and it includes reinforcing element mounted in the central portion of the fan member and in which is placed a suction shaft means rigidly secured by a nut (see. Patent FR N 2589711 A1, cl. A 47 L 9/22, publ. 15.05.1987).

 In addition, the known construction is usually such that the curved blades 100 are at a constant distance from the engine casing 24 mounted on the upper housing 17. However, satisfactory adjustment of the required gap interval is substantially difficult, thereby reducing the suction efficiency of the fan.

 Thus, it is an object of the present invention to provide an engine fan for a cleaning device in which deformation of the fan is prevented and thus greater reliability and suction efficiency are ensured, as well as engine performance is guaranteed even when the gap between the fan blades and the casing engine is not regulated.

 Achieving these goals is ensured by the fan of the cleaning device motor, which creates a suction due to the action of the rotor of the suction means installed in the cleaning device to suck in foreign materials such as dust, and the engine fan contains a fan element equipped with many curved blades that cause air from the dust chamber to pass through the suction port due to the suction created by the rotation of the fan connected to the rotor, and the output be the incoming air outwardly from the housing through the air outlet and the exhaust port, and a reinforcing member which is provided in the central portion of the fan member and into which the shaft of the suction means securely fastened by a nut.

 In addition, in accordance with the present invention, the reinforcing element of the engine fan is firmly connected to the rear surface of the fan element, and a suction means shaft is inserted into it, which is securely fastened by means of a nut.

 Further, in accordance with the present invention, the reinforcing element of the engine fan is made of aluminum and surrounds the rear peripheral part of the fan element.

 In accordance with the present invention, the engine fan also includes a curved plate made in the form of a washer, so that it is tightly attached to the blades of the fan element through a variety of fastening means.

 Other objects and aspects of the present invention will become apparent from the following description of embodiments of the invention with reference to the following accompanying drawings.

 In FIG. 1 shows a design of a known cleaning device.

 In FIG. 2 shows the construction of a suction means with a known engine fan.

 In FIG. 3 is a top view of a known engine fan.

 In FIG. 4 is a section along line I-I in FIG. 3.

 In FIG. 5 is a plan view of a motor fan according to a first embodiment of the present invention.

 In FIG. 6 is a sectional view taken along line II-II of FIG. 5 with spatial separation of parts.

 In FIG. 7 is a plan view of a motor fan in accordance with a second embodiment of the present invention.

 In FIG. 8 is a section along line III-III in FIG. 7.

 In FIG. 9 is a perspective view of the first reinforcing member of FIG. 8.

 In FIG. 10 shows an engine fan in a reinforced state by a second reinforcing element according to a third embodiment of the present invention.

 In FIG. 11 is a plan view of an engine fan in accordance with a fourth embodiment of the present invention.

 In FIG. 12 is a section along line IV-IV in FIG. eleven.

 In FIG. 13 is a perspective view of a plate in accordance with a fourth embodiment of the present invention.

 Next, a preferred first embodiment of the present invention will be described in detail in accordance with the accompanying drawings.

 In FIG. 1-6 poses 1 shows a housing of a cleaning device to which, via a connecting part 2, a suction sleeve 4 is connected to direct the dust-containing air stream.

 In addition, the housing 1 comprises a dust collector chamber 5 with a dust bag 6 for collecting foreign substances directed therein through the suction sleeve 4, and a drive section 7 with suction means 10 arranged therein for collecting foreign substances in the bag 6 by suction.

 The suction means 10 has a lower housing 11 and an upper housing 17, which together form the appearance of the means. The lower housing 11 includes a rotor 12, designed to create a rotational force when applying electricity. The upper housing 17 connected to the lower housing 11 comprises a fan or impeller for actually creating suction in the cleaning device when the rotor 12 is driven. The upper housing 17 also has a suction hole 18 located in its central part and a plurality of outlet openings 19 formed on its outer surface.

 In addition, the rotational force from the rotor 12 is transmitted through a shaft 13 connected to a fan, in which a built-in screw 15 of the end of the shaft 13 having a stepped part 14 is installed.

 The fan 200 includes a fan element 210 comprising a plurality of curved blades 211 integral with the fan 200, which cause air from the dust collecting chamber 5 to pass through the suction port 18 due to the suction created by the rotation of the fan connected to the rotor and the incoming air to exit from the housing 1 through the exhaust opening 3 and the exhaust openings 19. The fan 200 also includes a reinforcing element 220, which is inserted into the sleeve of the fan element 210 and into which the shaft 13 is mounted. The reinforcing element 220 is rigidly fixed with a nut 16.

 The central part of the fan element 210 comprises a cylindrical through hole 212, the upper part of which has a slightly larger diameter than its lower part. In addition, the through hole 212 has vertical grooves 213 located at equal angles along the inner surface of the wall and having a predetermined depth.

 The reinforcing element 220 includes a cylindrical body 221, the configuration and size of which is identical to the configuration and size of the through hole 212 and which serves as a wedge inserted into the through hole 212. Many of the protrusions 222 extending from the body 221 are arranged so that they enter engagement with corresponding vertical grooves 213. In addition, the reinforcing element 220 also has a through hole 223 into which a shaft fixing screw 15 is inserted for connection and which is coaxial with the axis of the fan element enta 210, as well as the groove 224 with a depth sufficient to enter the stepped part 14, and a diameter larger than the diameter of the through hole 223.

 Pos. 8, a support element is designated for damping vibrations and noise arising from the operation of the suction means 10, and for maintaining the tightness of the dust chamber 5.

 Below will be described the operation and advantages of a cleaning device with a fan in accordance with the first embodiment of the present invention.

 When the cleaning device is driven, electricity is supplied to the suction means 10 installed in the drive section 7, as a result of which the rotor 12 begins to rotate. Consequently, the fan, which is connected to the shaft transmitting the rotational force from the rotor 12, also starts to rotate.

 When the fan 200 is rotated, curved blades suck in air into the dust chamber and take it out of the housing 1.

 At this time, since the fan 200 is tightly mounted on the shaft by means of a reinforcing element 220, as shown in FIG. 6, the fan 200 provides stable constant suction necessary to collect dirt and dust.

 Moreover, when dirt and dust from the room are sucked into the dust bag 6 through the suction sleeve 4 due to the rotation of the fan 200, the support element 8 dampens a lot of noise so that it is not heard from the outside. In addition, the position of the dust collector chamber 5, which is completely closed by the support element 8, increases the suction efficiency, and therefore, cleaning the room can be easily carried out.

 Foreign substances from the polluted air that are sucked into the dust bag 6 are collected, deposited in the dust bag 6 as a result of the operation of the suction means 10, and the air thus cleaned is discharged out through the outlet openings 19 and the exhaust opening 3, which provides better cleaning through constant suction.

 Next, with reference to FIG. 7-9, a second embodiment of the present invention will be described with the goal of preventing deformation of the fan 300.

 The fan 300 includes a fan element 310 having many curved blades 311 integral with the fan 300, which allow air to pass from the dust collector chamber 5 through the suction port 18 by suction created by the rotation of the fan connected to the rotor, and the incoming air to exit from the housing 1 through the outlet openings 19 and the exhaust opening 3, and a reinforcing element 320, which is installed in the Central part of the fan element 310 and into which the shaft 13 is inserted, is rigidly fixed which is provided by means of a nut 16, said fan element 310 having a through hole 312 in its sleeve for mounting it on the screw 15 of the motor shaft 13, as well as a plurality of protrusions 313 arranged circumferentially on its rear surface, where there is a groove 314 for support near the protrusions 313 bulges having a constant depth relative to the back surface.

 The reinforcing element 320 is also provided with an opening 321 in its sleeve for mounting on the screw 15 of the motor shaft 13 and has a rear surface that rests tightly on the stepped portion 14 of the shaft 13 and a front surface provided with a plurality of protuberances 322, so that the reinforcing element 320 does not separated from the fan element 310 when the fan was rotated at high speed. Each bulge 322 is included in the groove 314 for supporting the bulge and has an inner hole 323 into which the protrusion 313 enters to provide a reinforcing connection with the fan element when the fan rotates at high speed.

 When the fan is operating in accordance with the second embodiment of the invention, the fan element 310 and the reinforcing element 320, connected to it so that they are integral, prevent the deformation of the fan 300 due to heat generation during rotation of the fan at high speed, and also strengthen the mutual connection. In addition, since the bulges 322 connected to the protrusions 313 in such a way that they form a single unit are made with a burr treatment, this successfully prevents separation from the fan element 310 when the fan 300 is rotated at high speed.

 In FIG. 10 is a sectional view of a fan 400 in accordance with a third embodiment of the present invention.

 The fan 400 includes a fan element 410 provided with a plurality of curved blades 411 that are integral with the fan 400, which allow air to pass from the dust collector chamber 5 through the suction port 18 by suction created by the rotation of the fan connected to the rotor, and the incoming air to exit from the housing 1 through the outlet openings 19 and the exhaust opening 3, and a reinforcing element 420 made, for example, of aluminum, which surrounds the rear peripheral part 412 fan about element 410, said fan element 410 having a through hole 414 in the sleeve for mounting on the screw 15 of the engine shaft 13, a groove 413 adjacent to the through hole 414, in which the stepped part 14 of the shaft 13 is tightly mounted, and a connecting groove made in the form an annular track at a predetermined location of the curved bottom surface of the fan element 410.

 The reinforcing element 420 in accordance with a preferred embodiment of the invention includes a reinforcing part 421 surrounding the rear peripheral part 412 of the fan element 410, an upper pressing part 422 that is rigidly engaged with the upper surface of the fan element 410, and a lower pressing part 423, which is included in the connecting groove 415 so that the portion 423 is located at the lower edge of the reinforcing portion 421 and then engages with it.

 The operation of the third embodiment of the invention will be described below.

 Since the rear peripheral part 412 of the fan element 410 constituting the fan 400 is provided with a reinforcing element 420 made of aluminum, which causes a deforming pressure to withstand the increasing pressure, the problem associated with the deformation of the fan 400 due to heat and pressure generated by fan rotation at high speed.

 Since the upper and lower pressing parts 422, 423 of the reinforcing element 420 necessarily abut against the rear peripheral part 412, the various parts of the fan 400 are not separated from it, even if the fan rotates at a very high speed.

 Since the fan 400 is rigidly mounted on the motor shaft 13, and the reinforcing element 420 made of aluminum, which is selected to prevent deformation of the fan caused by heat and pressure when the fan rotates at high speed, is rigidly connected to the fan 400, this allows the fan 400 to rotate at a constant speed without any deformation, thereby ensuring the cleaning of the desired location with a constant suction force.

 In FIG. 11-13, a fan 500 is shown in accordance with a fourth embodiment of the present invention.

 The fan 500 includes a fan element 510, equipped with a number of curved blades 511, integral with the fan 500, which ensure the passage of air from the dust collector chamber passes through the suction hole 18 through the suction created by the rotation of the fan connected to the rotor, and the incoming air out of the housing through the exhaust holes 19 and the exhaust hole 3, and a curved plate 530 made in the form of a washer, so that it is tightly connected to the blades 511 of the fan element 510 by a plurality of fastening means 520.

 Each curved blade of the fan 500 is provided with a plurality of holes 511a located respectively to the holes 531 in the plate 530 for mounting the fastening means 520.

 Reference numeral 532 denotes a suction port through which air passes, and reference numeral 512 indicates a through hole for mounting on the screw 15 of shaft 13. Reference numeral 513 denotes a groove of constant depth for the stepped portion 14 to enter into it, the diameter of which is larger than the diameter of the through hole 223.

 During operation, when the necessary energy is supplied to the suction means 10 in the drive section 7, the rotor 12 rotates at high speed, bringing the fan 500 into rotation.

 The rotation of the curved blades 511 of the fan 500 causes the air from the chamber 5 of the dust collector to pass through the suction port 18 and to exhaust the air from the housing 1 through the outlet openings 19 and the exhaust port 3 at the same time. At this time, the presence of a strong connection of the blades 511 and the plate 530 by means of the fastening means 520 also contributes to an increase in the suction force.

 In accordance with the present invention, the deformation of the fan can be prevented, therefore, there is an increase in the reliability and efficiency of the suction of the fan. In addition, engine performance is guaranteed even if the clearance between the blades and the engine cover is not adjustable.

 Although preferred embodiments of the invention have been described for illustrative purposes, it will be apparent to those skilled in the art that various modifications, additions, and changes are possible within the scope and spirit of the invention as defined by the following claims.

Claims (6)

 1. An engine fan for a cleaning device associated with a rotor of a suction means installed in a cleaning device for sucking in extraneous materials such as dust, comprising a fan element provided with a plurality of curved blades to allow air to pass from the dust chamber through the suction opening by rotation fan, and the output of incoming air out of the housing through the exhaust holes and exhaust hole, as well as a reinforcing element, installed oval in the Central part of the fan element and in which there is a shaft of the suction means, rigidly fixed by means of a nut, and the specified fan element contains a cylindrical through hole, the diameter of the upper part of which is slightly larger than the diameter of the lower part, with vertical grooves located in the through hole at equal angles along the inner surface of the wall and having a given depth.  2. The engine fan according to claim 1, characterized in that said reinforcing element is made in the form of a cylindrical body having a configuration identical to the through hole and serving as a wedge inserted into the through hole, as well as having a plurality of protrusions extending from it to provide them engagement with corresponding vertical grooves, a through hole in which the shaft screw for connection is located and which is located coaxially with the axis of the fan element, and a groove having a depth necessary To entering it stepped shaft portion whose diameter is larger than the diameter of the through hole.  3. An engine fan for a cleaning device associated with a rotor of a suction means installed in a cleaning device for sucking in extraneous materials such as dust, comprising a fan element provided with a plurality of curved blades to allow air from the dust chamber to pass through the suction opening by rotation fan, and the output of incoming air out of the housing through the exhaust holes and exhaust hole, as well as a reinforcing element, is rigid o connected to the rear surface of the veterinary element and in which the shaft of the suction means is located, rigidly fixed by means of a nut.  4. The engine fan according to claim 3, characterized in that the said fan element has a through hole in the sleeve for mounting on a shaft screw, a plurality of protrusions arranged circumferentially on the rear surface, and a groove for stopping the bulges located around the protrusions and having a constant depth relative to the specified rear surface.  5. The engine fan according to claim 3, characterized in that said reinforcing element has an opening in the sleeve for mounting on a shaft screw and a plurality of bumps are made on its front surface, each of which enters into a corresponding groove for stopping the bump and has an internal opening for entry protrusions in it, ensuring the coupling of the reinforcing element with the fan element when the fan rotates at high speed.  6. An engine fan for a cleaning device associated with a rotor of a suction means installed in a cleaning device for sucking in extraneous materials such as dust, comprising a fan element provided with a plurality of curved blades to allow air from the dust chamber to pass through the suction opening by rotation fan, and the output of incoming air out of the housing through the exhaust holes and exhaust hole, as well as a reinforcing element, aluminum, surrounding the rear peripheral part of the fan element, and in the specified fan element there is a through hole in the sleeve for mounting on the shaft screw, a groove adjacent to the through hole in which the stepped part of the shaft is tightly mounted, and a connecting groove in the form of an annular path, located in a predetermined location of the curved lower surface of the fan element, while the specified reinforcing element contains a reinforcing part surrounding the posterior peripheral part of the veins ilyatornogo element, an upper clamping part, rigidly connected with the upper surface of the fan member and a lower clamping part, mounted in a groove connecting with the location of the lower edge of the reinforcing portion and engaged with it. Priority on points:
08/12/96 - according to claims 1 and 2;
08/12/96 - according to claims 3 to 5;
09/10/96 - according to claim 6.

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