RU2275837C2 - Air discharge apparatus for vacuum cleaner - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: apparatus has exhaust grid for discharging of waste air from engine vacuum chamber mounted within vacuum cleaner casing, cover for exhaust grid arranged in the vicinity of exhaust grid and adapted for closing of said grid when vacuum cleaner is out of service. Exhaust grid is adapted to be opened for creating air flow with the use of back pressure of air discharged through exhaust grid, when vacuum cleaner is in operating state. Cover for exhaust grid has air flow baffling plate adapted for guiding of air discharged through exhaust grid to both sides of said cover. Supporting opening provided in the vicinity of exhaust grid incorporates flexible member adapted for returning of exhaust grid cover to closed position when vacuum cleaner's operation is stopped. Air flow baffling plate directs air discharged from vacuum chamber of engine to the right and to the left from user to thereby prevent air from flowing in direction of front part of vacuum cleaner casing where user is commonly standing.

EFFECT: increased efficiency in preventing dust from getting into vacuum cleaner casing by selectively providing access to exhaust grid or by closing it.

7 cl, 6 dwg

Description

The present invention relates generally to an air exhaust device for a vacuum cleaner, and more particularly, to a vacuum cleaner air exhaust device that automatically opens and closes an exhaust grill in a vacuum cleaner body depending on whether the vacuum cleaner is operating or not, which prevents dust from accessing the outside when it do not use.

A commonly used conventional air exhaust device for a vacuum cleaner (such as, for example, described in US Pat. No. 1891256, publ. 12/20/1932) is shown in FIG. As can be seen from FIG. 1, the air exhaust device comprises an exhaust grill 4 having a plurality of small holes or slots in an exhaust outlet (not shown) made in a chamber (not shown) of the engine of the vacuum cleaner body 1 in communication with the environment, and an exhaust filter ( not shown), mounted with the possibility of removal on the exhaust hole inside the exhaust grill 4, in order to filter out the smallest dust particles from the exhaust air leaving the exhaust grill 4. In addition, there is a suction hole in the body of the vacuum cleaner Rstie 2 for air intake.

During operation of the vacuum cleaner using the exhaust device described above, when the cleaning operation starts, air and dust collected are sucked into the vacuum cleaner from the surface being cleaned through the suction brush (not shown) that communicates with the suction port 2. Air and dust sucked into the vacuum cleaner body 1 is sent to a dust collector (not shown) of the vacuum cleaner body 1, where the dust is separated from the air and collected in a paper bag or other filter. The purified air flows through the exhaust filter and the exhaust grill 4 and is discharged into the environment outside the vacuum cleaner body 1. In addition, the finest dust that has not been separated by the paper bag filter is filtered out of the air before being discharged in the secondary filtering operation.

However, since the exhaust grill 4 of a conventional air exhaust device is generally open outward from the vacuum cleaner body 1, dust or contaminants externally can easily enter the vacuum cleaner through the openings or groove of the exhaust grill 4, especially when the vacuum cleaner is not used.

An object of the present invention was to eliminate the above-mentioned disadvantages and other problems associated with a conventional device. The technical result of the present invention was the creation of an air exhaust device for a vacuum cleaner, which is able to selectively open access to the exhaust grill when the vacuum cleaner is in operation, and to close the exhaust grille when the vacuum cleaner is not in use, thereby preventing dust and contaminants from entering the vacuum cleaner body through the exhaust lattice.

This technical result of the present invention is essentially achieved by creating an air exhaust device for a vacuum cleaner comprising an exhaust grill cover that is able to open and close due to an increase in the pressure of exhaust air leaving the vacuum cleaner body of the vacuum cleaner. Since the exhaust grill cover is pivotally connected to the vacuum cleaner body and there is a resilient element between the exhaust grill cover and the vacuum cleaner body, the exhaust grill cover can automatically return to the closed position when the vacuum cleaner stops working.

The air exhaust device for a vacuum cleaner comprises an exhaust grill through which exhaust air leaves the engine vacuum chamber installed in the vacuum cleaner body, an exhaust grill cover located in a place corresponding to the exhaust grill to close the exhaust grill when the vacuum cleaner is not working, while the exhaust grill can open to allow air flow using backpressure of the exhaust air leaving the exhaust grill when the vacuum cleaner is working, and the elastic element is located d in the support hole, which is located near the exhaust grill, and the elastic element is located and is designed in such a way as to return the cover of the exhaust grill to the closed position when the vacuum cleaner stops working.

The exhaust grill cover can open and close around a hinge to the vacuum cleaner body.

The exhaust grill cover contains open spaces that are formed by a plurality of ribs on the surface facing the exhaust grill, and in one preferred embodiment of the present invention, the contact area of the exhaust air leaving the exhaust grill and the exhaust grill cover is maximized.

The exhaust grill cover contains a plate blocking the flow of air, designed to direct the exhaust air exiting the exhaust grill to both sides of the exhaust grill cover.

The elastic element contains a leaf spring, which is curved in a predetermined position, allowing it to be inserted into the corresponding support hole.

The elastic element comprises an elastic lever for contacting the exhaust grill cover and a protrusion preventing separation, which is designed to prevent the elastic element from exiting the vacuum cleaner body.

The separation preventing protrusion comprises first and second protrusions preventing separation, each of the first and second protrusions preventing separation being integral with the body of the elastic member and having a part protruding outwardly. The first and second protrusions preventing separation are arranged in opposite directions to prevent the elastic element from separating from the cleaner body.

The invention will now be explained in more detail with reference to specific embodiments of the present invention with reference to the accompanying drawings, in which

Fig 1 is a perspective view of a vacuum cleaner having a conventional air discharge device;

FIG. 2 is a perspective view of an air exhaust device for a vacuum cleaner in which an exhaust grill cover is opened by exhaust pressure according to an embodiment of the present invention;

Fig 3 is a perspective view, a spatial image with a spatial separation of the parts, showing the exhaust grill and the cover of the exhaust grill for a vacuum cleaner according to an example implementation of the present invention;

FIG. 4 and 5 are perspective views, in partial cross-section, respectively showing an exhaust grill cover of an air exhaust device closed and open according to an embodiment of the present invention, and

FIG. 6 is a detailed cross-sectional view showing the principle of operation of the exhaust grill cover shown in FIG. 4 and 5.

In the following description, the same reference numerals are used to denote the same elements in the implementation examples shown in different figures. The parameters defined in the following description, such as detailed design, elements and operation, are provided here only to simplify the understanding of the invention, and the present invention is not limited to the parameters defined here. In addition, well-known functions and devices are not described in detail, as this complicates the understanding of the invention, loading it with unnecessary details.

As shown in FIG. 2-5, an air exhaust device for a vacuum cleaner according to one aspect of the present invention comprises an exhaust grill 103 that communicates with an engine vacuum chamber (not shown) located inside the vacuum cleaner 101. The exhaust grill cover 110 is shaped to fit the exhaust grill 103, and thus being able to open and close depending on whether or not the exhaust air flows through the exhaust grill 103. The resilient member 120 returns the exhaust grill cover 110 to the closed position from open position when there is no pressure from the exhaust air.

The exhaust grill 103 has many small openings, and accordingly, air and trapped dust pulled through the suction port 102 of the vacuum cleaner body 1 pass through a dust collector where dust is filtered and clean air is discharged out through the exhaust grill 103. An exhaust filter (not shown) is located between the exhaust grill 103 and the engine vacuum chamber. An exhaust filter is mounted on the exhaust grill 103, and when fine dust particles are filtered out by the exhaust filter, the cleaned air may exit.

The exhaust grill cover 110 is shaped to cover the exhaust grill 103, and is preferably hinged to the upper side of the vacuum cleaner body 101, as shown in FIG. 3. The exhaust grill cover 110 comprises at least one hinge hole 111 made at a location corresponding to at least one hinge protrusion 104 near the exhaust grill 103. The exhaust grill cover 110 is opened and closed by rotational movement around at least one hinge hole 111 relative to the exhaust grill 103.

The exhaust grill cover 110 preferably includes a protrusion 112 for contacting the elastic member 120, which will be described in more detail below, and an air barrier plate 113 formed in front of the grill cover 110 to direct the exhaust air flow from the exhaust grill 103 to the left and right of the vacuum cleaner 100. The airflow blocking plate 113 serves to direct the exhaust air from the engine vacuum chamber to the left and to the right of the user, while simultaneously preventing air flow in the front direction of the housing 101 of the vacuum cleaner, which usually costs the user, which ensures ease of operation.

To increase the area of contact intended for contact with the exhaust air exiting the exhaust grill 103, that is, to use the force created by back pressure from the exhaust air, a plurality of gaps or gaps 115 are formed, each of which is located between an adjacent pair of a plurality of ribs 114. When air exits through the gaps 115, the maximum force from the backpressure of the exhaust air can be transmitted to the cover 110 of the exhaust grille.

The elastic member 120 provides an elastic recovery force that returns the exhaust grill cover 110 to the closed position to close the exhaust grill 103, and as shown in FIG. 3 is made in the form of a leaf spring in such a way that it forms a curved part.

More specifically, the resilient member 120 is bent so that it can have an area of the lower portion corresponding to the abutment hole 130 formed near the exhaust grill 103, and therefore it can fit into the abutment hole 130. In one preferred embodiment, the resilient member 120 can be bent twice to provide a shape substantially resembling the letter "J".

The elastic member 120 may also include an elastic arm 121 extending upward from the lower portion to contact the exhaust grill cover 110. A plurality of the first separation preventing protrusions 122 protrude inwardly adjacent to the vacuum cleaner body 101, and the second separation preventing protrusions 123 are disposed towards the front of the vacuum cleaner body 101 toward the suction port 102 (FIG. 2).

The elastic member 121 is in contact and engages with a protrusion 112 located on the inner side of the exhaust grill cover 110, with one end corresponding to the protrusion 112, as shown in FIG. 3, and partially bent to the protrusion 112 to enhance contact with it.

The first separation preventing protrusions 122 are formed on either side of the elastic arm 121 and are designed to prevent the elastic element 120 from escaping from the support hole 130. To do this, the first separation preventing protrusions 122 are integral with the elastic element 121 to press against the inner circumference of the support hole 130 by a predetermined pressure on its walls.

The second separation preventing protrusion 123 is located on the side of the elastic member 120 opposite to the first separation preventing protrusions 122 and moves away in a direction opposite to the direction of the first separation preventing protrusions 122 to offset the elastic pressure of the first protrusions 122 on the inner circumference of the support hole 130.

As a result of the interaction of the first and second separation-preventing protrusions 122 and 123, the elastic element 120 has a tight fixed fit in the inner circumference of the walls forming the support hole 130, and thus prevents the elastic element 120 from moving upward from the support hole 130.

As a result, the exhaust grill cover 110 of such a construction as described above remains in the closed position, closing the exhaust grill 103, as shown in FIG. 4, when the vacuum cleaner 100 is not working. The exhaust grill cover 110 opens the exhaust grill 103 by rotating the cap 110 upwardly around the hinge protrusion 104 and the hinge hole 111 as a result of the upward force generated by the back pressure of the exhaust air exiting the exhaust grill 103 during operation of the vacuum cleaner, as shown in FIG. 5.

When the exhaust grill cover 110 is opened by backpressure of the exhaust air, as shown in FIG. 6, the resilient member 120 presses the resilient lever 121 to deform in the direction indicated by arrow F. The resilient lever 121 exerts a restoring force on the pivotally mounted exhaust grill cover 110, springing it to its initial position (FIG. 4) in the direction indicated by arrow A in FIG. . 6 relative to the protrusion 112. Accordingly, the exhaust grill cover 110 is subjected to a restoring force causing it to rotate in the direction indicated by arrow B. Since the back pressure of the exhaust air exiting through the exhaust grill 103 exceeds the restoring force from the elastic pressure of the elastic member 120, the exhaust grill cover 110 held open.

When the vacuum cleaner 100 stops working, the flow of exhaust air also stops. Accordingly, the elastic restoring force of the elastic member 120 causes the exhaust grill cover 110 to rotate in the direction indicated by arrow B in FIG. 6 and return to its initial position, which closes the exhaust grill 103. Since the exhaust air flow rate decreases gradually, rather than abruptly, the cover The exhaust grill 110 has a gradually changing moment of force, and therefore, the exhaust grill cover 110 rotates to the closed position gently, without latching.

As a result, the exhaust grill 103 is not exposed to the environment when it is inoperative, and dust from the outside through the exhaust grill 103 is prevented from entering the housing 101 when the vacuum cleaner 100 is not operating.

As described above in the several illustrated embodiments of the present invention, the exhaust grill cover is automatically opened from the closed position by a back pressure force of the exhaust air exiting through the exhaust grill when the vacuum cleaner is operating. When the vacuum cleaner stops working or when it is not used, the exhaust grill cover located between the exhaust grill and the vacuum cleaner body is pressed by the elastic element to its initial position, and thus closes the exhaust grille. Accordingly, since the exhaust grill is not exposed to the environment, dust from the outside through the exhaust grill is prevented when the vacuum cleaner is not used.

The described embodiments and advantages do not limit the scope of the present invention. The present invention can easily be applied to other types of equipment. In addition, the description of examples of implementation of the present invention is intended to explain, and not limit the scope of the following claims, and specialists in this field after reading the present invention it is clear that alternative solutions, modifications and variations are possible.

Claims (7)

1. An air exhaust device for a vacuum cleaner comprising an exhaust grill through which exhaust air exits from an engine vacuum chamber mounted in a vacuum cleaner body; the exhaust grill cover located in a place corresponding to the exhaust grill to close the exhaust grill when the vacuum cleaner is not working, while the exhaust grill is configured to open to provide air flow using back pressure of the exhaust air leaving the exhaust grill when the vacuum cleaner is operating, moreover, the cover of the exhaust grille contains a plate blocking the flow of air, designed in order to direct the exhaust air exiting the exhaust grill to both sides m sides of the exhaust grill cover; and an elastic element located in the support hole, which is located near the exhaust grill, and the elastic element is located and made in such a way as to return the cover of the exhaust grill to the closed position when the vacuum cleaner stops working. 2. The device according to claim 1, in which the cover of the exhaust grill is made with the possibility of opening and closing around a swivel with the housing of the vacuum cleaner. 3. The device according to claim 1, in which the cover of the exhaust grille contains open spaces that are formed by many ribs on the surface facing the exhaust grille. 4. The device according to claim 1, in which the elastic element contains a leaf spring, which is curved in a predetermined position, allowing it to be inserted into the corresponding support hole. 5. The device according to claim 4, in which the elastic element comprises an elastic lever for contacting the exhaust grill cover and a protrusion preventing separation, which is designed to prevent the elastic element from exiting the vacuum cleaner body. 6. The device according to claim 5, in which the protrusion preventing protrusion contains first and second protrusions preventing separation, each of the first and second protrusions preventing separation, is made integral with the body of the elastic element and has a part protruding outward. 7. The device according to claim 6, in which the first and second protrusions that prevent separation, are located in opposite directions to prevent the separation of the elastic element from the body of the vacuum cleaner.

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