EP0156011A1 - Remote control of the power control device of a vacuum cleaner air turbine - Google Patents

Abstract

The invention relates to a remote control of the power control device of a vacuum cleaner air turbine. The control possesses an actuating element (1, 31, 51) arranged on the handle of the suction pipe in order to influence a pressure switch (21) by whose diaphragm (22) contacts are actuated which in turn are connected to elements of the power control device. Both switching on and off, and a power control which is uninfluenced by the vacuum fluctuations which occur during vacuuming, are made possible by an arrangement wherein the pressure switch (21) can be optionally subjected to pulses of super-atmospheric or sub-atmospheric pressure by means of the actuating element (1, 31 or 51) and wherein, furthermore, at least one contact (25 and 26) respectively is arranged on each side of the diaphragm (22), one of these contacts being actuated in the event of a pulse of super-atmospheric pressure and the other in the event of a pulse of sub-atmospheric pressure. <IMAGE>

Description

The invention relates to a device for remote actuation of the power control device of a vacuum cleaner fan, which device has an actuating element arranged on the handle of the suction pipe for influencing a pressure switch, through the membrane of which contacts connected to elements of the power control device are actuated.

Such a device is known from DE-OS 31 17 507. In this device, a flap arranged in the suction pipe is pivoted with the actuating element provided on the handle of the suction pipe, and the flow cross section is thereby changed. These cross-sectional changes result in changes in the vacuum in the vacuum cleaner housing, which are used to actuate a pressure switch containing several contacts. The pressure switch has a contact plate which is coupled to a membrane which is exposed to the negative pressure in the vacuum cleaner housing and which is opposed by a plurality of contact pins as counter-contacts. These contact pins are arranged at different axial distances from the contact plate. To avoid malfunctions, it is necessary that the pressure switch is manufactured very precisely. In the known device, the pressure switch does not only react to the changes in vacuum caused by a conscious pivoting of the flap, but also to changes in vacuum which result from suction by driving over different floor coverings or by more or less pressing the suction mouthpiece against the floor covering. Switching the vacuum cleaner blower unit on and off is not possible with the known device.

The invention has for its object to provide a device of the type described in such a way that both the motor of the blower unit can be switched on and off from the handle and a power setting unaffected by the vacuum fluctuations occurring during suction can be carried out.

The object is achieved according to the invention in that the pressure switch by means of the actuating element with respect to the atmospheric pressure can optionally be acted upon with overpressure and underpressure pulses and in that at least one contact is arranged on each side of the membrane, one of which at an overpressure pulse and the other is actuated in a vacuum pulse. The contacts are actuated unambiguously by the overpressure and underpressure impulses, and corresponding electrical impulses are thus given to the power control device. The contacts caused by overpressure can be used, for example, to switch the blower unit on and off, and the contacts caused by negative pressure can be used to control the output. To switch on and off, the electrical pulses are e.g. to a surge relay, which closes or interrupts the motor circuit via its contacts. For power control, the electrical pulses generated can be fed to a ring counter which controls the corresponding stages of the power control device via its outputs.

The pressure pulses required to actuate the pressure switch can be achieved in a simple manner according to one embodiment of the invention in that a control housing provided with two pushbuttons is arranged as the actuating element on the handle, in the lower half of which a displaceable by means of the first pushbutton and by spring force into its initial position resettable piston and abge in the upper half above the piston closed cavity acted upon by the negative pressure of the suction hose is provided, that from this cavity there is a connection to the partial space below the piston which can be released by the second pushbutton and this partial space is connected via a hose line to the housing cavity of the pressure switch which is closed off by the membrane. A pressure pulse can be generated by depressing the piston and a vacuum pulse can be generated by connecting to the vacuum of the suction hose.

The actuation of the piston and the connection of the cavity to the subspace can be achieved in a structurally simple manner in that a longitudinal bore is provided in the center of the piston and a hollow socket projecting into the cavity is arranged above it and has a sealing seat at its free end , on which a plunger connected to the first pushbutton is seated, that the second pushbutton is also coupled to the plunger via a reversing lever which converts its movement in the opposite direction. When the first push button is pressed, the piston is moved downwards and a pressure pulse is generated. The plunger is pressed firmly against the sealing seat, so that the sub-space below the piston is properly sealed against the negative pressure prevailing in the cavity. When the second pushbutton is actuated, the tappet is lifted off the sealing seat, so that the partial space below the piston is connected to the hollow space acted upon by the negative pressure via the longitudinal bore and the hollow connecting piece.

A further possibility for generating the corresponding overpressure and underpressure pulses consists in that a control housing having a first and a second piston chamber is provided as the actuating element on the handle and in each piston chamber a piston which can be displaced by means of a push button and can be reset to its initial position by spring force is arranged, that in the partition a connecting bore is provided in the two piston chambers immediately below the initial position of the piston arranged in the first piston chamber, which is closed by this piston in the initial position of the piston arranged in the second piston chamber and is released towards a chamber subjected to the negative pressure of the suction hose when this piston is actuated, that the subspace below the piston in the first piston housing is connected via a hose line to the housing cavity of the pressure switch which is closed off by the membrane. In this embodiment variant, the two pistons are displaced in the same direction, so that no deflection members are required.

The supply of the vacuum to the control housing is particularly simple in that the second piston chamber below the piston is acted upon by the vacuum of the suction hose and the piston has a through hole connecting the space above and below it. The second piston chamber can thus be connected to the suction hose via a hole provided in its base and covering itself with a corresponding hole in the handle.

The overpressure and underpressure pulses required to actuate the pressure switch can also be generated in that a control housing is provided as the actuating element on the handle, which has two pressure-connected spaces which are connected via a hose line to the housing cavity of the pressure switch which is closed off by the membrane. that a piston which can be displaced by means of a first pushbutton and which can be reset to its initial position by spring force and in the other room a pushbutton operable by means of a second pushbutton and thereby a connection to a region of this space which is released by the vacuum of the suction hose is arranged.

A safe return of the membrane to its initial position is achieved in that the membrane is provided with a pressure compensation hole. The ambient pressure is repeatedly set in the housing cavity closed by the membrane via this compensating bore, so that the membrane is completely relieved and assumes its starting position. If the membrane is made electrically conductive, it can serve as a counter contact.

• Fig. 1 eine Vorrichtung mit einem Betätigungselement, in dessen unterer Hälfte ein verstellbarer Kolben angeordnet ist und in dessen oberer Hälfte ein vom Unterdruck des Saugschlauches beaufschlagter Hohlraum vorgesehen ist,
• Fig. 2 ein Betätigungselement mit zwei Kolbenräumen,
• Fig. 3 ein Betätigungselement mit einem in dem einen Raum angeordneten Kolben und einem in dem anderen Raum angeordneten Rückschlagventil.

The subject of the application is described in more detail below using an exemplary embodiment shown in the drawing. It shows

• 1 shows a device with an actuating element, in the lower half of which an adjustable piston is arranged and in the upper half of which a cavity acted upon by the negative pressure of the suction hose is provided,
• 2 an actuator with two piston spaces,
• Fig. 3 shows an actuating element with a piston arranged in one space and a check valve arranged in the other space.

1 designates a control housing, in the lower half of which a piston 3 which is displaceable by means of a first pushbutton 2 is arranged. A compression spring 5 is inserted in the partial space 4 existing under the piston 3, by means of which the piston 3 is pushed back into its initial position defined by a stop ring 6 after being depressed. A ventilation hole 7 is provided in the control housing 1 above the piston 3. In the upper half of the control housing 1, a sealed cavity 9 is created by two membrane seals 8, which can be connected to the suction hose via a connecting piece 10, so that the vacuum of the suction hose prevails in the cavity 9.

In the middle of the piston 3, a longitudinal bore 11 is provided, via which a hollow connector 12, which projects into the cavity 9 in a sealed manner, is arranged on the piston 3. At the free end of the hollow connector 12, a seal seat 13 is formed, on which a tappet 14 connected to the first pushbutton 2 rests. The bore 15 of the hollow connector 12 is closed by the plunger 14. A second pushbutton 16 is also arranged on the control housing 1 and is coupled to the tappet 14 of the first pushbutton 2 via a bell crank 17. The plunger 14 is raised above the bell crank 17 when the second push button 16 is depressed.

A hose line 19 is attached to a connection piece 18 connected to the lower part space 4 and is connected at its other end to the inlet connection 20 of a pressure switch 21. The inlet connector 20 opens into a housing cavity 23 of the pressure switch 21 which is closed off by a membrane 22. The other side of the membrane 22 is exposed to the ambient pressure via an opening 24 in the housing of the pressure switch 21. A contact 25 or 26 is arranged on each side of the membrane 22. The contacts 25 and 26 are connected to external terminals 27 and 28, respectively. The membrane 22 itself is electrically conductive and connected to an external terminal 29. Corresponding elements of the power control device are connected to the connecting terminals 27 to 29.

• Beim Niederdrücken der ersten Drucktaste 2 wird der Kolben 3 nach unten bewegt und dabei die in dem Teilraum 4 vorhandene Luft komprimiert. Dieser Druckimpuls wird über die Schlauchleitung 19 zu dem Druckschalter 21 geleitet. Durch den in dem Gehäusehohlraum 23 auftretenden Überdruck wird die Membran nach links bewegt und stößt gegen den Kontakt 25.

The device works as follows:

• When the first push button 2 is depressed, the piston 3 is moved downward and the air present in the subspace 4 is compressed. This pressure pulse is conducted via hose line 19 to pressure switch 21. Due to the excess pressure occurring in the housing cavity 23, the membrane is moved to the left and abuts the contact 25.

The resulting electrical impulse can be fed to a surge relay, which switches the blower unit of the vacuum cleaner on or off via its contacts. After releasing the first push button 2, the piston 3 is returned to its starting position by the compression spring 5. If, after the piston 3 has been reset, there may still be a pressure difference on the diaphragm 22, this can be compensated for via a compensating bore 30 provided on the diaphragm. This ensures that the membrane 22 returns to its starting position.

If the second push button 16 is depressed, the plunger 14 is lifted off the sealing seat 13 via the deflection lever 17. The subspace 4 is now connected to the cavity 9 via the longitudinal bore 11 and the bore 15 of the hollow connector 12. As a result, the vacuum of the suction hose prevailing in the cavity 9 is established in the sub-space 4. This negative pressure is passed on to the housing cavity 23 of the vacuum switch 21 via the hose line 19. As a result of the negative pressure now prevailing in the housing cavity 23, the membrane 22 is moved to the right against the contact 26. The electrical pulse then occurring at the terminal 28 can be fed to a ring counter, which in turn controls a corresponding stage of the power control device. By pressing the first push button 2, the blower unit can thus be switched on and off and its performance can be controlled by pressing the second push button 16.

In the actuating element shown in FIG. 2, a control housing 31 has a first piston chamber 32 and a second piston chamber 33. A piston 35 which can be actuated by means of a first pushbutton 34 is arranged in the first piston chamber 32. In the sub-space 36 below the piston 35, a compression spring 37 is used, through which the piston 35 after the depression is pushed back into its initial position defined by a stop ring 38. A connection bore 40 is provided in the partition 39 of the two piston chambers immediately below the starting position of the piston 35. The starting position of the piston 41 arranged in the second piston chamber 33 is also fixed by a stop ring 42 so that the piston 41 closes the connecting bore 40 in its starting position. By means of a compression spring 43 arranged below the piston 41, this piston is also pushed back into its initial position. The piston 41 is depressed by means of a second pushbutton 44. The space below the piston 41 in the second piston chamber 33 is subjected to the negative pressure of the suction hose via a bore 45. A through bore 4b provided in the piston 41 connects the space below and above the piston 41 in terms of pressure.

If the first pushbutton 34 and thus the piston 35 are pressed downward in this actuating element, the air in the subspace 36 is compressed and the pressure pulse thus created is supplied to the pressure switch 21 via the hose line 19. As already explained, the membrane 22 is pressed against the contact 25 by this pressure pulse. After releasing the first push button 34, the compression spring 37 pushes the piston 35 back into its starting position. When the second pushbutton 44 is actuated, the piston 41 is pressed down so far that the connecting bore 40 is no longer covered by the piston 41. Via the connecting bore 40, the negative pressure of the suction hose prevailing in the second piston chamber 33 can now also be effective in the sub-chamber 36 of the first piston chamber 32. The vacuum lu is passed to the pressure switch 21 via the hose line 19, so that the membrane 22 is now pulled against the contact 26.

In the embodiment variant of an actuating element shown in FIG. 3, two spaces 52 and 53 that are interconnected in terms of pressure are provided in a control housing 51. A piston 55 which can be actuated by a first pushbutton 54 is arranged in the space 52. This piston 55 is also always returned to its starting position by a compression spring 56, which in turn is fixed by a stop ring 57. The other room 53 is divided by a transverse wall 58 into an upper and lower half. A through bore 59 is provided in the transverse wall 58 and is closed by a valve plate 60 arranged below the transverse wall 58. The valve plate 60 is pressed against the transverse wall 58 by a spring bl. By means of a second push button 62, the valve plate 60 can be pressed down against the force of the spring leaf, so that the passage bore 59 is released. Via a pipe 63 provided in the wall of the control housing 51, the upper half of the other space 53 is connected to the suction hose, so that the negative pressure of the suction hose prevails in the upper half of the other space 53.

If the first pushbutton 54 and thus the piston 55 are pressed down, a pressure pulse is again generated, which is given to the pressure switch 21 via the hose line 19. The membrane 22 is in turn pressed against the contact 25 by this pressure pulse. By actuating the second pushbutton 62, the passage bore 59 is released and the negative pressure of the suction hose prevailing in the upper half of the other space 53 is likewise passed via the hose line 19 to the pressure switch 21. This vacuum pulse pulls the membrane 22 against the contact 26 in the other direction.

8 claims

3 figures

Claims (8)

1. Device for remote actuation of the power control device of a vacuum cleaner blower, which device has an actuating element arranged on the handle of the suction tube for influencing a pressure switch (21), through the membrane (22) of which contacts (25, 26) connected to elements of the power control device are actuated, characterized that the pressure switch (21) can be acted upon by means of the actuating element (1, 31, 51) with respect to the atmospheric pressure either with overpressure or underpressure impulses and that at least one contact (25 or 26 ) is arranged, one of which is actuated in the event of an overpressure pulse and the other in the event of an underpressure pulse. 2. Apparatus according to claim 1, characterized in that a control housing (1) provided with two pushbuttons (2, 16) is arranged as an actuating element on the handle, in the lower half of which a displaceable by means of the first pushbutton (2) and by spring force into it Starting position resettable piston (2) and in the upper half above the piston (3) a closed, acted upon by the negative pressure of the suction hose cavity (9) is provided that further from this cavity (9) by the second push button (16) frcigebbare connection to the sub-space (4) below the piston (3) and this sub-space (4) is connected via a hose line (19) to the housing cavity (23) of the pressure switch (21) which is closed off by the membrane (22). 3. Apparatus according to claim 2, characterized in that in the middle of the piston (3) a longitudinal bore (11) is provided and above this one in the hollow socket (12) projecting the cavity (9) is arranged, which has at its free end a sealing seat (13) on which a plunger (14) connected to the first pushbutton (2) is seated, that the second pushbutton (16) is coupled to the tappet (14) via a reversing lever (17) which converts their movement in the opposite direction. 4. Device according to claim 1, characterized in that as an actuating element on the handle, a first and a second piston chamber (32 and ₃₃₎ exhibiting the control housing (31) is provided and in each piston chamber (32, 33) each include a means of a push-button (34 or 44) which is displaceable and resiliently resettable to its initial position (35 or 41) is arranged in the partition (39) of the two piston chambers (32 and 33) immediately below the initial position of the piston arranged in the first piston chamber (32) (35) a connecting bore (40) is provided which, in the starting position of the piston (41) arranged in the second piston chamber (33), is closed by this piston (41) and, when this piston (41) is actuated, is acted upon by the vacuum of the suction hose Space is released that the sub-space (36) below the piston (35) in the first piston space (32) via a hose (19) with the membrane (22) closed housing cavity (23) of the pressure switch (21) is connected. 5. The device according to claim 4, characterized in that the second piston chamber (33) below the piston (41) is acted upon by the negative pressure of the suction hose and the piston (41) has a through hole (46) connecting the space above and below it. 6. The device according to claim 1, characterized in that a control housing (51) is provided as the actuating element on the handle, the two has pressure-connected spaces (52, 53) which are connected via a hose line (19) to the housing cavity (23) of the pressure switch (21) which is closed off by the membrane (22), and which in one space (52) is a means a first push button (54) displaceable and resettable by spring force to its initial position and in the other room a by a second push button (62) operable and thereby a connection to an area of the room exposed to the vacuum of the suction hose releasing check valve is arranged. 7. The device according to one or more of the preceding claims, characterized in that the membrane (22) is provided with a pressure compensation bore (30). 8. The device according to one or more of the preceding claims, characterized in that the membrane (22) is electrically conductive and serves as a mating contact.

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