DE102011075005A1 - Vacuum cleaner for cleaning dust in house, has odor sensor that absorbs detected odorant substance on sensor surface, where mass change in odorant substance is detected by odor sensor - Google Patents

Abstract

The cleaner (1) has a motor fan unit (4) for creating suction airflow, and a suction air guide for guiding suction air flow and an odor sensor (12) for detecting odor substance in suction air flow. The odor sensor i.e. mass-sensitive sensor, absorbs detected odorant substance on a sensor surface i.e. surface of an oscillation quartz, of the odor sensor, where the mass change in the odorant substance is detected by the odor sensor. The odor sensor and a motor fan unit share resources in order to control the power of the motor fan unit. An independent claim is also included for a method for operating a vacuum cleaner.

Description

Field of the invention

The invention relates to a vacuum cleaner with a suction channel for guiding a suction air flow and an odor sensor for the detection of odors in the suction air stream. It also relates to a method of operating a vacuum cleaner in which an impurity sensor closes the contamination of the suction air.

Background of the invention

Vacuum cleaners are known from the prior art, whose motor-blower unit for generating a suction air flow is controlled by sensors. For example, z. For example, the patent EP 0 527 567 a method in which a vacuum cleaner motor is controlled by means of a fuzzy logic in response to a pressure measurement in the vacuum cleaner. The patent EP 0 488 883 B1 discloses a similar electric vacuum cleaner comprising a dust detection means and a power control means for controlling the blower drive of the vacuum cleaner according to an engine operating condition determined by fuzzy inference means. In the disclosure US 2005/065662 A1 disclosed method, a vacuum cleaner motor is controlled in response to a pressure measurement.

Next z. B. from the publications JP 2008/100003 A and JP 2008100004 A Vacuum cleaners equipped with odor sensors.

Finally, the use of mass-sensitive sensors for detecting substances is known from the prior art. Thus, the published patent application DE 10 318 956 A1 a method for the detection of volatile analytes in an air sample by means of a mass-sensitive sensor whose sensor surface is covered with a selectively sensitive to the analyte surface layer to be detected. The sensor is subjected to an air sample to be examined and a mass change of the surface layer in the form of an electrical signal is detected and evaluated. Similarly, the published patent application DE 10 2006 020 866 A1 an analyzer for detecting an analyte comprising a sensor with a quartz crystal, on whose surface capture molecules are immobilized, which bind specifically to the analyte. As a result, the natural frequency of the quartz crystal is dependent on whether and / or how much analyte molecules are bound to the capture molecules.

The problem underlying the invention

The invention is based on the object to provide an improved vacuum cleaner with an odor sensor for the detection of odors. It is also an object of the invention to provide an improved method for operating a vacuum cleaner in which a contamination sensor detects that the suction air is contaminated by means of an odor sensor. In particular, should be achievable that can be closed on the contamination of the suction air, the quality of cleaning by the vacuum cleaner or the required cleaning time. This should also be achievable to control the vacuum cleaner depending on the aforementioned factors.

Inventive solution

The reference numbers in all claims have no limiting effect, but are only intended to improve their readability.

The invention task is solved by a vacuum cleaner with the features of claim 1. It is also achieved by a method having the features of claim 5.

The invention is u. A. is based on the idea that the dust itself can be deduced to the dust itself. The inventive use of a mass-sensitive sensor advantageously allows the short response time of such sensors to be utilized. As a result, odors can be detected within a very short time. In addition, with the invention advantageously a high measurement accuracy can be achieved. These properties are useful both when the vacuum cleaner itself is controlled by the measurement result of the odor sensor and in those cases where the measurement result is displayed so that the user can take it into account when handling the vacuum cleaner. The solution according to the invention can advantageously be implemented simply and inexpensively.

A vacuum cleaner according to the present invention is an electrical energy powered device for receiving dust, including both mains powered and battery or battery operated devices. A vacuum cleaner can z. B. a motor-blower unit for generating a suction air flow, a suction air guide for guiding the suction air flow, and a Staubabscheideeinrichtung. Here, a dust removal device is to be understood as a device in which the suction air laden with the dirt can be freed from the dust. The Staubabscheideeinrichtung can z. B: a dust filter bag or comprise a centrifugal separator. An odor sensor in the sense of the present invention is a device which can detect odors present in the intake air and / or measure their concentration.

Preferred embodiment of the invention

Advantageous embodiments and developments, which can be used individually or in combination with each other, are the subject of the dependent claims.

In a preferred embodiment of the invention, the sensor surface is a surface of a quartz crystal. In this embodiment of the invention is exploited that the resonant frequency of the quartz crystal, often referred to as "natural frequency" is a function of the mass. Consequently, if the mass changes due to absorption of odorous substances to be detected, the resonance frequency also changes. Preferably, an evaluation of the change in the resonant frequency calculates the mass change and thus the mass of the absorbed material. With the result can then z. As an indicator on the vacuum cleaner or other device of the vacuum cleaner can be controlled. Sensors using a quartz crystal are in particular from the published patent application DE 103 18 956 A1 and the publication DE 102 006 020 866 A1 disclosed. The relevant content of the aforementioned documents is incorporated herein by reference.

In this embodiment of the invention can be advantageously exploited that mass-sensitive sensors with quartz crystals can detect mass changes within a very short time, especially within a few milliseconds. As a result, this embodiment of the invention allows a particularly rapid response to changes in the concentration of the odors to be detected.

wobei

Δf

die Frequenzänderung,

f0

die Resonanzfrequenz,

A

die Kristallfläche,

ρq

die Dichte des Quarzes,

μq

das Schermodul des Quarzes und schließlich

Δm

die Massenänderung ist.

In a preferred method according to the invention, the change in resonance frequency is based on the mass change using the Sauerbrey equation:

in which

.delta.f

the frequency change,

f0

the resonance frequency,

A

the crystal surface,

ρq

the density of the quartz,

μq

the shear modulus of quartz and finally

Dm

the mass change is.

It is an achievable advantage of the invention that sensors that work on the quartz crystal principle, can be made particularly simple and inexpensive. This applies to both the sensor-active layer, as well as the coating process and the evaluation.

In a preferred embodiment of the invention, capture molecules are immobilized on the sensor surface for absorbing the odors to be detected, to which the odorants can bind. In this way, advantageously, a specific absorption of a determining odorant or a specific group of odorous substances having a specific molecular structure can be detected, or their concentration can be determined. The absorption of the odors to be detected is preferably carried out according to the key-lock principle. Advantageously, the catcher molecules can be chosen so that very specific odors are detected. This can z. As for house dust typical odors or substances that cause a perceived as particularly unpleasant smell. Typical odorants that the odor sensor selectively detects are characteristic components of household contaminants, e.g. As fibers, feathers, food particles, dust mites and their excrements, fungal spores and their degradation products. The sensor surface may contain either only one type of capture molecules or several different types of capture molecules. The latter may allow it to capture a wider range of odors.

In a preferred embodiment of the invention, the sensor surface of the odor sensor is arranged in the suction air guide. In one embodiment of the invention, the sensor surface in the suction air is especially arranged in front of a separator, so generally between the nozzle and Staubabscheideeinrichtung the vacuum cleaner. In this way odors can be detected in the suction air absorbed by the vacuum cleaner and displayed accordingly or used to control the vacuum cleaner. In another embodiment of the invention, the sensor surface is arranged downstream of the separator. In this way, the quality of the suction air can be checked after deposition and made according to display or the vacuum cleaner can be controlled accordingly. In the latter case, the vacuum cleaner z. B. the need for a Filter replacement, the need to refill odor-neutralizing substances in the vacuum cleaner, the need to replace a dust bag or the need for emptying a dust collector indicate.

In a preferred embodiment of the invention, the vacuum cleaner has a motor-blower unit for generating the suction air flow, and the sensor is operatively connected to the motor-blower unit to increase the power of the motor-blower unit in dependence on the measurement result of the odor sensor Taxes. The control is preferably carried out indirectly via a switched between the odor sensor and the motor-fan unit evaluation and control electronics. The evaluation and control electronics are particularly preferably equipped with a control matrix, by means of which the evaluation and control electronics can determine which measured odors or odor concentrations should lead to which control actions.

By controlling the power of the motor-fan unit according to the invention advantageously the suction power of the vacuum cleaner can be controlled. As a result, a permanent, optimal cleaning performance can be ensured during operation. In particular, the suction power can be adapted to the degree of contamination. It is also conceivable that the fan is shut down to a minimum power or even completely shut off when a certain degree of purification is reached.

The solution according to the invention is characterized by short response times and high measurement accuracy. It is simple and inexpensive to implement.

Brief description of the drawing

An advantageous embodiment will be described in more detail below with reference to an embodiment shown in the drawing, to which the invention is not limited.

It shows schematically:

1 a vacuum cleaner with an inventively equipped as a mass-sensitive sensor odor sensor.

Detailed description based on the embodiment

The in 1 illustrated vacuum cleaner 1 has an aggregate carrier 2 on, its housing 3 an electric motor operated motor-blower unit 4 receives. The motor-blower unit 4 is upstream with a Staubabscheideeinrichtung 5 fluidly connected, which is a replaceable dust filter bag 6 receives. In the dust filter bag 6 opens a suction line, the one inside the vacuum cleaner housing 3 present section 7 , a flow connected outside the housing 3 lying suction hose 8th and in turn connected flow-connected intake manifold 9 includes. The suction tube 9 flows upstream into a suction nozzle 10 ,

The through the suction nozzle 10 Dust-laden air picked up from the ground is fed through the suction line into the dust separator 5 where it is at least partially freed of dust, including odors, by the dust filter bag. The thus cleaned suction air is through the motor-blower unit 4 led and finally escapes through the exhaust port 11 in the case 3 in the direction of the arrow 13 ,

At the inside of the case 3 extending part 7 the suction line is a working according to the quartz crystal principle odor sensor 12 arranged, wherein the sensor surface of the odor sensor 12 points in the Saugluftführung to be directly exposed to the suction line flowing through the suction air. On a sensor surface of the quartz crystal different types of capture molecules are immobilized, which can detect various typical for house dust odors. The smell sensor 12 is electrically connected to an evaluation and control device 14 connected, which evaluates the sensor signal based on the Sauerbrey equation and corresponding control signals to the motor-blower unit 4 leads to control them. In addition, a display device 15 on the outside of the case 3 also arranged by the evaluation and control device 14 is controlled to the user through the use of the odor sensor 12 estimated pollution degree of the suction air to inform.

The solution is characterized by short response times and high measurement accuracy. It is simple and inexpensive to implement.

The features disclosed in the foregoing description, the claims and the drawings may be of importance both individually and in any combination for the realization of the invention in its various forms.

LIST OF REFERENCE NUMBERS

1

 vacuum cleaner

2

 assembly carrier

3

 casing

4

 Motor-fan unit

5

 dust collector

6

 Vacuum Cleaner Bags

7

 Suction line section in the housing

8th

 suction

9

 suction tube

10

 suction nozzle

11

 exhaust vent

12

 odor sensor

13

 exhaust direction

14

 Evaluation and control device

15

 display

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 0527567 [0002]
• EP 0488883 B1 [0002]
• US 2005/065662 A1 [0002]
• JP 2008/100003 A [0003]
• JP 2008100004 A [0003]
• DE 10318956 A1 [0004, 0011]
• DE 102006020866 A1 [0004, 0011]

Claims (9)

Vacuum cleaner ( 1 ) with a suction air guide for guiding a suction air flow and an odor sensor ( 12 ) for the detection of at least one odorant in the suction air stream, characterized in that the odor sensor ( 12 ) is a mass-sensitive sensor, the mass change of a sensor surface of the odor sensor ( 12 ) to which the odorant (s) to be detected can adsorb. Vacuum cleaner ( 1 ) according to claim 1, characterized in that the sensor surface is a surface of a quartz crystal. Vacuum cleaner ( 1 ) according to any one of the preceding claims, characterized in that on the sensor surface for adsorbing the odors to be detected Fängerrmoleküle are immobilized, to which the odor substances can bind. Vacuum cleaner ( 1 ) according to one of the preceding claims, characterized in that the sensor surface is arranged in the suction air guide. Vacuum cleaner ( 1 ) according to one of the preceding claims, characterized in that the vacuum cleaner is a motor-blower unit ( 4 ) for generating the suction air flow and the odor sensor ( 12 ) with the motor-blower unit ( 4 ) is connected to the power of the motor-blower unit ( 4 ) depending on the measurement result of the odor sensor ( 12 ) to control. Method for operating a vacuum cleaner ( 1 ), in which by means of an odor sensor ( 12 ) is closed to contamination of the suction air, characterized in that for the detection of one or more odors, a mass change of a sensor surface of the odor sensor ( 12 ), to which the odors to be detected can adsorb, is detected. A method according to claim 6, characterized in that the sensor surface is a surface of a quartz crystal and to detect the mass change, the resonant frequency of the quartz crystal is measured. A method according to claim 7, characterized in that it is concluded from the resonance frequency change using the Sauerbrey equation on the mass change. Method according to one of claims 6 to 8, characterized in that a motor-blower unit ( 4 ) of the vacuum cleaner ( 1 ) is controlled on the basis of the measurement result to the performance of the vacuum cleaner ( 1 ) depending on the contamination of the suction air to control.

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