ES1193186Y2 - CONTROL DEVICE FOR SANITARY IMPELLER APPLIANCE PUMP - Google Patents

Abstract

1. Control device for sanitary drive pump, comprising: - a capacitive sensor (1) adapted to detect a change in capacity of a contents of a reservoir (2) of the sanitary drive, and - a central processing unit (CPU) (3) adapted to command the operation of a motor (4) of the sanitary drive pump according to the capacity of the tank contents (2) censored; characterized in that the capacitive sensor (1) is disposed within the material of a wall (2.1) of the tank (2). 2. Device according to claim 1, wherein the capacitive sensor (1) comprises an internal self-adjusting circuit. 3. Device according to claim 1, wherein the central processing unit (CPU) (3) commands the motor drive (4) through power and current control means (5). 4. Device according to claim 3, wherein the power and current control means (5) comprise a period for alternating current (TRIAC), an opto-coupler with galvanic isolation and a current sensor. 5. Device according to claim 1, comprising an AC / DC power supply (6), in connection with the central processing unit (CPU) (3). 6. Device according to claim 1, comprising visual and acoustic indicator means (7), in connection with the central processing unit (CPU) (3). 7. Device according to claim 6, wherein the visual and acoustic indicator means (7) are an LED bulb and an electro-acoustic buzzer or transducer. Device according to claim 1, comprising a communication port (8), in connection with the central processing unit (CPU) (3), which allows wireless (Wireless) or cable connections.

Description

CONTROL DEVICE FOR SANITARY IMPELLER APPLIANCE PUMP

Description

TECHNICAL FIELD OF THE INVENTION

The present invention relates to a device capable of effectively controlling the operation of the pump of sanitary devices, for example, shredders, evacuation pumps, etc., which are used for the extraction of waste water and solid waste from the sanitary installations, for example, toilets, washbasins, bidets, bathtubs, shower trays, etc., to the corresponding pipeline or drainage network.

BACKGROUND OF THE INVENTION

Various types of sanitary impellers are known, which, as the name implies, are used to process and drive wastewater and solid waste already shredded to the corresponding drainage network. For example, those shown in the utility model ES 1065122 and in patent document ES 2246335 respectively.

For this, normally, these sanitary devices include a pump

or turbine that is put into operation to drive the set of wastewater and crushed solid waste contained in a deposit of the driving apparatus, when said assembly exceeds a maximum level marked within said deposit. The pump motor is kept running until the content of wastewater and solid waste crushed in the tank reaches a minimum level that is also marked.

The extent of these extreme levels that trigger the pump or not, for example, can be counted by air pressure, or by simple contact of a level sensor with the contents of the tank. However, these types of level sensors currently used have measurement failures because of the place where they are placed subjected to pressure changes (environment subject to changes in

temperature), or because these sensors are degraded by direct contact with the contents of the deposit, or solid waste (for example, shredded paper) can remain stuck on the level sensor when the contents of the deposit are evacuated, interfering in a subsequent measurement, leading to erroneous readings that lead to incorrect pump operation.

Likewise, since the level sensors are in direct contact with the contents of the sanitary impeller tank there are short-circuit risks.

For this reason, it is required to design, in a simple and economical way, a device that allows to control the operation of the pump of a sanitary impeller that overcomes the aforementioned drawbacks.

DESCRIPTION OF THE INVENTION

The present invention is established and characterized in the independent claims, while the dependent claims describe other characteristics thereof.

The object of the invention is a control device for sanitary impeller pump. The technical problem to be solved is how to achieve a reliable and efficient operation of the pump of the sanitary impeller.

Essentially, the device comprises: a capacitive sensor adapted to detect a change in the capacity of the content (sewage and crushed solid waste) of the sanitary impeller reservoir, a central processing unit (CPU) adapted to command the drive of a motor the pump of the sanitary impeller according to the capacity of the content of the tank counted by the capacitive sensor.

When using a capacitive sensor to measure the contents of the disposer deposit, no part of the device is in direct contact with said content. For example, the capacitive sensor may be disposed within the material of a reservoir wall, for example, within the plastic that forms its housing.

Thus, the need for direct contact of the level sensors with the contents of the sanitary impeller tank is eliminated, as is the case in known solutions, which can cause measurement failures that result in inefficient operation of the pump. Likewise, the possibility of occurrence of short circuits is eliminated, avoiding that the device acts as the cause of any accident in this respect, maintaining the integrity of the users at all times.

In addition, since the device does not comprise mechanical or moving parts, the service life of the sanitary drive apparatus is considerably increased. And since it does not need to be in direct contact with the deposit of fluids, wastewater and solid waste, there are no problems of pressure loss and leakage in said tank of the sanitary impeller.

BRIEF DESCRIPTION OF THE FIGURES

The present specification is complemented with an illustrative figure of a preferred and never limiting example of the invention.

Figure 1 shows a diagram of the control device for sanitary impeller pump.

DETAILED EXPLANATION OF THE INVENTION

The present invention is a device for controlling the pump of a sanitary impeller, the latter of which is used for the extraction of waste water and solid waste from sanitary facilities, for example, toilets, washbasins, bidets, bathtubs, dishes of shower, etc., to the corresponding pipeline or drainage network.

As shown in figure 1, fundamentally, the device comprises: a capacitive sensor (1) adapted to detect a capacity change of a content of a reservoir (2) of the sanitary impeller, and a central processing unit (CPU) (3) adapted to command the drive of a motor (4) of the pump of the sanitary impeller according to the capacity of the content of the reservoir (2) counted.

Additionally, the device may comprise a power supply ACIDC (6), a visual and acoustic indicator means (7) and / or a communication port (8), all, in connection with the central processing unit (CPU) (3). ).

For example, as for the visual and acoustic indicator means (7) could be a LEO bulb and a buzzer or electro-acoustic transducer (elements not shown in the figure). The LED bulb and buzzer can be part of a panel that indicates the operating status or alarms on the sanitary impeller.

As for the communication port (8), it allows the device to communicate with the outside, either by wireless connection (Wireless), or by cable connection (not shown in the figure).

As can be understood, the capacitive sensor (1) is responsible for detecting the variation in the capacity of the contents of the tank (2) to be controlled. For example, a capacitive sensor of the type known by its English denomination as "touch sensor" could be used. And it is preferred that it comprises an internal self-adjustment circuit (not shown in the figure) that avoids possible diagnostic errors and false positives. Thus, the device is immune to changes in temperature, as well as to problems associated with dirt, for example, if solid residues adhere to the wall (2.1) of the tank (2), the capacitive sensor (1) is auto -adjusts and takes this new situation as the starting point for the next capacity reading.

Likewise, it is preferred that the capacitive sensor (1) does not maintain direct contact with the contents of the tank (2) to be controlled, for example, arranged inside the material of the wall (2, 1) of the tank (2).

For its part, it is preferred that the central processing unit (CPU) (3) commands the drive of the motor (4) of the pump of the sanitary impeller through a power and current control means (5).

Preferably, the power and current control means (5) comprise an alternating current triad (TRIAC), an opto-coupler with galvanic isolation and a current sensor (elements not shown in the figure). It can be understood that the triad for alternating current (TRIAC) acts as a first electronic switch used to operate the motor (4) of the pump of the sanitary impeller, and the opto-coupler, is a second switch used by the central unit of processing (CPU) (3) to operate safely or isolated on the first switch. As for the current sensor, it is non-invasive and is used by the central processing unit (CPU) (3) to control the consumption of the connected load.

Thus, if the content capacity of the repository (2) recorded is greater than a maximum reference value previously provided to the central processing unit (CPU) (3), the latter acts safely over the period for alternating current ( TRIAC) through the optocoupler with zero crossing detection, operating the motor (4) of the pump to evacuate the contents of the reservoir (2) of the sanitary impeller. Once the rated capacity is less than a minimum reference value, also previously contributed to the central processing unit (CPU) (3), similarly, said central processing unit (CPU) (3) will act on the triode. for alternating current (TRIAC), this time, to stop the operation of the motor (4).

There is a device that operates the engine (4) of the pump of the drive efficiently and efficiently, with a sophisticated control system that additionally allows the engine (4) to be disconnected in the event of alarm or stress. The device makes the sanitary impeller more energy efficient because it avoids the sporadic activations present in the known sanitary apparatuses, and makes an activation of the motor (4) of the pump at the time of crossing by zero, avoiding high currents at the start and generate electromagnetic noise.

Claims (8)

Control device for sanitary impeller pump, comprising: a capacitive sensor (1) adapted to detect a capacity change of a content of a reservoir (2) of the sanitary impeller, and a central processing unit ( CPU) (3) adapted to command the drive of a motor (4) of the pump of the sanitary impeller according to the capacity of the content of the reservoir (2) counted; characterized in that the capacitive sensor (1) is arranged within the material of a wall (2.1) of the tank (2). Device according to claim 1, wherein the capacitive sensor (1) comprises an internal self-adjusting circuit. 3. Device according to claim 1, wherein the central processing unit (CPU) (3) commands the drive of the motor (4) through power and current control means (5). 4. Device according to claim 3, wherein the power and current control means (5) comprise a trio for alternating current (TRIAC), an optocoupler with galvanic isolation and a current sensor. Device according to claim 1, comprising a power supply ACIDC (6), in connection with the central processing unit (CPU) (3). Device according to claim 1, comprising visual and acoustic indicator means (7), in connection with the central processing unit (CPU) (3). 7. Device according to claim 6, wherein the visual and acoustic indicator means (7) are a LEO bulb and a buzzer or electro-acoustic transducer. Device according to claim 1, comprising a communication port (8), in connection with the central processing unit (CPU) (3), which allows wireless 0Nireless connections) or by cable.