The invention relates to a control system for measuring pressure and/or humidity, comprising at least one apparatus for measuring pressure and/or humidity, comprising at least one sensor for measuring pressure and/or humidity, wherein the sensor comprises at least one capacitor comprising at least two electrodes that are arranged, in particular, in a horizontal direction along and on an, in particular, flexible support material relative to one another. At least one dielectric layer is arranged between the electrodes, wherein at least one at least partially liquid-permeable and/or liquid-adsorbing moisture layer is arranged at least in some places on a side, facing away from the support material, of at least one electrode and/or of the dielectric layer. The at least one electrode and/or the dielectric layer are thus then arranged between the support material and the moisture layer in a transverse direction, such that a capacitance is at least partially changed by the liquid at least partially hitting the dielectric layer, wherein a processing unit is designed and provided to measure and/or store measurement values of the sensor. This creates a capacitive moisture sensor. The invention is characterized in that the data measured by the sensor is transmitted by the processing unit to a central CPU, wherein this data is processed by the processing unit.

The invention relates to a control system for measuring pressure and/or humidity, comprising at least one apparatus for measuring pressure and/or humidity, comprising at least one sensor for measuring pressure and/or humidity, wherein the sensor comprises at least one capacitor comprising at least two electrodes that are arranged, in particular, in a horizontal direction along and on an, in particular, flexible support material relative to one another. At least one dielectric layer is arranged between the electrodes, wherein at least one at least partially liquid-permeable and/or liquid-adsorbing moisture layer is arranged at least in some places on a side, facing away from the support material, of at least one electrode and/or of the dielectric layer. The at least one electrode and/or the dielectric layer are thus then arranged between the support material and the moisture layer in a transverse direction, such that a capacitance is at least partially changed by the liquid at least partially hitting the dielectric layer, wherein a processing unit is designed and provided to measure and/or store measurement values of the sensor. This creates a capacitive moisture sensor. The invention is characterized in that the data measured by the sensor is transmitted by the processing unit to a central CPU, wherein this data is processed by the processing unit.

A sharing management system for managing usage objects, particularly vehicles. A detection apparatus installed on the object identifies a user from a database, At least one optical and/or physical sensor detects the user and obtains optical data, and a processing unit is configured and provided to store measured values of the sensor. Data measured by the sensor are sent from the processing unit to a CPU. The CPU and/or the processing unit compares these data with corresponding values stored in or sent to the database, and, if the sensed values or corresponding value ranges match stored values, the CPU sends a release signal to a comparing device, which then releases the usage object for use, in particular wherein the CPU is installed in at least one assembly station, in particular a stationary assembly station, away from the usage object, so that the CPU can communicate wirelessly with the comparing device.

A sharing management system for managing usage objects, particularly vehicles. A detection apparatus installed on the object identifies a user from a database, At least one optical and/or physical sensor detects the user and obtains optical data, and a processing unit is configured and provided to store measured values of the sensor. Data measured by the sensor are sent from the processing unit to a CPU. The CPU and/or the processing unit compares these data with corresponding values stored in or sent to the database, and, if the sensed values or corresponding value ranges match stored values, the CPU sends a release signal to a comparing device, which then releases the usage object for use, in particular wherein the CPU is installed in at least one assembly station, in particular a stationary assembly station, away from the usage object, so that the CPU can communicate wirelessly with the comparing device.

The presently disclosed subject matter is directed to an anti-theft device for use with a motorized vehicle, such as a riding lawn mower. The device comprises a main body defined by first and second ends. Each end of the device comprises a pair of arms, each with a distal end and a proximal end. The distal end of each arm includes an aperture sized and shaped to allow a lock or other securing element to pass therethrough. For example, with riding lawn mowers, the disclosed device can be used to lock the mower handles in an off position, so that the mower cannot be started until the device is removed.

The invention relates to a control system for measuring pressure and/or humidity, comprising at least one apparatus for measuring pressure and/or humidity, comprising at least one sensor for measuring pressure and/or humidity, wherein the sensor comprises at least one capacitor comprising at least two electrodes that are arranged, in particular, in a horizontal direction along and on an, in particular, flexible support material relative to one another. At least one dielectric layer is arranged between the electrodes, wherein at least one at least partially liquid-permeable and/or liquid-adsorbing moisture layer is arranged at least in some places on a side, facing away from the support material, of at least one electrode and/or of the dielectric layer. The at least one electrode and/or the dielectric layer are thus then arranged between the support material and the moisture layer in a transverse direction, such that a capacitance is at least partially changed by the liquid at least partially hitting the dielectric layer, wherein a processing unit is designed and provided to measure and/or store measurement values of the sensor. This creates a capacitive moisture sensor. The invention is characterized in that the data measured by the sensor is transmitted by the processing unit to a central CPU, wherein this data is processed by the processing unit.

The invention relates to a control system for measuring pressure and/or humidity, comprising at least one apparatus for measuring pressure and/or humidity, comprising at least one sensor for measuring pressure and/or humidity, wherein the sensor comprises at least one capacitor comprising at least two electrodes that are arranged, in particular, in a horizontal direction along and on an, in particular, flexible support material relative to one another. At least one dielectric layer is arranged between the electrodes, wherein at least one at least partially liquid-permeable and/or liquid-adsorbing moisture layer is arranged at least in some places on a side, facing away from the support material, of at least one electrode and/or of the dielectric layer. The at least one electrode and/or the dielectric layer are thus then arranged between the support material and the moisture layer in a transverse direction, such that a capacitance is at least partially changed by the liquid at least partially hitting the dielectric layer, wherein a processing unit is designed and provided to measure and/or store measurement values of the sensor. This creates a capacitive moisture sensor. The invention is characterized in that the data measured by the sensor is transmitted by the processing unit to a central CPU, wherein this data is processed by the processing unit.

A multi-lock vehicle theft prevention system and device are provided. The system may include an electronic device in communication with a wireless network and a multi-lock vehicle theft prevention device for use with a vehicle. The device may include a major cover and a minor cover. The first cover and the second cover may be configured to encircle a control housing, or other portion of a vehicle or other possession, positioned between the first cover and second cover and a lock bar may be configured to removably couple the first cover and second cover together.

A theft deterrent device includes a locking portion and a housing portion. The locking portion includes a locking mechanism. The housing portion includes a housing portion wall. The housing portion wall comprises a first material and is configured to house a second material within the housing portion wall. The second material is made of a different material than the first material. The second material is selected such that a cutting tool will be hindered when trying to cut through the housing portion.

A detachable steering wheel includes a steering wheel body, an electric sleeve, a fixing mechanism, a controlling module and an identifying module. The steering wheel body includes a direction grip and a connection shaft. The connection shaft is inserted into a steering column. Moreover, plural indentations are formed in the connection shaft. The electric sleeve is movably sheathed around the steering column. The fixing mechanism includes plural rolling balls and plural openings. The plural openings are penetrated through the corresponding openings and connected with the corresponding indentations. The controlling module is installed in the steering column and electrically connected with the electric sleeve. The identifying module is installed in the direction grip and electrically connected with the controlling module. Due to these structures, the intelligent anti-theft purpose is achieved.