A microclimate control system for a seated occupant includes a seat having a cushion and a back respectively including a first array of pressure sensors and a second array of pressure sensors. The first array of pressure sensors provides a cushion occupant output. The second array of pressure sensors provides a back occupant output. The cushion and back occupant outputs correspond to load distributions from the seated occupant. At least one thermal effector is configured to provide thermal conditioning to the seated occupant. A controller is in communication with the first and second arrays of pressure sensors and with the at least one thermal effector. The controller includes an occupant personal parameters algorithm configured to extract occupant personal parameters based upon the cushion and back occupant outputs. The occupant personal parameters include at least two of an occupant weight, an occupant height, and an occupant gender. The occupant personal parameter algorithm estimates an occupant clothing insulation value from the occupant personal parameters. The controller is configured to regulate the at least one thermal effector based upon the occupant clothing insulation value.

The main purpose of the disclosed invention is to provide users with a multi-functional baby car seat. This product has an internal speaker system that allows parents to soothe and entertain their child. The invention includes a thermal backrest and seat with heating and cooling controls that are designed to keep the child held by the seat at a comfortable temperature at all times. A retractable sun-reflecting shield is also part of this invention, and can protect the child from unwanted sun exposure. Every function of this car seat is controlled by a smartphone application. To guarantee the safety of the child held therein, this product sends essential alerts to the linked cellular device to help prevent critical situations such as when a child unbuckles the clip or if the infant is put at risk of vehicular heatstroke because of ambient temperature changes.

The main purpose of the disclosed invention is to provide users with a multi-functional baby car seat. This product has an internal speaker system that allows parents to soothe and entertain their child. The invention includes a thermal backrest and seat with heating and cooling controls that are designed to keep the child held by the seat at a comfortable temperature at all times. A retractable sun-reflecting shield is also part of this invention, and can protect the child from unwanted sun exposure. Every function of this car seat is controlled by a smartphone application. To guarantee the safety of the child held therein, this product sends essential alerts to the linked cellular device to help prevent critical situations such as when a child unbuckles the clip or if the infant is put at risk of vehicular heatstroke because of ambient temperature changes.

A system for a vehicle seat includes: a functional device able to selectively occupy Np states, where Np is a positive integer; an input interface configured for collecting Nm parameters, where Nm is a positive integer, related to the vehicle and/or to the seat and/or to a user of the seat; a control device configured for changing the functional device from one of the Np states to another of the Np states; a control interface enabling the user to set the functional device, via the control device, to the state to be in; and a data storage unit. The system is configured for sending the values of the Nm parameters to the data storage unit each time the user places the functional device in one of the Np states.

The present disclosure relates to an occupancy sensing device for detecting the occupancy of a seat of a vehicle, comprising: a flexible substrate having a first main face and a second main face opposite to the first main face, a capacitive sensor with interdigitated electrodes, capable of detecting the state of occupancy of the seat, conductive tracks connected to the capacitive sensor with interdigitated electrodes, the capacitive sensor with interdigitated electrodes and the conductive tracks being fixed on the first main face of the flexible substrate, wherein the flexible substrate is made of an elastic and impermeable material.

A vehicle seat system is provided that includes heating, cooling, and occupant sensing functionality in a single unit. The system includes carbon nanotube (CNT) elements disposed adjacent the seat surface. The CNT elements may be woven or stitched to a vehicle seat cover, or may be disposed in a mat that is placed between a seat cushion and the seat cover. The CNT elements may be used for heating, cooling, and occupant sensing, without requiring separate units or circuits. The system may include Peltier elements attached to the CNT elements, with the Peltier elements transferring heat between the CNT elements and a heat bank. The heat bank may be in the form of a heat sink, or the heat bank may be the seat rails of the vehicle seat, with the Peltier elements attached to the seat rails.

A ventilation module can be used with a ventilation seat for a vehicle. A thermoelectric air-conditioning part has a thermoelectric unit performing heat absorption and heat generation by using a Peltier effect when electric power is applied, a cooling unit provided at a first side of the thermoelectric unit, and a heat dissipation unit provided at a second side of the thermoelectric unit. The module is configured so that air that is supplied from a blower is cooled by the thermoelectric air-conditioning part, passes through a cooling fin of the cooling unit, and is discharged to an interior of the vehicle through a seat cushion. The module is configured so that air that is supplied from the blower is heated by the thermoelectric air-conditioning part, passes through a heat dissipating fin of the heat dissipation unit, and is discharged through the heat dissipation path.

A method of controlling a temperature altering element within a seating assembly of a vehicle comprising: presenting a vehicle including a seating assembly including a temperature altering element, a controller in communication with the temperature altering element, the controller including a Pre-established Predictive Activation Model setting forth rules governing the activation of the temperature altering element as a function of data relating to Certain Identifiable Conditions, and a user interface configured to allow the temperature altering element to be manually activated or deactivated; occupying the seating assembly with a first occupant; collecting data relating to the Certain Identifiable Conditions while the first occupant is occupying the seating assembly; determining, by comparing the collected data to the rules of the Pre-established Predictive Activation Model, whether the collected data satisfies the rules of the Pre-established Predictive Activation Model so as to activate the temperature altering element; and activating the temperature altering element.

A method of controlling a temperature altering element within a seating assembly of a vehicle comprising: presenting a vehicle including a seating assembly including a temperature altering element, a controller in communication with the temperature altering element, the controller including a Pre-established Predictive Activation Model setting forth rules governing the activation of the temperature altering element as a function of data relating to Certain Identifiable Conditions, and a user interface configured to allow the temperature altering element to be manually activated or deactivated; occupying the seating assembly with a first occupant; collecting data relating to the Certain Identifiable Conditions while the first occupant is occupying the seating assembly; determining, by comparing the collected data to the rules of the Pre-established Predictive Activation Model, whether the collected data satisfies the rules of the Pre-established Predictive Activation Model so as to activate the temperature altering element; and activating the temperature altering element.

A suspension mat for a vehicle seat comprises a spring element, and a guiding support for at least one electrical cable. The guiding support is molded onto the spring element.