A shoe has an air pump device for blowing air into the interior of a shoe comprising a bellows formed in the sole structure and surrounding a cavity, an intake channel for transporting air from an intake opening into the bellows, an air supply device formed in the sole structure for forwarding air from the bellows into the interior of the shoe, and a V-shaped or U-shaped spring element which clasps the bellows. An upper leg of the spring element comprises an upper pressure plate arranged above the bellows and below an insole of the sole structure, and a lower leg comprises a lower pressure plate arranged under the bellows and above an outsole layer, so that a connecting section that connects the two legs is arranged beside the bellows in the sole structure. The air pump device is arranged in such manner that when the sole structure is placed under load during a walking movement, the spring element is deformed elastically by pressing the pressure plates together, wherein the deformation takes place substantially at or close to the connecting section, so that the pressure plates substantially keep their shape, and the bellows is compressed.

Describes are support elements for a sole of a shoe, in particular a sports shoe, a sole and a shoe with such a support element, as well as a method for the manufacture of a support element. As examples, the support element includes a first partial member formed of a first material, and a second partial member formed of a second material. The first partial member is mechanically joined to the second partial member in a connection region, wherein the connection region is configured to allow the first partial member to rotate or slide relative to the second partial member. The first partial member, the second partial member, and the connection region can be co-molded and joined together in a single fabricating step.

A shoe has an air pump device for blowing air into the interior of a shoe comprising a bellows formed in the sole structure and surrounding a cavity, an intake channel for transporting air from an intake opening into the bellows, an air supply device formed in the sole structure for forwarding air from the bellows into the interior of the shoe, and a V-shaped or U-shaped spring element which clasps the bellows. An upper leg of the spring element comprises an upper pressure plate arranged above the bellows and below an insole of the sole structure, and a lower leg comprises a lower pressure plate arranged under the bellows and above an outsole layer, so that a connecting section that connects the two legs is arranged beside the bellows in the sole structure. The air pump device is arranged in such manner that when the sole structure is placed under load during a walking movement, the spring element is deformed elastically by pressing the pressure plates together, wherein the deformation takes place substantially at or close to the connecting section, so that the pressure plates substantially keep their shape, and the bellows is compressed.

A ventilation apparatus including a pump, a switching unit, and a fluid diffuser is provided. The pump attached to the footwear pumps fluid into and exhausts fluid from a cavity of the footwear. The switching unit in communication with the pump selectively changes modes of operation of the pump. The fluid diffuser connected to the pump within the cavity of the footwear includes a feed pipe for transferring the fluid pumped from the pump to the cavity of the footwear during a pump mode of operation and to transfer the fluid in the cavity of the footwear to an ambient environment external to the footwear during an exhaust mode of operation, for ventilating the footwear. In one or more embodiments, the fluid diffuser includes a diffusing member with one or more openings and/or a fluid distribution channel member for transferring the fluid to and from the cavity of the footwear.

Disclosed are shoes including a body having a foot insertion space into which user's foot is inserted, an air passage portion protruding from a front of the body to the outside and extending in a direction in which the body extends, and a foot support portion located in a width direction of the air passage portion. In addition, shoes according to another feature includes a first body portion in which a portion of a front foot portion of a wearer is positioned, a second body portion connected to the first body portion and in which the other remaining portion of the front foot portion, a middle foot portion, and a rear foot portion of the wearer are positioned, a cover seamlessly connected to the second body portion and protruding in an outward direction from both edge portions, at least one protrusion protruding from an inner surface of the cover and extending in a direction in which the second body portion extends, wherein a protruding thickness of each protrusion decreases from an upper portion toward the first body portion.

Systems and devices are described for creating a more effective mechanical ventilation system for footwear. For example, a mechanical ventilation system can include an air reservoir that is almost as large as the entire shoe under the footwear's foot bed. In some examples, the air reservoir can be connected to an area that includes a foot of a user in the footwear. The air reservoir can be compressed using a movable part that circulates air in the footwear with every step. The movable part can be relatively small, extending into the air reservoir, and able to compress and inflate the air reservoir. Movement of the movable part can cause a large effective compressible area of the air reservoir to release fresh air near the toes of a foot to flush stale air out of the footwear.

A ventilation apparatus including at least one flexible energy storage device (FESD), a switching unit, a pump, and a fluid diffuser is provided. The FESD flexibly conforms to varying contours of footwear. The FESD positioned at one or more locations of the footwear supplies electrical energy to the pump via the switching unit. The switching unit in communication with the FESD and the pump selectively changes modes of operation of the pump. The pump attached to the footwear pumps fluid into and exhausts fluid from a cavity of the footwear. A feed pipe of the fluid diffuser connected to the pump, within the cavity of the footwear, transfers the fluid pumped from the pump to the cavity of the footwear during a pump mode and transfers the fluid in the cavity of the footwear to an ambient environment external to the footwear during an exhaust mode for ventilating the footwear.

A temperature-adjustment shoe sole, including a supporting member. The supporting member is provided with an air guide channel. A semiconductor temperature control unit, wherein the semiconductor temperature control unit is arranged in the supporting member. The semiconductor temperature control unit has a first temperature control end and a second temperature control end. The first temperature control end of the semiconductor temperature control unit is in contact with an air fluid in an accommodating space to generate a first air fluid. The second temperature control end of the semiconductor temperature control unit is in contact with the air fluid in the accommodating space to generate a second air fluid.

Item of footwear (100) having an upper arrangement (112) and a sole (114), wherein the upper arrangement (112) has a top material (116) and on air-permeable layer (140) arranged in a base of the upper, the air-permeable layer (140) is arranged above the sole (114), in a sole-side, bottom region of the upper arrangement (112), the air-permeable layer (140) has a three-dimensional structure allowing the through-passage of air in at least the horizontal direction, and a sole-side, bottom peripheral region of the top material (116) of the upper is replaced, over at least part of its peripheral extent, by at least one connecting material (210) which, beginning at least above an underside of the air-permeable layer (140) and running outside the air-permeable layer (140), is arranged on the base of the upper and is air-permeable at least in a sub-region located at least in part at the same level as the air-permeable layer (140), and thus connects the air-permeable layer (140) to the exterior surroundings such that air can be exchanged between the exterior surroundings and the air-permeable layer (140).

Item of footwear having an upper arrangement and a sole, wherein the upper arrangement has a top material and an air-permeable layer arranged in a base of the upper, the air-permeable layer is arranged above the sole, in a sole-side, bottom region of the upper arrangement, the air-permeable layer has a three-dimensional structure allowing the through-passage of air in at least the horizontal direction, and a sole-side, bottom peripheral region of the top material of the upper is replaced, over at least part of its peripheral extent, by at least one connecting material which, beginning at least above an underside of the air-permeable layer and running outside the air-permeable layer, is arranged on the base of the upper and is air-permeable at least in a sub-region located at least in part at the same level as the air-permeable layer and thus connects the air-permeable layer to the exterior surroundings such that air can be exchanged between the exterior surroundings and the air-permeable layer.