A tire sealant dispenser matches with an air compressor and contains a body in which chemical fluid (such as tire sealant) is filled, a cap connected on an opening of the body, a drive element configured to urge a punch element to pierce a film, such that an air conduit is in communication with a sealant conduit, pressurized air flows into the body via the air conduit from the air compressor, and the chemical fluid flows out of the sealant conduit.

Provided is a puncture repair kit container that includes a container body including a holding portion that holds puncture repair liquid and an opening portion provided in one end of the holding portion, a cap mounted on the opening portion, a hose connected to a connecting portion provided in the cap, and an engaging portion that is provided in an outer surface of the cap and that engages the hose in an unused state by causing the hose to extend along a periphery of the cap.

The process includes a non-crosslinked self-sealing composition which is introduced into an extrusion means, the geometric and thermodynamic characteristics of which have been specially adapted. The speed and temperature conditions of the extrusion means are adjusted so that, at an application nozzle forming the outlet die of the extrusion means, the self-sealing composition is crosslinked. The application nozzle is brought close to the internal surface of the casing previously set in relative motion with respect to the application nozzle, and an extruded and crosslinked bead that has a given width and profile is deposited directly on the internal surface of the casing.

A distributed system (54) for supplying pressurized medium, in particular compressed air, in a vehicle (10), a wheel unit (14) for a vehicle (10), and a decentralized integrated pressurized medium supply device (70) for a wheel unit (14) with a rotatably supported vehicle tire (16). The pressurized medium supply device (70) has a decentralized compressor unit (74) and has a pressurized medium path (98) that extends between the decentralized compressor unit (74) and a rim body (92) of the vehicle tire (16), which rim body is associated with a wheel body side (80) of the wheel unit (14). The decentralized compressor unit (74) has an energy supply connection, which can be connected to an energy supply unit (104) via an energy supply path (106). The pressurized medium supply device (70) is associated with a support side (82) and the wheel body side (80) of the wheel unit (14). The pressurized medium path (98) or energy supply path (106) includes a rotary/stationary transition (116, 158) between the support side (82) and the wheel body side (80).

One or more embodiments of the present invention provide a tire and method of forming a continuous encapsulated strip of sealant layer inside the tire. The strip of sealant layer has a varied mixture ratio of the sealant compound to the skin compound.

An aerosol product diffuser assembly comprises: a diffuser block (1) comprising an annular casing (2) inside which a cam actuator (3) is mounted axially mobile, a control lever (10) provided with a planar body (12) making it possible to control the diffusion of the aerosol liquid said cam actuator (3) comprising: (i) an axially mobile cam follower plate (4); (ii) an aerosol bottle nozzle housing (5), arranged on the cam follower plate (4); (iii) a duct (6a) connected to the nozzle housing and enabling the liquid to diffuse to a discharge point of the aerosol liquid, the control lever (10) being pivotably mounted on the annular casing (2), and the cam actuator (3) being able to be pushed axially towards the aerosol bottle by at least one pivoting cam (15).

A method for forming a sealant layer in a tire is described, wherein the tire produced is balanced. The method comprising the steps of: providing a tire; and spraying a sealant layer on the inside of the tire, under the crown, wherein the sealant layer is sprayed at a zero degree angle with respect to the tire mid-circumferential plane as the tire is rotated.

A puncture repair kit includes a container configured to house puncture repair liquid; a hose configured to be connected to the container and carry the puncture repair liquid into a tire; a compressor configured to supply compressed air for supplying under pressure the puncture repair liquid in the container through the hose; and an assistor configured to correct a tilt of the container when the container is connected to a tire valve via the hose and pendent from the tire valve.

A container of a puncture repair agent includes: a bottomed cylindrical container body to store the puncture repair agent; and a mouth portion provided on the container body, from which the puncture repair agent is pushed out by pressing the container body, wherein the container body is hollow molded into a flat shape and includes a barrel portion, wherein the barrel portion includes a pair of narrow portions facing in a major axis direction, and a pair of wide portions facing in a minor axis direction, and wherein each of the pair of wide portions is provided with a pressing recessed portion capable of being recessed in a concave curved surface shape toward inside of the barrel portion.

A puncture repair liquid holding container formed from a container main body provided with a holding portion and opening portion, and a cap attached to the opening portion, includes: a first flow channel for the cap to introduce compressed air from outside the container, where the first flow channel is configured from a straight portion and branched portion, a closing plug having a shape that blocks the straight portion is slidably inserted in the straight portion, and switching is possible between a closed condition where the closing plug is positioned above the branched portion or closer to an opening end side of the straight portion than the branched portion such that the first flow channel is closed, and an opened portion where the closing plug is positioned more to a closing end side of the straight portion than the branched portion such that the first flow channel is opened.