An improved method of sealing a window into an aperture in a body uses a lubricant comprising polymer particles suspended in a volatile, low viscosity, low surface tension carrier fluid. The carrier fluid is applied to one or both of the sidewalls of the window and aperture, and the window is pressed into the aperture such that the carrier fluid evaporates, leaving the polymer particles to fill interstitial surface voids, while enabling the sidewall of the window to make intimate mechanical contact with the sidewall of the aperture. While having broader application, the present disclosure finds particular utility in optical characterization techniques based upon the Raman effect and fluorescence probes used in process monitoring and control.

An improved method of sealing a window into an aperture in a body uses a lubricant comprising polymer particles suspended in a volatile, low viscosity, low surface tension carrier fluid. The carrier fluid is applied to one or both of the sidewalls of the window and aperture, and the window is pressed into the aperture such that the carrier fluid evaporates, leaving the polymer particles to fill interstitial surface voids, while enabling the sidewall of the window to make intimate mechanical contact with the sidewall of the aperture. While having broader application, the present disclosure finds particular utility in optical characterization techniques based upon the Raman effect and fluorescence probes used in process monitoring and control.

A gasket may include a tubular section which has a protection layer and a mesh layer. The protection layer may form a first tube, and the mesh layer may form a second tube, which may be enclosed in the first tube. The mesh layer may be formed by a metal wire in a spiral fashion extending along an axial direction of the second tube. The mesh layer may provide an elastic support to the protection layer when the protection layer tube is pressed by an external force.

A gasket may include a tubular section which has a protection layer and a mesh layer. The protection layer may form a first tube, and the mesh layer may form a second tube, which may be enclosed in the first tube. The mesh layer may be formed by a metal wire in a spiral fashion extending along an axial direction of the second tube. The mesh layer may provide an elastic support to the protection layer when the protection layer tube is pressed by an external force.

A window or door includes a fixed frame with a first sash arranged displaceable thereon. A seal is arranged on the fixed frame, the sealing lip of which can be moved or pivoted and pressed onto the front or rear of the first sash. The moving process can be carried out by at least one first trigger element or by a plurality of trigger elements. The first trigger element or the trigger elements can be actuated by a first projection or a plurality of projections. A first wedge seal can be provided between the first sash and the fixed frame, which is preferably wedge-shaped both in the main plane of the frame and perpendicular to the main plane of the frame. Between two sashes, in the region of the central break, L-shaped seals can be provided which engage one behind the other in the closed state of the two sashes.

A door 4 includes a closing portion 41 that closes an opening 302 in a closed state, and a holding portion 42 that holds the closing portion 41 and is connected to a hinge portion 5. The closing portion 41 is connected to the holding portion 42 on the side opposite to the hinge portion 5 side, and is configured to be separable from the holding portion 42 on the hinge portion 5 side. In a case where the door 4 is rotated from an open state to a closed state, the closing portion 41 is configured to be in contact with a peripheral edge portion of the opening 302 on the side opposite to the hinge portion 5 side before the closing portion 41 comes into contact with a peripheral edge portion of the opening 302 on the hinge portion 5 side.

A door 4 includes a closing portion 41 that closes an opening 302 in a closed state, and a holding portion 42 that holds the closing portion 41 and is connected to a hinge portion 5. The closing portion 41 is connected to the holding portion 42 on the side opposite to the hinge portion 5 side, and is configured to be separable from the holding portion 42 on the hinge portion 5 side. In a case where the door 4 is rotated from an open state to a closed state, the closing portion 41 is configured to be in contact with a peripheral edge portion of the opening 302 on the side opposite to the hinge portion 5 side before the closing portion 41 comes into contact with a peripheral edge portion of the opening 302 on the hinge portion 5 side.

The invention relates to a seal including a body having a built-in chamber in which a switching element is arranged, and a lever for actuating the switching element. The lever can tilt relative to the body in two different directions. The range of movement and shape of the lever and/or the arrangement thereof relative to a wall of the chamber are such that the tilting of the lever, in a first of the different directions, does not deform the chamber, or does not deform same enough for the switching element to switch, and such that the tilting of the lever in the second direction deforms the chamber so that the switching element switches.

The invention relates to a seal including a body having a built-in chamber in which a switching element is arranged, and a lever for actuating the switching element. The lever can tilt relative to the body in two different directions. The range of movement and shape of the lever and/or the arrangement thereof relative to a wall of the chamber are such that the tilting of the lever, in a first of the different directions, does not deform the chamber, or does not deform same enough for the switching element to switch, and such that the tilting of the lever in the second direction deforms the chamber so that the switching element switches.

An exterior wall structure includes first to fourth waterproofing members. Each of the first to fourth waterproofing members includes a fixing portion, a positioning portion, a separating portion, a supporting portion, and first and second seal portions. The positioning portion extends continuously with the fixing portion toward the exterior side. The positioning portion positions an exterior wall material by coming into abutment with an end face of the exterior wall material. The separating portion extends continuously with the positioning portion toward the sash body side so as to be located between the sash body and the exterior wall material. The first seal portion inhibits the entry of water by coming into abutment with the exterior wall material. The second seal portion inhibits the entry of water by coming into abutment with the sash body.