1. A liquid crystal display (LCD) device, comprising:
a first substrate and a second substrate, each of the first and second substrate having a surface opposite to each other and each of the first and second substrate including a seal region and a liquid crystal region;
a first substrate structure having a black matrix on the surface of the first substrate opposite to the second substrate, a color filter next to the black matrix, a first electrode on the color filter, and a first orientation film on the first electrode;
a second substrate structure having a circuit device disposed on the surface of the second substrate opposite to the black matrix, an organic layer disposed on the second substrate opposite to the color filter, a passivation layer on the circuit device and the second substrate, and underlying the organic layer, a plurality of seal column organic layers each having a column shape directly on the passivation layer, wherein the plurality of seal column organic layers are adjacent from each other; a second electrode on the organic layer, and a second orientation film on the second electrode;
a seal disposed between the seal regions of the first substrate and the second substrate to bind the first substrate structure and the second substrate structure, the plurality of seal column organic layers is buried in the seal with each of the plurality of seal column organic layers having a height shorter than a height of the seal, and one end of each of the plurality of seal column organic layers solely contacts the seal; and
a liquid crystal layer filling a space between the first substrate structure and the second substrate structure in the liquid crystal region.
2. The LCD device of claim 1, wherein the seal column organic layers have a diameter of about 0.5 \u03bcm to about 1 \u03bcm.
3. The LCD device of claim 1, wherein the seal column organic layers have a height of about 1 \u03bcm to about 3 \u03bcm.
4. The LCD device of claim 1, wherein the first orientation film and the second orientation film have a height of about 400 \u212b to about 1000 \u212b.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A rotor nozzle, in particular for high-pressure cleaning devices, with a nozzle housing having an inlet opening at an axially first end and an outlet opening for liquid at a second end, and with a rotor, which is arranged in a turbulence chamber of the nozzle housing and which the rotor is provided at a front end facing the outlet opening with a nozzle supported in a cup bearing and which the rotor has an inflow opening, comprising:
a bypass device with which the amount of liquid flowing into the turbulence chamber can be changed, wherein the flowing liquid sets the rotor into rotation;
a control surface, which is funnel-like, faces a rear rotor end and is located in the turbulence chamber; and
a restoring device, which is active between a front end of the rotor and the rear rotor end and in particular comprises a spring,
wherein the control surface and the rear rotor end cooperate during operation, whereby the inclination of the rotor increases against the action of a restoring force of the restoring device as the rotor rotary speed increases, and the restoring device reduces the rotor inclination as the rotor rotary speed decreases.