Mixing apparatus and sealant

The invention claimed is: 1. A mixing apparatus for a high viscosity material comprising: a first supply unit that supplies a first raw material to a first channel; a second supply unit that supplies a second raw material to a second channel; a first decompressor that is connected to the first supply unit; a second decompressor that is connected to the second supply unit; a third channel with which the first channel and the second channel merge and through which the first raw material and the second raw material pass; a mixer that includes a static mixer and a dynamic mixer, and is provided on the third channel and mixes the first raw material and the second raw material; a fourth channel through which a mixed material obtained through the mixer is discharged; and an in-system decompressor that sets at least the static mixer and the dynamic mixer in a decompressed atmosphere, wherein the first and second supply units supply the first and second raw materials to the first and second channels, respectively, after the in-system decompressor sets at least the static mixer and the dynamic mixer in the decompressed atmosphere, and wherein the first decompressor decompresses the first supply unit containing the first raw material to a pressure that is lower than an outside pressure, and the second decompressor decompresses the second supply unit containing the second raw material to a pressure that is lower than the outside pressure. 2. The mixing apparatus for a high viscosity material according to claim 1 , further comprising a cooling box that houses the mixer and cools the mixer at least while the mixer mixes the first raw material and the second raw material. 3. The mixing apparatus for a high viscosity material according to claim 2 , further comprising: an air blowing means for blowing dry air to a discharge port through which the mixed material is discharged from the cooling box; and valves that block the discharge port from an outside of the cooling box. 4. The mixing apparatus for a high viscosity material according to claim 2 , further comprising a mixed material storage container that is provided in the cooling box and in which the mixed material passing through the fourth channel flows and is temporarily stored. 5. The mixing apparatus for a high viscosity material according to claim 1 , further comprising: a first mass flowmeter that is provided on the first channel and measures a mass flow rate of the first raw material passing through the first channel; a second mass flowmeter provided on the second channel and measures a mass flow rate of the second raw material passing through the second channel; a first decompressor that adjusts a decompression state in the first supply unit on the basis of a measurement result of the first mass flowmeter; and a second decompressor that adjusts a decompression state in the second supply unit on the basis of a measurement result of the second mass flowmeter. 6. The mixing apparatus for a high viscosity material according to claim 1 , wherein the mixer includes a static mixer arranged on an upstream side and a dynamic mixer arranged on a downstream side of the static mixer. 7. The mixing apparatus for a high viscosity material according to claim 1 , further comprising: a first flow rate adjusting device that is provided on the first channel and supplies the first raw material, which is supplied from the first supply unit, to the third channel in a necessary amount; and a second flow rate adjusting device that is provided on the second channel and supplies the second raw material, which is supplied from the second supply unit, to the third channel in a necessary amount. 8. A mixing apparatus for a high viscosity material comprising: a first supply unit that supplies a first raw material to a first channel; a second supply unit that supplies a second raw material to a second channel; a third channel with which the first channel and the second channel merge and through which the first raw material and the second raw material pass; a mixer that is provided on the third channel and mixes the first raw material and the second raw material; a fourth channel through which a mixed material obtained through the mixer is discharged; an in-system decompressor that sets at least the mixer in a decompressed atmosphere before the first raw material and the second raw material are mixed; a cooling box that houses the mixer and cools the mixer at least while the mixer mixes the first raw material and the second raw material; an air blowing means for blowing dry air to a discharge port through which the mixed material is discharged from the cooling box; and valves that block the discharge port from an outside of the cooling box, wherein the valves are provided in two stages spaced apart from each other, and the dry air is supplied to a space between the valves provided in the two stages. 9. The mixing apparatus for a high viscosity material according to claim 1 , further comprising a four-way valve connected between the fourth channel and the in-system decompressor, wherein the fourth channel is located upstream of the in-system decompressor, wherein the in-system decompressor is connected to the four-way valve via a decompression pipe, and wherein the in-system decompressor sets at least the static mixer and the dynamic mixer in the decompressed atmosphere when the four-way valve selects a channel that connects the fourth channel to the decompression pipe. 10. The mixing apparatus for a high viscosity material according to claim 9 , wherein the fourth channel is located upstream of the four-way valve and is decompressed when the four-way valve selects the channel that connects the fourth channel to the decompression pipe.