Inverter-integrated electric compressor

The invention claimed is: 1. An inverter integrated type electric compressor in which an inverter device is installed so as to be accommodated in an inverter housing portion and in which the inverter housing portion forms an airtight structure by tightly securing a cover piece, the inverter integrated type electric compressor comprising: a through-hole provided on an outer wall of the cover piece so as to penetrate into an internal space of the invertor housing portion, for pressure testing; and sealing means for sealing the through-hole. 2. The inverter integrated type electric compressor according to claim 1 , wherein the through-hole is formed as a screw hole, and a bolt serving as the sealing means is capable of being screwed into the screw hole. 3. The inverter integrated type electric compressor according to claim 2 , wherein the bolt as the sealing means is a bolt provided with a sealing member in which the sealing member is provided at a head portion or a screw portion of the bolt. 4. The inverter integrated type electric compressor according to claim 3 , wherein the bolt provided with the sealing member is one selected from the bolts including: a bolt in which a resin sealing material is integrally molded at a flange of a head portion thereof; a bolt in which an O-ring or a sealing packing is provided at a neck of a head portion thereof; a bolt in which a sealer agent is applied to a head portion thereof; a bolt in which Loctite is applied to a screw portion thereof; and etc. 5. The inverter integrated type electric compressor according to claim 1 , wherein the through-hole is provided at a top surface of the cover piece, and a seat surface is formed at a periphery of the through-hole. 6. The inverter integrated type electric compressor according to claim 5 , wherein the seat surface is utilized as a seal surface, and a seal structure is made by sandwiching the sealing member with a head portion of the bolt and the seal surface. 7. An inverter integrated type electric compressor in which an inverter device is installed so as to be accommodated in an inverter housing portion and in which the inverter housing portion forms an airtight structure by a cover piece, the inverter integrated type electric compressor comprising: a through-hole provided on an outer wall of the cover piece so as to penetrate into an internal space of the inverter housing portion, for pressure testing; sealing means for sealing the through-hole; and a seat surface formed at a periphery of the through-hole. 8. A method of manufacturing an inverter integrated type electric compressor in which an inverter device is installed so as to be accommodated in an inverter housing portion and in which the inverter housing portion forms an airtight structure by a cover piece, the inverter integrated type electric compressor comprising: a through-hole provided on an outer wall of the cover piece or the cover piece so as to penetrate into an internal space of the inverter housing portion; and sealing means detachably attached to the through-hole, for sealing the through-hole, the method comprising: a step of sealing the inverter housing portion by the cover piece; a step of checking airtight seal performance by pressure testing in the inverter housing portion through the through-hole after the sealing step; and a step of forming the airtight structure by sealing the through-hole with the sealing means after the checking step. 9. An inverter integrated type electric compressor in which an inverter device is installed so as to be accommodated in an inverter housing portion provided at a housing side and in which the inverter housing portion forms an airtight structure by tightly securing a cover piece to the inverter housing portion by means of a liquid gasket, the inverter integrated type electric compressor comprising: a through-hole provided on an outer wall of the cover piece so as to penetrate into an internal space of the inverter housing portion, for pressure testing, inspection, pressurizing, evacuating, or ventilation to harden the liquid gasket; and sealing means detachably attached to the through-hole, for sealing the through-hole. 10. An inverter integrated type electric compressor in which an inverter device is installed so as to be accommodated in an inverter housing portion and in which the inverter housing portion forms an airtight structure by a cover piece, the inverter integrated type electric compressor comprising: a through-hole provided on an outer wall of the cover piece so as to penetrate into an internal space of the inverter housing portion, for pressurizing the internal space and making pressure inside the internal space a negative pressure or evacuating; and sealing means for sealing the through-hole. 11. A cover piece of an inverter integrated type electric compressor in which an inverter device is installed so as to be accommodated in an inverter housing portion and in which the inverter housing portion forms an airtight structure by the cover piece, the cover piece comprising: a through-hole provided on an outer wall of the cover piece so as to penetrate into an internal space of the inverter housing portion, for pressure testing, pressurizing the internal space, and making pressure inside the internal space a negative pressure; and sealing means for sealing the through-hole. 12. A cover piece of an inverter integrated type electric compressor in which an inverter device is installed so as to be accommodated in an inverter housing portion provided at a housing side and in which the inverter housing portion forms an airtight structure by tightly securing a cover piece to the inverter housing portion by means of a liquid gasket, the cover piece comprising: a through-hole provided on an outer wall of the cover piece so as to penetrate into an internal space of the inverter housing portion, for pressure testing, inspection, pressurizing, evacuating, or ventilation to harden the liquid gasket; and sealing means for sealing the through-hole.