Hydraulic excavator drive system

The invention claimed is: 1. A hydraulic excavator drive system comprising: an arm control valve connected to a pump by a pump line and to a tank by a tank line, the arm control valve moving in accordance with an arm crowding pilot pressure and an arm pushing pilot pressure; an arm cylinder connected to the arm control valve by an arm crowding supply line and an arm pushing supply line; a regeneration line that connects the arm pushing supply line to the arm crowding supply line; a regeneration valve provided on the regeneration line, the regeneration valve having an opening area that increases in accordance with increase in a pressure led to a pilot port of the regeneration valve; a switching valve provided on the regeneration line at a position between the regeneration valve and the arm crowding supply line, the switching valve being switched to a regeneration position when a pressure led to a pilot port of the switching valve is lower than a setting pressure and switched to a non-regeneration position when the pressure led to the pilot port of the switching valve is higher than the setting pressure, the regeneration position being a position in which the switching valve prevents a flow from the arm crowding supply line toward the regeneration valve and allows a flow from the regeneration valve toward the arm crowding supply line, the non-regeneration position being a position in which the switching valve allows a flow from the arm crowding supply line toward the regeneration valve; a release line that is branched off from the regeneration line at a position between the regeneration valve and the switching valve, the release line connecting to the tank; a release valve provided on the release line, the release valve having an opening area that increases in accordance with increase in a pressure led to a pilot port of the release valve; a first solenoid proportional valve that outputs a secondary pressure to the pilot port of the regeneration valve such that the regeneration valve opens at a time of arm crowding; and a second solenoid proportional valve that outputs a secondary pressure to the pilot port of the release valve such that the release valve opens at a time of arm pushing, wherein the arm pushing pilot pressure for moving the arm control valve is led to the pilot port of the switching valve. 2. The hydraulic excavator drive system according to claim 1 , wherein the second solenoid proportional valve outputs a secondary pressure to the pilot port of the release valve such that the release valve opens not only at the time of arm pushing but also at the time of arm crowding. 3. A hydraulic excavator drive system comprising: an arm control valve connected to a pump by a pump line and to a tank by a tank line, the arm control valve moving in accordance with an arm crowding pilot pressure and an arm pushing pilot pressure; an arm cylinder connected to the arm control valve by an arm crowding supply line and an arm pushing supply line; a regeneration line that connects the arm pushing supply line to the arm crowding supply line; a regeneration valve provided on the regeneration line, the regeneration valve having an opening area that increases in accordance with increase in a pressure led to a pilot port of the regeneration valve; a switching valve provided on the regeneration line at a position between the regeneration valve and the arm crowding supply line, the switching valve being switched to a regeneration position when a pressure led to a pilot port of the switching valve is lower than a setting pressure and switched to a non-regeneration position when the pressure led to the pilot port of the switching valve is higher than the setting pressure, the regeneration position being a position in which the switching valve prevents a flow from the arm crowding supply line toward the regeneration valve and allows a flow from the regeneration valve toward the arm crowding supply line, the non-regeneration position being a position in which the switching valve allows a flow from the arm crowding supply line toward the regeneration valve; a release line that is branched off from the regeneration line at a position between the regeneration valve and the switching valve, the release line connecting to the tank; a release valve provided on the release line, the release valve having an opening area that increases in accordance with increase in a pressure led to a pilot port of the release valve; a first solenoid proportional valve that outputs a secondary pressure to the pilot port of the regeneration valve such that the regeneration valve opens at a time of arm crowding, and outputs a secondary pressure to the pilot port of the release valve such that the release valve opens at the time of arm crowding; and a second solenoid proportional valve that outputs a secondary pressure to the pilot port of the release valve such that the release valve opens at a time of arm pushing, wherein the arm pushing pilot pressure for moving the arm control valve is led to the pilot port of the switching valve. 4. A hydraulic excavator drive system comprising: an arm control valve connected to a pump by a pump line and to a tank by a tank line, the arm control valve moving in accordance with an arm crowding pilot pressure and an arm pushing pilot pressure; an arm cylinder connected to the arm control valve by an arm crowding supply line and an arm pushing supply line; a regeneration line that connects the arm pushing supply line to the arm crowding supply line; a regeneration valve provided on the regeneration line, the regeneration valve having an opening area that increases in accordance with increase in a pressure led to a pilot port of the regeneration valve; a switching valve provided on the regeneration line at a position between the regeneration valve and the arm crowding supply line, the switching valve being switched to a regeneration position when a pressure led to a pilot port of the switching valve is lower than a setting pressure and switched to a non-regeneration position when the pressure led to the pilot port of the switching valve is higher than the setting pressure, the regeneration position being a position in which the switching valve prevents a flow from the arm crowding supply line toward the regeneration valve and allows a flow from the regeneration valve toward the arm crowding supply line, the non-regeneration position being a position in which the switching valve allows a flow from the arm crowding supply line toward the regeneration valve; a release line that is branched off from the regeneration line at a position between the regeneration valve and the switching valve, the release line connecting to the tank; a release valve provided on the release line, the release valve having an opening area that increases in accordance with increase in a pressure led to a pilot port of the release valve; a first solenoid proportional valve that outputs a secondary pressure to the pilot port of the regeneration valve such that the regeneration valve opens at a time of arm crowding, and outputs a secondary pressure to the pilot port of the release valve such that the release valve opens at the time of arm crowding; and a second solenoid proportional valve that outputs a secondary pressure to the pilot port of the switching valve such that the switching valve is switched from the regeneration position to the non-regeneration position at a time of arm pushing, and outputs a secondary pressure to the pilot port of the release valve such that the release valve opens at the time of arm pushing. 5. A hydraulic excavator drive system comprising: an arm control valve connected to a pump by a pump line and to a tank by a tank line, the arm control valve moving in accordance with an arm crowding pilot pressure