Liquid ejection device

What is claimed is: 1. A liquid ejection device, comprising: a liquid ejection head comprising: a supply port configured to supply liquid to a pressure chamber, the pressure chamber communicating with an ejection orifice for ejecting the liquid; and a recovery port configured to recover the liquid supplied to the pressure chamber; a first flow path connected to the supply port of the liquid ejection head; a supply tank configured to store the liquid supplied to the liquid ejection head, the supply tank being connected to the supply port of the liquid ejection head via the first flow path; a second flow path connected to the recovery port of the liquid ejection head; a recovery tank configured to store the liquid recovered from the liquid ejection head, the recovery tank being connected to the recovery port of the liquid ejection head via the second flow path, and a liquid level of the recovery tank being below an ejection orifice surface in which the ejection orifice of the liquid ejection head opens in a gravitational direction and being below a liquid level of the supply tank in the gravitational direction; a third flow path configured to connect the supply tank and the recovery tank to each other; a circulation pump configured to return the liquid in the recovery tank to the supply tank, the circulation pump being arranged in the third flow path; a fourth flow path configured to connect one of the supply tank and the recovery tank to the liquid ejection head; a pressure pump configured to pressurize the liquid in the one of the supply tank and the recovery tank and supply the liquid to the liquid ejection head, the pressure pump being arranged in the fourth flow path; and a control portion configured to switch between liquid ejection operation in which the liquid is ejected from the liquid ejection head while the liquid is circulated along the first flow path to the third flow path and pressurizing recovery operation in which the liquid pressurized by the pressure pump is supplied to the liquid ejection head via the fourth flow path, wherein the first flow path comprises: a liquid supply flow path having one end connected to the supply port of the liquid ejection head and another end connected to a supply switching valve; and a supply connection flow path having one end connected to the supply switching valve and another end connected to the supply tank, wherein the second flow path comprises a liquid recovery flow path configured to connect the recovery port of the liquid ejection head and the recovery tank to each other, wherein the third flow path comprises: a circulation flow path having one end connected to the recovery tank and another end connected to a circulation switching valve, and comprising the circulation pump; and a return flow path having one end connected to the circulation switching valve and another end connected to the supply tank, wherein the fourth flow path comprises: the circulation flow path; the liquid supply flow path; and a pressurized flow path having one end connected to the circulation switching valve and another end connected to the supply switching valve, wherein the circulation pump also serves as the pressure pump, and wherein the control portion is configured to control the supply switching valve and the circulation switching valve to switch between the liquid ejection operation and the pressurizing recovery operation. 2. A liquid ejection device according to claim 1 , wherein the control portion is configured to, in the liquid ejection operation: control the supply switching valve to connect the liquid supply flow path and the supply connection flow path to each other; and control the circulation switching valve to connect the circulation flow path and the return flow path to each other, and wherein the control portion is configured to, in the pressurizing recovery operation: control the supply switching valve to connect the liquid supply flow path and the pressurized flow path to each other; and control the circulation switching valve to connect the circulation flow path and the pressurized flow path to each other. 3. A liquid ejection device according to claim 1 , wherein the control portion is configured to, in power off operation: control the supply switching valve to connect the liquid supply flow path and the pressurized flow path to each other; and control the circulation switching valve to connect the circulation flow path and the return flow path to each other. 4. A liquid ejection device according to claim 1 , wherein the first flow path comprises: a liquid supply flow path having one end connected to the supply port of the liquid ejection head and another end connected to a liquid supply valve; and a supply connection flow path having one end connected to the liquid supply valve and another end connected to the supply tank, wherein the second flow path comprises a liquid recovery flow path configured to connect the recovery port of the liquid ejection head and the recovery tank to each other, wherein the third flow path comprises a circulation flow path having one end connected to the recovery tank and another end connected to the supply tank, and comprising the circulation pump, wherein the fourth flow path comprises a pressurized flow path having one end connected to the supply port of the liquid ejection head and another end connected to the supply tank, and comprising the pressure pump, and wherein the control portion is configured to control the liquid supply valve and the pressure pump to switch between the liquid ejection operation and the pressurizing recovery operation. 5. A liquid ejection device according to claim 4 , wherein the control portion is configured to, in the liquid ejection operation: open the liquid supply valve to connect the liquid supply flow path and the supply connection flow path to each other; and stop the pressure pump, and wherein the control portion is configured to, in the pressurizing recovery operation: close the liquid supply valve to shut off the connection between the liquid supply flow path and the supply connection flow path; and drive the pressure pump. 6. A liquid ejection device, comprising: a liquid ejection head comprising: a supply port configured to supply liquid to a pressure chamber, the pressure chamber communicating with an ejection orifice for ejecting the liquid; and a recovery port configured to recover the liquid supplied to the pressure chamber; a first flow path connected to the supply port of the liquid ejection head; a supply tank configured to store the liquid supplied to the liquid ejection head, the supply tank being connected to the supply port of the liquid ejection head via the first flow path; a second flow path connected to the recovery port of the liquid ejection head; a recovery tank configured to store the liquid recovered from the liquid ejection head, the recovery tank being connected to the recovery port of the liquid ejection head via the second flow path, and a liquid level of the recovery tank being below an ejection orifice surface in which the ejection orifice of the liquid ejection head opens in a gravitational direction and being below a liquid level of the supply tank in the gravitational direction; a third flow path configured to connect the supply tank and the recovery tank to each other; a circulation pump configured to return the liquid in the recovery tank to the supply tank, the circulation pump being arranged in the third flow path; a fourth flow path configured to connect one of the supply tank and the recovery tank to the liquid ejection head; a pressure pump configured to pressurize the liquid in the one of the supply tank and the recovery tank and supply the liquid