Gate driving unit, gate driving method, gate driving circuit and display device

What is claimed is: 1. A gate driving unit, comprising an input terminal, a latch node control circuit, a first node potential maintenance circuit, and a latch node reset circuit, wherein the latch node control circuit is respectively connected to a latch node, the input terminal, and a latch charging terminal, and is configured to control a voltage of the latch node through a charging voltage inputted by the latch charging terminal under the control of an input signal provided by the input terminal, the first node potential maintenance circuit is respectively connected to the latch node, a first node, and a latch enable terminal, and is configured to control the connection between the first node and the latch enable terminal under the control of a voltage of the latch node, to maintain a potential of the first node; and the latch node reset circuit is respectively connected to a latch node reset terminal and the latch node, and is configured to control to reset the potential of the latch node under the control of the latch node reset signal inputted by the latch node reset terminal, wherein the gate driving unit further comprises a gate driving signal output terminal, an energy storage circuit, an output circuit, a touch reset circuit, and a first node reset circuit, a first terminal of the energy storage circuit is connected to the first node, a second terminal of the energy storage circuit is connected to the gate driving signal output terminal, and the energy storage circuit is configured to control the potential of the first node; the output circuit is respectively connected to the first node, the gate driving signal output terminal and a first clock signal terminal, and is configured to control the connection between the gate driving signal output terminal and the first clock signal terminal under the control of the voltage of the first node; the touch reset circuit is respectively connected to a touch reset terminal, the gate driving signal output terminal and a reset voltage terminal, and is configured to control the connection between the gate driving signal output terminal and the reset voltage terminal under the control of the touch reset signal inputted by the touch reset terminal; and the first node reset circuit is respectively connected to a blank area reset terminal, the first node and the reset voltage terminal, and is configured to control the connection between the first node and the reset voltage terminal under the control of a blank area reset signal inputted by the blank area reset terminal. 2. The gate driving unit according to claim 1 , wherein the latch node control circuit comprises a charge control circuit and a latch energy storage circuit; a first terminal of the latch energy storage circuit is connected to the latch node, and a second terminal of the latch energy storage circuit is connected to a first voltage terminal; the charging control circuit is respectively connected to the input terminal, the latch charging terminal, and the latch node, and is configured to control the connection between the latch charging terminal and the latch node under the control of the input signal, so as to charge the latch energy storage circuit through the charging voltage to control the voltage of the latch node. 3. The gate driving unit according to claim 2 , wherein the latch energy storage circuit comprises a latch capacitor; the charge control circuit comprises a charge control transistor; a first end of the latch capacitor is connected to the latch node, and a second end of the latch capacitor is connected to the first voltage terminal; and a control electrode of the charging control transistor is connected to the input terminal, a first electrode of the charging control transistor is connected to the latch charging terminal, and a second electrode of the charging control transistor is connected to the latch node. 4. The gate driving unit according to claim 1 , wherein the first node potential maintenance circuit comprises a potential maintenance transistor; a control electrode of the potential maintenance transistor is connected to the latch node, a first electrode of the potential maintenance transistor is connected to the latch enable terminal, and a second electrode of the potential maintenance transistor is connected to the first node. 5. The gate driving unit according to claim 1 , wherein the latch node reset circuit comprises a latch node reset transistor; a control electrode of the latch node reset transistor is connected to the latch node reset terminal, a first electrode of the latch node reset transistor is connected to the latch node, and a second electrode of the latch node reset transistor is connected to the reset voltage terminal. 6. The gate driving unit according to claim 1 , wherein the latch charging terminal and the latch enabling terminal are a same terminal. 7. The gate driving unit according to claim 1 , wherein the energy storage circuit comprises a storage capacitor, the output circuit comprises an output transistor, the touch reset circuit comprises a touch reset transistor, and the first node reset circuit comprises a first node reset transistor; a first end of the storage capacitor is connected to the first node, and a second end of the storage capacitor is connected to the gate driving signal output terminal; a control electrode of the output transistor is connected to the first node, a first electrode of the output transistor is connected to the first clock signal terminal, and a second electrode of the output transistor is connected to the gate driving signal output terminal; a control electrode of the touch reset transistor is connected to the touch reset terminal, a first electrode of the touch reset transistor is connected to the gate driving signal output terminal, and a second electrode of the touch reset transistor is connected to the reset voltage terminal; and a control electrode of the first node reset transistor is connected to the blank area reset terminal, a first electrode of the first node reset transistor is connected to the first node, and a second electrode of the first node reset transistor is connected to the reset voltage terminal. 8. The gate driving unit according to claim 1 , further comprising a first node control circuit, a second node control circuit, and an output reset circuit, wherein, the first node control circuit is respectively connected to the first node, the input terminal, a reset terminal, a first scan voltage terminal, a second scan voltage terminal, a second node, and a second voltage terminal, and is configured to control the connection between the first node and the first scan voltage terminal under the control of the input signal, and control the connection between the first node and the second scan voltage terminal under the control of a reset signal inputted by the reset terminal, and control the connection between the first node and the second voltage terminal under the control of a voltage of the second node; the second node control circuit is respectively connected to the first node, the second node, a second clock signal terminal, a gate driving signal output terminal, and a second voltage terminal, and is configured to control a potential of the second node under the control a the second clock signal inputted by the second clock signal terminal, the voltage of the first node, and the gate driving signal outputted by the gate driving signal output terminal; and the output reset circuit is respectively connected to the second node, the gate driving signal output terminal and the second voltage terminal, and is configured to control the connection between the gate driving signal output terminal and the second voltage terminal under the control of t