Camera apparatus, sma driving device and manufacturing method, driving method and wiring method thereof

127 . (canceled) 128 . An SMA driving device, comprising: a lens carrier; at least one upgoing driver, wherein the lens carrier is drivably connected to the upgoing driver, and the upgoing driver supports the lens carrier upwardly in a thermally driven manner, and pulls the lens carrier to move upward; and at least one downgoing driver, wherein the lens carrier is drivingly connected to the downgoing driver, and the downgoing driver supports the lens carrier downwardly in a thermally driven manner, and pulls the lens carrier to move downward. 129 . The SMA driving device according to claim 128 , wherein in an initial state, the lens carrier is supported upwardly by the upgoing driver and drawn downwardly by the downgoing driver, and is held at an intermediate position, and wherein the lens carrier can be moved up and down based on the upgoing driver and the downgoing driver. 130 . The SMA driving device according to claim 129 , wherein the upgoing driver and the downgoing driver provide the lens carrier with a force in a manner of being driven by electric heating, and wherein the upgoing driver and the downgoing driver support the lens carrier at the intermediate position in a case of being powered on, and drive the lens carrier to move. 131 . The SMA driving device according to claim 129 , wherein the upgoing driver comprises at least one upgoing driving unit and at least one upper bending member, wherein the upper bending member is disposed on the lens carrier, and wherein the upgoing driving unit is drivably connected to the upper bending member, and the upgoing driving unit provides the lens carrier with an upward force through the upper bending member, so that the upper bending member drives the lens carrier upwardly to move. 132 . The SMA driving device according to claim 131 , wherein the downgoing driver comprises at least one downgoing driving unit and at least one lower bending member, wherein the lower bending member is disposed on the lens carrier, and wherein the downgoing driving unit is drivingly connected to the lower bending member, and the downgoing driving unit provides the lens carrier with a downward force through the lower bending member, so that the lower bending member drives the lens carrier downwardly to move. 133 . The SMA driving device according to claim 132 , wherein the upper bending member and the lower bending member are formed by integrally extending outwardly from an outer edge of the lens carrier. 134 . The SMA driving device according to claim 129 , wherein the upgoing driver comprises at least one upgoing driving unit and at least one upper actuator, wherein the upper actuator is disposed below the lens carrier, and wherein the upgoing driving unit is drivingly connected to the upper actuator, and the upgoing driving unit provides the lens carrier with an upward force through the upper actuator, so that the upper actuator drives the lens carrier upwardly to move. 135 . The SMA driving device according to claim 134 , wherein the downgoing driver comprises at least one downgoing driving unit and at least one lower actuator, wherein the lower actuator is disposed above the lens carrier, and wherein the downgoing driving unit is drivingly connected to the lower actuator, and the downgoing driving unit provides the lens carrier with a downward force through the lower actuator, so that the lower actuator drives the lens carrier downwardly to move. 136 . The SMA driving device according to claim 135 , wherein the upper actuator further comprises an upper actuator main body and at least one upper hook, wherein the upper hook is disposed on a side of the upper actuator main body, wherein the upper hook is formed by integrally extending upwardly from an outer side of the upper actuator main body, and wherein the upgoing driving unit applies an upward force to the upper actuator main body through the upper hook, so that the upper actuator main body drives the lens carrier to move upward. 137 . The SMA driving device according to claim 136 , wherein the lower actuator further comprises a lower actuator main body and at least one lower hook, wherein the lower hook is disposed on a side of the lower actuator main body, wherein the lower hook is formed by integrally extending downwardly from an outer side of the lower actuator main body, and wherein the downgoing driving unit applies a downward force to the lower actuator main body through the lower hook, so that the lower actuator main body drives the lens carrier to move downward. 138 . The SMA driving device according to claim 129 , wherein the SMA driving device further comprises a. supporting base, and wherein the upgoing driver and the downgoing driver are mounted on the supporting base, and the upgoing driver and the downgoing driver are supported by means of the supporting base. 139 . A manufacturing method of an SMA driving device, wherein the manufacturing method comprises the following steps: (a) placing a lens carrier in an intermediate position, so that the lens carrier can be driven to move up and down; (b) disposing at least one upgoing driver and at least one downgoing driver on the lens carrier, so that the lens carrier is driven by means of the upgoing driver to move upward, and the lens carrier is driven by means of the downgoing driver to move downward; and (c) mounting at least one upper elastic piece above the lens carrier, and mounting at least one lower elastic piece between the lens carrier and a supporting base so as to manufacture the SMA driving device. 140 . The manufacturing method according to claim 139 , wherein in the step (b), two upgoing driving units of the upgoing driver and two downgoing driving units of the downgoing driver are symmetrically disposed on sides of the lens carrier. 141 . The manufacturing method according to claim 140 , wherein in the step (b), two upper drive fixing apparatuses of the upper driving unit and two lower drive fixing apparatuses of the lower driving unit are fixedly mounted on the supporting base, and the upgoing driver and the downgoing driver are supported by means of the supporting base. 142 . The manufacturing method according to claim 140 , wherein in the step (b), at least one upper drive SMA line is pressed against the upper drive fixing apparatus, and at least a lower drive SMA line is pressed against the lower drive fixing apparatus to manufacture the upgoing driving unit and the downgoing driving unit. 143 . A driving method of an SMA driving device, wherein the driving method comprises the following steps: (I) in an initial state, at least one upper drive SMA line of at least one upgoing driving unit of an upgoing driver thermally shrinking, and at least one lower drive SMA line of at least one downgoing driving unit of a downgoing driver thermally shrinking, and drawing a lens carrier by means of joint shrinkage of the upper drive SMA line and the lower drive SMA line, to hold the lens carrier at a position that can move up and down; and (II) differently controlling temperature of the upper drive SMA line of the upgoing driving unit and temperature of the lower drive SMA line of the downgoing driving unit, to control the upper drive SMA line and the lower drive SMA line to draw and support the lens carrier with different degrees of tension, so as to drive the lens carrier to move. 144 . The driving method according to claim 143 , wherein in the step (I) of the above method, in the initial state of the SMA driving device, the upper drive SMA line and the lower drive SMA line are electrically heated