Transmission and positioning mechanism

What is claimed is: 1 . A transmission and positioning mechanism comprising: a guiding assembly having: two parallel sliding rails; a transmission belt loop disposed substantially between the two sliding rails; and a plurality of sliding members slidably disposed on the sliding rails; a first driving assembly; and a positioning assembly connected to the first driving assembly, the positioning assembly having: a driving rod defining an exterior surface and a spiral slot defined in the exterior surface and having at least one slot end, and the driving rod having at least one limiting slot communicating with the at least one slot end; a transmission rod extending coaxially through, and being coupled with the driving rod; at least one positioning block; and a positioning rod connected to, and rotatable with the transmission rod, the positioning rod extending coaxially through, and being coupled with the at least one positioning block; wherein, when the first driving assembly rotates the transmission rod and the positioning rod, the spiral slot engages at least one of the plurality of sliding members to move the engaged sliding member to drive the transmission belt to move other sliding members, the at least one limiting slot and the positioning blocks are configured to latch the other sliding members. 2 . The transmission and positioning mechanism of claim 1 , wherein the positioning block comprises a base and two convex blocks, and the convex blocks are separately disposed on the base to define a positioning groove, the sliding member comprises a rolling pole latched with the positioning groove to secure the sliding member. 3 . The transmission and positioning mechanism of claim 2 , wherein the sliding member comprises a sliding block and a sliding base, the sliding block is slidably disposed on the sliding rails, the sliding base is fixed on the siding block, the sliding base defines a mounting hole, the rolling pole is accommodated in the mounting pole, the rolling pole of one of the sliding members resists the spiral slot to drive the transmission belt and the sliding members to move; the rolling poles of other sliding members are latched by the at least one limiting slot and the positioning slots to secure the other sliding members. 4 . The transmission and positioning mechanism of claim 3 , wherein the sliding member comprises a gear block and a bearing member, the gear block is mounted on the sliding base and forms a gear to engage with the transmission belt to drive the transmission belt to move, the bearing member is disposed on the sliding base. 5 . The transmission and positioning mechanism of claim 1 , wherein the first driving assembly comprises a motor, a connection member, a driving wheel, and a belt, the motor provides a driving power for the first driving assembly, the connection member comprises a rod connected to the motor, the driving wheel is sleeved on the rod, the positioning assembly further comprises a transmission wheel sleeved on the transmission rod, the belt is connected to the driving wheel and the transmission wheel to drive the transmission wheel to rotate by the driving wheel with the driving power of the motor, the transmission wheel drives the transmission rod and the driving rod to rotate. 6 . The transmission and positioning mechanism of claim 5 , wherein the positioning assembly comprises a sensor sleeved on the transmission rod and located at outside of the transmission wheel, the sensor is configured to sense whether the transmission rod and the driving rod are stopped, when the transmission rod and the driving rod are stopped, the sensor triggers a control signal to the motor to turn off the motor. 7 . The transmission and positioning mechanism of claim 5 , wherein the guiding assembly further comprises a baseboard module having a first baseboard, a second baseboard and a connection board connected between the first baseboard and the second baseboard, the first baseboard defines a first hole and a second hole, the second baseboard defines a third hole, the belt passes through the first hole to connect to the transmission wheel, the transmission assembly comprises two second driving assemblies installed in the second hole and the third hole. 8 . The transmission and positioning mechanism of claim 7 , wherein the positioning assembly comprises four bearing blocks, the two bearing blocks are set on the first baseboard and are spaced from each other, and another two bearing blocks are separately set on the second board, the transmission rod is fixed between the two neighboring bearing block on the first baseboard, and the positioning rod is fixed between another two neighboring bearing block on the second baseboard. 9 . The transmission and positioning mechanism of claim 1 , wherein the positioning assembly further comprises a shaft coupling connecting to the transmission rod and the positioning rod. 10 . The transmission and positioning mechanism of claim 1 , wherein the two second driving assemblies are mounted on two opposite sides of the guiding assembly, each the second driving assembly comprises a slave wheel, the transmission belt is fixed around the two slave wheels. 11 . A transmission and positioning mechanism comprising: a guiding assembly having: two parallel sliding rails; a transmission belt loop disposed substantially between the two sliding rails; and a plurality of sliding members slidably disposed on the sliding rails; a first driving assembly; and a positioning assembly connected to the first driving assembly, the positioning assembly having: a driving rod defining an exterior surface and a spiral slot defined in the exterior surface and having at least one slot end, and the driving rod having at least one limiting slot communicating with the at least one slot end; at least one positioning block; and a positioning rod connected to, and rotatable with the transmission rod, the positioning rod extending coaxially through, and being coupled with the at least one positioning block; wherein, when the first driving assembly rotates the positioning rod, the spiral slot engages at least one of the plurality of sliding members to move the engaged sliding member to drive the transmission belt to move other sliding members, the at least one limiting slot and the positioning blocks are configured to latch the other sliding members. 12 . The transmission and positioning mechanism of claim 11 , wherein the sliding member comprises a sliding block and a sliding base, the sliding block is slidably disposed on the sliding rails, the sliding base is fixed on the siding block, the sliding base defines a mounting hole, the rolling pole is accommodated in the mounting pole, the rolling pole of one of the sliding members resists the spiral slot to drive the transmission belt and the sliding members to move; the rolling poles of other sliding members are latch by the limiting slots and the positioning slots to secure other sliding members. 13 . The transmission and positioning mechanism of claim 12 , wherein the sliding member comprises a sliding block and a sliding base, the sliding block is slidably disposed on the sliding rails, the sliding base is fixed on the siding block, the sliding base defines a mounting hole, the rolling pole is accommodated in the mounting pole, the rolling pole of one of the sliding members resists the spiral slot to drive the transmission belt and the sliding members to move; the rolling poles of other sliding members are latch by the at least one limiting slot and the positioning slots to secure other sliding members. 14 . The transmission