Knitting apparatus for cylindrical biaxial three-dimensional weft knitted structure

What is claimed is: 1. An apparatus for producing fabric with a cylindrical biaxial weft-knitted three-dimensional knit structure, comprising a loop forming device, a transmission mechanism, a draw-off and take-up mechanism, a yarn feeding mechanism, a control mechanism, and a body frame; wherein: the body frame comprises body frame connector screws, a seat fixedly connected with the body frame, seat connector screws, three columns evenly distributed circumferentially, a top cover, top cover connector screws, column connector screws fastening the columns onto a body frame platform, a head casing, and a needle dial large gear housing; the loop forming device comprises a needle dial, a needle cylinder, needle dial knitting needles, needle cylinder knitting needles, a needle dial tuck cam, a needle cylinder tuck cam, a needle dial tri-pedestal, a needle cylinder tri-pedestal, a needle cylinder tri-pedestal disc, the needle dial tuck cam and a needle dial stitch cam being connected to the needle dial tri-pedestal by means of screws, the needle cylinder tuck cam and a needle cylinder stitch cam being connected to the needle cylinder tri-pedestal by means of screws, the needle cylinder tri-pedestal being connected to the needle cylinder tri-pedestal disc by means of screws; the needle dial stitch cam controls the needle dial knitting needles to knit the weft plain stitch by loop formation; the needle cylinder stitch cam controls the needle cylinder knitting needles to knit the weft plain stitch by loop formation; the needle dial tuck cam and the needle cylinder tuck cam control the needle dial knitting needles and the needle cylinder knitting needles to form a double-sided structure with a tuck height for connecting the weft plain stitch and the weft plain stitch; the yarn feeding mechanism comprises a needle cylinder looped yarn guide, a needle dial looped yarn guide, a needle cylinder weft inlay yarn guide, a needle dial weft inlay yarn guide and a spacer yarn guide which are arranged counterclockwise; the yarn feeding mechanism further comprises a warp yarn disc with a plurality of holes uniformly distributed thereon, the warp yarn disc being connected with three columns through three uniformly distributed bracing struts; warp inlay yarns are dispensed from a warp yarn creel through a yarn feeder tube and pass through a yarn hook on a warp inlay yarn guide ring and then penetrate through the holes on the warp yarn disc; needle cylinder looped yarns are kept in a cylinder plugged on the needle cylinder tri-pedestal disc, and are then fed to the loop forming system; needle dial looped yarns are kept in a cylinder plugged on a bobbin creel fixedly connected with a shaft sleeve and reach the needle dial looped yarn guide through a yarn hook on a yarn lever, and are then fed to the loop forming system; needle cylinder weft inlay yarns are kept in a cylinder plugged on the needle cylinder tri-pedestal disc, and are then inlaid between the warp inlay yarns and the needle cylinder looped yarns through the needle cylinder weft inlay yarn guide; needle dial weft inlay yarns are kept in a cylinder plugged on a bobbin creel fixedly connected with the shaft sleeve and reach the needle dial weft inlay yarn guide through a yarn hook on a yarn lever, and are then inlaid between the warp inlay yarns and the needle dial looped yarns; spacer yarns are kept in a cylinder plugged on the needle cylinder tri-pedestal disc, and are then the loop forming system through the spacer yarn guide; the needle cylinder looped yarn guide, the needle cylinder weft inlay yarn guide, needle cylinder looped yarns, needle cylinder weft inlay yarns, spacer yarns, the needle cylinder tuck cam, the needle cylinder stitch cam and the needle cylinder tri-pedestal, and the needle dial looped yarn guide, the needle dial weft inlay yarn guide, needle dial looped yarns, needle dial weft inlay yarns, the needle dial tuck cam, the needle dial stitch cam and the needle dial tri-pedestal rotate synchronously with the needle cylinder tri-pedestal disc and a needle dial tri-pedestal disc, respectively; the transmission mechanism comprises a squirrel-cage 3-phase A.C. asynchronous motor fixed on the seat by means of the seat connector screws, a drive shaft driven by the A.C. asynchronous motor with a belt, the drive shaft being provided with two identical pinions, the pinions being engaged respectively with a needle cylinder main gear and a needle dial main gear which are identical, the needle cylinder main gear being connected with the needle cylinder tri-pedestal disc by means of keys, the needle cylinder main gear and the needle cylinder tri-pedestal disc being driven by the pillion on the drive shaft to rotate along a steel track located at a recess on the body frame; the needle dial main gear is connected with a needle dial tri-pedestal disc by means of keys, the needle dial tri-pedestal disc being fixedly connected with the upper end of the shaft sleeve, the lower end of the shaft sleeve being connected with the needle dial tri-pedestal by means of screws, and the needle dial main gear rotates under the effects of the A.C. asynchronous motor, the drive shaft and the pinion; the needle cylinder main gear and the needle dial main gear rotate synchronously with one another; to ensure the synchronism between the needle dial tri-pedestal and needle cylinder tri-pedestal and the invariance of clearances between the needle cylinder tuck cam and the needle cylinder and between the needle cylinder stitch cam and the needle cylinder during operation, compensating pinions are provided on a driven shaft and compensating pinions are provided on a driven shaft, the driven shafts rotate under the effects of the needle cylinder main gear and the needle dial main gear and are connected with the body frame by means of bearings, and the uniform distribution of the compensating pinions and the driven shafts circumferentially with respect to the needle cylinder main gear and the needle dial main gear helps to improve the torsional rigidity between the needle cylinder tri-pedestal disc and the needle dial tri-pedestal disc, reduce transmission gap and ensure the synchronism between the needle cylinder main gear and the needle dial main gear; a bearing is installed on a hollow determinate shaft and positioned using a bearing shoulder; a bearing is installed on the determinate shaft and positioned using a bearing shoulder; interference fit of the bearings and the shaft sleeve ensures that the needle dial main gear is driven by the pinion on the drive shaft to rotate the shaft sleeve; the upper end of the determinate shaft is connected with the needle dial large gear housing by means of a bearing and connected to the top cover of the body frame by means of the top cover connector screws, while the lower end of the determinate shaft is connected with the needle dial by means of screws; the upper ends of the drive shaft and the driven shafts are connected with the needle dial large gear housing by means of bearings respectively, and the lower ends thereof are connected with the body frame by means of the bearings respectively; the draw-off and take-up mechanism comprises a draw-off roller, a compression roller and a compression roller with both ends of each of the three rollers engaged with gear transmission, and the draw-off roller being driven by the left end of a torque stepper motor through a chain; a fabric roller protruding out of a body frame stanchion through a rocker lever, with a fabric roller left end located on the same side as the chain, the right end of the draw-off roller drives a fabric roller right end through a chain, a transmission shaft and a belt, and the tension of the belt can be adjusted by changing the locations of the belt tensioner pulleys; the control mechanism comprises a central control unit, an operation panel, a push button On/Off control, a torque motor draw-off/take-u