CN111715895A - Precision numerical control lathe - Google Patents

Abstract

The invention provides a precise numerical control lathe, which comprises a lathe, a main control case, a main spindle box, a supporting plate, a visual detection compensation mechanism, a measurable surface chuck seat structure, an adsorbable, telescopic and collected back center structure, a rotatable and replaceable tool rest structure, an adsorbable, movable and cleaned pipe structure, a feeding box, a sliding groove, a lead screw, a first light source, a tool setting measurement CCD, a bar deviation measurement CCD and a second light source, wherein the main control case is connected to the left side of the upper end of the lathe through bolts; the spindle box is connected to the upper end of the main control case through bolts. The chuck, the supporting rod, the wing-shaped bolt, the measuring tube, the sliding tube, the puller bolt and the marking pen are arranged, so that the measuring tube is aligned with the left side of the blank in the process of processing the blank, the sliding tube is slid on the surface of the measuring tube, and then the marking pen is used for marking on the surface of the blank, and the marking and measuring work is conveniently carried out in the processing process.

Description

Precision numerical control lathe

Technical Field

The invention belongs to the technical field of lathes, and particularly relates to a precise numerical control lathe.

Background

The numerical control lathe and the turning center are high-precision and high-efficiency automatic machine tools. The multi-station tool turret or the power tool turret is equipped, so that the machine tool has wide processing technological performance, can process complex workpieces such as linear cylinders, oblique line cylinders, circular arcs and various threads, grooves, worms and the like, has various compensation functions of linear interpolation and circular arc interpolation, and plays a good economic effect in the batch production of complex parts.

But current lathe still has the inconvenient blank that needs to carry out the processing of in-process that carries out work piece and measures the mark work, and the iron fillings that produce when processing the blank fall into lathe gap easily and influence lathe work and inconvenient carrying out the change work of lathe tool and knife rest and inconvenient in the in-process of processing in time clear up the problem of blank surface impurity.

Therefore, the invention of the precise numerical control lathe is very necessary.

Disclosure of Invention

In order to solve the technical problems, the invention provides a precise numerical control lathe, which aims to solve the problems that the conventional lathe is inconvenient for measuring and marking a blank to be machined in the process of machining a workpiece, scrap iron generated in the process of machining the blank is easy to fall into a lathe gap to influence the lathe work, the turning tool and a tool rest are inconvenient to replace, and impurities on the surface of the blank are inconvenient to clean in time in the machining process. The precise numerical control lathe comprises a lathe, a main control case, a spindle box, a supporting plate and a visual detection compensation mechanism, wherein a surface chuck seat structure can be measured, a center structure after collection can be adsorbed, stretched and collected, a tool rest structure can be rotatably replaced, a pipe structure can be adsorbed, moved and cleaned, a feeding box, a sliding groove, a lead screw, a first light source, a tool setting measuring CCD, a bar deviation measuring CCD and a second light source are arranged, and the main control case is connected to the left side of the upper end of the lathe through bolts; the spindle box is connected to the upper end of the main control case through a bolt; the lower end of the supporting plate is connected to the middle position of the right side of the upper end of the spindle box through a bolt; the visual detection compensation mechanism is connected to the middle position of the right side of the upper end of the supporting plate through a bolt and is arranged in a penetrating manner; the measurable surface chuck seat structure is arranged in the middle of the right side of the spindle box; the adsorbable telescopic collection rear center structure is arranged on the right side of the upper end of the lathe; the rotatable tool rest replacing structure is arranged in the middle of the upper end of the feeding box; the structure capable of adsorbing, moving and cleaning the pipe is arranged on the front surface of the spindle box; the feeding box is in threaded connection with the outer wall of the lead screw; the sliding groove is formed in the right side of the upper end of the lathe; two ends of the lead screw are respectively bolted at the middle positions of the left side and the right side of the sliding groove; the light source I is connected to the lower part of the right side of the visual detection compensation mechanism through a bolt; the tool setting measurement CCD screw is connected to the middle position of the right side of the first light source; the second light source is connected to the lower part of the left side of the visual detection compensation mechanism through a bolt; the bar deviation measurement CCD screw is connected to the middle position of the left side of the light source II; the measurable surface chuck seat structure comprises a chuck, a separating plate, a supporting rod, a wing-shaped bolt, a measuring tube, a sliding tube, a jacking bolt and a marking pen, wherein the separating plate is arranged on the left side of the lower end of the supporting rod; the wing-shaped bolt penetrates through the middle position inside the left side of the supporting rod and the middle position inside the separating plate respectively; the wing bolt is in threaded connection with the middle position of the upper end of the chuck; the left side of the measuring tube is sleeved on the outer wall of the right side of the supporting rod; the sliding pipe is sleeved on the outer wall of the sliding pipe in a sliding manner; the jacking bolt is in threaded connection with the middle position of the front surface of the sliding pipe; the upper end of the marking pen is inserted in the middle of the lower side of the sliding tube.

Preferably, the adsorbable, telescopic and collecting rear center structure comprises a rear center, a sleeve pipe, a fixed pipe, an adjusting bolt, a telescopic rod, an adsorption plate, a baffle plate, an insertion box and a telescopic box, wherein the sleeve pipe is sleeved on the left side of the outer wall of the rear center; the upper end of the fixed pipe is welded in the middle of the lower end of the sleeve pipe; the adjusting bolt is in threaded connection with the middle position of the lower part of the front surface of the fixed pipe; the upper end of the telescopic rod is inserted in the middle of the inside of the lower side of the fixed pipe; the right side of the adsorption plate is connected with the lower part of the left side of the telescopic rod through a bolt; the shielding plates are respectively connected with the front of the upper end and the back of the upper end of the adsorption plate through bolts; the right side of the plug box is adsorbed at the upper end of the adsorption plate; the right side of the telescopic box is inserted in the middle of the inside of the left side of the insertion box.

Preferably, the rotatable tool rest replacing structure comprises a U-shaped connecting seat, an inserting rod, a locking nut, a rotating frame, a tool rest and a tool, wherein the lower end of the rotating frame is inserted in the middle of the inner part of the upper side of the U-shaped connecting seat; the insertion rods respectively penetrate through the middle position inside the upper side of the U-shaped connecting seat; the locking nut is respectively in threaded connection with the outer wall of the front surface and the outer wall of the rear surface of the insertion rod; the turning tool rest is respectively connected to the upper end and the right side of the rotating frame through bolts; the cutter is respectively bolted on the upper end and the right side of the turning tool rest.

Preferably, the structure of the adsorbable mobile cleaning pipe comprises arc-shaped clamping plates, a first connecting pipe, a coiled pipe, an L-shaped cleaning pipe, a cleaning nozzle, a second connecting pipe and an adsorption rod, wherein the left side of the first connecting pipe is clamped between the arc-shaped clamping plates; the right side of the first connecting pipe is in threaded connection with the middle position inside the left side of the coiled pipe; the L-shaped cleaning pipe is in threaded connection with the middle position inside the right side of the coiled pipe; the cleaning spray head is in threaded connection with the middle position inside the lower side of the L-shaped cleaning pipe; the second connecting pipe is sleeved on the left side of the outer wall of the L-shaped cleaning pipe; the upper end of the adsorption rod is connected with the middle position inside the lower side of the second connecting pipe through a bolt.

Preferably, the feeding box is inserted in the upper side of the sliding groove in a sliding manner; the feeding box is in threaded connection with the lead screw.

Preferably, the measuring tube is a stainless steel tube which is sequentially marked with units of centimeters from left to right; the lower end of the marking pen is arranged corresponding to the center of the sliding tube; the sliding pipe is made of transparent PVC pipe.

Preferably, the chuck is fixedly connected to the middle position of the right side of the spindle box; the support rod is arranged on the right side of the spindle box.

Preferably, the splicing box is an iron box with a paint layer coated on the surface, is adsorbed at the upper end of the adsorption plate and is arranged between the shielding plates; the telescopic box is a transparent PVC box.

Preferably, the lower end of the rear center is connected to the middle position of the right side of the upper end of the lathe through a bolt; the plug box and the telescopic box are arranged in the middle of the upper end of the lathe.

Preferably, the insertion rod further penetrates through the middle position inside the lower side of the rotating frame; the locking nuts are respectively arranged on the front surface and the rear surface of the U-shaped connecting seat.

Preferably, the U-shaped connecting seat is connected to the upper end of the feeding box through a bolt and is arranged at the upper end of the sliding groove.

Preferably, the second connecting pipe is arranged at the right side of the coiled pipe; the adsorption rod adopts a cylindrical magnet rod.

Preferably, the arc-shaped clamping plate is connected to the middle position of the left side of the front surface of the spindle box through a bolt; the lower end of the adsorption rod is adsorbed on the left side of the upper end of the feeding box.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the arrangement of the chuck, the support rod, the wing-shaped bolt, the measuring tube, the sliding tube, the puller bolt and the marking pen is beneficial to aligning the measuring tube with the left side of the blank in the process of processing the blank, then sliding the sliding tube on the surface of the measuring tube, and then enabling the marking pen to carry out marking work on the surface of the blank, so that the marking and measuring work is convenient in the processing process.

2. According to the invention, the arrangement of the rear center, the sleeve pipe, the fixed pipe, the telescopic rod, the adsorption plate, the shielding plate, the plug box and the telescopic box is beneficial to grasping the left side of the telescopic box and pulling the left side in the blank processing process, so that the plug box and the telescopic box correspond to the blank, the collection of chips generated in the work process in the blank processing process is facilitated, and the chips are prevented from falling into the interior of lathe equipment to influence the work.

3. According to the invention, the arrangement of the U-shaped connecting seat, the inserting rod, the locking nut, the rotating frame, the turning tool rest and the tool is beneficial to loosening the locking nut in the blank processing process and then rotating the rotating frame, so that the turning tool rest and the tool can be conveniently replaced in the blank processing process.

4. According to the invention, the arrangement of the first connecting pipe, the coiled pipe, the L-shaped cleaning pipe, the cleaning spray head, the second connecting pipe, the adsorption rod and the feeding box is favorable for adsorption arrangement through the feeding box and the adsorption rod in the blank processing process, and then the feeding box drives the cleaning spray head to move left and right in the left and right moving process, so that the cleaning work is convenient in the blank processing process.

5. According to the invention, the chuck, the separating plate, the supporting rod, the wing-shaped bolt and the measuring tube are arranged, so that the measuring tube can be conveniently detached in the using process, and the measuring tube is prevented from influencing the processing of a cutter on a blank in the processing process.

6. According to the invention, the arrangement of the sleeve pipe, the fixing pipe, the adjusting bolt, the telescopic rod, the adsorption plate, the shielding plate and the plug box is beneficial to loosening the adjusting bolt when a blank is processed, then the telescopic rod is moved up and down to drive the adsorption plate and the plug box to move up and down, and the adjustment work can be conveniently carried out according to the diameter of a workpiece in the processing process.

7. According to the invention, the arrangement of the first connecting pipe, the coiled pipe, the L-shaped cleaning pipe and the cleaning spray head is beneficial to bending through the coiled pipe in the using process, and the scrap cleaning work in the blank processing process is convenient.

8. According to the invention, the arrangement of the telescopic rod, the adsorption plate, the shielding plate, the plug-in box and the telescopic box is beneficial to pulling the telescopic box according to the length of the blank in the blank processing process, and the scrap collection work is convenient to be carried out in the blank processing process.

9. According to the invention, the arrangement of the measuring tube, the sliding tube, the puller bolt and the marker pen is beneficial to moving the sliding tube left and right to drive the marker pen to move before the blank is measured and then screwing the puller bolt, so that the blank is conveniently fixed and the blank measurement is facilitated.

Drawings

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is a schematic diagram of a measurable surface chuck base structure according to the present invention.

Fig. 3 is a schematic structural view of the structure of the adsorbable telescopic collection rear centre of the invention.

Fig. 4 is a schematic structural view of the structure of the rotatable replaceable tool holder of the present invention.

FIG. 5 is a schematic structural diagram of the structure of the mobile cleaning pipe capable of adsorbing.

In the figure:

1. turning a lathe; 2. a main control cabinet; 3. a main spindle box; 4. a support plate; 5. a visual inspection compensation mechanism; 6. the surface chuck seat structure can be measured; 61. a chuck; 62. a separation plate; 63. a support bar; 64. a wing bolt; 65. a measurement tube; 66. a sliding tube; 67. jacking the bolt; 68. a marking pen; 7. the rear center structure can be absorbed, telescopically collected; 71. a rear center; 72. sleeving a pipe; 73. a fixed tube; 74. adjusting the bolt; 75. a telescopic rod; 76. an adsorption plate; 77. a shielding plate; 78. a plug box; 79. a telescopic box; 8. the tool rest structure can be rotatably replaced; 81. a U-shaped connecting seat; 82. a plug rod; 83. locking the nut; 84. a rotating frame; 85. turning a tool rest; 86. a cutter; 9. the pipe structure can be cleaned in an adsorption and moving way; 91. an arc-shaped clamping and connecting plate; 92. a first connecting pipe; 93. a serpentine tube; 94. an L-shaped cleaning pipe; 95. cleaning the spray head; 96. a second connecting pipe; 97. an adsorption rod; 10. a feed box; 11. a sliding groove; 12. a lead screw; 13. a first light source; 14. tool setting measurement CCD; 15. bar deviation measurement CCD; 16. and a second light source.

Detailed Description

The invention is described in detail with reference to the accompanying drawings, as shown in fig. 1 and fig. 2, the precision numerically controlled lathe comprises a lathe 1, a main control case 2, a spindle box 3, a support plate 4, a vision detection compensation mechanism 5, a measurable surface chuck seat structure 6, an adsorbable telescopic collection rear tip structure 7, a rotatable replaceable tool rest structure 8, an adsorbable movable cleaning pipe structure 9, a feeding box 10, a sliding groove 11, a lead screw 12, a first light source 13, a tool setting measurement CCD14, a bar deviation measurement CCD15 and a second light source 16, wherein the main control case 2 is connected to the left side of the upper end of the lathe 1 through bolts; the spindle box 3 is connected to the upper end of the main control case 2 through bolts; the lower end of the supporting plate 4 is connected with the middle position of the right side of the upper end of the main spindle box 3 through a bolt; the visual detection compensation mechanism 5 is connected to the middle position of the right side of the upper end of the support plate 4 through a bolt and is arranged in a penetrating manner; the measurable surface chuck seat structure 6 is arranged in the middle of the right side of the spindle box 3; the adsorbable telescopic collection rear center structure 7 is arranged on the right side of the upper end of the lathe 1; the rotatable tool rest replacing structure 8 is arranged in the middle of the upper end of the feeding box 10; the structure 9 capable of adsorbing, moving and cleaning the pipe is arranged on the front surface of the main spindle box 3; the feeding box 10 is in threaded connection with the outer wall of the lead screw 12; the sliding groove 11 is formed in the right side of the upper end of the lathe 1; two ends of the screw rod 12 are respectively bolted at the middle positions of the left side and the right side of the sliding groove 11; the first light source 13 is connected to the lower part of the right side of the visual detection compensation mechanism 5 through a bolt; the tool setting measurement CCD14 is in screw connection with the middle position of the right side of the first light source 13; the second light source 16 is connected to the lower part of the left side of the visual detection compensation mechanism 5 through a bolt; the bar deviation measuring CCD15 is in screwed connection with the middle position of the left side of the second light source 16; the measurable surface chuck seat structure 6 comprises a chuck 61, a separating plate 62, a supporting rod 63, a wing-shaped bolt 64, a measuring pipe 65, a sliding pipe 66, a jacking bolt 67 and a marking pen 68, wherein the separating plate 62 is arranged on the left side of the lower end of the supporting rod 63; the wing bolt 64 penetrates through the middle position of the left inner part of the support rod 63 and the middle position of the inner part of the separation plate 62 respectively; the wing bolt 64 is in threaded connection with the middle position of the upper end of the chuck 61; the left side of the measuring pipe 65 is sleeved on the outer wall of the right side of the supporting rod 63; the sliding pipe 66 is sleeved on the outer wall of the sliding pipe 66 in a sliding manner; the puller bolt 67 is in threaded connection with the middle position of the front surface of the sliding pipe 66; the upper end of the marking pen 68 is inserted in the middle position inside the lower side of the sliding tube 66; prevent lathe 1 in suitable position at the in-process of carrying out the processing, then use external conductor switch-on external power supply, then peg graft the inside intermediate position in the right side of chuck 61 with the one end of embryo, then cup joint measuring pipe 65 in the outer wall right side of bracing piece 63 to make the left side of bracing piece 63 and the left side of embryo align, then slide sliding tube 66, make the lower extreme of marker 68 carry out the mark work in the suitable position of embryo, will survey measuring pipe 65 and take off after the mark, conveniently carry out the mark work at the in-process of processing embryo.

In this embodiment, as shown in fig. 3, the adsorbable, telescopic and collecting rear center structure 7 includes a rear center 71, a sleeve pipe 72, a fixed pipe 73, an adjusting bolt 74, a telescopic rod 75, an adsorption plate 76, a shielding plate 77, a plug box 78 and a telescopic box 79, wherein the sleeve pipe 72 is sleeved on the left side of the outer wall of the rear center 71; the upper end of the fixed pipe 73 is welded in the middle of the lower end of the sleeve pipe 72; the adjusting bolt 74 is in threaded connection with the middle position of the lower part of the front surface of the fixed pipe 73; the upper end of the telescopic rod 75 is inserted in the middle of the lower inner part of the fixed pipe 73; the right side of the adsorption plate 76 is connected with the lower part of the left side of the telescopic rod 75 through a bolt; the shielding plate 77 is respectively bolted on the front of the upper end and the back of the upper end of the adsorption plate 76; the right side of the plug box 78 is adsorbed at the upper end of the adsorption plate 76; the right side of the telescopic box 79 is inserted in the middle position inside the left side of the insertion box 78; after the blank is marked, the rear tip 71 is rotated, after the blank is fixed, the left side of the telescopic box 79 is grasped to pull the left side, so that the plug box 78 and the telescopic box 79 are arranged in front of the lower end of the blank, the scraps generated during machining are conveniently collected during working, and the phenomenon that the scraps generated during machining fall into the gap of lathe equipment to influence the equipment working is avoided.

In this embodiment, referring to fig. 4, the rotatable tool holder replacing structure 8 includes a U-shaped connecting seat 81, an inserting rod 82, a locking nut 83, a rotating frame 84, a tool holder 85 and a tool 86, wherein the lower end of the rotating frame 84 is inserted into the middle position inside the upper side of the U-shaped connecting seat 81; the insertion rods 82 respectively penetrate through the middle position inside the upper side of the U-shaped connecting seat 81; the locking nut 83 is respectively in threaded connection with the outer wall of the front surface and the outer wall of the rear surface of the insertion rod 82; the turning tool rest 85 is respectively bolted at the upper end and the right side of the rotating frame 84; the cutter 86 is respectively bolted on the upper end and the right side of the turning tool rest 85; after the workpiece is fixed, the lock nut 83 is loosened, the rotating frame 84 is rotated, the appropriate turning tool holder 85 and the appropriate cutting tool 86 are moved to the appropriate position of the blank, the switch of the equipment is turned on, the turning tool equipment starts to work, the upper end of the cutting tool 86 is in contact with the blank, the blank is machined, and the scraps fall into the insertion box 78 and the telescopic box 79 in the machining process, so that the machining of the blank is completed.

In this embodiment, as shown in fig. 5, the adsorbable mobile cleaning pipe structure 9 includes arc-shaped clamping plates 91, a first connecting pipe 92, a coiled pipe 93, an L-shaped cleaning pipe 94, a cleaning nozzle 95, a second connecting pipe 96 and an adsorption rod 97, wherein the left side of the first connecting pipe 92 is clamped between the arc-shaped clamping plates 91; the right side of the first connecting pipe 92 is in threaded connection with the middle position inside the left side of the coiled pipe 93; the L-shaped cleaning pipe 94 is in threaded connection with the middle position inside the right side of the coiled pipe 93; the cleaning nozzle 95 is in threaded connection with the middle position inside the lower side of the L-shaped cleaning pipe 94; the second connecting pipe 96 is sleeved on the left side of the outer wall of the L-shaped cleaning pipe 94; the upper end of the adsorption rod 97 is bolted to the middle position inside the lower side of the second connecting pipe 96; make the left side of first connecting pipe 92 pass through hose switch-on air pump equipment in the in-process that lathe equipment carries out processing, then carry out air feed work, blow off through L type clearance pipe 94 and clearance shower nozzle 95, carry out the clearance work to the work piece, conveniently carry out the clearance work to the work piece at work, then adsorb the setting through feed box 10 and adsorption rod 97, conveniently drive L type clearance pipe 94 and clearance shower nozzle 95 at the in-process of processing and remove, be favorable to carrying out the work piece clearance work at the in-process of processing.

In this embodiment, specifically, the feeding box 10 is slidably inserted into the upper inner portion of the sliding groove 11; the feeding box 10 and the lead screw 12 are in threaded connection.

In this embodiment, specifically, the measuring tube 65 is a stainless steel tube sequentially carved with units of centimeters from left to right; the lower end of the marking pen 68 is arranged corresponding to the center of the sliding tube 66; the sliding tube 66 is made of transparent PVC.

In the present embodiment, specifically, the chuck 61 is fixedly connected to the middle position of the right side of the spindle box 3; the support rod 63 is arranged at the right side of the main spindle box 3.

In this embodiment, specifically, the plug box 78 is an iron box coated with a paint layer on the surface and is adsorbed on the upper end of the adsorption plate 76 and disposed between the shielding plates 77; the telescopic box 79 is a transparent PVC box.

In the embodiment, specifically, the lower end of the rear center 71 is bolted to the middle position of the right side of the upper end of the lathe 1; the plug box 78 and the telescopic box 79 are arranged in the middle of the upper end of the lathe 1.

In this embodiment, specifically, the insertion rod 82 further penetrates through the middle position inside the lower side of the rotating frame 84; the locking nuts 83 are respectively disposed on the front surface and the rear surface of the U-shaped connecting seat 81.

In this embodiment, specifically, the U-shaped connection seat 81 is bolted to the upper end of the feeding box 10 and disposed at the upper end of the sliding groove 11.

In this embodiment, specifically, the second connecting pipe 96 is disposed at the right side of the serpentine pipe 93; the adsorption rod 97 is a cylindrical magnet rod.

In this embodiment, specifically, the arc-shaped clamping plate 91 is bolted to the middle position on the left side of the front surface of the spindle box 3; the lower end of the adsorption rod 97 is adsorbed at the left side of the upper end of the feeding box 10.

Principle of operation

In the invention, the lathe 1 is prevented from being in a proper position in the processing process, then an external power supply is connected by using an external lead, then one end of a blank is inserted in the middle position inside the right side of the chuck 61, then the measuring tube 65 is sleeved on the right side of the outer wall of the supporting rod 63, the left side of the supporting rod 63 is aligned with the left side of the blank, then the sliding tube 66 is slid, the lower end of the marking pen 68 is marked at the proper position of the blank, the measuring tube 65 is taken down after marking, the marking work in the blank processing process is convenient, after the blank is marked, the rear tip 71 is rotated, after the blank is fixed, the left side of the telescopic box 79 is grasped and pulled to the left side, the inserting box 78 and the telescopic box 79 are arranged in front of the lower end of the blank, the collection of scraps in the processing process is convenient, the scraps produced in the processing process are prevented from falling into the gap of the lathe equipment to, after the workpiece is fixed, the locking nut 83 is loosened, the rotating frame 84 is rotated, the proper lathe saddle 85 and the proper cutter 86 are moved to the proper position of the blank, the switch of the equipment is opened, the lathe equipment starts to work, the upper end of the cutter 86 is arranged in contact with the blank, then the blank is processed, the scraps are made to fall into the insertion box 78 and the telescopic box 79 in the processing process, the blank processing is further completed, the left side of the first connecting pipe 92 is connected with the air pump equipment through the hose in the processing process of the lathe equipment, then the air supply work is carried out, the scraps are blown out through the L-shaped cleaning pipe 94 and the cleaning spray head 95 to clean the workpiece, the workpiece is conveniently cleaned in the work, then the cleaning work is carried out through the feeding box 10 and the adsorption rod 97 in an adsorption mode, the L-shaped cleaning pipe 94 and the cleaning spray head 95 are conveniently driven to move in the processing process, is beneficial to cleaning the workpiece in the processing process.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (10)

1. The precise numerical control lathe comprises a lathe (1), a main control case (2), a spindle box (3), a supporting plate (4), a visual inspection compensation mechanism (5), a measurable surface chuck seat structure (6), an adsorbable telescopic collection rear center structure (7), a rotatable tool rest replacement structure (8), an adsorbable movable cleaning pipe structure (9), a feeding box (10), a sliding groove (11), a lead screw (12), a first light source (13), a tool setting measurement CCD (14), a bar deviation measurement CCD (15) and a second light source (16), wherein the main control case (2) is connected to the left side of the upper end of the lathe (1) through bolts; the spindle box (3) is connected to the upper end of the main control case (2) through bolts; the lower end of the supporting plate (4) is connected to the middle position of the right side of the upper end of the spindle box (3) through a bolt; the visual detection compensation mechanism (5) is connected to the middle position of the right side of the upper end of the support plate (4) through a bolt and is arranged in a penetrating manner; the feeding box (10) is in threaded connection with the outer wall of the lead screw (12); the sliding groove (11) is formed in the right side of the upper end of the lathe (1); two ends of the lead screw (12) are respectively bolted at the middle positions of the left side and the right side of the sliding groove (11); the first light source (13) is connected to the lower part of the right side of the visual detection compensation mechanism (5) through a bolt; the tool setting measurement CCD (14) is connected to the middle position of the right side of the light source I (13) through a screw; the second light source (16) is connected to the lower part of the left side of the visual detection compensation mechanism (5) through a bolt; the bar deviation measurement CCD (15) is connected to the middle position of the left side of the second light source (16) through a screw; the precision numerical control lathe is characterized in that the measurable surface chuck seat structure (6) in the precision numerical control lathe is arranged in the middle position of the right side of the spindle box (3); the adsorbable telescopic collection rear center structure (7) is arranged on the right side of the upper end of the lathe (1); the rotatable tool rest replacing structure (8) is arranged in the middle of the upper end of the feeding box (10); the structure (9) capable of adsorbing, moving and cleaning the pipe is arranged on the front surface of the spindle box (3); the measurable surface chuck seat structure (6) comprises a chuck (61), a separating plate (62), a supporting rod (63), a wing-shaped bolt (64), a measuring pipe (65), a sliding pipe (66), a jacking bolt (67) and a marking pen (68), wherein the separating plate (62) is arranged on the left side of the lower end of the supporting rod (63); the wing-shaped bolt (64) respectively penetrates through the middle position of the left inner part of the supporting rod (63) and the middle position of the inner part of the separating plate (62); the wing bolt (64) is in threaded connection with the middle position of the upper end of the chuck (61); the left side of the measuring pipe (65) is sleeved on the outer wall of the right side of the supporting rod (63); the sliding pipe (66) is sleeved on the outer wall of the sliding pipe (66) in a sliding manner; the puller bolt (67) is in threaded connection with the middle position of the front surface of the sliding pipe (66); the upper end of the marking pen (68) is inserted in the middle of the lower side of the sliding tube (66).

2. The precision numerically controlled lathe according to claim 1, wherein the adsorbable, telescopic and collecting rear center structure (7) comprises a rear center (71), a sleeve pipe (72), a fixed pipe (73), an adjusting bolt (74), a telescopic rod (75), an adsorption plate (76), a shielding plate (77), a plug box (78) and a telescopic box (79), wherein the sleeve pipe (72) is sleeved on the left side of the outer wall of the rear center (71); the upper end of the fixed pipe (73) is welded in the middle of the lower end of the sleeve pipe (72); the adjusting bolt (74) is in threaded connection with the middle position of the lower part of the front surface of the fixed pipe (73); the upper end of the telescopic rod (75) is inserted in the middle of the lower inside of the fixed pipe (73); the right side of the adsorption plate (76) is connected with the lower part of the left side of the telescopic rod (75) through a bolt; the shielding plates (77) are respectively connected to the front and the back of the upper end of the adsorption plate (76) through bolts; the right side of the plug box (78) is adsorbed at the upper end of the adsorption plate (76); the right side of the telescopic box (79) is inserted in the middle of the inside of the left side of the insertion box (78).

3. The precision numerically controlled lathe as claimed in claim 1, wherein the rotatable tool changing structure (8) comprises a U-shaped connecting seat (81), an inserting rod (82), a locking nut (83), a rotating frame (84), a lathe tool holder (85) and a tool (86), wherein the lower end of the rotating frame (84) is inserted in the middle position of the upper inner side of the U-shaped connecting seat (81); the insertion rods (82) respectively penetrate through the middle position of the upper inside of the U-shaped connecting seat (81); the locking nut (83) is respectively in threaded connection with the outer wall of the front surface and the outer wall of the rear surface of the insertion rod (82); the turning tool rest (85) is respectively connected to the upper end and the right side of the rotating frame (84) through bolts; the cutter (86) is respectively connected to the upper end and the right side of the turning tool rest (85) through bolts.

4. The precision numerically controlled lathe according to claim 1, wherein the adsorbable movable cleaning pipe structure (9) comprises arc-shaped clamping plates (91), a first connecting pipe (92), a coiled pipe (93), an L-shaped cleaning pipe (94), a cleaning spray head (95), a second connecting pipe (96) and an adsorption rod (97), and the left side of the first connecting pipe (92) is clamped between the arc-shaped clamping plates (91); the right side of the first connecting pipe (92) is in threaded connection with the middle position inside the left side of the coiled pipe (93); the L-shaped cleaning pipe (94) is in threaded connection with the middle position inside the right side of the coiled pipe (93); the cleaning spray head (95) is in threaded connection with the middle position inside the lower side of the L-shaped cleaning pipe (94); the second connecting pipe (96) is sleeved on the left side of the outer wall of the L-shaped cleaning pipe (94); the upper end of the adsorption rod (97) is connected with the middle position inside the lower side of the second connecting pipe (96) through a bolt.

5. The precision numerically controlled lathe according to claim 1, characterized in that said feed box (10) is slidably inserted inside the upper side of the sliding groove (11); the feeding box (10) and the lead screw (12) are in threaded connection.

6. The precision numerically controlled lathe according to claim 1, characterized in that said measuring tube (65) is a stainless steel tube, which is sequentially engraved in centimeters from left to right; the lower end of the marking pen (68) is arranged corresponding to the center of the sliding tube (66); the sliding pipe (66) is made of a transparent PVC pipe.

7. The precision numerically controlled lathe according to claim 1, characterized in that the chuck (61) is fixedly connected to the right middle position of the headstock (3); the support rod (63) is arranged on the right side of the spindle box (3).

8. The precision numerically controlled lathe according to claim 2, wherein the plug box (78) is attached to the upper end of the adsorption plate (76) and disposed between the shielding plates (77) by an iron box coated with a paint layer; the telescopic box (79) is a transparent PVC box.

9. The precision numerically controlled lathe according to claim 2, characterized in that the lower end of the rear center (71) is bolted to the middle position on the right side of the upper end of the lathe (1); the plug box (78) and the telescopic box (79) are arranged in the middle of the upper end of the lathe (1).

10. The precision numerically controlled lathe according to claim 3, characterized in that said insertion rod (82) also passes through the lower internal middle position of the turret (84); the locking nuts (83) are respectively arranged on the front surface and the rear surface of the U-shaped connecting seat (81).

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