CN207103859U - A kind of numerically controlled lathe training platform - Google Patents

A kind of numerically controlled lathe training platform Download PDF

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Publication number
CN207103859U
CN207103859U CN201720963207.8U CN201720963207U CN207103859U CN 207103859 U CN207103859 U CN 207103859U CN 201720963207 U CN201720963207 U CN 201720963207U CN 207103859 U CN207103859 U CN 207103859U
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CN
China
Prior art keywords
tailstock
lathe bed
spindle unit
moving member
numerically controlled
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
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CN201720963207.8U
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Chinese (zh)
Inventor
孙伟城
刘小芽
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Individual
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Individual
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Priority to CN201720963207.8U priority Critical patent/CN207103859U/en
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Publication of CN207103859U publication Critical patent/CN207103859U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model provides a kind of numerically controlled lathe training platform, it includes frame, lathe bed, spindle unit, tailstock part, first rotating device, second mobile device and knife rest, lathe bed is arranged at frame, lathe bed has installation guide rail, spindle unit is arranged at lathe bed, and positioned at the top of frame, tailstock part is arranged at installation guide rail, and positioned at the side of spindle unit, first rotating device is arranged at lathe bed, and positioned at the side of spindle unit, second mobile device is arranged at installation guide rail and the first rotating device, and between tailstock part and spindle unit, knife rest is arranged at the second mobile device.Numerically controlled lathe training platform of the present utility model is made up of frame, lathe bed, spindle unit, tailstock part, the first rotating device, the second mobile device and seven big module of knife rest, numerically controlled lathe training platform causes student quickly to grasp the installation method and adjustment method of numerically controlled lathe, training cost is reduced, saves the training time.

Description

A kind of numerically controlled lathe training platform
Technical field
Training platform technical field is the utility model is related to, in particular it relates to a kind of numerically controlled lathe training platform.
Background technology
At present, in existing numerically controlled lathe machinery dismounting real training, machinery dismounting training, lathe are carried out using true lathe Component weight is big, is imparted knowledge to students it is difficult to carry out a wide range of dismounting with accuracy detection, and students relevant knowledge speed is slow, teaching, training into This height.
Utility model content
In view of the shortcomings of the prior art, the utility model provides a kind of numerically controlled lathe training platform, and it includes frame, bed Body, spindle unit, tailstock part, the first rotating device, the second mobile device and knife rest, lathe bed are arranged at frame, and lathe bed has Guide rail is installed, spindle unit is arranged at lathe bed, and positioned at the top of frame, tailstock part is arranged at installation guide rail, and positioned at master The side of axle portion part, the first rotating device is arranged at lathe bed, and is arranged at peace positioned at the side of spindle unit, the second mobile device Guide rail and Z axis screw mandrel are filled, and between tailstock part and spindle unit, knife rest is arranged at the second mobile device.
According to an embodiment of the present utility model, above-mentioned spindle unit includes main spindle box body, rotary shaft, two rotary shafts Hold, main shaft clip and main shaft, main spindle box body is arranged at lathe bed, and is arranged at main spindle box positioned at the side of tailstock part, rotary shaft Body, two swivel bearings are sheathed on rotary shaft, and connect the both ends of main spindle box body respectively, and main shaft clip is sheathed on rotary shaft, and Positioned at the side of main spindle box body, one end of main shaft is arranged at main shaft clip.
According to an embodiment of the present utility model, above-mentioned tailstock part includes tailstock lathe bed, tailstock fixed mechanism, tailstock Governor motion and tailstock main shaft, tailstock lathe bed is arranged at installation guide rail, and is set positioned at the side of spindle unit, tailstock fixed mechanism Tailstock lathe bed is placed in, tailstock governor motion is arranged at tailstock fixed mechanism, and tailstock main shaft is arranged at tailstock fixed mechanism, and connects Tailstock governor motion.
According to an embodiment of the present utility model, above-mentioned first rotating device include Z axis screw mandrel, the first driving element, First shifting axle, the first moving member and the first governor motion, Z axis screw mandrel is arranged at lathe bed, and is located at the side of spindle unit, the One driving element is arranged at Z axis screw mandrel, and the first shifting axle is arranged at the output end of the first driving element, and the first moving member is sheathed on First shifting axle, the first moving member connect the second mobile device, and the first governor motion is arranged at Z axis screw mandrel, and is moved positioned at first The side of moving part, the first governor motion are connected through a screw thread the first shifting axle.
According to an embodiment of the present utility model, above-mentioned second mobile device includes saddle, the second moving member, the second tune Mechanism and rotary drive mechanism are saved, saddle is arranged at the first moving member, saddle connection installation guide rail, and the second moving member is arranged at peace Guide rail is filled, the second governor motion is arranged at saddle, and connects the second moving member, and rotary drive mechanism is arranged at the second moving member, Rotary drive mechanism connects knife rest.
Compared with prior art, the utility model can be obtained including following technique effect:
Numerically controlled lathe training platform of the present utility model is by frame, lathe bed, spindle unit, tailstock part, the first rotating dress Put, the second mobile device and seven big module of knife rest composition, numerically controlled lathe training platform causes student quickly to grasp numerically controlled lathe Installation method and adjustment method, training cost is reduced, save the training time.
Brief description of the drawings
Accompanying drawing described herein is used for providing further understanding of the present application, forms the part of the application, this Shen Schematic description and description please is used to explain the application, does not form the improper restriction to the application.In the accompanying drawings:
Fig. 1 is the three-dimensional structure diagram of the numerically controlled lathe training platform of the embodiment of the utility model one.
Fig. 2 is the three-dimensional structure diagram of the spindle unit of the embodiment of the utility model one.
Fig. 3 is the three-dimensional structure diagram of the tailstock part of the embodiment of the utility model one.
Fig. 4 is the three-dimensional structure diagram of the first rotating device of the embodiment of the utility model one.
Fig. 5 is the three-dimensional structure diagram of the second mobile device of the embodiment of the utility model one.
Embodiment
Multiple embodiments of the present utility model will be shown with schema below, as clearly stated, in many practices Details will be explained in the following description.It should be appreciated, however, that the details in these practices is not applied to limit this practicality newly Type.That is, in some embodiments of the present utility model, the details in these practices is non-essential.In addition, it is letter For the sake of changing schema, some known usual structures will illustrate it in a manner of simply illustrative in the drawings with component.
It is to be appreciated that institute is directional in the utility model embodiment indicates that such as up, down, left, right, before and after ... is only For explain a certain particular pose as shown in drawings under relative position relation between each part, motion conditions etc., if should When particular pose changes, then directionality instruction also correspondingly changes therewith.
In addition, such as relating to the description of " first ", " second " etc. is only used for describing purpose, and non-specifically in the utility model The meaning of order or cis-position is censured, is also not used to limit the utility model, it is retouched just for the sake of difference with constructed term The component stated or operation, and it is not intended that indicating or implying its relative importance or imply the technology indicated by indicating The quantity of feature.Thus, " first " is defined, the feature of " second " can be expressed or implicitly includes at least one spy Sign.In addition, the technical scheme between each embodiment can be combined with each other, but must be with those of ordinary skill in the art's energy Based on enough realizations, the knot of this technical scheme is will be understood that when the combination appearance of technical scheme is conflicting or can not realize Conjunction is not present, also not within the protection domain of the requires of the utility model.
The utility model is to be related to a kind of relevant design of numerically controlled lathe training platform.In a first aspect, the utility model Numerically controlled lathe training platform be highly suitable for student practise installation and debugging numerically controlled lathe in;Second aspect, the utility model Numerically controlled lathe training platform be also applied for other and need in the exercise of installation and debugging similar to numerically controlled lathe, below will be with tool The utility model and its caused benefit is further described in the embodiment of body.
The present embodiment provides a kind of numerically controlled lathe training platform 1.Referring to Fig. 1, it is the embodiment of the utility model one Numerically controlled lathe training platform 1 three-dimensional structure diagram.As illustrated, numerically controlled lathe training platform 1 include frame 11, lathe bed 12, Spindle unit 13, tailstock part 14, the first rotating device 15, the second mobile device 16 and knife rest 17.Lathe bed 12 is arranged at frame 11, lathe bed 12 has installation guide rail 121.Spindle unit 13 is arranged at lathe bed 12, and spindle unit 13 is located at the top of frame 11, tail Base member 14 is arranged at installation guide rail 121, and tailstock part 14 is located at the side of spindle unit 13.First rotating device 15 is arranged at Lathe bed 12, the first rotating device 15 are located at the side of spindle unit 13, and the second mobile device 16 is arranged at installation guide rail 121 and the One rotating device 15, for the second mobile device 16 between tailstock part 14 and spindle unit 13, knife rest 17 is arranged at the second shifting Dynamic device 16.The frame 11 of numerically controlled lathe training platform 1, lathe bed 12, spindle unit 13, tailstock part 14, the first rotating device 15th, the second mobile device 16 and the modular construction of knife rest 17, numerically controlled lathe training platform 1 are installed quickly, and debugging is simple, Xue Shengke The quick installation and debugging process for grasping numerically controlled lathe.
Refer to Fig. 2 in the lump again, it is the three-dimensional structure diagram of the spindle unit 13 of the embodiment of the utility model one.As schemed Show, spindle unit 13 includes main spindle box body 131,132, two swivel bearings 133 of rotary shaft, main shaft clip 134 and main shaft 135. Main spindle box body 131 is arranged at lathe bed 12, and main spindle box body 131 is located at the side of tailstock part 14, and rotary shaft 132 is arranged at main spindle box Body 131, two bearing sleeves of swivel bearing 33 are located at rotary shaft 132, and two swivel bearings 133 connect the two of main spindle box body 131 respectively End, main shaft clip 134 are sheathed on rotary shaft 132, and main shaft clip 134 is located at the side of main spindle box body 131, one end of main shaft 135 It is arranged at main shaft clip 134.Rotary shaft 132 rotates, and rotary shaft 132 drives main shaft clip 134 and main shaft 135 to rotate.Main shaft part The structure of part 13 is simple, easy to assembly, simple to operate, after being completed, by detection instrument, you can reach debugging spindle unit 13 with guide rail parallelism testing goal, facilitate student quickly to grasp the structure and debugging process of spindle unit 13.
Refer to Fig. 3 in the lump again, it is the three-dimensional structure diagram of the tailstock part 14 of the embodiment of the utility model one.As schemed Show, tailstock part 14 includes tailstock lathe bed 141, tailstock fixed mechanism 142, tailstock governor motion 143 and tailstock main shaft 144.Tail Bunk body 141 is arranged at installation guide rail 121, and tailstock lathe bed 141 is located at the side of spindle unit 13, and tailstock fixed mechanism 142 is set Tailstock lathe bed 141 is placed in, tailstock governor motion 143 is arranged at tailstock fixed mechanism 142, and tailstock main shaft 144 is arranged at tailstock and consolidated Determine mechanism 142, tailstock main shaft 144 connects tailstock governor motion 143.Tailstock fixed mechanism 142 includes tailstock fixed seat 1421, pressure Tight block 1422, clamping screw 1423 and compression handle 1424.Tailstock fixed seat 1421 is arranged at the top of tailstock lathe bed 141, and Connect tailstock governor motion 143 and tailstock main shaft 144.Compact heap 1422 is arranged at the lower section of tailstock lathe bed 141, clamping screw 1423 one end connects compact heap 1422 through tailstock fixed seat 1421, compresses handle 1424 and connects the another of clamping screw 1423 End.Tailstock governor motion 143 includes tailstock adjustment axis 1431 and tailstock adjusting handle 1432.Tailstock adjustment axis 1431 is arranged at tail The inside of seat fixed seat 1421, one end connection tailstock main shaft 144 of tailstock adjustment axis 1431.Tailstock adjusting handle 1432 is arranged at The other end of tailstock adjustment axis 1431, tailstock adjusting handle 1432 are located at the side of tailstock fixed seat 1421.14 groups of tailstock part During dress, apply external force in compressing handle 1424, compress handle 1424 and drive clamping screw 1423 to move, clamping screw 1423 Compact heap 1422 is driven to fix tailstock fixed seat 1421 in tailstock lathe bed 141.After tailstock part 14 is completed, apply external force in Tailstock adjusting handle 1432, tailstock adjusting handle 1432 drive tailstock adjustment axis 1431 to rotate, and tailstock adjustment axis 1431 drives tail Seat main shaft 144 rotates, and reaches the Parallel testing of regulation tailstock axis of rotation and numerically controlled lathe longitudinal rail.Tailstock part 14 is adopted With integral module, assembling is simple and convenient, and student, which can quickly grasp, reaches regulation tailstock axis of rotation and numerically controlled lathe longitudinal rail Parallel testing.
Refer to Fig. 4 in the lump again, it is the three-dimensional structure diagram of the first rotating device 15 of the embodiment of the utility model one.Such as Shown in figure, the first rotating device 15 includes Z axis screw mandrel 151, the first driving element 152, the first shifting axle 153, the first moving member 154 and first governor motion 155.Z axis screw mandrel 151 is arranged at lathe bed 12, and Z axis screw mandrel 151 is located at the side of spindle unit 13.The One driving element 152 is arranged at Z axis screw mandrel 151, and the first shifting axle 153 is arranged at the output end of the first driving element 152, and first Moving member 154 is sheathed on the first shifting axle 153, and the first moving member 154 connects the second mobile device 16, the first governor motion 155 Z axis screw mandrel 151 is arranged at, the first governor motion 155 is located at the side of the first moving member 154, and the first governor motion 155 passes through spiral shell Line connects the first shifting axle 153.First governor motion 155 includes the first regulation adjusting handle 1552 of connecting rod 1551 and first. First regulation connecting rod 1551 is arranged at Z axis screw mandrel 151, and one end of the first regulation connecting rod 1551 is connected through a screw thread the first shifting Moving axis 153.First adjusting handle 1552 is arranged at the other end of the first regulation connecting rod 1551, and the first adjusting handle 1552 is located at The side of Z axis screw mandrel 151.First driving element 152 drives the first moving member 154 to be moved along the first shifting axle 153, the first movement Part 154 drives the first rotating device 15 to be moved with knife rest 17, reaches spindle of numerical control lathe axis and numerically controlled lathe longitudinal rail Parallel testing.First rotating device 15 uses integral module structure, and student can reach the first rotating device 15 of quick grasp Axiality detects the mounting and adjusting with Z axis leading screw 151.Specifically should the used time, the first above-mentioned driving element 152 is motor, when So, the first driving element 152 or other driving elements, are repeated no more in this.
Refer to Fig. 5 in the lump again, it is the three-dimensional structure diagram of the second mobile device 16 of the embodiment of the utility model one.Such as Shown in figure, the second mobile device 16 includes saddle 161, the second moving member 162, the second governor motion 163 and rotary drive mechanism 164.Saddle 161 is arranged at the first moving member 164, the connection installation guide rail 121 of saddle 161, and the second moving member 162 is arranged at saddle 161, the second governor motion 163 is arranged at installation guide rail 121, and the second governor motion 163 connects the second moving member 162, and rotation is driven Motivation structure 164 is arranged at the second moving member 162, and rotary drive mechanism 164 connects knife rest 17.Second governor motion 163 includes the Two regulation lathe beds 1631, the first adjustment axis 1632 and the second adjusting handle (figure does not indicate).Second regulation lathe bed 1631 is arranged at Guide rail 121 is installed, the second regulation lathe bed 1631 connects the second moving member 162, and the first adjustment axis 1632 is through the second regulation lathe bed 1631 the second moving members 162 of connection.Second adjusting handle is arranged at one end of the first adjustment axis 1632.Rotary drive mechanism 164 Including rotation lathe bed 1641, rotation gear 1642 and rotary drive element 1643.Rotation lathe bed 1641 is arranged at the second moving member 162, rotation gear 1642 is arranged at rotation lathe bed 1641, and rotation gear 1642 connects knife rest 17, and rotary drive element 1643 is set Rotation lathe bed 1641 is placed in, the output end of rotary drive element 1643 engages with rotation gear 1642.Rotary drive element 1643 Driving rotation gear 1642 rotates, and rotation gear 1642 rotates with movable knife rack 17.Second mobile device 16 uses modularization, structure Simply, it is easy to assembly, it is simple to operate, after being completed, by detection instrument, you can reach the second mobile device 16 of debugging.
In summary, in one or more embodiments of the present utility model, numerically controlled lathe training platform of the present utility model It is made up of frame, lathe bed, spindle unit, tailstock part, the first rotating device, the second mobile device and seven big module of knife rest, number Control lathe training platform causes student quickly to grasp the installation method and adjustment method of numerically controlled lathe, reduces training cost, saves Training time.
Embodiment of the present utility model is above are only, is not limited to the utility model.For this area skill For art personnel, the utility model can have various modifications and variations.It is all to be made in spirit of the present utility model and the interior of principle Any modification, equivalent substitution and improvements etc., all should be included within right of the present utility model.

Claims (5)

  1. A kind of 1. numerically controlled lathe training platform, it is characterised in that including:Frame (11), lathe bed (12), spindle unit (13), tail Base member (14), the first rotating device (15), the second mobile device (16) and knife rest (17), the lathe bed (12) are arranged at described Frame (11), the lathe bed (12) have installation guide rail (121), and the spindle unit (13) is arranged at the lathe bed (12), and Positioned at the top of the frame (11), the tailstock part (14) is arranged at the lathe bed (12), and is located at the spindle unit (13) opposite side, second mobile device (16) are arranged at the lathe bed (12), and positioned at the spindle unit (13) Side, the knife rest (17) are arranged at second mobile device (16).
  2. 2. numerically controlled lathe training platform according to claim 1, it is characterised in that the spindle unit (13) includes main shaft Casing (131), rotary shaft (132), bearing (133), main shaft clip (134) and main shaft (135), the main spindle box body (131) set The lathe bed (12) is placed in, and the main spindle box is arranged at positioned at the side of the tailstock part (14), the rotary shaft (132) Body (131), two swivel bearings (133) are sheathed on the rotary shaft (132), and connect the main spindle box body respectively (131) both ends, the main shaft clip (134) are sheathed on the rotary shaft (132), and positioned at the main spindle box body (131) Side, one end of the main shaft (135) are arranged at the main shaft clip (134).
  3. 3. numerically controlled lathe training platform according to claim 1, it is characterised in that the tailstock part (14) includes tailstock Lathe bed (141), tailstock fixed mechanism (142), tailstock governor motion (143) and barrel of tail stock (144), the tailstock lathe bed (141) the installation guide rail (121) is arranged at, and positioned at the side of the spindle unit (13), the tailstock fixed mechanism (142) the tailstock lathe bed (141) is arranged at, the tailstock governor motion (143) is arranged at the tailstock fixed mechanism (142), the barrel of tail stock (144) is arranged at the tailstock fixed mechanism (142), and connects the tailstock governor motion (143)。
  4. 4. numerically controlled lathe training platform according to claim 1, it is characterised in that first rotating device (15) includes Z axis screw mandrel (151), the first driving element (152), the first shifting axle (153), the first moving member (154) and the first governor motion (155), the Z axis screw mandrel (151) is arranged at the lathe bed (12), and positioned at the side of the spindle unit (13), and described the One shifting axle (153) is arranged at the output end of first driving element (152), and first moving member (154) is sheathed on institute The first shifting axle (153) is stated, first moving member (154) connects second mobile device (16), and positioned at described first The side of moving member (154), first governor motion (155) are connected through a screw thread first shifting axle (153).
  5. 5. numerically controlled lathe training platform according to claim 4, it is characterised in that second mobile device (16) includes Saddle (161), the second moving member (162), the second governor motion (163) and rotary drive mechanism (164), the saddle (161) It is arranged at first moving member (154), saddle (161) the connection installation guide rail (121), second moving member (162) the installation guide rail (121) is arranged at, second governor motion (163) is arranged at the saddle (161), and connects Second moving member (162), the rotary drive mechanism (164) are arranged at second moving member (162), and the rotation is driven Motivation structure (164) connects the knife rest (17).
CN201720963207.8U 2017-08-03 2017-08-03 A kind of numerically controlled lathe training platform Expired - Fee Related CN207103859U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201720963207.8U CN207103859U (en) 2017-08-03 2017-08-03 A kind of numerically controlled lathe training platform

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201720963207.8U CN207103859U (en) 2017-08-03 2017-08-03 A kind of numerically controlled lathe training platform

Publications (1)

Publication Number Publication Date
CN207103859U true CN207103859U (en) 2018-03-16

Family

ID=61572652

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201720963207.8U Expired - Fee Related CN207103859U (en) 2017-08-03 2017-08-03 A kind of numerically controlled lathe training platform

Country Status (1)

Country Link
CN (1) CN207103859U (en)

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GR01 Patent grant
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20180316

Termination date: 20180803

CF01 Termination of patent right due to non-payment of annual fee