CN116766136A

CN116766136A - Mechanical part design table

Info

Publication number: CN116766136A
Application number: CN202311055211.0A
Authority: CN
Inventors: 张芳; 武昭妤; 钟鼎; 张义; 姚希茜; 刘欣卓; 赵慧; 周任静; 覃朗; 陈俊蓉; 李文杰; 胡靖奇
Original assignee: Chengdu Vocational and Technical College of Industry
Current assignee: Chengdu Vocational and Technical College of Industry
Priority date: 2023-08-22
Filing date: 2023-08-22
Publication date: 2023-09-19

Abstract

The invention relates to the technical field of mechanical part design, in particular to a mechanical part design table; including design table body, a plurality of parts processing equipment and part conveying unit, part conveying unit is including moving the guide rail, the promotion subassembly, the mount pad, parts processing platform and clamping device, utilize clamping device to treat the part centre gripping behind parts processing platform, start the promotion subassembly, because the output of promotion subassembly is connected with the mount pad, thereby drive parts processing platform translation on moving the guide rail, when infrared receiver on parts processing equipment receives the infrared transmitter of mount pad department transmitting, the promotion subassembly stop operation, parts processing platform stops in current position department, thereby utilize current parts processing platform to process the part, adopt above-mentioned structure, in parts conveying process, utilize a plurality of parts processing equipment, accomplish the design to the part, the operation is more convenient.

Description

Mechanical part design table

Technical Field

The invention relates to the technical field of mechanical part design, in particular to a mechanical part design table.

Background

The design of the mechanical part is to specially perform the design operation process of the mechanical part, however, in the existing design process of the mechanical part, more instruments are needed to operate the part, so that an entirely new part is manufactured and designed, however, the existing instruments and equipment are scattered, the operation is very inconvenient, and the design process of the mechanical part is affected.

In order to solve the above problems, the prior published patent (CN 107962532A) discloses a special design table for mechanical part design, which comprises a special table body for mechanical design, wherein the special table body for mechanical design comprises a table body, the top of the table body is fixedly connected with a cutting assembly, the right side of the cutting assembly is fixedly connected with a movable connecting rod, and the bottom of the movable connecting rod is movably connected with a telescopic connecting rod. The invention is convenient for cutting mechanical parts, is convenient for users to carry out design operation of parts, carries out polishing operation of parts, is convenient for users to carry out polishing operation of parts design, and carries out clamping operation of mechanical parts, thereby being convenient for carrying out design of parts and processing operation of parts, being convenient for controlling cutting equipment to move, being convenient for carrying out various cutting operation of mechanical parts, being convenient for carrying out design of parts, collecting dust generated in the process of cutting and polishing parts, preventing dust from entering air, polluting air environment and playing the effect of protecting air environment.

However, in the use process of the existing special design table for the mechanical part design, workers are required to control each operation device to move to the clamping position of the mechanical part, the mechanical part is processed, and the operation is troublesome.

Disclosure of Invention

The invention aims to provide a mechanical part design table, which solves the problems that in the prior art, a special design table for mechanical part design needs staff to control each operation device to move to a mechanical part clamping position to process and process mechanical parts and is troublesome to operate.

In order to achieve the above object, the present invention provides a mechanical part design table, comprising a design table body, a plurality of part processing apparatuses, and a part conveying unit, wherein the upper surface of the design table body is provided with a plurality of the part processing apparatuses;

the part conveying unit comprises a movable guide rail, a pushing assembly, a mounting seat, a part machining platform and a clamping device, wherein the movable guide rail is arranged at the central axis of the design table body, a plurality of part machining devices are arranged on two sides of the movable guide rail in a staggered mode, the mounting seat is arranged on the movable guide rail in a sliding mode, the pushing assembly is arranged in the movable guide rail, the output end of the pushing assembly is connected with the mounting seat, the upper surface of the mounting seat is provided with the part machining platform, the upper surface of the part machining platform is provided with the clamping device, the clamping device is used for clamping a part to be machined, infrared emitters are arranged on two sides of the mounting seat, and each part machining device is provided with an infrared receiver at the bottom and corresponding to each infrared emitter.

The clamping device comprises a placing table, two mounting plates, two rotating rings, two rotating assemblies, two threaded rods, two clamping plates and two limiting columns, wherein the upper surface of a part machining platform is provided with the placing table, two sides of the placing table are respectively provided with the mounting plates, each mounting plate is respectively connected with the rotating rings in a rotating mode, the threaded rods are connected with the internal threads of the rotating rings in a rotating mode, one end, close to the center of the placing table, of each threaded rod is connected onto the corresponding clamping plate in a rotating mode through a bearing, one face, close to the corresponding mounting plate, of each clamping plate is provided with the corresponding limiting column, the limiting columns penetrate through the corresponding mounting plates, the rotating assemblies are arranged on the mounting plates, transmission gears are arranged outside the rotating rings, and the output ends of the rotating assemblies are mechanically driven by the transmission gears.

Each rotating assembly comprises a driving motor, an output shaft and an output gear, wherein the driving motor is detachably connected with the mounting plate, the output end of the driving motor is provided with the output shaft, one end, far away from the driving motor, of the output shaft is provided with the output gear, and the output gear is meshed with the transmission gear.

The pushing assembly comprises a servo motor, a screw rod and a screw rod sleeve, wherein the servo motor is installed inside the movable guide rail, the screw rod is arranged at the output end of the servo motor, the screw rod sleeve is arranged on the screw rod, and the screw rod sleeve is detachably connected with the installation seat.

The mechanical part design table further comprises a rotating part, the part machining platform comprises a mounting platform and a rotating platform, the mounting platform is mounted on the upper surface of the mounting seat, the end portion of the mounting platform is rotationally connected with the rotating platform, the upper surface of the rotating platform is provided with the clamping device, the rotating part is arranged in the mounting platform, and the output end of the rotating part is mechanically driven with the rotating platform.

The rotary component comprises a motor, a driving shaft and a driving gear, a driven tooth part is arranged at the bottom of the rotary component, the motor is installed inside the installation platform, the driving shaft is arranged at the output end of the motor, the driving gear is arranged at one end, far away from the motor, of the driving shaft, and the driving gear is meshed with the driven tooth part.

According to the mechanical part design table, after the part to be machined is clamped on the part machining platform by the clamping device, the pushing assembly is started, and as the output end of the pushing assembly is connected with the mounting seat, the upper surface of the mounting seat is provided with the part machining platform, so that the part machining platform is driven to translate on the moving guide rail, when the infrared receiver on the part machining equipment receives infrared rays emitted by the infrared emitter at the mounting seat, the pushing assembly stops running, and the part machining platform stops at the current position, so that the part is machined by the part machining platform at present.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a mechanical parts design table according to a first embodiment of the present invention.

Fig. 2 is a schematic structural view of a part conveying unit in the first embodiment of the present invention.

Fig. 3 is a schematic structural view of a part processing platform according to a first embodiment of the present invention.

Fig. 4 is an enlarged view of a partial structure at a of fig. 3 provided by the present invention.

Fig. 5 is a schematic structural view of a part conveying unit in a second embodiment of the present invention.

Fig. 6 is a schematic structural view of a part processing platform according to a third embodiment of the present invention.

The device comprises a 101-design table body, 102-part machining equipment, 103-moving guide rails, 104-pushing components, 105-mounting seats, 106-part machining platforms, 107-clamping devices, 108-placing platforms, 109-mounting plates, 110-rotating rings, 111-rotating components, 112-threaded rods, 113-clamping plates, 114-limit posts, 115-driving motors, 116-output shafts, 117-output gears, 118-servo motors, 119-lead screws, 120-lead screw sleeves, 121-infrared emitters, 122-infrared receivers, 123-bearings, 124-transmission gears, 201-rotating parts, 202-motors, 203-driving shafts, 204-driving gears, 205-mounting platforms, 206-rotating platforms, 207-driven teeth, 301-supporting pieces, 302-base plates, 303-supporting plates and 304-supporting rings.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

First embodiment:

referring to fig. 1 to 4, fig. 1 is a schematic structural view of a mechanical part design table according to a first embodiment, fig. 2 is a schematic structural view of a part conveying unit according to the first embodiment, fig. 3 is a schematic structural view of a part processing platform according to the first embodiment, and fig. 4 is a partial enlarged structural view at a of fig. 3.

The invention provides a mechanical part design table, which comprises a design table body 101, a plurality of part machining equipment 102 and a part conveying unit, wherein the part conveying unit comprises a movable guide rail 103, a pushing assembly 104, an installation seat 105, a part machining platform 106 and a clamping device 107, the clamping device 107 comprises a placing table 108, two installation plates 109, two rotating rings 110, two rotating assemblies 111, two threaded rods 112, two clamping plates 113 and two limiting columns 114, each rotating assembly 111 comprises a driving motor 115, an output shaft 116 and an output gear 117, and the pushing assembly 104 comprises a servo motor 118, a screw 119 and a screw sleeve 120.

For the present embodiment, the upper surface of the design table body 101 is provided with a plurality of part machining devices 102, the moving guide rail 103 is arranged at the central axis of the design table body 101, a plurality of part machining devices 102 are arranged at two sides of the moving guide rail 103 in a staggered manner, the moving guide rail 103 is provided with the mounting base 105 in a sliding manner, the inside of the moving guide rail 103 is provided with the pushing component 104, the output end of the pushing component 104 is connected with the mounting base 105, the upper surface of the mounting base 105 is provided with the part machining platform 106, the upper surface of the part machining platform 106 is provided with the clamping device 107 for clamping a part to be machined, two sides of the mounting base 105 are provided with infrared transmitters 121, the bottom of each part machining device 102 is provided with an infrared receiver 122, the infrared receiver 122 corresponds to the infrared transmitters 121, after the part to be machined is clamped on the part machining platform 106 by the clamping device 107, after the pushing component 104 is started, the infrared receiver 104 is connected with the mounting base 105, the infrared receiver 105 is driven by the infrared receiver 122, and the infrared transmitter is stopped by the infrared receiver 122, when the infrared receiver 105 is connected with the mounting base 102, the infrared transmitter 102, the infrared receiver is stopped by the infrared receiver 122, and the infrared transmitter 102 is stopped at the position of the front part machining device is stopped, and the part machining device is stopped by the infrared receiver 102, therefore, the parts are processed by the part processing platform 106, and the parts are designed by the parts processing equipment 102 in the part conveying process, so that the operation is more convenient.

The upper surface of the part machining platform 106 is provided with the placing table 108, two sides of the placing table 108 are respectively provided with the mounting plates 109, each mounting plate 109 is respectively connected with the rotating ring 110 in a rotating way, the threaded rod 112 is connected with the inner threads of the rotating ring 110 in a rotating way, one end, close to the center of the placing table 108, of the threaded rod 112 is rotatably connected to the clamping plate 113 through a bearing 123, one surface, close to the corresponding mounting plate 109, of the clamping plate 113 is provided with a limit post 114, the limit post 114 penetrates through the corresponding mounting plate 109, the mounting plate 109 is provided with a rotating assembly 111, the outer part of the rotating ring 110 is provided with a transmission gear 124, the output end of the rotating assembly 111 is mechanically driven by the transmission gear 124, after a machined part is placed on the placing table 108, the rotating assembly 111 is started, the rotating ring 110 is driven by the transmission gear 124 to rotate on the mounting plate 109, the threaded rod 112 is screwed into the inner part of the rotating ring 110, the limiting post 113 is driven by the transmission gear 124, and the limiting post 113 is rotated to the clamping plate 113, and the two parts are clamped by the limiting post 113 in the direction to be machined.

Secondly, the driving motor 115 is detachably connected with the mounting plate 109, an output end of the driving motor 115 is provided with an output shaft 116, one end, far away from the driving motor 115, of the output shaft 116 is provided with an output gear 117, the output gear 117 is meshed with the transmission gear 124, the driving motor 115 is started, the output gear 117 is driven to rotate by the output shaft 116, and the output gear 117 is meshed with the transmission gear 124, so that the rotating ring 110 is driven to rotate on the mounting plate 109.

Meanwhile, the servo motor 118 is installed inside the movable guide rail 103, the screw rod 119 is arranged at the output end of the servo motor 118, the screw rod 119 is provided with the screw rod sleeve 120, the screw rod sleeve 120 is detachably connected with the mounting seat 105, the servo motor 118 is started to drive the screw rod 119 to rotate, and the mounting seat 105 slides on the movable guide rail 103 due to the fact that the screw rod sleeve 120 is detachably connected with the mounting seat 105.

When the mechanical part design table of this embodiment is used, after the part to be machined is clamped on the part machining platform 106 by using the clamping device 107, the servo motor 118 is started to drive the screw rod 119 to rotate, and as the screw rod sleeve 120 is detachably connected with the mounting seat 105, the mounting seat 105 slides on the moving guide rail 103, and further drives the part machining platform 106 to translate on the moving guide rail 103, when the infrared receiver 122 on the part machining device 102 receives the infrared rays emitted by the infrared emitter 121 at the mounting seat 105, the pushing component 104 stops running, and the part machining platform 106 stops at the current position, so that the part is machined by using the current part machining platform 106.

Second embodiment:

on the basis of the first embodiment, please refer to fig. 5, fig. 5 is a schematic structural diagram of a part conveying unit in the second embodiment.

The invention provides a mechanical parts design table further comprising a rotating member 201, said rotating member 201 comprising a motor 202, a drive shaft 203 and a drive gear 204.

For this embodiment, the part machining platform 106 includes a mounting platform 205 and a rotating platform 206, the mounting platform 205 is mounted on the upper surface of the mounting base 105, the end portion of the mounting platform 205 is rotatably connected with the rotating platform 206, the upper surface of the rotating platform 206 is provided with the clamping device 107, the inside of the mounting platform 205 is provided with the rotating component 201, the output end of the rotating component 201 is mechanically driven with the rotating platform 206, the rotating component 201 is started, and the rotating platform 206 is driven to rotate at the end portion of the mounting platform 205, so that the direction of the part to be machined is adjusted, and the part machining device 102 can machine different positions of the part to be machined.

Wherein, the bottom of rotating member 201 is provided with driven tooth portion 207, motor 202 installs the inside of mounting platform 205, the output of motor 202 is provided with drive shaft 203, drive shaft 203 keeps away from the one end of motor 202 is provided with drive gear 204, drive gear 204 with driven tooth portion 207 meshes, starts motor 202, through drive shaft 203 drives drive gear 204 rotates, because drive gear 204 with driven tooth portion 207 meshes, thereby drives rotary platform 206 is in the tip rotation of mounting platform 205.

When the mechanical part design table of the present embodiment is used, the motor 202 is started, the driving shaft 203 drives the driving gear 204 to rotate, and the driving gear 204 is meshed with the driven gear 207, so that the rotating platform 206 is driven to rotate at the end of the mounting platform 205, and the direction of the part to be machined is adjusted, so that the part machining apparatus 102 can machine different positions of the part to be machined.

Third embodiment:

referring to fig. 6 on the basis of the first embodiment, fig. 6 is a schematic structural diagram of a part processing platform in a third embodiment.

The invention provides a machine part design table further comprising a support 301, said support 301 comprising a base plate 302, a support plate 303 and a support ring 304.

For this embodiment, the one end that the lead screw 119 kept away from servo motor 118 is provided with support piece 301, support piece 301's one end with the connection is dismantled to the removal guide rail 103, support piece 301's the other end cover is established the outside of lead screw 119, through support piece 301's setting, to carry out auxiliary stay to lead screw 119 for lead screw 119 is rotating the in-process, and the structure is more stable.

One end of the supporting plate 303 is fixedly connected with the bottom plate 302, the other end of the supporting plate 303 is provided with a supporting ring 304, the supporting ring 304 is sleeved outside the screw rod 119, the bottom plate 302 is detachably connected with the moving guide rail 103, the supporting ring 304 is sleeved outside the screw rod 119, and the bottom plate 302 is fixed inside the moving guide rail 103 by using screws, so that the installation of the supporting piece 301 is completed.

When the mechanical part design table of the embodiment is used, after the support ring 304 is sleeved outside the screw rod 119, the bottom plate 302 is fixed inside the movable guide rail 103 by using screws, so that the installation of the supporting piece 301 is completed, and the screw rod 119 is supported in an auxiliary manner by the arrangement of the supporting piece 301, so that the screw rod 119 is more stable in structure in the rotation process.

The above disclosure is only a preferred embodiment of the present invention, and it should be understood that the scope of the invention is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present invention.

Claims

1. A mechanical part design table, which comprises a design table body and a plurality of part processing devices, wherein the upper surface of the design table body is provided with the plurality of the part processing devices,

the device also comprises a part conveying unit;

2. The machine element design table according to claim 1, wherein,

clamping device is including placing platform, two mounting panels, two rotation rings, two rotation components, two threaded rods, two grip blocks and two spacing posts, the upper surface of part processing platform is provided with place the platform, the both sides of placing the platform all are provided with the mounting panel, every all rotate on the mounting panel and be connected with the rotation rings, the internal thread connection of rotation rings has the threaded rod, the threaded rod is close to place the one end of the center department of platform and rotate through the bearing and connect on the grip block, the grip block is close to the one side of corresponding the mounting panel is provided with spacing post, spacing post runs through corresponding the mounting panel, be provided with on the mounting panel rotation components, the outside of rotation rings is provided with drive gear, rotation components's output with drive gear mechanical transmission.

3. The machine element design table according to claim 2, wherein,

every rotating assembly all includes driving motor, output shaft and output gear, driving motor with the mounting panel dismantles to be connected, driving motor's output is provided with the output shaft, the output shaft is kept away from driving motor's one end is provided with output gear, output gear with drive gear meshes mutually.

4. The machine element design table according to claim 1, wherein,

5. The machine element design table according to claim 1, wherein,

the mechanical part design table further comprises a rotating part, the part machining platform comprises a mounting platform and a rotating platform, the mounting platform is mounted on the upper surface of the mounting seat, the end portion of the mounting platform is rotationally connected with the rotating platform, the upper surface of the rotating platform is provided with the clamping device, the rotating part is arranged inside the mounting platform, and the output end of the rotating part is mechanically driven with the rotating platform.

6. The machine element design table according to claim 5, wherein,

the rotary part comprises a motor, a driving shaft and a driving gear, a driven tooth part is arranged at the bottom of the rotary part, the motor is installed in the installation platform, the driving shaft is arranged at the output end of the motor, the driving gear is arranged at one end, far away from the motor, of the driving shaft, and the driving gear is meshed with the driven tooth part.