CN205414634U - Device of electrochemistry electrolytic machining electrode clamping and motion - Google Patents
Device of electrochemistry electrolytic machining electrode clamping and motion Download PDFInfo
- Publication number
- CN205414634U CN205414634U CN201620198274.0U CN201620198274U CN205414634U CN 205414634 U CN205414634 U CN 205414634U CN 201620198274 U CN201620198274 U CN 201620198274U CN 205414634 U CN205414634 U CN 205414634U
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- China
- Prior art keywords
- bearing housing
- belt bearing
- main belt
- electrode
- shaft coupling
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Abstract
The utility model discloses a device of electrochemistry electrolytic machining electrode clamping and motion, including lower seal wire axle guide silk mouth, down the hold -in range, down take the initiative tape spool bearing frame, first shaft coupling, in step link axle, bearing frame mount, rotary electrode electrolytic machining aircraft nose fixing base, second shaft coupling, upward take the initiative tape spool bearing frame, third shaft coupling, motor, motor mount, go up the hold -in range, go up seal wire axle guide silk mouth, go up driven tape spool bearing frame and lower driven tape spool bearing frame, each bearing frame passes through the bearing frame mount to be fixed on rotary electrode electrolytic machining aircraft nose fixing base, synchronous pulley installs at the epaxial face of hold -in range to connect through the hold -in range, the synchronous pulley axle passes through the coupling joint with linking the axle from top to bottom, rotary electrode's power comes from the motor, and the motor reaches the seal wire axle through coupling joint synchronous pulley axle and through the hold -in range, and rotary electrode couples together from top to bottom through seal wire axle guide silk mouth to the realization electrode is rotatory.
Description
Technical field
This utility model belongs to electrochemistry, Metal Cutting field, relates to a kind of model electrochemical Electrolyzed Processing electrode clamping and the device of motion.
Background technology
Current Electrolyzed Processing both domestic and external has certain limitation, mainly shows as machining accuracy and processing stability is the highest.The machining accuracy of Electrolyzed Processing and stability depend on precision and the control in processing gap of negative electrode.And the design of negative electrode, manufacturing and revise the most relatively difficult, the precision of negative electrode is difficult to ensure that.Additionally, the factor affecting interelectrode gap is a lot, and rule is difficult to grasp, and the control in processing gap is relatively difficult.In order to improve machining accuracy and processing stability, need to design the device of a kind of Novel electrolytic processing mode.
Summary of the invention
The purpose of this utility model is for the deficiencies in the prior art, it is provided that a kind of electrochemical electrolysis machined electrode clamping and the device of motion.
The purpose of this utility model is achieved through the following technical solutions: a kind of electrochemical electrolysis machined electrode clamping and the device of motion, fixes seat, the second shaft coupling, upper main belt bearing housing, the 3rd shaft coupling, motor, motor fixing frame, upper Timing Belt, upper guidewire shaft wire guiding nipple, upper driven belt bearing housing and lower driven belt bearing housing including lower guidewire shaft wire guiding nipple, lower Timing Belt, lower main belt bearing housing, the first shaft coupling, synchronization connecting shaft, bearing block fixed mount, rotation electrode Electrolyzed Processing head;Wherein, described bearing block fixed mount is one-body molded by the gripper shoe of upper and lower two horizontal plates and two horizontal plates of connection, cross section is C-shaped, bearing block fixed mount is fixed on rotation electrode Electrolyzed Processing head and fixes on seat, the top and the bottom of gripper shoe fixing upper main belt bearing housing, lower main belt bearing housing respectively, the end of upper and lower two parallel-plates fixing upper driven belt bearing housing, lower driven belt bearing housing respectively;The rotation electrode Electrolyzed Processing head that described motor is fixed on directly over upper main belt bearing housing by motor fixing frame is fixed on seat;Motor is connected by the 3rd shaft coupling with the power intake of upper main belt bearing housing;The synchronous pulley of upper main belt bearing housing power intake is connected by upper Timing Belt with the synchronous pulley of upper driven belt bearing housing power intake;The clutch end of upper driven belt bearing housing connects the upper end of electrode by upper guidewire shaft wire guiding nipple;The clutch end of upper main belt bearing housing is connected to synchronize the upper end of connecting shaft by the second shaft coupling, and the power intake of lower main belt bearing housing is connected to synchronize the lower end of connecting shaft by the first shaft coupling;The synchronous pulley of lower main belt bearing housing clutch end is connected by lower Timing Belt with the synchronous pulley of lower driven belt bearing housing power intake, and the clutch end of lower driven belt bearing housing connects the lower end of electrode by lower guidewire shaft wire guiding nipple.
Further, the clutch end of described upper main belt bearing housing is in the surface of lower main belt bearing housing power intake.
The beneficial effects of the utility model are: this utility model relates generally to the association area such as electrochemistry, Metal Cutting.Up to now, during at home and abroad correlational study is discussed, both precisions are combined that fully apply in Metal Cutting engineering practice or little.Further, rotation electrode in current research both domestic and external also in blank.Current electrolysis processing there is problems of machining accuracy and processing stability is the highest, and the machining accuracy of Electrolyzed Processing and stability depend on precision and the control in processing gap of negative electrode.And the design of negative electrode, manufacturing and revise the most relatively difficult, the precision of negative electrode is difficult to ensure that.In addition, the factor affecting interelectrode gap is a lot, and rule is difficult to grasp, the control in processing gap is relatively difficult, and rotation electrode Electrolyzed Processing can improve the deficiency of processing at present: first, electrode rotary can be conducive to the Uniform Flow of electrolyte, and the distribution influence suface processing quality of electrolyte;Secondly, rotation electrode Electrolyzed Processing can change the distribution of electric field, consumption of electrode can be made to reduce thus improve machining accuracy.
Accompanying drawing explanation
Fig. 1 is electrochemical electrolysis machined electrode clamping and the front view of telecontrol equipment;
Fig. 2 is electrochemical electrolysis machined electrode clamping and the left view of telecontrol equipment;
Fig. 3 is electrochemical electrolysis machined electrode clamping and the rearview of telecontrol equipment;
Fig. 4 is electrochemical electrolysis machined electrode clamping and the scheme of installation of telecontrol equipment;
Fig. 5 is the three-dimensional profile figure of electrochemical electrolysis machined electrode clamping and telecontrol equipment;
Fig. 6 is a kind of processing workpiece configurations figure of electrochemical electrolysis machined electrode clamping and telecontrol equipment;
Fig. 7 is the processing front view schematic diagram of electrochemical electrolysis machined electrode clamping and telecontrol equipment;
Fig. 8 is the processing top view schematic diagram of electrochemical electrolysis machined electrode clamping and telecontrol equipment;
In figure, lower guidewire shaft wire guiding nipple 1, lower Timing Belt 2, lower main belt bearing housing 3, first screw 4, first shaft coupling 5, synchronize connecting shaft 6, bearing block fixed mount 7, rotation electrode Electrolyzed Processing head fixes seat 8, second shaft coupling 9, second screw 10, 3rd screw 11, upper main belt bearing housing 12, 3rd shaft coupling 13, motor 14, motor fixing frame 15, upper Timing Belt 16, upper guidewire shaft wire guiding nipple 17, upper driven belt bearing housing 18, electrode 19, lower driven belt bearing housing 20, 4th screw 21, 5th screw 22, 6th screw 23, workpiece to be processed 24.
Detailed description of the invention
Below in conjunction with the drawings and specific embodiments, this utility model is described in further detail.
As shown in Fig. 15, this utility model a kind of electrochemical electrolysis machined electrode clamping and the device of motion, including lower guidewire shaft wire guiding nipple 1, lower Timing Belt 2, lower main belt bearing housing 3, first screw 4, first shaft coupling 5, synchronize connecting shaft 6, bearing block fixed mount 7, rotation electrode Electrolyzed Processing head fixes seat 8, second shaft coupling 9, second screw 10, 3rd screw 11, upper main belt bearing housing 12, 3rd shaft coupling 13, motor 14, motor fixing frame 15, upper Timing Belt 16, upper guidewire shaft wire guiding nipple 17, upper driven belt bearing housing 18, lower driven belt bearing housing 20, 4th screw 21, 5th screw 22 and the 6th screw 23;Wherein, described bearing block fixed mount 7 is one-body molded by the gripper shoe of upper and lower two horizontal plates and two horizontal plates of connection, and cross section is C-shaped;Described bearing block fixed mount 7 is fixed on rotation electrode Electrolyzed Processing head by the 3rd screw 11 and fixes on seat 8, the top and the bottom of gripper shoe are fixed upper main belt bearing housing 12 by the second screw 10, are fixed lower main belt bearing housing 3 by the first screw 4 respectively, and the end of upper and lower two parallel-plates is fixed upper driven belt bearing housing 18 by the 5th screw 22, fixed lower driven belt bearing housing 20 by the 4th screw 21 respectively;The power resources that electrode 19 rotates are motors 14, the rotation electrode Electrolyzed Processing head that described motor 14 is fixed on directly over main belt bearing housing 12 by motor fixing frame 15 is fixed on seat 8, and motor 14 is connected by the 3rd shaft coupling 13 with the power intake of upper main belt bearing housing 12;It is divided into two: 1. one is on the synchronous pulley of the power intake that upper driven belt bearing housing 18 is passed in synchronous pulley above the power intake of upper main belt bearing housing 12 top along bearing block fixed mount 7 by upper Timing Belt 16 after the power intake that the power of motor 14 passes to main belt bearing housing 12, being then passed to the clutch end of driven belt bearing housing 18, the clutch end of upper driven belt bearing housing 18 connects the upper end of electrode 19 by upper guidewire shaft wire guiding nipple 17;2. another passes to upper main belt bearing housing 12 clutch end from the power intake of upper main belt bearing housing 12, the clutch end of upper main belt bearing housing 12 is in the surface of lower main belt bearing housing 3 power intake, wherein, the clutch end of upper main belt bearing housing 12 is connected to synchronize the upper end of connecting shaft 6 by the second shaft coupling 9, and the power intake of lower main belt bearing housing 3 is connected to synchronize the lower end of connecting shaft 6 by the first shaft coupling 5;The synchronous pulley of the clutch end of lower main belt bearing housing 3 is by lower Timing Belt 2 along the following power intake that power passes to lower driven belt bearing housing 20 of bearing block fixed mount 7, and the clutch end of lower driven belt bearing housing 20 connects the lower end of electrode 19 by lower guidewire shaft wire guiding nipple 1.Owing to transmission is the transmission by Timing Belt, so the angular velocity of guidewire shaft wire guiding nipple is consistent up and down, thus realize clamping and the rotation of electrode.
Shown in Fig. 6, this workpiece is a kind of workpiece that can process.Fig. 7, shown in 8, electrode 19 spins, workpiece to be processed 24 feeding, and workpiece to be processed 24 can do the motion of arbitrary trajectory in xoy plane, thus realizes various processing request.
Claims (2)
1. an electrochemical electrolysis machined electrode clamping and the device of motion, it is characterized in that, including lower guidewire shaft wire guiding nipple (1), lower Timing Belt (2), lower main belt bearing housing (3), first shaft coupling (5), synchronize connecting shaft (6), bearing block fixed mount (7), rotation electrode Electrolyzed Processing head fixes seat (8), second shaft coupling (9), upper main belt bearing housing (12), 3rd shaft coupling (13), motor (14), motor fixing frame (15), upper Timing Belt (16), upper guidewire shaft wire guiding nipple (17), upper driven belt bearing housing (18) and lower driven belt bearing housing (20);Wherein, described bearing block fixed mount (7) is one-body molded by the gripper shoe of upper and lower two horizontal plates and two horizontal plates of connection, it is fixed on rotation electrode Electrolyzed Processing head and fixes on seat (8), the top and the bottom of gripper shoe fixing upper main belt bearing housing (12), lower main belt bearing housing (3) respectively, the end of upper and lower two parallel-plates fixing upper driven belt bearing housing (18), lower driven belt bearing housing (20) respectively;The rotation electrode Electrolyzed Processing head that described motor (14) is fixed on directly over main belt bearing housing (12) by motor fixing frame (15) is fixed on seat (8);Motor (14) is connected by the 3rd shaft coupling (13) with the power intake of upper main belt bearing housing (12);The synchronous pulley of upper main belt bearing housing (12) power intake is connected by upper Timing Belt (16) with the synchronous pulley of upper driven belt bearing housing (18) power intake;The clutch end of upper driven belt bearing housing (18) connects the upper end of electrode (19) by upper guidewire shaft wire guiding nipple (17);The clutch end of upper main belt bearing housing (12) is connected to synchronize the upper end of connecting shaft (6) by the second shaft coupling (9), and the power intake of lower main belt bearing housing (3) is connected to synchronize the lower end of connecting shaft (6) by the first shaft coupling (5);The synchronous pulley of lower main belt bearing housing (3) clutch end is connected by lower Timing Belt (2) with the synchronous pulley of lower driven belt bearing housing (20) power intake, and the clutch end of lower driven belt bearing housing (20) connects the lower end of electrode (19) by lower guidewire shaft wire guiding nipple (1).
A kind of electrochemical electrolysis machined electrode clamping and the device of motion, it is characterized in that, the clutch end of described upper main belt bearing housing (12) is in the surface of lower main belt bearing housing (3) power intake.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620198274.0U CN205414634U (en) | 2016-03-15 | 2016-03-15 | Device of electrochemistry electrolytic machining electrode clamping and motion |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620198274.0U CN205414634U (en) | 2016-03-15 | 2016-03-15 | Device of electrochemistry electrolytic machining electrode clamping and motion |
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CN205414634U true CN205414634U (en) | 2016-08-03 |
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CN201620198274.0U Expired - Fee Related CN205414634U (en) | 2016-03-15 | 2016-03-15 | Device of electrochemistry electrolytic machining electrode clamping and motion |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105598538A (en) * | 2016-03-15 | 2016-05-25 | 浙江理工大学 | Electrochemical electrolytic machining electrode clamping and moving device |
CN110102842A (en) * | 2019-06-11 | 2019-08-09 | 南京航空航天大学 | A kind of spark cutting desktop lathe based on minor diameter stick electrode |
-
2016
- 2016-03-15 CN CN201620198274.0U patent/CN205414634U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105598538A (en) * | 2016-03-15 | 2016-05-25 | 浙江理工大学 | Electrochemical electrolytic machining electrode clamping and moving device |
CN110102842A (en) * | 2019-06-11 | 2019-08-09 | 南京航空航天大学 | A kind of spark cutting desktop lathe based on minor diameter stick electrode |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160803 Termination date: 20170315 |