CN202914661U - Cam indexing unit with shaft sleeve - Google Patents
Cam indexing unit with shaft sleeve Download PDFInfo
- Publication number
- CN202914661U CN202914661U CN201220519945.0U CN201220519945U CN202914661U CN 202914661 U CN202914661 U CN 202914661U CN 201220519945 U CN201220519945 U CN 201220519945U CN 202914661 U CN202914661 U CN 202914661U
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- China
- Prior art keywords
- bearing
- shaft
- output shaft
- cam
- force
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Abstract
The utility model provides a cam indexing unit with a shaft sleeve. The cam indexing unit is characterized by being composed of a main body, a cam, a first oil ring, a second oil ring, a first oil seal, an input shaft, an adjusting screw, an eccentric bearing seat, a first bearing, a first locking nut, a second bearing, an inner channel cam, a third bearing, an input shaft gasket, a rocking arm axis, a safety protective cover, a fourth bearing, a flange, a locating pin, a conical ring key, an output shaft, a fifth bearing, a pressing ring, an output rotary table, a second locking nut, a gasket, a third oil ring, an output shaft oil seal cover, a second oil seal, a pressing plate gasket, an output bearing seat, a sixth bearing, an output rotary tower, a pulling geneva wheel, a rocking arm, a rocking arm fixing base and the like.
Description
[technical field]
The utility model relates to a kind of slicer technology, especially a kind of band shaft room slicer of having a rest.
[background technique]
Slicer is the mechanism that realizes intermittent movement, have that indexing accuracy height, smooth running, transmitting torque are large, self-locking, compact structure during the location, the distinguishing feature such as volume is little, noise is low, high speed performance is good, the life-span is long, be the ideal product of the traditional mechanisms such as instead of grooves wheel mechanism, ratchet mechanism, intermittent gearing mechanism, pneumatic control mechanism.This mechanism is widely used in pharmaceutical machine, press machine automatic feed mechanism, food packing machine, glass machinery, ceramic machinery, tobacco machine, filling machine, printing machinery, electric mechanical, automatic Tool Changer for Machine Center etc. and need to be converted into continuous operation on the various automated machines of stepwise operation.Its mechanical structure: one by motor-driven input shaft, and cam is secondary, output shaft or flange plate.The rotating disk that is used for installation workpiece and positioning fixture even load just is installed in output shaft.Realizing today that automation advances that steadily indexing separator is just played a great role in wide field.
[model utility content]
In order to solve the problems of the prior art, the utility model provides a kind of band shaft room slicer of having a rest.
A kind of band shaft room provided by the utility model slicer of having a rest is characterized in that: by main body, cam, the first oil ring, the second oil ring, the first oil sealing, inputting shaft, adjust screw, eccentric bearing block, clutch shaft bearing, the first block nut, the second bearing, the septal fossula cam, the 3rd bearing, inputting shaft packing ring; rocking arm axle center; high-safety protecting cover; the 4th bearing; flange disk; locating stud; taper ring key; force-output shaft; the 5th bearing; urgent ring; the rotary disk of exerting oneself; the second block nut; packing ring; the 3rd oil ring; force-output shaft oil seal cover; the second oil sealing; pressing plate packing ring; force-output shaft bearing; the 6th bearing; the capstan head of exerting oneself; drawing sheave; rocking arm; the compositions such as rocking arm fixed base;
Described main body is described with the have a rest housing parts of slicer of shaft room;
Described cam is the driving cam that is fixedly connected with described inputting shaft;
Described the first oil ring is fixed on the inwall of described eccentric bearing block;
Described the second oil ring is fixed on the outer wall of described eccentric bearing block;
Described adjustment screw is fixed on the described eccentric bearing block, and described clutch shaft bearing is suppressed the location;
Described block nut is fixedly connected with the slip position of the profile of described cam, and is fixedly installed in described pitman arm shaft in the heart;
Described the second bearing is located on the described rocking arm;
Described septal fossula cam is fixedly mounted on the described rocking arm, and controls described rocking arm by the connection of described the 3rd bearing and move;
Described inputting shaft packing ring is fixed at the right side of described inputting shaft, and is fixed with described rocking arm and is connected;
Described high-safety protecting cover is described with the have a rest axle sleeve safety cover of slicer of shaft room, is fixedly mounted on the described rotary disk of exerting oneself;
Described the 4th bearing is connected described locating stud with the described rotary disk of exerting oneself, make its described locating stud carry out straight line motion at the described rotary disk of exerting oneself;
Described taper ring key is fixed at the upper end of described force-output shaft, and is located at the joint, the top of described force-output shaft and the described rotary disk of exerting oneself;
Described the 5th bearing is located on the described force-output shaft, and described force-output shaft is connected with the described rotary disk of exerting oneself;
Described the second block nut and described packing ring are fixed on the described force-output shaft tower, and are located at the upside of described the 6th bearing, are used for described the 6th bearing is fixed the location;
Described the 3rd axle collar is fixed on the inwall of described force-output shaft bearing;
Described force-output shaft bearing is connected with described force-output shaft tower by described the 6th bearing;
Described force-output shaft also be provided with bottom described drawing sheave, be connected with described rocking arm by described drawing sheave, by the swing of described rocking arm, control the stretch position of described force-output shaft;
The other end of described rocking arm also is provided with described rocking arm fixed base, is fixed by the end of described rocking arm fixed base with described rocking arm;
As further improvement of the utility model, a kind of band shaft room provided by the utility model slicer of having a rest, it is characterized in that: described inputting shaft arranges with described force-output shaft is vertical;
As further improvement of the utility model, a kind of band shaft room provided by the utility model slicer of having a rest, it is characterized in that: the described force-output shaft tower on the described force-output shaft and the match profiles of the described cam on the described inputting shaft are closed, and carry out intermittent rotary to control described force-output shaft by the contour shape of described cam;
As further improvement of the utility model, a kind of band shaft room provided by the utility model slicer of having a rest, it is characterized in that: described locating stud and described the 4th bearing have been symmetrical arranged respectively two take the shaft axis of described force-output shaft as the basis;
The beneficial effects of the utility model are: a kind of indexing separator that the utility model provides, this machine has the heavy load characteristic, can bear larger vertical diameter to, perhaps axial pressure, its output shaft is that the face formula designs, and its output shaft is the design of face formula, and stationary plane is roomy, it is solid steady that planeness and steadiness are had more, and the rotary type disk that can be applicable to larger load drives occasion.
[description of drawings]
Fig. 1 is plan view of the present utility model.
Fig. 2 is right elevation of the present utility model.
[implementation formula]
For to provided by the utility model be a kind of band shaft room slicer of having a rest, this technology is explained clearlyer, is specially described in detail with accompanying drawing.
In conjunction with Fig. 1 and shown in Figure 2, provided by the utility model is a kind of band shaft room slicer of having a rest, by main body 001, cam 002, the first oil ring 003, the second oil ring 004, the first oil sealing 005, inputting shaft 006, adjust screw 007, eccentric bearing block 008, clutch shaft bearing 009, the first block nut 010, the second bearing 011, septal fossula cam 012, the 3rd bearing 013, inputting shaft packing ring 014; rocking arm axle center 015; high-safety protecting cover 016; the 4th bearing 017; flange disk 018; locating stud 019; taper ring key 020; force-output shaft 021; the 5th bearing 022; urgent ring 023; rotary disk 024 of exerting oneself; the second block nut 025; packing ring 026; the 3rd oil ring 027; force-output shaft oil seal cover 028; the second oil sealing 029; pressing plate packing ring 030; force-output shaft bearing 031; the 6th bearing 032; capstan head 033 of exerting oneself; drawing sheave 034; rocking arm 035; rocking arm fixed base 036 composition such as grade;
Described main body 001 for described with the have a rest shell of slicer of shaft room; Described cam 002 is fixedly mounted on the described inputting shaft 006, and carries out the radial location of the relatively described inputting shaft 006 of described cam 002 by two round keys (not indicating); Described the first oil ring 003 is located at respectively on the inwall and outer wall of described eccentric bearing block 008 with described the second oil ring 004; Described the first oil sealing 005 is fixed at the joint of described main body 001 and described inputting shaft 006 high order end; Described inputting shaft 006 is fixed at the X-axis of described main body 001 by described eccentric bearing block 008 and parallels; Described clutch shaft bearing 009 is fixed in the described eccentric bearing block 008, and its described eccentric bearing block 008 is fixedly connected with described inputting shaft 006 by described clutch shaft bearing 009; Described the first block nut 010 is fixed on the described rocking arm axle center 015, and is connected with described cam 002 by the linear bearing (not indicating) of being located on the described rocking arm axle center 015; Described rocking arm axle center 015 is fixedly mounted on the described rocking arm fixed base 036, and also be provided with described rocking arm 035 on the described rocking arm fixed base 036, be connected with described drawing sheave 034 by described rocking arm 035, it is connected with described force-output shaft 021, carries out axial runout to control described force-output shaft 024;
Further, also be provided with described the second bearing on the described rocking arm 035; The right side of described rocking arm 035 also is provided with described septal fossula cam 012, cooperates with described rocking arm 035 by the 3rd set on the described septal fossula cam 012 bearing 013; Described rocking arm 035 is connected with described inputting shaft 006 stationary positioned by described inputting shaft packing ring 014;
The top of described force-output shaft 021 is provided with the described taper ring key 020 that is fixedly connected with the described rotary disk 024 of exerting oneself, so that described force-output shaft 021 is fixed connection;
Further, the axial runout of described force-output shaft 021 also is provided with for it carries out directed described locating stud 019 and described the 4th bearing 017, by described locating stud 019 and cooperating of described the 4th bearing 017 carrying out orientation;
Further, described locating stud 019 is respectively equipped with two with described the 4th bearing 017, and symmetrical with the axle center of described force-output shaft 021 respectively;
Described urgent ring 023 is fixed on the described force-output shaft tower 033, and its described force-output shaft tower 033 is fixedly connected with described force-output shaft 021; Also be provided with described the 6th bearing 032 on the described force-output shaft tower 033, be fixedly connected with described force-output shaft bearing 031 by described the 6th bearing 032, be fixedly connected with described main body 001 by described force-output shaft bearing 031 again.
A kind of band shaft room provided by the utility model slicer of having a rest, its working principle is: by driving the motion of motivational drive inputting shaft, be located at cutting apart on the cam on the inputting shaft with synchronous drive, and by cutting apart the routing motion of cam and force-output shaft tower, make it reach the force-output shaft tower and carry out intermittent movement, the again axial driving that described force-output shaft is carried out by rocking arm is to reach the effect that can axially drive described force-output shaft.
Above content is in conjunction with concrete preferred implementation further detailed description of the utility model, can not assert that implementation of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, can also make some simple deduction or replace, all should be considered as belonging to protection domain of the present utility model.
Claims (4)
1. the band shaft room slicer of having a rest is characterized in that: by main body, cam, the first oil ring, the second oil ring, the first oil sealing, inputting shaft, adjust screw, eccentric bearing block, clutch shaft bearing, the first block nut, the second bearing, the septal fossula cam, the 3rd bearing, inputting shaft packing ring; rocking arm axle center; high-safety protecting cover; the 4th bearing; flange disk; locating stud; taper ring key; force-output shaft; the 5th bearing; urgent ring; the rotary disk of exerting oneself; the second block nut; packing ring; the 3rd oil ring; force-output shaft oil seal cover; the second oil sealing; pressing plate packing ring; force-output shaft bearing; the 6th bearing; the capstan head of exerting oneself; drawing sheave; rocking arm; the rocking arm fixed base forms; Described main body is described with the have a rest housing parts of slicer of shaft room; Described cam is the driving cam that is fixedly connected with described inputting shaft.
2. the described band shaft room slicer of having a rest according to claim 1, it is characterized in that: described inputting shaft arranges with described force-output shaft is vertical.
3. the band shaft room according to claim 1 slicer of having a rest, it is characterized in that: the described force-output shaft tower on the described force-output shaft and the match profiles of the described cam on the described inputting shaft are closed, and carry out intermittent rotary to control described force-output shaft by the contour shape of described cam.
4. the band shaft room according to claim 1 slicer of having a rest, it is characterized in that: described locating stud and described the 4th bearing have been symmetrical arranged respectively two take the shaft axis of described force-output shaft as the basis.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201220519945.0U CN202914661U (en) | 2012-09-20 | 2012-09-20 | Cam indexing unit with shaft sleeve |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201220519945.0U CN202914661U (en) | 2012-09-20 | 2012-09-20 | Cam indexing unit with shaft sleeve |
Publications (1)
Publication Number | Publication Date |
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CN202914661U true CN202914661U (en) | 2013-05-01 |
Family
ID=48162980
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201220519945.0U Expired - Lifetime CN202914661U (en) | 2012-09-20 | 2012-09-20 | Cam indexing unit with shaft sleeve |
Country Status (1)
Country | Link |
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CN (1) | CN202914661U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109465657A (en) * | 2018-11-23 | 2019-03-15 | 东莞市逻威机械设备有限公司 | A kind of the four or five axis of numerically-controlled machine tool is automatically outer to support clamping device |
CN109465658A (en) * | 2018-11-23 | 2019-03-15 | 东莞市逻威机械设备有限公司 | A kind of the four or five axis automatic inner-support clamping device of numerically-controlled machine tool |
-
2012
- 2012-09-20 CN CN201220519945.0U patent/CN202914661U/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109465657A (en) * | 2018-11-23 | 2019-03-15 | 东莞市逻威机械设备有限公司 | A kind of the four or five axis of numerically-controlled machine tool is automatically outer to support clamping device |
CN109465658A (en) * | 2018-11-23 | 2019-03-15 | 东莞市逻威机械设备有限公司 | A kind of the four or five axis automatic inner-support clamping device of numerically-controlled machine tool |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CX01 | Expiry of patent term | ||
CX01 | Expiry of patent term |
Granted publication date: 20130501 |