CN208051380U - A kind of multistation bearing process equipment lifting mechanism - Google Patents
A kind of multistation bearing process equipment lifting mechanism Download PDFInfo
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- CN208051380U CN208051380U CN201820050182.7U CN201820050182U CN208051380U CN 208051380 U CN208051380 U CN 208051380U CN 201820050182 U CN201820050182 U CN 201820050182U CN 208051380 U CN208051380 U CN 208051380U
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- fixedly connected
- movable plate
- process equipment
- motor
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Abstract
The utility model discloses a kind of multistation bearing process equipment lifting mechanisms, including cabinet, buffer board, workbench, supporting rod, process equipment, motor and rotation axis, the buffer board is fixedly connected on the top of cabinet, the workbench is movably connected in the top of buffer board, the supporting rod is fixedly connected on the top of buffer board, the process equipment is fixedly connected on the side at the top of it on supporting rod, the motor is fixedly connected on the inside of cabinet, the rotation axis is rotatably connected on the top of motor, it is fixedly connected at the top of the bottom of the workbench and rotation axis, the front of the cabinet offers sliding slot, the inner wall of the sliding slot is connected with movable plate, the side of the movable plate is connected with convex block.The utility model realizes the accurate position for adjusting cutter bearing and bearing to be processed, substantially reduces the appearance of error by being used cooperatively between the structures such as above-mentioned.
Description
Technical field
The utility model is related to bearing apparatus technical field, specially a kind of multistation bearing process equipment lifting machine
Structure.
Background technology
Currently, the rough flow of bearing machining has bearing steel raw material, be turned into inner sleeve, housing, bead blank, heat treatment,
It is ground to finished product material (grinding process has inner circle mill, peripheral milling, centreless grinding), assembles finished product, traditional bearing machining device structure
Complexity, control is inconvenient for operation, and it is low to run unstable and processing efficiency for equipment when bearing machining, cannot meet the modern times
The demand of metaplasia production, therefore, it is proposed that a kind of high-efficiency bearing process equipment.Chinese patent (notification number:CN205702711U)
Disclose a kind of high-efficiency bearing process equipment, including cabinet, supporting rod, bearing machining cutter, stationary fixture, rotary table and
Motor, the cabinet side are provided with buffer board and the supporting rod in buffer board side are arranged, the supporting rod side setting
There is connecting rod and the control panel in connecting rod side is set, the control panel side is provided with telescopic rod and setting exists
The bearing machining cutter of telescopic rod side, bearing machining cutter side are provided with stationary fixture and are arranged in stationary fixture
The rotary table of side, the rotary table side are provided with rotation axis and the motor in rotation axis side are arranged.It should
High-efficiency bearing process equipment, machining control is more convenient, machining accuracy higher, and support plate is the symmetrical branch mounted on pedestal both sides
Support structure keeps controller more firm, and overall operation is more steady, convenient and efficient, simple in structure, and controls easy to operate fast
Victory, processing efficiency are greatly promoted.But the utility model cannot accurately adjust bearing process tool, axis very much by telescopic rod
The process for holding processing will appear error, and using effect is undesirable.
Utility model content
The purpose of this utility model is to provide a kind of multistation bearing process equipment lifting mechanism, have accurate
The position for adjusting cutter bearing and bearing to be processed, substantially reduces the appearance of error, the more preferable advantage of using effect solves
Bearing process tool cannot be accurately adjusted very much by telescopic rod, the process of bearing machining will appear error, and using effect is paid no attention to
The problem of thinking.
To achieve the above object, the utility model provides the following technical solutions:A kind of multistation bearing is used with process equipment
Lifting mechanism, including cabinet, buffer board, workbench, supporting rod, process equipment, motor and rotation axis, the buffer board, which is fixed, to be connected
It is connected on the top of cabinet, the workbench is movably connected in the top of buffer board, and the supporting rod is fixedly connected on buffer board
Top, the process equipment are fixedly connected on the side at the top of it, the motor on supporting rod and are fixedly connected on cabinet
Inside, the rotation axis are rotatably connected on the top of motor, are fixedly connected at the top of the bottom of the workbench and rotation axis, institute
The front for stating cabinet offers sliding slot, and the inner wall of the sliding slot is connected with movable plate.
The side of the movable plate is connected with convex block, the inner wall of the movable plate sliding slot open up it is fluted, it is described convex
Block is clamped by the groove of movable plate with movable plate, and the side of the movable plate offers spring groove, the inner wall of the spring groove
It is fixedly connected with resetting spring, the side of the resetting spring is fixedly connected with the side of convex block, and the back side of the movable plate is opened
Equipped with groove, the inner wall of the groove is rotatably connected to driving wheel, and the inside of the cabinet offers cavity one, the driving wheel
It is connect with chassis active by the cavity one of cabinet, the inside of the cabinet is fixedly connected with driving motor, the driving motor
Top be fixedly connected with shaft coupling, output shaft is rotatably connected at the top of the shaft coupling, close to its top on the output shaft
The surface in portion is fixedly connected with gear one, and the side of the gear one is engaged with the side of driving wheel, the driving wheel it is another
Side is engaged with gear two, and the top of the gear two is fixedly connected with belt wheel one, and the surface activity of the belt wheel one is connected with skin
One end of band, the belt is connected with belt wheel two, and the top of the belt wheel two offers through-hole, and the inner wall of the through-hole is solid
Surely it is connected with lead screw, fixed block is connected with close to the thread surface of bottom on the lead screw, the inside of the cabinet opens up free
Chamber two, the fixed block are connect by the cavity two of cabinet with chassis active, and the side of the fixed block and the side of motor are solid
Fixed connection.
Preferably, the top and bottom of the driving wheel are rotatably connected on the inner wall of movable plate groove by the way that shaft is arranged.
Preferably, the bottom of the gear two and belt wheel one offers through-hole, and the inner wall of through-hole is fixedly connected with shaft, and
One end of shaft is rotatably connected on the inside of cabinet.
Preferably, one end of one top shaft of the top of the output shaft, gear two and belt wheel and the rotation of the both ends of lead screw
It is connected with bearing block, and the surface of bearing block is fixedly connected on the inside of cabinet.
Preferably, the side of the movable plate is fixedly connected with gib block, and the inner wall of cabinet sliding slot offers small sliding slot, and
Gib block is slidably connected by the small sliding slot of cabinet with cabinet.
Compared with prior art, the beneficial effects of the utility model are as follows:
The utility model by be arranged movable plate, convex block, resetting spring, driving wheel, driving motor, shaft coupling, output shaft,
Gear one, gear two, belt wheel one, belt, belt wheel two, lead screw, fixed block, bearing block and gib block, are processed to bearing
Before, first control driving motor rotation, adjustment motor, rotation axis and its connection structure position so that bearing with processing
Equipment keeps ideal distance, the rotation of driving motor to pass to gear one by shaft coupling, and rotation is passed through driving wheel by gear one
Band moving gear two rotates, and the rotation of gear two drives the belt wheel one at top to rotate, and belt wheel one passes through belt band movable belt pulley two
It rotates, the rotation of belt wheel two drives lead screw rotation, then realizes the rotation of lead screw, the rotation of lead screw makes fixed block band
The structures such as dynamic motor up move, and when the structure motions such as motor are to ideal position, stir movable plate and move down, movable plate band
Dynamic driving wheel moves down so that the rotation of gear one can not pass to gear two, stopped fixed block indirectly and drive motor
Rise so that the control of the uphill process of motor it is more accurate, convex block and resetting spring are used cooperatively so that movable plate has
The setting of certain lock function, gib block allows movable plate to be moved in defined track, facilitates next driving wheel accurate
Really engaged with gear one and gear two.
In conclusion by being used cooperatively between the structures such as above-mentioned, solves and cannot accurately be adjusted very much by telescopic rod
The process of bearings process tool, bearing machining will appear error, and the undesirable problem of using effect realizes accurate adjustment axis
The position for holding cutter and bearing to be processed substantially reduces the appearance of error.
Description of the drawings
FIG. 1 is a schematic structural view of the utility model;
Fig. 2 is the utility model movable plate side structure schematic diagram;
Fig. 3 is the utility model movable plate Facad structure sectional view;
Fig. 4 is the utility model cabinet Facad structure sectional view;
Fig. 5 is the utility model cabinet front lateral partial structurtes sectional view;
Fig. 6 is that the utility model driving wheel disengages structural schematic diagram with one gear two of gear.
In figure:1- cabinets, 2- buffer boards, 3- workbench, 4- supporting rods, 5- process equipments, 6- movable plates, 7- convex blocks, 8-
Resetting spring, 9- driving wheels, 10- motors, 11- rotation axis, 12- driving motors, 13- shaft couplings, 14- output shafts, 15- gears
One, 16- gears two, 17- belt wheels one, 18- belts, 19- belt wheels two, 20- lead screws, 21- fixed blocks, 22- bearing blocks, 23- are oriented to
Item.
Specific implementation mode
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
The every other embodiment obtained, shall fall within the protection scope of the present invention.
It please refers to Fig.1 to 6, the utility model provides a kind of technical solution:A kind of multistation bearing process equipment lift
Mechanism is risen, including cabinet 1, buffer board 2, workbench 3, supporting rod 4, process equipment 5, motor 10 and rotation axis 11, cabinet 1 have
It supports top structure and protects the effect of internal structure, buffer board 2 is fixedly connected on the top of cabinet 1, and workbench 3 is flexibly connected
At the top of buffer board 2, workbench 3 is rotated the drive of axis 11 and rotates, and the top of workbench 3 is provided with stationary fixture, uses
In fixing bearing, supporting rod 4 is fixedly connected on the top of buffer board 2, and supporting rod 4 is used to support the process equipment 5 at top, processing
Equipment 5 is fixedly connected on the side at the top of it on supporting rod 4, and process equipment 5 includes connecting rod, control panel, telescopic rod
With bearing machining cutter, operation button is provided on control panel and the motor switch in operation button side is set, control
Panel surrounding is provided with control panel protecting crust, and control panel is electrically connected with motor 10 and driving motor 12, and motor 10, which is fixed, to be connected
It is connected on the inside of cabinet 1, rotation axis 11 is rotatably connected on the top of motor 10, and the rotation of motor 10 is driven by rotation axis 11 pushes up
The bottom of the rotation of portion's workbench 3, workbench 3 is fixedly connected with the top of rotation axis 11, and the front of cabinet 1 offers sliding slot,
The inner wall of sliding slot is connected with movable plate 6, and the movement of movable plate 6 drives driving wheel 9, while convex block 7 is in 1 sliding slot inner wall of cabinet
Groove in replace clamping, the side of movable plate 6 is fixedly connected with gib block 23, and the inner wall of 1 sliding slot of cabinet offers small sliding slot,
And gib block 23 is slidably connected by the small sliding slot of cabinet 1 with cabinet 1, the setting of gib block 23 allows movable plate 6 advising
It moves in fixed track, next driving wheel 9 is facilitated accurately to be engaged with gear 1 and gear 2 16.
The side of movable plate 6 is connected with convex block 7, and the inner wall of 6 sliding slot of movable plate opens up fluted, and convex block 7 passes through work
The groove of movable plate 6 is clamped with movable plate 6, and the side of movable plate 6 offers spring groove, and the inner wall of spring groove is fixedly connected with reset
Spring 8, convex block 7 are used cooperatively with resetting spring 8, and convex block 7 is combined with the groove of 1 sliding slot inner wall of cabinet so that movable plate 6 has
There are certain self-locking function, the side of resetting spring 8 to be fixedly connected with the side of convex block 7, the back side of movable plate 6 offers recessed
The inner wall of slot, groove is rotatably connected to driving wheel 9, and driving wheel 9 follows movable plate 6 to move up and down, determines the fortune of gear 1
Dynamic whether to pass to gear 2 16, to accurately control 10 isostructural lifting height of motor, the top and bottom of driving wheel 9 are logical
The inner wall that setting shaft is rotatably connected on 6 groove of movable plate is crossed, the setting of shaft makes the rotation of driving wheel 9 more stable, rotation
Effect is more preferable, and the inside of cabinet 1 offers cavity one, and driving wheel 9 is flexibly connected by the cavity one of cabinet 1 with cabinet 1, cabinet
1 inside is fixedly connected with driving motor 12, and driving motor 12 provides driving, the model of driving motor 12 to output shaft 14
40SM-M0030MAL, driving motor 12 are powered by external power supply, and the top of driving motor 12 is fixedly connected with shaft coupling 13,
The torque of motor shaft is passed to output shaft 14 by shaft coupling 13, while having the function of stablizing the two rotation, the top of shaft coupling 13
Portion is rotatably connected to output shaft 14, and the rotation of driving motor 12 is passed to gear 1 by output shaft 14, close on output shaft 14
Surface at the top of it is fixedly connected with gear 1, and the rotation of output shaft 14 is passed to driving wheel 9, gear 1 by gear 1
Side engaged with the side of driving wheel 9, the other side of driving wheel 9 is engaged with gear 2 16, and gear 2 16 turns driving wheel 9
Dynamic to pass to belt wheel 1, the top of gear 2 16 is fixedly connected with belt wheel 1, and belt wheel 1 passes the rotation of gear 2 16
Pass belt 18, the bottom of gear 2 16 and belt wheel 1 offers through-hole, and the inner wall of through-hole is fixedly connected with shaft, and shaft
One end be rotatably connected on the inside of cabinet 1, the setting of shaft is so that the rotation of gear 2 16 and belt wheel 1 is more stable, belt wheel
One 17 surface activity is connected with belt 18, and the rotation of belt wheel 1 is passed to belt wheel 2 19, one end of belt 18 by belt 18
It is connected with belt wheel 2 19, the rotation of belt 18 will be passed to lead screw 20 by belt wheel 2 19, and the top of belt wheel 2 19 offers
The inner wall of through-hole, through-hole is fixedly connected with lead screw 20, so that fixed block 21 moves during rotation occurs for lead screw 20, transports
Dynamic direction depends on the rotation direction of driving motor 12, the one 17 top shaft of top, gear 2 16 and belt wheel of output shaft 14
One end and the both ends of lead screw 20 be rotatably connected to bearing block 22, and the surface of bearing block 22 is fixedly connected on the inside of cabinet 1,
So that the rotation of output shaft 14, shaft and lead screw 20 is more stable, rotating effect is more preferable, close on lead screw 20 for the setting of bearing block 22
The thread surface of bottom is connected with fixed block 21, and the movement of fixed block 21 drives the movement of other mechanisms such as motor 10, Jin Ershi
Adjusting bearing to be processed is showed at a distance from cutter bearing, the inside of cabinet 1 offers cavity two, and fixed block 21 passes through cabinet 1
Cavity two be flexibly connected with cabinet 1, the side of fixed block 21 is fixedly connected with the side of motor 10.
Operation principle:The multistation bearing with process equipment lifting mechanism in use, before being processed to bearing,
First control driving motor 12 rotation, adjustment motor 10, rotation axis 11 and its connection structure position so that bearing with processing
Equipment 5 keeps ideal distance, the rotation of driving motor 12 to pass to gear 1 by shaft coupling 13, and gear 1 is logical by rotation
It crosses driving wheel 9 to rotate with moving gear 2 16, the rotation of gear 2 16 drives the belt wheel 1 at top to rotate, and belt wheel 1 is logical
It crosses belt 18 to rotate with movable belt pulley 2 19, the rotation of belt wheel 2 19 drives lead screw 20 to rotate, and then realizes lead screw 20
The rotation of rotation, lead screw 20 makes fixed block 21 that the structures such as motor 10 be driven up to move, when the structure motions such as motor 10 to reason
It when thinking position, stirs movable plate 6 and moves down, movable plate 6 drives driving wheel 9 to move down so that the rotation nothing of gear 1
Method passes to gear 2 16, stopped the rising that fixed block 21 drives motor 10 indirectly so that the uphill process of motor 10 controls
It is more accurate, convex block 7 is used cooperatively with resetting spring 8 so that movable plate 6 is with certain lock function, gib block 23
Setting movable plate 6 is moved in defined track, facilitate next driving wheel 9 accurately with gear 15 1 and gear two
16 engagement.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is appreciated that can these embodiments be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaiied
Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.
Claims (5)
1. a kind of multistation bearing process equipment lifting mechanism, including cabinet (1), buffer board (2), workbench (3), support
Bar (4), process equipment (5), motor (10) and rotation axis (11), the buffer board (2) are fixedly connected on the top of cabinet (1),
The workbench (3) is movably connected in the top of buffer board (2), and the supporting rod (4) is fixedly connected on the top of buffer board (2)
Portion, the process equipment (5) are fixedly connected on the side at the top of it, the motor (10) on supporting rod (4) and are fixedly connected
Inside in cabinet (1), the rotation axis (11) are rotatably connected on the top of motor (10), the bottom of the workbench (3) with
Rotation axis is fixedly connected at the top of (11), it is characterised in that:The front of the cabinet (1) offers sliding slot, the sliding slot it is interior
Wall is connected with movable plate (6);
The side of the movable plate (6) is connected with convex block (7), and the inner wall of movable plate (6) sliding slot opens up fluted, institute
Convex block (7) to be stated to be clamped with movable plate (6) by the groove of movable plate (6), the side of the movable plate (6) offers spring groove,
The inner wall of the spring groove is fixedly connected with resetting spring (8), and the side of the resetting spring (8) is solid with the side of convex block (7)
Fixed connection, the back side of the movable plate (6) open up fluted, and the inner wall of the groove is rotatably connected to driving wheel (9), the machine
The inside of case (1) offers cavity one, and the driving wheel (9) is flexibly connected by the cavity one of cabinet (1) with cabinet (1), institute
The inside for stating cabinet (1) is fixedly connected with driving motor (12), and shaft coupling is fixedly connected at the top of the driving motor (12)
(13), it is rotatably connected to output shaft (14) at the top of the shaft coupling (13), the table on the output shaft (14) at the top of it
Face is fixedly connected with gear one (15), and the side of the gear one (15) is engaged with the side of driving wheel (9), the driving wheel
(9) the other side is engaged with gear two (16), and belt wheel one (17), the belt wheel are fixedly connected at the top of the gear two (16)
The surface activity of one (17) is connected with belt (18), and one end of the belt (18) is connected with belt wheel two (19), the band
Wheel offers through-hole at the top of two (19), and the inner wall of the through-hole is fixedly connected with lead screw (20), close on the lead screw (20)
The thread surface of bottom is connected with fixed block (21), and the inside of the cabinet (1) offers cavity two, and the fixed block (21) is logical
The cavity two for crossing cabinet (1) is flexibly connected with cabinet (1), and the side of the fixed block (21) is fixed with the side of motor (10) to be connected
It connects.
2. a kind of multistation bearing process equipment lifting mechanism according to claim 1, it is characterised in that:The biography
The top and bottom of driving wheel (9) are rotatably connected on the inner wall of movable plate (6) groove by the way that shaft is arranged.
3. a kind of multistation bearing process equipment lifting mechanism according to claim 1, it is characterised in that:The tooth
Two (16) of wheel and the bottom of belt wheel one (17) offer through-hole, and the inner wall of through-hole is fixedly connected with shaft, and one end of shaft turns
The dynamic inside for being connected to cabinet (1).
4. a kind of multistation bearing process equipment lifting mechanism according to claim 3, it is characterised in that:It is described defeated
Top, one end of gear two (16) and belt wheel one (17) top shaft and the both ends of lead screw (20) of shaft (14) are rotatably connected to
Bearing block (22), and the surface of bearing block (22) is fixedly connected on the inside of cabinet (1).
5. a kind of multistation bearing process equipment lifting mechanism according to claim 1, it is characterised in that:The work
The side of movable plate (6) is fixedly connected with gib block (23), and the inner wall of cabinet (1) sliding slot offers small sliding slot, and gib block (23)
It is slidably connected by the small sliding slot and cabinet (1) of cabinet (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820050182.7U CN208051380U (en) | 2018-01-12 | 2018-01-12 | A kind of multistation bearing process equipment lifting mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820050182.7U CN208051380U (en) | 2018-01-12 | 2018-01-12 | A kind of multistation bearing process equipment lifting mechanism |
Publications (1)
Publication Number | Publication Date |
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CN208051380U true CN208051380U (en) | 2018-11-06 |
Family
ID=63995718
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201820050182.7U Active CN208051380U (en) | 2018-01-12 | 2018-01-12 | A kind of multistation bearing process equipment lifting mechanism |
Country Status (1)
Country | Link |
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CN (1) | CN208051380U (en) |
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2018
- 2018-01-12 CN CN201820050182.7U patent/CN208051380U/en active Active
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right |
Effective date of registration: 20190926 Address after: 150000 Kunlun Road, Yingbin Road, Harbin Development Zone, Heilongjiang Patentee after: HARBIN HRB PRECISION BEARING MANUFACTURING CO., LTD. Address before: 330200 No. 116, Lian Ken Road, Liantang Town, Nanchang County, Nanchang, Jiangxi. Patentee before: Zhang Si Han |
|
TR01 | Transfer of patent right |