CN106584075A - Automatic bearing and bushing punching mechanism - Google Patents
Automatic bearing and bushing punching mechanism Download PDFInfo
- Publication number
- CN106584075A CN106584075A CN201611179624.XA CN201611179624A CN106584075A CN 106584075 A CN106584075 A CN 106584075A CN 201611179624 A CN201611179624 A CN 201611179624A CN 106584075 A CN106584075 A CN 106584075A
- Authority
- CN
- China
- Prior art keywords
- transmission module
- lower platen
- cylinder
- bushing
- board
- Prior art date
- 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.)
- Granted
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P19/00—Machines for simply fitting together or separating metal parts or objects, or metal and non-metal parts, whether or not involving some deformation; Tools or devices therefor so far as not provided for in other classes
- B23P19/02—Machines for simply fitting together or separating metal parts or objects, or metal and non-metal parts, whether or not involving some deformation; Tools or devices therefor so far as not provided for in other classes for connecting objects by press fit or for detaching same
- B23P19/027—Machines for simply fitting together or separating metal parts or objects, or metal and non-metal parts, whether or not involving some deformation; Tools or devices therefor so far as not provided for in other classes for connecting objects by press fit or for detaching same using hydraulic or pneumatic means
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P19/00—Machines for simply fitting together or separating metal parts or objects, or metal and non-metal parts, whether or not involving some deformation; Tools or devices therefor so far as not provided for in other classes
- B23P19/001—Article feeders for assembling machines
- B23P19/007—Picking-up and placing mechanisms
Abstract
The invention discloses an automatic bearing and bushing punching mechanism. The automatic bearing and bushing punching mechanism comprises a punching device and a feeding device which are arranged at the same side of the top of a machine table. The punching device and the feeding device are arranged at the top of the machine table in sequence from left to right. The punching device comprises an equipment main body, and the bottom of the equipment main body is placed at the top of the machine table. A first transmission die set is vertically mounted at one side of the equipment main body, and a second transmission die set is horizontally mounted at the side, far away from the equipment main body, of the first transmission die set. A third transmission die set and a fourth transmission die set are vertically mounted at the side, far away from the first transmission die set, of the second transmission die set. By means of the automatic bearing and bushing punching mechanism, bearing punching operation can be conducted, and bushing punching operation can also be conducted; a bearing upwards-punching plate on a first air cylinder and a bushing upwards-punching plate on a second air cylinder can be replaced alternatively on the equipment main body; in addition, a bearing downwards-punching plate and a bushing downwards-punching plate are replace alternatively at designated positions of a first storage groove; and the automatic bearing and bushing punching mechanism can be used by working personnel conveniently.
Description
Technical field
The present invention relates to last item holds and lining mechanism technical field, more particularly to a kind of automatic axial compression holds and lining mechanism.
Background technology
With the continuous development and the continuous progress of society of science and technology, the Kaohsiung rate of production is increasingly pursued by enterprise, in order to carry
The operating efficiency of high bearing, occurs in that automatic axial compression holds equipment, in addition to improving the operating efficiency of bushing, occurs in that from dynamic pressure
Bushing equipment, but automatic axial compression hold equipment and from dynamic pressure bushing equipment all can only complete independently last item hold or press bushing grasp
Make, in order to solve the problems, such as that an equipment can not hold and press bushing function with last item simultaneously, therefore propose one kind from dynamic pressure
Bearing and lining mechanism.
The content of the invention
Based on the technical problem that background technology is present, the present invention proposes a kind of automatic axial compression and holds and lining mechanism.
A kind of automatic axial compression proposed by the present invention holds and lining mechanism, including the punching press dress for being arranged on board top the same side
Put and feed arrangement, and decompressor and feed arrangement are successively set on from left to right the top of board, the decompressor bag
Equipment body is included, and the bottom of equipment body is placed on the top of board, the side of the equipment body is vertically-mounted first
Transmission module, and the first transmission module is horizontally installed with the second transmission module, second transmission away from the side of equipment body
Module has the 3rd transmission module and the 4th transmission module, the 3rd transmission mould away from the first side for being driven module is vertically-mounted
Group is located at the side of the second transmission module, and the 4th transmission module is located at the opposite side of the second transmission module, the 3rd transmission
The first cylinder mounting seat is slidably fitted with module, the first cylinder mounting seat is fixed with the first cylinder, and by screw rod
Bearing top board is connected with the piston rod of one cylinder, on the 4th transmission module the second cylinder mounting seat is slidably fitted with,
The second cylinder mounting seat is fixed with the second cylinder, and the piston rod of the second cylinder to be connected with bushing by screw rod and is pressed
Plate, the lower horizontal of the second transmission module is provided with mounting seat, and the top corner of the mounting seat offers the first installation
Support column is slidably connected on hole, and the inwall of the first installing hole, the bottom of the support column is welded on the top of board, described
Compression spring is arranged with support column, and the top and bottom of compression spring is separately fixed at the bottom of mounting seat and the top of board
Portion, the top center position of the mounting seat offers the first standing groove, and the inner horizontal of the first standing groove is provided with two
Guide rod, the two ends of two guide rods contact respectively with the inwall of the first standing groove, on the both sides inwall of first standing groove
The first mounting groove is offered, and the inwall of the first mounting groove is fixed with the 3rd cylinder, on the first standing groove side inwall
The piston cylinder of the 3rd cylinder is connected with bearing lower platen, and the bearing lower platen is in the enterprising line slip of guide rod, and bearing lower platen
It is engaged with bearing top board, the piston cylinder of the 3rd cylinder on the first standing groove opposite side inwall is connected with bushing and pushes
Plate, the bushing lower platen is engaged in the enterprising line slip of guide rod, and bushing lower platen and bushing top board, the top of the board
Portion offers the second standing groove, and the inside of the second standing groove is provided with transmission line, and transmission line be located at mounting seat away from
The side of equipment body, the side of transmission line is provided with drawing mechanism, and drawing mechanism is located at the top opposite side of board.
Preferably, the feed arrangement includes the 5th transmission module, and the bottom of the 5th transmission module is installed by screw rod
At the top of board, the 5th transmission module is slidably fitted with the horizontal direction the 6th transmission module, and the 6th transmission mould
Group in the vertical direction is provided with the 7th transmission module, and on the 7th transmission module the first clamp device is provided with, it is described enter
Material device be used for material is gripped, and feed arrangement by the material of gripping be placed on the corresponding bearing lower platen of material or
On bushing lower platen.
Preferably, the drawing mechanism includes the 9th transmission module, and the bottom of the 9th transmission module is installed by screw rod
At the top of board, the 9th transmission module is slidably fitted with the horizontal direction the tenth transmission module, and the tenth transmission mould
Group in the vertical direction is provided with the 8th transmission module, and on the 8th transmission module the second clamp device is provided with, it is described go out
Material device is used to be gripped the stamped material for finishing on bearing lower platen or bushing lower platen, and drawing mechanism will
The material of gripping is placed on transmission line.
Preferably, two limiting plates are provided with above the mounting seat, and the two bottom sides of limiting plate respectively with support column
Top be connected.
Preferably, the inwall of first standing groove is slidably connected respectively with bearing lower platen and bushing lower platen.
Preferably, the second mounting groove, and the second mounting groove are offered on two other inwall of first standing groove
Positioned at the medium position of the first standing groove, infrared sensor is fixed with the inwall of second mounting groove, is placed positioned at first
The infrared sensor and bearing lower platen of groove side is engaged, and positioned at the infrared sensor and bushing of the first standing groove opposite side
Lower platen is engaged, and the infrared sensor is used to position the position of bearing lower platen or bushing lower platen.
Beneficial effects of the present invention:
1st, it is engaged by the first transmission module, the second transmission module and the 3rd transmission module, and on the bearing on the first cylinder
Bearing lower platen inside pressing plate and the first standing groove matches, and the first transmission module drives second to be driven module in vertical direction
On move up and down, second transmission module can drive the 3rd transmission module moved left and right in level, the 3rd transmission
Module can be moved up and down with the first cylinder in the vertical direction in the first cylinder mounting seat, until the first cylinder is moved to
Specified location, the first cylinder band dynamic bearing top board carries out last item on bearing lower platen and holds operation;
2nd, it is engaged by the first transmission module, the second transmission module and the 4th transmission module, and on the bushing on the second cylinder
Bushing lower platen inside pressing plate and the first standing groove matches, and the first transmission module drives second to be driven module in vertical direction
On move up and down, second transmission module can drive the 4th transmission module moved left and right in level, the 4th transmission
Module can be moved up and down with the second cylinder in the vertical direction in the second cylinder mounting seat, until the second cylinder is moved to
Specified location, the second cylinder drives bushing top board to carry out pressing bushing operation on bushing lower platen;
3rd, it is engaged with corresponding bearing lower platen, bushing lower platen respectively by the 3rd cylinder and guide rod, the first standing groove one
3rd cylinder of side can be with dynamic bearing lower platen respectively in the enterprising line slip of inwall of guide rod and the 3rd standing groove, and first places
3rd cylinder of groove opposite side can drive bushing lower platen respectively in the enterprising line slip of inwall of guide rod and the 3rd standing groove, just
Converted back and forth in the specified location of the first standing groove in bearing lower platen and bushing lower platen;
The present invention can both carry out last item and hold operation, can carry out pressing bushing operation again, the bearing top board on the first cylinder with
Bushing top board on second cylinder can back and forth be changed on equipment body, in addition bearing lower platen and bushing lower platen
Converted back and forth in the specified location of the first standing groove, automatic axial compression holds is easy to staff to be used with lining mechanism.
Description of the drawings
Fig. 1 is that a kind of automatic axial compression proposed by the present invention holds side view with lining mechanism;
Fig. 2 is that a kind of automatic axial compression proposed by the present invention holds structural representation with lining mechanism;
Fig. 3 is that a kind of automatic axial compression proposed by the present invention holds top view with the mounting seat of lining mechanism;
Fig. 4 is that a kind of automatic axial compression proposed by the present invention holds structural representation with the feed arrangement of lining mechanism;
Fig. 5 is that a kind of automatic axial compression proposed by the present invention holds structural representation with the drawing mechanism of lining mechanism.
In figure:1 board, 2 equipment bodies, 3 first transmission modules, 4 second transmission modules, 5 the 3rd transmission modules, 6 first cylinders
Mounting seat, 7 first cylinders, 8 bearing top boards, 9 the 4th transmission modules, 10 second cylinder mounting seats, 11 second cylinders, 12 bushings
Top board, 13 support columns, 14 mounting seats, 15 compression springs, 16 transmission lines, 17 drawing mechanisms, 18 feed arrangements, 19 first are put
Put groove, 20 bearing lower platens, 21 bushing lower platens, 22 guide rods, 23 the 3rd cylinders, 24 first clamp devices, 25 the 5th transmission moulds
Group, 26 the 6th transmission modules, 27 the 7th transmission modules, 28 second clamp devices, 29 the 8th transmission modules, 30 the 9th transmission moulds
Group, 31 the tenth transmission modules.
Specific embodiment
The present invention is made with reference to specific embodiment further explain.
Embodiment
Reference picture 1-5, proposes a kind of automatic axial compression and holds and lining mechanism in the present embodiment, push up including board 1 is arranged on
The decompressor and feed arrangement 18 of portion the same side, and decompressor and feed arrangement 18 are successively set on from left to right board 1
Top, decompressor includes equipment body 2, and the bottom of equipment body 2 is placed on the top of board 1, the one of equipment body 2
Side is vertically-mounted the first transmission module 3, and the first transmission module 3 is horizontally installed with the second biography away from the side of equipment body 2
Dynamic model group 4, the second transmission module 4 has the 3rd transmission transmission of module 5 and the 4th away from the first side for being driven module 3 is vertically-mounted
Module 9, the 3rd transmission module 5 is located at the side of the second transmission module 4, and the 4th transmission module 9 is located at the second transmission module 4
Opposite side, on the 3rd transmission module 5 the first cylinder mounting seat 6 is slidably fitted with, and the first cylinder mounting seat 6 is fixed with by screw rod
Bearing top board 8 is connected with first cylinder 7, and the piston rod of the first cylinder 7, in the first transmission transmission module of module 3, second
4 and the 3rd are driven under the cooperation of module 5, and under the bearing inside the standing groove 19 of bearing top board 8 and first on the first cylinder 7
Pressing plate 20 matches, and the first transmission module 3 drives second to be driven the in the vertical direction of module 4 and moves up and down, the second transmission
Module 4 can drive the 3rd transmission module 5 to be moved left and right in level, and the 3rd transmission module 5 can be installed with the first cylinder
The in the vertical direction of the first cylinder 7 on seat 6 is moved up and down, until the first cylinder 7 moves to specified location, the first cylinder
7 band dynamic bearing top boards 8 carry out last item on bearing lower platen 20 and hold operation, and on the 4th transmission module 9 second is slidably fitted with
Cylinder mounting seat 10, the second cylinder mounting seat 10 is fixed with the second cylinder 11, and the piston rod of the second cylinder 11 by screw rod
Bushing top board 12 is connected with, under the cooperation of the first transmission transmission transmission module 9 of module 4 and the 4th of module 3, second, and the
The bushing lower platen 21 inside the standing groove 19 of bushing top board 12 and first on two cylinders 11 matches, the first transmission module 3
Drive second to be driven the in the vertical direction of module 4 to move up and down, the second transmission module 4 can drive the 4th transmission module 9
Moved left and right in level, the 4th transmission module 9 can be with the second cylinder 11 in the second cylinder mounting seat 10 in vertically side
Move up and down upwards, until the second cylinder 11 moves to specified location, the second cylinder 11 drives bushing top board 12 in lining
Carry out pressing the lower horizontal of bushing operation, the second transmission module 4 to be provided with mounting seat 14, the top of mounting seat 14 on set lower platen 21
Corner offers and support column 13 is slidably connected on the first installing hole, and the inwall of the first installing hole, the bottom of support column 13
The top of board 1 is welded on, compression spring 15 is arranged with support column 13, and the top and bottom of compression spring 15 are fixed respectively
At the bottom of mounting seat 14 and the top of board, the top center position of mounting seat 14 offers the first standing groove 19, and first
The inner horizontal of standing groove 19 is provided with two guide rods 22, the two ends of two guide rods 22 respectively with the inwall phase of the first standing groove 19
Contact, offers the first mounting groove on the both sides inwall of the first standing groove 19, and the inwall of the first mounting groove is fixed with the 3rd
Cylinder 23, the piston cylinder of the 3rd cylinder 23 on the side inwall of the first standing groove 19 is connected with bearing lower platen 20, bearing
Lower platen 20 is engaged in the enterprising line slip of guide rod 22, and bearing lower platen 20 and bearing top board 8, positioned at the first standing groove 19
The piston cylinder of the 3rd cylinder 23 on opposite side inwall is connected with bushing lower platen 21, and bushing lower platen 21 is carried out on guide rod 22
Slide, and bushing lower platen 21 and bushing top board 12 be engaged, the 3rd cylinder 23 and guide rod 22 respectively with corresponding bearing
Under lower platen 20, the cooperation of bushing lower platen 21, the 3rd cylinder 23 of the side of the first standing groove 19 can be with dynamic bearing lower platen
20 respectively in the enterprising line slip of inwall of the standing groove 19 of guide rod 22 and the 3rd, and the 3rd cylinder 23 of the opposite side of the first standing groove 19 can
To drive bushing lower platen 21 respectively in the enterprising line slip of inwall of the standing groove 19 of guide rod 22 and the 3rd, it is easy to bearing lower platen 20
Converted back and forth with specified location of the bushing lower platen 21 in the first standing groove 19, the top of board 1 offers the second placement
Groove, and the inside of the second standing groove is provided with transmission line 16, and transmission line 16 is located at mounting seat 14 away from equipment body 2
Side, transmission line 16 is used for the material that conveying has been processed, and the side of transmission line 16 is provided with drawing mechanism 17, and discharges
Device 17 is located at the top opposite side of board 1.
In the present embodiment, feed arrangement 18 includes the 5th transmission module 25, and the bottom of the 5th transmission module 25 passes through spiral shell
Bar is arranged on the top of board 1, and the 5th transmission module 25 is slidably fitted with the horizontal direction the 6th transmission module 26, and the 6th
The transmission in the vertical direction of module 26 is provided with the 7th transmission module 27, and on the 7th transmission module 27 the first clamp device is provided with
24, feed arrangement 18 is used to be gripped material, and the material of gripping is placed on the corresponding bearing of material by feed arrangement 18
On lower platen 20 or bushing lower platen 21, drawing mechanism 17 includes the 9th transmission module 30, and the bottom of the 9th transmission module 30
Portion is arranged on the top of board 1 by screw rod, and the 9th transmission module 30 is slidably fitted with the horizontal direction the tenth transmission module
31, and the tenth transmission in the vertical direction of module 31 is provided with the 8th transmission module 29, and on the 8th transmission module 29 the is provided with
Two clamp devices 28, drawing mechanism 17 is used for the stamped material for finishing on bearing lower platen 20 or bushing lower platen 21
Gripped, and drawing mechanism 17 is placed on the material of gripping on transmission line 16, the top of mounting seat 14 is provided with two limits
Position plate, and the two bottom sides of limiting plate are connected respectively with the top of support column 13, the inwall of the first standing groove 19 respectively with axle
Hold lower platen 20 and bushing lower platen 21 is slidably connected, on two other inwall of the first standing groove 19 the second installation is offered
Groove, and the second mounting groove is located at the medium position of the first standing groove, and infrared sensor, position are fixed with the inwall of the second mounting groove
Infrared sensor and bearing lower platen 20 in the side of the first standing groove 19 is engaged, and positioned at the opposite side of the first standing groove 19
Infrared sensor and bushing lower platen 21 are engaged, and infrared sensor is used for bearing lower platen 20 or bushing lower platen 21
Position is positioned, and the present invention can both carry out last item and hold operation, can carry out pressing bushing operation, the axle on the first cylinder 7 again
The bushing top board 12 held on the cylinder 11 of top board 8 and second can back and forth be changed on equipment body 2, in addition under bearing
Pressing plate 20 and bushing lower platen 21 are converted back and forth in the specified location of the first standing groove 19, and automatic axial compression holds and lining mechanism
It is easy to staff to be used.
The above, the only present invention preferably specific embodiment, but protection scope of the present invention is not limited thereto,
Any those familiar with the art the invention discloses technical scope in, technology according to the present invention scheme and its
Inventive concept equivalent or change in addition, all should be included within the scope of the present invention.
Claims (6)
1. a kind of automatic axial compression holds and lining mechanism, including being arranged on board(1)The decompressor and charging dress of top the same side
Put(18), and decompressor and feed arrangement(18)Board is successively set on from left to right(1)Top, it is characterised in that institute
Decompressor is stated including equipment body(2), and equipment body(2)Bottom be placed on board(1)Top, the equipment body
(2)Side vertically-mounted have the first transmission module(3), and the first transmission module(3)Away from equipment body(2)Side level
Second transmission module is installed(4), the second transmission module(4)Away from the first transmission module(3)Side vertically-mounted have
3rd transmission module(5)With the 4th transmission module(9), the 3rd transmission module(5)Positioned at the second transmission module(4)One
Side, and the 4th transmission module(9)Positioned at the second transmission module(4)Opposite side, it is described 3rd transmission module(5)On be slidably installed
There is the first cylinder mounting seat(6), the first cylinder mounting seat(6)First cylinder is fixed with by screw rod(7), and the first cylinder
(7)Piston rod on be connected with bearing top board(8), the 4th transmission module(9)On be slidably fitted with the second cylinder installation
Seat(10), the second cylinder mounting seat(10)Second cylinder is fixed with by screw rod(11), and the second cylinder(11)Piston
Bushing top board is connected with bar(12), the second transmission module(4)Lower horizontal be provided with mounting seat(14), the installation
Seat(14)Top corner to offer and slidably connect support column on the first installing hole, and the inwall of the first installing hole(13),
The support column(13)Bottom be welded on board(1)Top, the support column(13)On be arranged with compression spring(15), and
Compression spring(15)Top and bottom be separately fixed at mounting seat(14)Bottom and board top, the mounting seat(14)
Top center position offer the first standing groove(19), and the first standing groove(19)Inner horizontal be provided with two guide rods
(22), two guide rods(22)Two ends respectively with the first standing groove(19)Inwall contact, first standing groove(19)'s
The first mounting groove is offered on the inwall of both sides, and the inwall of the first mounting groove is fixed with the 3rd cylinder(23), put positioned at first
Put groove(19)The 3rd cylinder on the inwall of side(23)Piston cylinder be connected with bearing lower platen(20), the bearing lower platen
(20)In guide rod(22)Enterprising line slip, and bearing lower platen(20)With bearing top board(8)It is engaged, positioned at the first standing groove
(19)The 3rd cylinder on opposite side inwall(23)Piston cylinder be connected with bushing lower platen(21), the bushing lower platen(21)
In guide rod(22)Enterprising line slip, and bushing lower platen(21)With bushing top board(12)It is engaged, the board(1)Top
The second standing groove is offered, and the inside of the second standing groove is provided with transmission line(16), and transmission line(16)Positioned at installation
Seat(14)Away from equipment body(2)Side, transmission line(16)Side be provided with drawing mechanism(17), and drawing mechanism
(17)Positioned at board(1)Top opposite side.
2. a kind of automatic axial compression according to claim 1 holds and lining mechanism, it is characterised in that the feed arrangement(18)
Including the 5th transmission module(25), and the 5th transmission module(25)Bottom by screw rod be arranged on board(1)Top, it is described
5th transmission module(25)The 6th transmission module is slidably fitted with the horizontal direction(26), and the 6th transmission module(26)Perpendicular
Nogata is provided with upwards the 7th transmission module(27), the 7th transmission module(27)On the first clamp device is installed(24),
The feed arrangement(18)For material to be gripped, and feed arrangement(18)The material of gripping is placed on into material corresponding
Bearing lower platen(20)Or bushing lower platen(21)On.
3. a kind of automatic axial compression according to claim 1 holds and lining mechanism, it is characterised in that the drawing mechanism(17)
Including the 9th transmission module(30), and the 9th transmission module(30)Bottom by screw rod be arranged on board(1)Top, it is described
9th transmission module(30)The tenth transmission module is slidably fitted with the horizontal direction(31), and the tenth transmission module(31)Perpendicular
Nogata is provided with upwards the 8th transmission module(29), the 8th transmission module(29)On the second clamp device is installed(28),
The drawing mechanism(17)For by bearing lower platen(20)Or bushing lower platen(21)On the stamped material for finishing enter
Row gripping, and drawing mechanism(17)The material of gripping is placed on into transmission line(16)On.
4. a kind of automatic axial compression according to claim 1 holds and lining mechanism, it is characterised in that the mounting seat(14)'s
Top is provided with two limiting plates, and the two bottom sides of limiting plate respectively with support column(13)Top be connected.
5. a kind of automatic axial compression according to claim 1 holds and lining mechanism, it is characterised in that first standing groove
(19)Inwall respectively with bearing lower platen(20)With bushing lower platen(21)It is slidably connected.
6. a kind of automatic axial compression according to claim 1 holds and lining mechanism, it is characterised in that first standing groove
(19)Two other inwall on offer the second mounting groove, and the second mounting groove is located at the medium position of the first standing groove,
Infrared sensor is fixed with the inwall of second mounting groove, positioned at the first standing groove(19)The infrared sensor and axle of side
Hold lower platen(20)It is engaged, and positioned at the first standing groove(19)The infrared sensor and bushing lower platen of opposite side(21)Match
Close, the infrared sensor is used for bearing lower platen(20)Or bushing lower platen(21)Position positioned.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201611179624.XA CN106584075B (en) | 2016-12-19 | 2016-12-19 | A kind of automatic axial compression is held and lining mechanism |
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CN201611179624.XA CN106584075B (en) | 2016-12-19 | 2016-12-19 | A kind of automatic axial compression is held and lining mechanism |
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CN106584075A true CN106584075A (en) | 2017-04-26 |
CN106584075B CN106584075B (en) | 2019-03-01 |
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CN201611179624.XA Active CN106584075B (en) | 2016-12-19 | 2016-12-19 | A kind of automatic axial compression is held and lining mechanism |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109090823A (en) * | 2018-07-19 | 2018-12-28 | 安徽天裕汽车零部件制造有限公司 | A kind of windshield wiper processing unit (plant) |
CN109500575A (en) * | 2018-11-15 | 2019-03-22 | 盐城市华悦汽车部件有限公司 | A kind of bushing assembling equipment of automobile hanging lower swing arm |
CN109676913A (en) * | 2018-12-29 | 2019-04-26 | 张家港市剑泉工具制造有限公司 | A kind of pliers taper knob automatic sheathing device |
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CN205497899U (en) * | 2016-03-15 | 2016-08-24 | 东莞景丰塑胶制品有限公司 | Automatic silk machine strips |
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SU450689A1 (en) * | 1973-01-10 | 1974-11-25 | Орловское Областное Объединение "Сельхозтехника" | Device for assembling of shaft-sleeve parts by pressing |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN109676913A (en) * | 2018-12-29 | 2019-04-26 | 张家港市剑泉工具制造有限公司 | A kind of pliers taper knob automatic sheathing device |
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CN106584075B (en) | 2019-03-01 |
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