CN206779542U - A kind of efficient planer-type milling machine - Google Patents
A kind of efficient planer-type milling machine Download PDFInfo
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- CN206779542U CN206779542U CN201720389139.9U CN201720389139U CN206779542U CN 206779542 U CN206779542 U CN 206779542U CN 201720389139 U CN201720389139 U CN 201720389139U CN 206779542 U CN206779542 U CN 206779542U
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- screw mandrel
- sliding platform
- contiguous block
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- milling machine
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Abstract
Planer-type milling machine field is the utility model is related to, more particularly to a kind of efficient planer-type milling machine, includes pedestal, the 3rd drive component for driving the second sliding platform to move in the vertical is installed on the pedestal;3rd drive component includes two the first guide rails, the first screw mandrel and the second screw mandrel are provided between two the first guide rails, lead screw transmission mechanism is installed on first screw mandrel and the second screw mandrel, the lead screw transmission mechanism includes contiguous block, first feed screw nut and the second feed screw nut, the side of the contiguous block is fixedly connected with the second sliding platform, first feed screw nut is socketed on the first screw mandrel, second feed screw nut is socketed on the second screw mandrel, and the opposite side of the contiguous block is respectively equipped with first locking mechanism and second locking mechanism.The utility model is by selecting suitable transmission accuracy to drive the second slide unit vertically moving to coordinate the processing of planer-type milling machine, to realize the raising of efficiency.
Description
Technical field
Planer-type milling machine field is the utility model is related to, more particularly to a kind of efficient planer-type milling machine.
Background technology
Planer-type milling machine abbreviation gantry mill, it is that there is portal frame and the milling machine of long horizontal lathe bed.It can be used on planer-type milling machine
It is more milling cutter finished surface simultaneously, machining accuracy and production efficiency are all higher, suitable for being processed in batch and a large amount of production
The plane and inclined-plane of large-scale workpiece.
Planer-type milling machine work in-process screw rod transmission is the accurate drive mechanism of high accuracy, the higher equipment of requirement on machining accuracy,
The pitch of screw mandrel in its lead screw transmission mechanism is divided into roughing and finishing with regard to smaller in being machined, but with compared with
The operating efficiency for rough milling operation that the planer-type milling machine of high manufacturing accuracy carries out workpiece surface is too low, therefore how more easily to adjust
The transmission accuracy of whole lead screw transmission mechanism is particularly important for the machining accuracy for adjusting process equipment.
Utility model content
The purpose of this utility model is in view of the shortcomings of the prior art, there is provided a kind of efficient planer-type milling machine.
To solve the above problems, the utility model provides following technical scheme:
A kind of efficient planer-type milling machine, includes pedestal and portal frame, and portal frame is set up on pedestal, and portal frame includes two
Column and the crossbeam at the top of two columns, the first sliding platform are mounted on two columns, first sliding platform
It is be arranged in parallel with crossbeam, is mounted on what is moved for driving its corresponding first sliding platform in vertical direction on two columns
First drive component, the second drive component for having drill bit and driving the drill bit to move in the horizontal between two sliding platforms
The pedestal is provided with the second sliding platform, be provided with the pedestal for drive that the second sliding platform moves in the vertical the
Three drive components;3rd drive component includes the first guide rail two parallel to base length direction, and described second slides
Mesa base corresponds to each first guide rail and is equipped with one and its chute that is slidably matched, and is provided between two the first guide rails parallel
In the first screw mandrel and the second screw mandrel of pedestal, first screw mandrel is located at the surface of the second screw mandrel, the first screw mandrel and second
Bar is respectively positioned on the lower section of the second sliding platform, is provided with lead screw transmission mechanism on first screw mandrel and the second screw mandrel, the screw mandrel
Transmission mechanism includes contiguous block, the first feed screw nut and the second feed screw nut, the side of the contiguous block and the second sliding platform
It is fixedly connected, first feed screw nut is socketed on the first screw mandrel, and second feed screw nut is socketed on the second screw mandrel, institute
The opposite side for stating contiguous block is respectively equipped with first locking mechanism and second locking mechanism, and first locking mechanism is used for the first screw mandrel
Nut is connected as a single entity with contiguous block, and the second locking mechanism is used to the second feed screw nut being connected as a single entity with contiguous block.
Further, the front side of first screw mandrel and the second screw mandrel is provided with first bearing seat, and the clutch shaft bearing is provided with
Two axis holes, the front end of first screw mandrel and the second screw mandrel are plugged in an axis hole respectively, the front end of second screw mandrel
Through first bearing seat, the first motor is provided with positioned at the front side of first bearing seat, first motor is fixed with pedestal
Connection, the main shaft of the first motor are connected by the front end of shaft coupling and the second screw mandrel.
Further, the rear side of first screw mandrel and the second screw mandrel is provided with second bearing seat, and the second bearing is provided with
Two axis holes, the rear end of first screw mandrel and the second screw mandrel are plugged in an axis hole respectively, the front end of first screw mandrel
Through second bearing seat, the second motor, second motor and second bearing are provided with positioned at the rear end of second bearing seat
Seat, which is bolted, to be integrated, and the main shaft of the second motor is connected by shaft coupling with the rear-end transmission of the first screw mandrel.
Further, first drive component includes being fixed on two set on column in vertical state and is parallel to each other
The second guide rail, first sliding platform is slidably connected with two the second guide rails, is provided between described two second guide rails and is in
The 3rd screw mandrel that vertical state is set, the bottom of the 3rd screw mandrel and the lower rotation of column are connected, and the top of the column is provided with
The 3rd motor of the 3rd screw mandrel rotation is driven, the 3rd screw mandrel is threadedly coupled through the first sliding platform and with it.
Further, second drive component includes two and setting up and down led parallel to the 3rd of base width direction
Rail, the both ends of the 3rd guide rail are separately fixed on the first sliding platform of a column, are provided between two the 3rd guide rails
4th screw mandrel, one end of the 4th screw mandrel are rotatablely connected with the first sliding platform on column, and the on another column
One sliding platform is provided with the 4th motor, and the other end of the 4th screw mandrel and the 4th motor are connected, and described two the
3rd sliding platform is installed, the 3rd sliding platform is slidably connected with two the 3rd guide rails, the 4th screw mandrel on three guide rails
It is threadedly coupled through the 3rd sliding platform and with it.
Further, the first locking mechanism be installed in contiguous block sidepiece the first cylinder, first cylinder it is defeated
Go out and hold the first clamping block being provided with perpendicular to the first screw mandrel, contiguous block is provided with first passed through for first clamping block and led to
Hole, the second through hole interted for the first feed screw nut is additionally provided with contiguous block, first is provided with the side wall of the first feed screw nut
Lock slots, the front end of the first clamping block are inserted into the first lock slots in the first through hole that is driven through of the first cylinder.
Further, first clamping block is cylindrical structure, and first through hole is circular hole, and the first lock slots are cylinder
Groove, first clamping block, first through hole are identical with the diameter of the first lock slots.
Further, the second locking mechanism be installed in contiguous block sidepiece the second cylinder, second cylinder it is defeated
Go out and hold the second clamping block being provided with perpendicular to the second screw mandrel, contiguous block is provided with the threeway passed through for second clamping block
Hole, the fourth hole interted for the second feed screw nut is additionally provided with contiguous block, second is provided with the side wall of the second feed screw nut
Lock slots, the front end of the second clamping block are inserted into the second lock slots in second through hole that is driven through of the second cylinder.
Further, second clamping block is cylindrical structure, and third through-hole is circular hole, and the second lock slots are cylinder
Groove, the diameter of second clamping block, third through-hole and the second lock slots are identical.
Beneficial effect:A kind of efficient planer-type milling machine of the present utility model, the first feed screw nut and the second feed screw nut intert
On contiguous block, contiguous block is fixedly connected with the bottom of the second slide unit, and the sidepiece of contiguous block, which is provided with, to be used for the first screw mandrel spiral shell
The first locking mechanism that is connected as one with the first contiguous block of mother and for the second feed screw nut and the first contiguous block to be connected as
The second locking mechanism of one, according to the needs of different machining accuracies, synchronization is set there was only a feed screw nut by control
Connected as one with contiguous block, with the switching of this screw mandrel for realizing different transmission accuracies, different transmission accuracies is to coordinate gantry
Milling machine to rough mill with fine transmission requirement, by selecting suitable transmission accuracy to drive the second slide unit vertically moving to coordinate
The processing of planer-type milling machine, to realize the raising of efficiency.
Brief description of the drawings
Fig. 1 is the utility model dimensional structure diagram.
Fig. 2 is the enlarged drawing at A in the utility model Fig. 1.
Fig. 3 is the enlarged drawing at B in the utility model Fig. 1.
Fig. 4 is the enlarged drawing at C in the utility model Fig. 1.
Fig. 5 is the utility model the second slide unit bottom schematic view.
Fig. 6 is the utility model lead screw transmission mechanism dimensional structure diagram.
Fig. 7 is the utility model lead screw transmission mechanism broken section schematic perspective view.
Figure of description:Pedestal 1, portal frame 2, column 2a, crossbeam 2b, the second guide rail 2c, the 3rd screw mandrel 2d, the 3rd driving
Motor 2e, the first sliding platform 3a, drill bit 4, the second sliding platform 5a, the first guide rail 5b, the first screw mandrel 5c, the second screw mandrel 5d,
Contiguous block 5e, the first feed screw nut 5f, the second feed screw nut 5g, first bearing seat 5h, the first motor 5j, second bearing seat
5k, the second motor 5m, the 3rd guide rail 6a, the 4th screw mandrel 6b, the 4th motor 6c, the 3rd sliding platform 6d, cooling tube
7, the first cylinder 8, the first clamping block 8a, the second cylinder 9, the second clamping block 9a.
Embodiment
With reference to Figure of description and embodiment, specific embodiment of the utility model is described in further detail:
A kind of efficient planer-type milling machine according to Fig. 1 to Fig. 7, includes pedestal 1 and portal frame 2, and portal frame 2 is set up in
On pedestal 1, portal frame 2 is pacified on the crossbeam 2b, two column 2a including two column 2a and at the top of two column 2a
It is be arranged in parallel equipped with the first sliding platform 3a, the first sliding platform 3a and crossbeam 2b, is mounted on being used on two column 2a
The first drive component for driving its corresponding first sliding platform 3a to be moved in vertical direction, it is provided between two sliding platform 3a
There is drill bit 4 and drive pedestal 1 described in the second drive component that the drill bit 4 moves in the horizontal to be provided with the second sliding platform 5a,
The 3rd drive component for driving the second sliding platform 5a to move in the vertical is installed on the pedestal 1;3rd driving
Component includes the first guide rail 5b for two parallel to the length direction of pedestal 1, and the second sliding platform 5a bottoms correspond to each the
One guide rail 5b is equipped with one and its chute that is slidably matched, and is provided between two the first guide rail 5b parallel to the first of pedestal 1
Screw mandrel 5c and the second screw mandrel 5d, the first screw mandrel 5c are located at the second screw mandrel 5d surface, the first screw mandrel 5c and the second screw mandrel
5d is respectively positioned on the second sliding platform 5a lower section, and lead screw transmission mechanism is provided with the first screw mandrel 5c and the second screw mandrel 5d,
The lead screw transmission mechanism includes contiguous block 5e, the first feed screw nut 5f and the second feed screw nut 5g, the side of the contiguous block 5e
It is fixedly connected with the second sliding platform 5a, the first feed screw nut 5f is socketed on the first screw mandrel 5c, the second screw mandrel spiral shell
Female 5g is socketed on the second screw mandrel 5d, and the opposite side of the contiguous block 5e is respectively equipped with first locking mechanism and the second locking machine
Structure, first locking mechanism are used to the first feed screw nut 5f and contiguous block 5e being connected as a single entity, and the second locking mechanism is used for will
Second feed screw nut 5g and contiguous block 5e is connected as a single entity.
It should be noted that in order to ensure to connect between contiguous block 5e and the first feed screw nut 5f and the second feed screw nut 5g
Relation can normally switch, and set the first feed screw nut 5f and the second feed screw nut 5g and be in same side end as zero position, even
Connecing relation switching needs to carry out in the zero position.
When in zero position, the first screw mandrel 5c and contiguous block 5e is connected as a single entity by first locking mechanism, by first
Bar 5c motors drive the first screw mandrel 5c to rotate, and contiguous block 5e motions are driven when the first feed screw nut 5f is moved, so as to drive second
Sliding platform 5a is moved in the vertical, and now the second feed screw nut 5g and contiguous block 5e departs from.
When needing to switch annexation, the first feed screw nut 5f is controlled to drive contiguous block 5e by the first motor 5j
Arrive again at zero position, the first motor 5j is shut down, and first locking mechanism work makes the first feed screw nut 5f and contiguous block 5e
Depart from, the second screw mandrel 5d and contiguous block 5e is connected as a single entity by second locking mechanism, and the second screw mandrel is driven by the second screw mandrel 5d motors
5d is rotated, and contiguous block 5e motions is driven when the second feed screw nut 5g is moved, so as to drive the second sliding platform 5a to transport in the vertical
It is dynamic.
In the utility model, the first screw mandrel 5c and the second screw mandrel 5d pitch are significantly different, i.e., the work of different screw mandrels is led
The minimum range for causing the second sliding platform 5a to move is different, and different screw mandrel work correspond to different machining accuracies.
The first screw mandrel 5c and the second screw mandrel 5d front side are provided with first bearing seat 5h, and the clutch shaft bearing is provided with two
Axis hole, the first screw mandrel 5c and the second screw mandrel 5d front end are plugged in an axis hole respectively, before the second screw mandrel 5d
End is provided with the first motor 5j, first motor 5j through first bearing seat 5h positioned at first bearing seat 5h front side
It is fixedly connected with pedestal 1, the first motor 5j main shaft is connected by shaft coupling and the second screw mandrel 5d front end.
The first screw mandrel 5c and the second screw mandrel 5d rear side are provided with second bearing seat 5k, and the second bearing is provided with two
Axis hole, the first screw mandrel 5c and the second screw mandrel 5d rear end are plugged in an axis hole respectively, before the first screw mandrel 5c
End is provided with the second motor 5m, second motor 5m through second bearing seat 5k positioned at second bearing seat 5k rear end
It is bolted and is integrated with second bearing seat 5k, the second motor 5m main shaft passes through shaft coupling and the first screw mandrel 5c
Rear-end transmission connects.
First drive component includes being fixed on second that two set on column 2a in vertical state are parallel to each other
Guide rail 2c, the first sliding platform 3a and two the second guide rail 2c are slidably connected, and are provided between described two second guide rail 2c
The 3rd screw mandrel 2d set in vertical state, the 3rd screw mandrel 2d bottom are connected with column 2a lower rotation, the column 2a
Top be provided with driving the 3rd screw mandrel 2d rotations the 3rd motor 2e, the 3rd screw mandrel 2d through the first sliding platform 3a simultaneously
It is threadedly coupled with it.
Second drive component includes two the 3rd guide rail 6a parallel to the width of pedestal 1 setting up and down, the
Three guide rail 6a both ends are separately fixed on a column 2a the first sliding platform 3a, are set between two the 3rd guide rail 6a
There is the 4th screw mandrel 6b, the 4th screw mandrel 6b one end is rotatablely connected with the first sliding platform 3a on a column 2a, another
The first sliding platform 3a on column 2a is provided with the 4th motor 6c, the 4th screw mandrel the 6b other end and the 4th motor 6c
Drive connection, is provided with the 3rd sliding platform 6d on described two 3rd guide rail 6a, the 3rd sliding platform 6d and two the 3rd
Guide rail 6a is slidably connected, and the 4th screw mandrel 6b is threadedly coupled through the 3rd sliding platform 6d and with it.
The second sliding platform 5a sidepieces are provided with cooling tube 7, for being cooled down to workpiece.
In order to obtain more preferable cooling effect, the cooling tube 7 is provided with two, and two cooling tubes 7 are slided positioned at second respectively
The moving platform 5a left and right sides.
The first screw mandrel 5c and the second screw mandrel 5d axis are in same perpendicular.
The first locking mechanism is the first cylinder 8 installed in contiguous block 5e sidepieces, and the output end of first cylinder 8 is pacified
Equipped with the first clamping block 8a perpendicular to the first screw mandrel 5c, contiguous block 5e is provided with first passed through for first clamping block 8a and led to
Hole, the second through hole interted for the first feed screw nut 5f is additionally provided with contiguous block 5e, is set in the first feed screw nut 5f side wall
The front end for having first the first clamping block of lock slots 8a is inserted into the first lock slots in the first through hole that is driven through of the first cylinder 8
In 5f1.
The first clamping block 8a is cylindrical structure, and first through hole is circular hole, and the first lock slots 5f1 is cylinder groove, institute
It is identical with the first lock slots 5f1 diameter to state the first clamping block 8a, first through hole.
The first clamping block 8a is strip block, and first through hole is square opening, and the first lock slots 5f1 is square groove,
The first clamping block 8a, first through hole are identical with the first lock slots 5f1 cross section.
The second locking mechanism is the second cylinder 9 installed in contiguous block 5e sidepieces, and the output end of second cylinder 9 is pacified
Equipped with the second clamping block 9a perpendicular to the second screw mandrel 5d, contiguous block 5e is provided with the threeway passed through for second clamping block 9a
Hole, the fourth hole interted for the second feed screw nut 5g is additionally provided with contiguous block 5e, is set in the second feed screw nut 5g side wall
There are the second lock slots, the second clamping block 9a front end is inserted into the second locking in second through hole that is driven through of the second cylinder 9
In groove.
The second clamping block 9a is cylindrical structure, and third through-hole is circular hole, and the second lock slots are cylinder groove, described
Two clamping block 9a, third through-hole and the second lock slots diameter are identical.
The second clamping block 9a is strip block, and third through-hole is square opening, and the second lock slots are square groove, described
Second clamping block 9a, the second through hole and the second lock slots cross section are identical.
It is described above, only it is preferred embodiment of the present utility model, not technical scope of the present utility model is made
Go out any restrictions, thus it is every any trickle amendment made according to the technical essence of the utility model to above example, equivalent
Change and modification, in the range of still falling within the technical solution of the utility model.
Claims (7)
1. a kind of efficient planer-type milling machine, including pedestal (1) and portal frame (2), portal frame (2) is set up on pedestal (1), gantry
Frame (2) includes two columns (2a) and the crossbeam (2b) at the top of two columns (2a), is respectively mounted on two columns (2a)
There is the first sliding platform (3a), first sliding platform (3a) be arranged in parallel with crossbeam (2b), is respectively mounted on two columns (2a)
There are the first drive component for driving its corresponding first sliding platform (3a) to be moved in vertical direction, two sliding platforms
There is drill bit (4) between (3a) and drive and set described in the second drive component that the drill bit (4) moves in the horizontal on pedestal (1)
Have the second sliding platform (5a), be provided with the pedestal (1) for drive that the second sliding platform (5a) moves in the vertical the
Three drive components;3rd drive component includes the first guide rail (5b) for two parallel to pedestal (1) length direction, and described the
Two sliding platforms (5a) bottom corresponds to each first guide rail (5b) and is equipped with one and its chute that is slidably matched, and is led positioned at two first
The first screw mandrel (5c) and the second screw mandrel (5d) parallel to pedestal (1) are provided between rail (5b), first screw mandrel (5c) is located at
The surface of second screw mandrel (5d), the first screw mandrel (5c) and the second screw mandrel (5d) are respectively positioned on the second sliding platform (5a) lower section,
Lead screw transmission mechanism is installed on first screw mandrel (5c) and the second screw mandrel (5d), the lead screw transmission mechanism includes contiguous block
(5e), the first feed screw nut (5f) and the second feed screw nut (5g), side and the second sliding platform of the contiguous block (5e)
(5a) is fixedly connected, and first feed screw nut (5f) is socketed on the first screw mandrel (5c), the second feed screw nut (5g) set
It is connected on the second screw mandrel (5d), the opposite side of the contiguous block (5e) is respectively equipped with first locking mechanism and second locking mechanism,
First locking mechanism is used to the first feed screw nut (5f) and contiguous block (5e) being connected as a single entity, and the second locking mechanism is used for will
Second feed screw nut (5g) is connected as a single entity with contiguous block (5e);The front side of first screw mandrel (5c) and the second screw mandrel (5d) is provided with
First bearing seat (5h), the clutch shaft bearing are provided with the front end of two axis holes, first screw mandrel (5c) and the second screw mandrel (5d)
It is plugged on respectively in an axis hole, the front end of second screw mandrel (5d) passes through first bearing seat (5h), positioned at first bearing seat
The front side of (5h) is provided with the first motor (5j), and first motor (5j) is fixedly connected with pedestal (1), the first driving electricity
The main shaft of machine (5j) is connected by the front end of shaft coupling and the second screw mandrel (5d);First screw mandrel (5c) and the second screw mandrel
The rear side of (5d) is provided with second bearing seat (5k), and the second bearing is provided with two axis holes, first screw mandrel (5c) and second
The rear end of screw mandrel (5d) is plugged in an axis hole respectively, and the front end of first screw mandrel (5c) passes through second bearing seat (5k),
The second motor (5m), second motor (5m) and second bearing seat are provided with positioned at the rear end of second bearing seat (5k)
(5k), which is bolted, to be integrated, and the main shaft of the second motor (5m) is passed by the rear end of shaft coupling and the first screw mandrel (5c)
Dynamic connection.
A kind of 2. efficient planer-type milling machine according to claim 1, it is characterised in that:First drive component includes fixing
On column (2a) in vertical state set two the second guide rails (2c) being parallel to each other, first sliding platform (3a) with
Two the second guide rails (2c) are slidably connected, and the 3rd screw mandrel set in vertical state is provided between described two second guide rails (2c)
(2d), the bottom of the 3rd screw mandrel (2d) are connected with the lower rotation of column (2a), and the top of the column (2a) is provided with driving should
3rd motor (2e) of the 3rd screw mandrel (2d) rotation, the 3rd screw mandrel (2d) through the first sliding platform (3a) and with its spiral shell
Line connects.
A kind of 3. efficient planer-type milling machine according to claim 1, it is characterised in that:Second drive component includes two
The 3rd guide rail (6a) parallel to pedestal (1) width setting up and down, the both ends of the 3rd guide rail (6a) are separately fixed at one
On the first sliding platform (3a) of individual column (2a), the 4th screw mandrel (6b) is provided between two the 3rd guide rails (6a), this
One end of four screw mandrels (6b) is rotatablely connected with the first sliding platform (3a) on a column (2a), on another column (2a)
First sliding platform (3a) is provided with the 4th motor (6c), and the other end of the 4th screw mandrel (6b) and the 4th motor (6c) pass
Dynamic connection, is provided with the 3rd sliding platform (6d) on described two 3rd guide rails (6a), the 3rd sliding platform (6d) with two
3rd guide rail (6a) is slidably connected, and the 4th screw mandrel (6b) is threadedly coupled through the 3rd sliding platform (6d) and with it.
A kind of 4. efficient planer-type milling machine according to claim 1, it is characterised in that:The first locking mechanism be installed in
First cylinder (8) of contiguous block (5e) sidepiece, the output end of first cylinder (8) are provided with perpendicular to the first screw mandrel (5c)
One clamping block (8a), contiguous block (5e) are provided with the first through hole passed through for first clamping block (8a), gone back on contiguous block (5e)
Provided with the second interspersed through hole of the first feed screw nut (5f) is supplied, the first locking is provided with the side wall of the first feed screw nut (5f)
Groove, the front end of the first clamping block (8a) are inserted into the first lock slots in the first through hole that is driven through of the first cylinder (8).
A kind of 5. efficient planer-type milling machine according to claim 4, it is characterised in that:First clamping block (8a) is cylinder
Body structure, first through hole are circular hole, and the first lock slots are cylinder groove, first clamping block (8a), first through hole and the first lock
The diameter for determining groove is identical.
A kind of 6. efficient planer-type milling machine according to claim 1, it is characterised in that:The second locking mechanism be installed in
Second cylinder (9) of contiguous block (5e) sidepiece, the output end of second cylinder (9) are provided with perpendicular to the second screw mandrel (5d)
Two clamping blocks (9a), contiguous block (5e) are provided with the third through-hole passed through for second clamping block (9a), gone back on contiguous block (5e)
Provided with the interspersed fourth hole (5e4) of the second feed screw nut (5g) is supplied, second is provided with the side wall of the second feed screw nut (5g)
Lock slots, the front end of the second clamping block (9a) are inserted into the second lock slots in second through hole that is driven through of the second cylinder (9)
It is interior.
A kind of 7. efficient planer-type milling machine according to claim 6, it is characterised in that:Second clamping block (9a) is cylinder
Body structure, third through-hole are circular hole, and the second lock slots are cylinder groove, second clamping block (9a), third through-hole and the second lock
The diameter for determining groove is identical.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720389139.9U CN206779542U (en) | 2017-04-13 | 2017-04-13 | A kind of efficient planer-type milling machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720389139.9U CN206779542U (en) | 2017-04-13 | 2017-04-13 | A kind of efficient planer-type milling machine |
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CN206779542U true CN206779542U (en) | 2017-12-22 |
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CN201720389139.9U Expired - Fee Related CN206779542U (en) | 2017-04-13 | 2017-04-13 | A kind of efficient planer-type milling machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110315350A (en) * | 2019-07-31 | 2019-10-11 | 江西乔扬数控设备有限公司 | A kind of damping guide rail of CNC planer type milling machine |
CN111546436A (en) * | 2020-05-14 | 2020-08-18 | 河北红阳润达窗业有限公司 | Energy-saving aluminum-clad wood door and window milling machine |
-
2017
- 2017-04-13 CN CN201720389139.9U patent/CN206779542U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110315350A (en) * | 2019-07-31 | 2019-10-11 | 江西乔扬数控设备有限公司 | A kind of damping guide rail of CNC planer type milling machine |
CN111546436A (en) * | 2020-05-14 | 2020-08-18 | 河北红阳润达窗业有限公司 | Energy-saving aluminum-clad wood door and window milling machine |
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