CN107042596A

CN107042596A - A kind of process units for manufacturing sizing nano material

Info

Publication number: CN107042596A
Application number: CN201710329261.1A
Authority: CN
Inventors: 崔建勋
Original assignee: Long Shi (beijing) Nano Technology Co Ltd
Current assignee: Long Shi (beijing) Nano Technology Co Ltd
Priority date: 2017-05-11
Filing date: 2017-05-11
Publication date: 2017-08-15
Anticipated expiration: 2037-05-11
Also published as: CN107042596B

Abstract

The present invention relates to a kind of process units field for nano material of shaping, in particular it is a kind of process units for manufacturing sizing nano material, including motor I, shaft coupling, fixed cover, support base I, slide laterally axle, fixed seat, connecting plate, support base II, turning set, leading screw I, location-plate I, Mobile base, fixed plate, measure connecting seat, measurement bar, motor fixing seat, measure base, motor II, vertical rod, location-plate II, vertically slidable axle, leading screw II, sliding shoe, pad and fixed turning-bar, can be in the forming technique of nano material, it is easy to adjust the relative position between dynamic model and cover half, ensure formed precision.Turning set is connected with fixed seat, and turning set is connected with leading screw I, and location-plate I is connected with vertical rod, vertically slidable axle is connected with location-plate I, and vertically slidable axle passes through Mobile base, and Mobile base is connected with fixed plate, vertically slidable axle is connected with location-plate II, and leading screw II is connected with motor II.

Description

A kind of process units for manufacturing sizing nano material

Technical field

In particular it is a kind of manufacture sizing nanometer the present invention relates to a kind of process units field for nano material of shaping The process units of material.

Background technology

Nanostructured is a kind of new system constructed or built according to certain rules based on the urstoff of nanoscale. It includes nano-array system, medium porosity assembling system, film and inlays system.Research to nano-array system is concentrated on by metal In nanoparticle or Semiconductor Nanometer Particles two systems that proper alignment is formed on the substrate of an insulation.And nanometer is micro- Characteristic of the grain with mesoporous solid assembly system due to particulate in itself, and some new effects produced by being coupled with the matrix at interface Should, study hotspot has also been become, inorganic mesoporous complex and high score can be divided into according to the species of wherein supporter The sub- major class of mesic hole compound two, order mesoporous complex can be divided into and unordered composite mesoporous by the state of supporter again Body, in nano material shaping, due to the method that the particularity of nano material, some shapings are moulded using mould, but at present Matched moulds process in, it is difficult to adjust the position between dynamic model and cover half, thus design it is a kind of manufacture sizing nano material production Device.

The content of the invention

The present invention solves the technical problem of a kind of process units for manufacturing sizing nano material is provided, it can receive In the forming technique of rice material, it is easy to adjust the relative position between dynamic model and cover half, it is ensured that formed precision.

In order to solve the above technical problems, the present invention relates to it is a kind of shape nano material process units field, more specifically Say it is a kind of process units for manufacturing sizing nano material, including motor I, shaft coupling, fixed cover, support base I, slide laterally Axle, fixed seat, connecting plate, support base II, turning set, leading screw I, location-plate I, Mobile base, fixed plate, measurement connecting seat, measurement Bar, motor fixing seat, measurement base, motor II, vertical rod, location-plate II, vertically slidable axle, leading screw II, sliding shoe, pad and solid Determine turning-bar, can be easy to adjust the relative position between dynamic model and cover half, it is ensured that shaping in the forming technique of nano material Precision.

Support base I is provided with breach, circular hole I, pin shaft hole, through hole I and screw hole I；

Connecting plate is provided with arc length mouth, the short mouth of arc, circular hole II, through hole II, screwing through hole and tangent plane；

Mobile base is provided with slip shaft through-hole I, screw hole II, leading screw through hole, slip shaft through-hole II and side opening；

Vertical rod is provided with steering rod aperture I, steering rod aperture II and sight hole；

Sliding shoe is tight provided with vertically slidable shaft through-hole I, vertical leading screw via, vertically slidable shaft through-hole II, side lever, screw Solid hole I, screw fastener hole II, connecting seat fixing hole and connecting hole；

Shaft coupling is connected with motor I, and shaft coupling is connected with leading screw I, and fixed cover is connected with support base I, laterally sliding Moving axis is connected with support base I, slides laterally axle and is connected with fixed seat, fixed seat is connected with connecting plate, support base II with Slide laterally axle to be connected, turning set is connected with fixed seat, turning set is connected with leading screw I, location-plate I is connected with vertical rod Connect, vertically slidable axle is connected with location-plate I, vertically slidable axle passes through Mobile base, Mobile base is connected with fixed plate, fixed plate Be connected with sliding shoe, measurement connecting seat be connected with sliding shoe, measurement bar with measure connecting seat be connected, motor fixing seat and Vertical rod is connected, measurement base be connected with motor fixing seat, and measurement base be located at motor fixing seat upper end, motor II and Motor fixing seat is connected, and location-plate II is connected with vertical rod, and vertically slidable axle is connected with location-plate II, leading screw II and motor II is connected, and pad is connected with fixed turning-bar, and fixed turning-bar is connected with vertical rod.

As the further optimization of the technical program, described in a kind of process units for manufacturing sizing nano material of the present invention The quantity for sliding laterally axle is two.

As the further optimization of the technical program, described in a kind of process units for manufacturing sizing nano material of the present invention Axle is slid laterally to be connected to compress with the connected mode of support base I.

As the further optimization of the technical program, described in a kind of process units for manufacturing sizing nano material of the present invention Fixed plate is provided with some sizing holes.

As the further optimization of the technical program, described in a kind of process units for manufacturing sizing nano material of the present invention The axial line of measurement bar is perpendicular to horizontal plane.

As the further optimization of the technical program, described in a kind of process units for manufacturing sizing nano material of the present invention Turning set is that ball-screw is connected with leading screw I.

As the further optimization of the technical program, described in a kind of process units for manufacturing sizing nano material of the present invention The axial line of vertically slidable axle is perpendicular to the axial line for sliding laterally axle.

A kind of process units for manufacturing sizing nano material of the present invention has the beneficial effect that：

A kind of process units for manufacturing sizing nano material of the present invention, can be easy in the forming technique of nano material Adjust the relative position between dynamic model and cover half, it is ensured that formed precision.

Brief description of the drawings

The present invention will be further described in detail with specific implementation method below in conjunction with the accompanying drawings.

Fig. 1 is a kind of structural representation for the process units for manufacturing sizing nano material of the present invention.

Fig. 2 is a kind of axle side structure schematic diagram for the process units for manufacturing sizing nano material of the present invention.

Fig. 3 is a kind of structural representation of support base I 4 for the process units for manufacturing sizing nano material of the present invention.

Fig. 4 is a kind of structural representation of connecting plate 7 for the process units for manufacturing sizing nano material of the present invention.

Fig. 5 is a kind of structural representation of Mobile base 12 for the process units for manufacturing sizing nano material of the present invention.

Fig. 6 is a kind of structural representation of vertical rod 19 for the process units for manufacturing sizing nano material of the present invention.

Fig. 7 is a kind of structural representation of sliding shoe 23 for the process units for manufacturing sizing nano material of the present invention.

In figure：Motor I 1；Shaft coupling 2；Fixed cover 3；Support base I 4；Breach 4-1；The 4-2 of circular hole I；Pin shaft hole 4-3；Through hole I 4-4；The 4-5 of screw hole I；Slide laterally axle 5；Fixed seat 6；Connecting plate 7；Arc length mouthful 7-1；The short mouth 7-2 of arc；The 7-3 of circular hole II； The 7-4 of through hole II；Screwing through hole 7-5；Tangent plane 7-6；Support base II 8；Turning set 9；Leading screw I 10；Location-plate I 11；Mobile base 12；It is sliding The 12-1 of moving axis through hole I；The 12-2 of screw hole II；Leading screw through hole 12-3；Slide the 12-4 of shaft through-hole II；Side opening 12-5；Fixed plate 13；Survey Measure connecting seat 14；Measurement bar 15；Motor fixing seat 16；Measure base 17；Motor II 18；Vertical rod 19；Turn to the 19-1 of rod aperture I；Turn To the 19-2 of rod aperture II；Sight hole 19-3；Location-plate II 20；Vertically slidable axle 21；Leading screw II 22；Sliding shoe 23；Vertically slidable axle The 23-1 of through hole I；Vertical leading screw via 23-2；The vertically slidable 23-3 of shaft through-hole II；Side lever 23-4；The 23-5 of screw fastener hole I；Screw The 23-6 of fastener hole II；Connecting seat fixing hole 23-7；Connecting hole 23-8；Pad 24；Fixed turning-bar 25.

Embodiment

Embodiment one：

Illustrate present embodiment with reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6 and Fig. 7, the present invention relates to one kind sizing The process units field of nano material, be in particular it is a kind of manufacture sizing nano material process units, including motor I 1, Shaft coupling 2, fixed cover 3, support base I 4, slide laterally axle 5, fixed seat 6, connecting plate 7, support base II 8, turning set 9, leading screw I 10th, location-plate I 11, Mobile base 12, fixed plate 13, measurement connecting seat 14, measurement bar 15, motor fixing seat 16, measurement base 17, Motor II 18, vertical rod 19, location-plate II 20, vertically slidable axle 21, leading screw II 22, sliding shoe 23, pad 24 and fixed turning-bar 25, it can be easy to adjust the relative position between dynamic model and cover half, it is ensured that formed precision in the forming technique of nano material.

Support base I 4 is provided with breach 4-1, the 4-2 of circular hole I, pin shaft hole 4-3, the 4-4 of through hole I and screw hole I 4-5, breach 4-1 Effect be to slide laterally axle 5 to clamp, the 4-2 of circular hole I be in order to prevent stress concentration, pin shaft hole 4-3 effect be in order to Put bearing pin and fix sliding axle 5 so that sliding axle 5 is not rolled, the 4-4 of through hole I effect is the fixed cover 3 in order that leading screw I 10 is passed through Connection with support base I 4 is to be screwed into by screw in the 4-5 of screw hole I；

Connecting plate 7 is provided with arc length mouthful 7-1, the short mouth 7-2 of arc, the 7-3 of circular hole II, the 7-4 of through hole II, screwing through hole 7-5 With tangent plane 7-6, the arc length mouthful 7-1 and short mouth 7-2 of arc effect is to provide scope of activities, the 7- of circular hole II for fixed turning-bar 25 3 effect is to prevent stress concentration, and the 7-4's of through hole II act as observation, screwing through hole 7-5 and tangent plane 7-6 be in order to fixation 6 mode connects for screw of seat；

Mobile base 12 is provided with slip shaft through-hole I 12-1, the 12-2 of screw hole II, leading screw through hole 12-3, slip shaft through-hole II 12-4 and side opening 12-5, it is in order that vertically slidable axle 21 is worn to slide effects of the 12-1 of shaft through-hole I with sliding the 12-4 of shaft through-hole II Cross, the 12-2 of screw hole II effect is so that sliding shoe 23 is connected with Mobile base 12 by screw, leading screw through hole 12-3 work With being that side opening 12-5 effect is so that fixed turning-bar 25 can fix vertically slidable axle 21 in order that leading screw II 22 is passed through Rotate；

Vertical rod 19 provided with turning to rod aperture I 19-1, turning to the 19-2 of rod aperture II and sight hole 19-3, turn to the 19-1 of rod aperture I and The effect for turning to the 19-2 of rod aperture II is that, in order to be connected with fixed turning-bar 25, sight hole 19-3 effect is easy for observing vertical rod Situation inside 19；

Sliding shoe 23 is provided with the vertically slidable 23-1 of shaft through-hole I, vertical leading screw via 23-2, vertically slidable shaft through-hole II 23-3, side lever 23-4, the 23-5 of screw fastener hole I, the 23-6 of screw fastener hole II, connecting seat fixing hole 23-7 and connecting hole 23-8, Slide the 23-1 of the shaft through-hole I and vertically slidable 23-3 of shaft through-hole II act as pass through vertically slidable axle 21, vertical leading screw via 23-2 effect is side lever 23-4, the 23-5 of screw fastener hole I and the 23-6 of screw fastener hole II work in order that leading screw II 22 is passed through With being connected with fixed plate 13, connecting seat fixing hole 23-7 is to be connected with measurement connecting seat 14, it is ensured that measurement connection The position of seat 14 is fixed, and connecting hole 23-8 effect is so that sliding shoe 23 is connected with Mobile base 12 by screw, then increases Plus the controllability of the motion process of sliding shoe 23；

Shaft coupling 2 is connected with motor I 1, and shaft coupling 2 is connected with motor I 1 by key, and shaft coupling 2 is connected with leading screw I 10 Connect, shaft coupling 2 is connected with leading screw I 10 by key, fixed cover 3 is connected with support base I 4, fixed cover 3 passes through spiral shell with support base I 4 Nail connection, slides laterally axle 5 and is connected with support base I 4, slide laterally axle 5 and be connected with fixed seat 6, slides laterally axle 5 and solid The connected mode of reservation 6 is is slidably connected, and fixed seat 6 is connected with connecting plate 7, and fixed seat 6 is connected with connecting plate 7 by screw Connect, support base II 8 is connected with sliding laterally axle 5, support base II 8 is connected with sliding laterally the connected mode of axle 5 to compress, turn Dynamic set 9 is connected with fixed seat 6, and turning set 9 is connected with fixed seat 6 by screw, and turning set 9 is connected with leading screw I 10, turns Dynamic set 9 is connected with the connected mode of leading screw I 10 for ball-screw, and location-plate I 11 is connected with vertical rod 19, and location-plate I 11 is with standing The connected mode of bar 19 is welding, and vertically slidable axle 21 is connected with location-plate I 11, vertically slidable axle 21 and location-plate I 11 Connected mode connects to compress, and vertically slidable axle 21 passes through Mobile base 12, and Mobile base 12 is connected with fixed plate 13, Mobile base 12 Connected mode with fixed plate 13 is welding, and fixed plate 13 is connected with sliding shoe 23, and fixed plate 13 passes through spiral shell with sliding shoe 23 Nail is connected, and measurement connecting seat 14 is connected with sliding shoe 23, and the connected mode of measurement connecting seat 14 and sliding shoe 23 is interference Coordinate, measurement bar 15 is connected with measurement connecting seat 14, the connected mode of measurement bar 15 and measurement connecting seat 14 is interference fit, Motor fixing seat 16 is connected with vertical rod 19, and the connected mode of motor fixing seat 16 and vertical rod 19 is welding, measurement base 17 with Motor fixing seat 16 is connected, and the connected mode of measurement base 17 and motor fixing seat 16 is to weld, and measurement base 17 is located at The upper end of motor fixing seat 16, motor II 18 is connected with motor fixing seat 16, motor II 18 and the connection of motor fixing seat 16 Mode is welding, and location-plate II 20 is connected with vertical rod 19, and the connected mode of location-plate II 20 and vertical rod 19 is welding, vertical sliding Moving axis 21 is connected with location-plate II 20, and vertically slidable axle 21 is connected with the connected mode of location-plate II 20 to compress, leading screw II 22 are connected with motor II 18, and leading screw II 22 is connected with the connected mode of motor II 18 for key, leading screw II 22 and sliding shoe 23 Connected mode connects for ball screw, and pad 24 is connected with fixed turning-bar 25, the connection of pad 24 and fixed turning-bar 25 Mode is welding, and fixed turning-bar 25 is connected with vertical rod 19, and fixed turning-bar 25 and the connected mode of vertical rod 19 connect for screw thread Connect.

Embodiment two：

Illustrate present embodiment with reference to Fig. 1 and Fig. 2, present embodiment is described further to embodiment one, institute The quantity for sliding laterally axle 5 stated is two.

Embodiment three：

Illustrate present embodiment with reference to Fig. 1 and Fig. 2, present embodiment is described further to embodiment one, institute The axle 5 that slides laterally stated is connected with the connected mode of support base I 4 to compress.

Embodiment four：

Illustrate present embodiment with reference to Fig. 1 and Fig. 2, present embodiment is described further to embodiment one, institute The fixed plate 13 stated is provided with some sizing holes.

Embodiment five：

Illustrate present embodiment with reference to Fig. 1 and Fig. 2, present embodiment is described further to embodiment one, institute The axial line for the measurement bar 15 stated is perpendicular to horizontal plane.

Embodiment six：

Illustrate present embodiment with reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6 and Fig. 7, present embodiment is to embodiment party Formula one is described further, and described turning set 9 is connected with leading screw I 10 for ball-screw.

Embodiment seven：

Illustrate present embodiment with reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6 and Fig. 7, present embodiment is to embodiment party Formula one is described further, and the axial line of described vertically slidable axle 21 is perpendicular to the axial line for sliding laterally axle 5.

Operation principle：Shaft coupling 2 is connected with motor I 1 by key, and shaft coupling 2 is connected with leading screw I 10 by key, fixed cover 3 It is connected by screw with support base I 4, slides laterally axle 5 and be connected with fixed seat 6, slide laterally the connection of axle 5 and fixed seat 6 Mode is is slidably connected, and fixed seat 6 is connected with connecting plate 7 by screw, support base II 8 and the connection side for sliding laterally axle 5 Formula is connected to compress, and turning set 9 is connected with fixed seat 6 by screw, and the connected mode of turning set 9 and leading screw I 10 is ball Leading screw is connected, and the connected mode of location-plate I 11 and vertical rod 19 is welding, the connected mode of vertically slidable axle 21 and location-plate I 11 To compress connection, vertically slidable axle 21 passes through Mobile base 12, and the connected mode of Mobile base 12 and fixed plate 13 is welding, fixed plate 13 are connected with sliding shoe 23 by screw, and the connected mode of measurement connecting seat 14 and sliding shoe 23 is interference fit, measurement bar 15 with measuring the connected mode of connecting seat 14 to be interference fitted, and the connected mode of motor fixing seat 16 and vertical rod 19 is surveyed to weld The connected mode for measuring base 17 and motor fixing seat 16 is welding, and measurement base 17 is located at the upper end of motor fixing seat 16, electricity The connected mode of machine II 18 and motor fixing seat 16 is to weld, and the connected mode of location-plate II 20 and vertical rod 19 is welding, vertically Sliding axle 21 is connected with the connected mode of location-plate II 20 to compress, and the connected mode of leading screw II 22 and motor II 18 connects for key Connect, the connected mode of pad 24 and fixed turning-bar 25 is welding, the connected mode of fixed turning-bar 25 and vertical rod 19 is screw thread Connection, motor I 1 is driven leading screw I 10 by shaft coupling 2, and leading screw I 10 causes fixed seat 6 to slide laterally on axle 5 after rotating Slide, then move fixed seat 6, motor II 18 drives leading screw II 22 to rotate, leading screw II 22, which is rotated, will drive sliding shoe 23 perpendicular Slided up and down on to sliding axle 21, then control fixed plate 13 lengthwise position, the device can nano material shaping skill In art, be easy to adjust the relative position between dynamic model and cover half, it is ensured that formed precision can in the forming technique of nano material, It is easy to adjust the relative position between dynamic model and cover half, it is ensured that formed precision.

Certainly, described above not limitation of the present invention, the present invention is also not limited to the example above, the art The variations, modifications, additions or substitutions that those of ordinary skill is made in the essential scope of the present invention, fall within the guarantor of the present invention Protect scope.

Claims

1. a kind of process units for manufacturing sizing nano material, including motor I (1), shaft coupling (2), fixed cover (3), support base I (4) axle (5), fixed seat (6), connecting plate (7), support base II (8), turning set (9), leading screw I (10), location-plate I, are slid laterally (11), Mobile base (12), fixed plate (13), measurement connecting seat (14), measurement bar (15), motor fixing seat (16), measurement base (17), motor II (18), vertical rod (19), location-plate II (20), vertically slidable axle (21), leading screw II (22), sliding shoe (23), pad Piece (24) and fixed turning-bar (25), it is characterised in that：Support base I (4) is provided with breach (4-1), circular hole I (4-2), pin shaft hole (4-3), through hole I (4-4) and screw hole I (4-5)；

Connecting plate (7) leads to provided with arc length mouthful (7-1), the short mouth of arc (7-2), circular hole II (7-3), through hole II (7-4), screw Hole (7-5) and tangent plane (7-6)；

Mobile base (12) leads to provided with shaft through-hole I (12-1), screw hole II (12-2), leading screw through hole (12-3), sliding axle is slided Hole II (12-4) and side opening (12-5)；

Vertical rod (19) is provided with steering rod aperture I (19-1), steering rod aperture II (19-2) and sight hole (19-3)；

Sliding shoe (23) is provided with vertically slidable shaft through-hole I (23-1), vertical leading screw via (23-2), vertically slidable shaft through-hole II (23-3), side lever (23-4), screw fastener hole I (23-5), screw fastener hole II (23-6), connecting seat fixing hole (23-7) and company Connect hole (23-8)；

Shaft coupling (2) is connected with motor I (1), and shaft coupling (2) is connected with leading screw I (10), fixed cover (3) and support base I (4) it is connected, slides laterally axle (5) and be connected with support base I (4), slides laterally axle (5) and be connected with fixed seat (6), it is fixed Seat (6) is connected with connecting plate (7), and support base II (8) is connected with sliding laterally axle (5), turning set (9) and fixed seat (6) It is connected, turning set (9) is connected with leading screw I (10), location-plate I (11) is connected with vertical rod (19), vertically slidable axle (21) It is connected with location-plate I (11), vertically slidable axle (21) passes through Mobile base (12), Mobile base (12) is connected with fixed plate (13) Connect, fixed plate (13) is connected with sliding shoe (23), measurement connecting seat (14) be connected with sliding shoe (23), measurement bar (15) and Measurement connecting seat (14) is connected, and motor fixing seat (16) is connected with vertical rod (19), measurement base (17) and motor fixing seat (16) it is connected, and measurement base (17) is located at the upper end of motor fixing seat (16), motor II (18) and motor fixing seat (16) It is connected, location-plate II (20) is connected with vertical rod (19), vertically slidable axle (21) is connected with location-plate II (20), leading screw II (22) it is connected with motor II (18), pad (24) is connected with fixed turning-bar (25), fixed turning-bar (25) and vertical rod (19) it is connected.

2. a kind of process units for manufacturing sizing nano material according to claim 1, it is characterised in that：Described transverse direction The quantity of sliding axle (5) is two.

3. a kind of process units for manufacturing sizing nano material according to claim 1, it is characterised in that：Described transverse direction Sliding axle (5) is connected with the connected mode of support base I (4) to compress.

4. a kind of process units for manufacturing sizing nano material according to claim 1, it is characterised in that：Described fixation Plate (13) is provided with some sizing holes.

5. a kind of process units for manufacturing sizing nano material according to claim 1, it is characterised in that：Described measurement The axial line of bar (15) is perpendicular to horizontal plane.

6. a kind of process units for manufacturing sizing nano material according to claim 1, it is characterised in that：Described rotation Set (9) is that ball-screw is connected with leading screw I (10).

7. a kind of process units for manufacturing sizing nano material according to claim 1, it is characterised in that：Described is vertical The axial line of sliding axle (21) is perpendicular to the axial line for sliding laterally axle (5).