CN109822412A - Grinding machine is used in a kind of production of high strength titanium alloy - Google Patents
Grinding machine is used in a kind of production of high strength titanium alloy Download PDFInfo
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- CN109822412A CN109822412A CN201910200046.0A CN201910200046A CN109822412A CN 109822412 A CN109822412 A CN 109822412A CN 201910200046 A CN201910200046 A CN 201910200046A CN 109822412 A CN109822412 A CN 109822412A
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- titanium alloy
- push plate
- fixed plate
- upper millstone
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- 229910001069 Ti alloy Inorganic materials 0.000 title claims abstract description 77
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 17
- 239000000428 dust Substances 0.000 claims description 49
- 230000001141 propulsive effect Effects 0.000 claims description 21
- 238000009434 installation Methods 0.000 claims description 3
- 239000000463 material Substances 0.000 claims description 3
- 229910000831 Steel Inorganic materials 0.000 claims 1
- 239000010959 steel Substances 0.000 claims 1
- 238000005498 polishing Methods 0.000 abstract description 14
- BVPWJMCABCPUQY-UHFFFAOYSA-N 4-amino-5-chloro-2-methoxy-N-[1-(phenylmethyl)-4-piperidinyl]benzamide Chemical compound COC1=CC(N)=C(Cl)C=C1C(=O)NC1CCN(CC=2C=CC=CC=2)CC1 BVPWJMCABCPUQY-UHFFFAOYSA-N 0.000 abstract description 10
- 230000000694 effects Effects 0.000 abstract description 4
- RTAQQCXQSZGOHL-UHFFFAOYSA-N Titanium Chemical compound [Ti] RTAQQCXQSZGOHL-UHFFFAOYSA-N 0.000 description 7
- 239000010936 titanium Substances 0.000 description 7
- 229910052719 titanium Inorganic materials 0.000 description 7
- 238000010586 diagram Methods 0.000 description 4
- 229910045601 alloy Inorganic materials 0.000 description 3
- 239000000956 alloy Substances 0.000 description 3
- 230000005611 electricity Effects 0.000 description 3
- PCHJSUWPFVWCPO-UHFFFAOYSA-N gold Chemical compound [Au] PCHJSUWPFVWCPO-UHFFFAOYSA-N 0.000 description 3
- 239000010931 gold Substances 0.000 description 3
- 229910052737 gold Inorganic materials 0.000 description 3
- 239000007787 solid Substances 0.000 description 3
- 238000003912 environmental pollution Methods 0.000 description 2
- 239000010935 stainless steel Substances 0.000 description 2
- 229910001220 stainless steel Inorganic materials 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000005260 corrosion Methods 0.000 description 1
- 230000007797 corrosion Effects 0.000 description 1
- 229910052751 metal Inorganic materials 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
Landscapes
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
- Grinding Of Cylindrical And Plane Surfaces (AREA)
Abstract
The present invention relates to titanium alloy technical fields more particularly to a kind of production of high strength titanium alloy to use grinding machine.Work efficiency is high, easy to operate, environment not easy to pollute and the high strength titanium alloy production grinding machine for being easy to clear up the clast of polishing the technical problem to be solved in the present invention is to provide a kind of.A kind of high strength titanium alloy production grinding machine, includes the first cylinder, the first push plate, connecting plate, grinding device, the first conveying device and the second conveying device;The first push plate is connected on the output end of first cylinder, the side close to the first push plate is placed with the second conveying device, and the side close to the second conveying device is placed with grinding device.Invention achieves work efficiency is high, easy to operate, environment not easy to pollute and the effect for being easy to clear up the clast of polishing.
Description
Technical field
The present invention relates to titanium alloy technical fields more particularly to a kind of production of high strength titanium alloy to use grinding machine.
Background technique
Titanium is a kind of important structural metal to grow up the 1950s, and titanium alloy intensity is high, corrosion resistance is good, resistance to
Hot height.The structure titanium of 50~sixties of 20th century, the high-temperature titanium alloy and body that mainly develop aero-engine close
Gold.
It needs to polish flat on its surface when producing titanium alloy, is by can only be by two tables of titanium alloy in the prior art
Face or four surfaces are polished simultaneously, and later again by the remaining surface of its rotary-grinding, such way is not only complicated for operation,
And working efficiency is low.Secondly titanium alloy can generate clast or dust in polishing, carried out to titanium alloy in the art
When polishing, it is not handled, be when titanium alloy polishing finishes, then it is unified handled, therefore not only make titanium
The dust generated when alloy is polished flies around and pollutes environment, and is difficult to clear up.
To sum up, need to research and develop that a kind of work efficiency is high, easy to operate, environment not easy to pollute and is easy to polish broken at present
Consider the high strength titanium alloy production grinding machine cleared up to be worth doing, come overcome in the prior art working efficiency it is low, it is complicated for operation, easily cause
Environmental pollution and it is not easy to the shortcomings that being cleared up the clast of polishing.
Summary of the invention
The present invention in order to overcome in the prior art working efficiency it is low, it is complicated for operation, easily cause environmental pollution and be not easy to by
The shortcomings that clast of polishing is cleared up, the technical problem to be solved in the present invention is to provide it is a kind of work efficiency is high, it is easy to operate,
Environment not easy to pollute and the high strength titanium alloy production grinding machine for being easy to clear up the clast of polishing.
The present invention is reached by technological means in detail below:
A kind of high strength titanium alloy production grinding machine includes the first cylinder, the first push plate, connecting plate, grinding device, the
One conveying device and the second conveying device;The first push plate is connected on the output end of first cylinder, close to the side of the first push plate
It is placed with the second conveying device, is placed with grinding device close to the side of the second conveying device, grinding device and the second conveying fill
It is connected between setting by connecting plate;Side close to grinding device is placed with the first conveying device;Grinding device include organic frame,
Second cylinder, mounting plate, mobile mechanism, upper millstone, lower millstone, support rod, interval propulsive mechanism, dust collection mechanism and nog plate;Branch
It is connected with lower millstone at the top of strut, connecting plate and lower millstone side are affixed, and organic frame is installed in the top of lower millstone;In bottom of the frame
Between front and rear sides be connected with multiple second cylinders, be connected with mounting plate on the output end of the second cylinder;It is solid among mounting plate bottom
It is connected to mobile mechanism, upper millstone is connected on the output end of mobile mechanism, upper millstone is located at the surface of lower millstone;Upper millstone bottom
Portion front and rear sides are connected with nog plate, and the height of nog plate is identical as the height of titanium alloy block;Upper millstone bottom is in the horizontal direction etc.
Spacing is provided with multiple air suction openings, and channel is provided in upper millstone, and channel is connected to air suction opening;Mounting plate bottom is connected with interval and promotes
Mechanism, the output end of interval propulsive mechanism are located at the lower section of upper millstone;It is connected with dust collection mechanism at the top of mounting plate, dust collection mechanism
Input terminal is protruded into upper millstone and is connected to channel.
It is further preferred that mobile mechanism includes the first sliding rail, the first sliding block, the first fixed plate, first connecting rod, tooth
Item, first motor, gear, the second sliding rail and the second sliding block;Multiple first sliding rails are equidistantly fixed in mounting plate in the horizontal direction
Bottom, the first sliding block are slidably connected with the first sliding rail, and the first slider bottom and upper millstone top are affixed;First motor and first is consolidated
Fixed board is fixed in mounting plate bottom rear, and first motor is located at the front side of the first fixed plate;On the output end of first motor
It is connected with gear;It is connected with the second sliding rail on front side of first fixed plate, the second sliding block is slidably connected with the second sliding rail;On second sliding block
It is connected with rack gear, rack and pinion engagement;First connecting rod is connected on front side of rack gear, first connecting rod end and upper millstone are solid
It connects.
It is further preferred that interval propulsive mechanism includes the second fixed plate, third fixed plate, the first elastic component, second
Elastic component, the second push plate, third push plate, the second motor, first bearing seat, second bearing seat, first rotating shaft, the second connecting rod,
Installing frame, 3rd bearing seat, the second shaft and idler wheel;Mounting plate bottom side is connected with the second fixed plate, and mounting plate bottom is another
Side is connected with third fixed plate;Second fixed plate is connected with multiple first elastic components close to the side of third fixed plate, and first
Elastic component end is connected with the second push plate;Third fixed plate is connected with multiple second elastic components close to the side of the second fixed plate,
Second elastic component end is connected with third push plate, and the second push plate and third push plate are respectively positioned on the lower section of upper millstone, and the second push plate
It is of same size with the width of third push plate and titanium alloy block;Mounting plate bottom close to the side of the second fixed plate from front to back according to
Secondary to be connected with the second motor, first bearing seat and second bearing seat, first rotating shaft rear end and second bearing seat are pivotally connected, first rotating shaft
Front end and first bearing seat are pivotally connected, and affixed through first bearing seat and the output end of the second motor;It is affixed in first rotating shaft
There are multiple second connecting rods, the second connection boom end is connected with installing frame, and front and rear sides are connected with 3rd bearing in installing frame
Seat, the second shaft rear and front end are pivotally connected with two 3rd bearing seats respectively, and the second shaft is connected with idler wheel, idler wheel and second on middle part
Push plate cooperation.
It is further preferred that dust collection mechanism includes dust suction pump, hose and dust flue;Dust suction pump is fixed in mounting plate
Top is equipped with hose and dust flue on the side of the second fixed plate, dust suction pump, and hose protrudes into upper millstone
It is interior to be connected to channel.
It is further preferred that the material of rack is stainless steel.
It is further preferred that the cross section of support rod is square.
It is further preferred that the height of the first push plate is greater than the height of titanium alloy block.
Compared with prior art, the invention has the following beneficial effects:
The present invention can simultaneously be polished six faces of titanium alloy block by mobile mechanism and interval propulsive mechanism, from
And not only make its easy to operate, but also also improve working efficiency;The present invention can be polished side titanium alloy by dust collection mechanism
Block to make its environment not easy to pollute, and is also easy to it while the clast and dust that generate when by polishing titanium alloy block siphon away
It is cleared up;To reach, work efficiency is high, easy to operate, environment not easy to pollute and is easy to clear up the clast of polishing
Effect.
Detailed description of the invention
Fig. 1 is overlooking structure diagram of the invention.
Fig. 2 is the sectional view of A-A of the present invention.
Fig. 3 is the sectional view of B-B of the present invention.
Fig. 4 is the schematic view of the front view of mobile mechanism of the present invention.
Fig. 5 is the left view structural representation of mobile mechanism of the present invention.
Fig. 6 is the enlarged structure schematic diagram of A in Fig. 5 of the present invention.
Fig. 7 is the schematic view of the front view of interval propulsive mechanism of the present invention.
Fig. 8 is the overlooking structure diagram of interval propulsive mechanism of the present invention.
Fig. 9 is the enlarged structure schematic diagram of B in Fig. 8 of the present invention.
Figure 10 is the schematic view of the front view of dust collection mechanism of the present invention.
Figure 11 is the sectional view of upper millstone of the present invention.
Figure 12 is the sectional view of D-D of the present invention.
Figure 13 is the sectional view of C-C of the present invention.
The label in accompanying drawing is: the first cylinder of 1-, the first push plate of 2-, 3- titanium alloy block, 4- connecting plate, 5- grinding device,
51- rack, the second cylinder of 52-, 53- mounting plate, 54- mobile mechanism, the first sliding rail of 5401-, the first sliding block of 5402-, 5403-
One fixed plate, 5404- first connecting rod, 5405- rack gear, 5406- first motor, 5407- gear, the second sliding rail of 5408-,
The second sliding block of 5409-, 55- upper millstone, 56- lower millstone, 57- support rod, 58- interval propulsive mechanism, the second fixed plate of 5801-,
5802- third fixed plate, the first elastic component of 5803-, the second elastic component of 5804-, the second push plate of 5805-, 5806- third push plate,
The second motor of 5807-, 5808- first bearing seat, 5809- second bearing seat, 5810- first rotating shaft, the second connecting rod of 5811-,
5812- installing frame, 5813- 3rd bearing seat, the second shaft of 5814-, 5815- idler wheel, 59- dust collection mechanism, 5901- dust suction pump,
5902- hose, 5903- dust flue, 510- air suction opening, the channel 511-, 512- nog plate, the first conveying device of 6-, 7- second
Conveying device.
Specific embodiment
The present invention is further illustrated with reference to the accompanying drawings and examples.
Embodiment
A kind of high strength titanium alloy production grinding machine includes the first cylinder 1, the first push plate 2, connects as shown in figures 1-13
Fishplate bar 4, grinding device 5, the first conveying device 6 and the second conveying device 7;First is connected on the output end of first cylinder 1 to push away
Plate 2, the side close to the first push plate 2 are placed with the second conveying device 7, and the side close to the second conveying device 7 is placed with polishing
Device 5 is connected between grinding device 5 and the second conveying device 7 by connecting plate 4;The is placed with close to the side of grinding device 5
One conveying device 6;Grinding device 5 include organic frame 51, the second cylinder 52, mounting plate 53, mobile mechanism 54, upper millstone 55, under
Mill 56, support rod 57, interval propulsive mechanism 58, dust collection mechanism 59 and nog plate 512;Lower millstone is connected at the top of support rod 57
56, connecting plate 4 and 56 side of lower millstone are affixed, and organic frame 51 is installed in the top of lower millstone 56;Front and back two among 51 bottom of rack
Side is connected with multiple second cylinders 52, is connected with mounting plate 53 on the output end of the second cylinder 52;It is solid among 53 bottom of mounting plate
Be connected to mobile mechanism 54, be connected with upper millstone 55 on the output end of mobile mechanism 54, upper millstone 55 be located at lower millstone 56 just on
Side;55 bottom front and rear sides of upper millstone are connected with nog plate 512, and the height of nog plate 512 is identical as the height of titanium alloy block 3;On
55 bottom of mill is equidistantly provided with multiple air suction openings 510 in the horizontal direction, and channel 511, channel 511 and suction are provided in upper millstone 55
Dirt hole 510 is connected to;53 bottom of mounting plate is connected with interval propulsive mechanism 58, and the output end of interval propulsive mechanism 58 is located at upper millstone
55 lower section;Dust collection mechanism 59 is connected at the top of mounting plate 53, the input terminal of dust collection mechanism 59 protrudes into upper millstone 55 and channel
511 connections.
Mobile mechanism 54 includes the first sliding rail 5401, the first sliding block 5402, the first fixed plate 5403, first connecting rod
5404, rack gear 5405, first motor 5406, gear 5407, the second sliding rail 5408 and the second sliding block 5409;Multiple first sliding rails
5401 are equidistantly fixed in 53 bottom of mounting plate in the horizontal direction, and the first sliding block 5402 is slidably connected with the first sliding rail 5401, the
One sliding block, 5402 bottom and 55 top of upper millstone are affixed;First motor 5406 and the first fixed plate 5403 are fixed in mounting plate 53
Bottom rear, and first motor 5406 is located at the front side of the first fixed plate 5403;It is connected on the output end of first motor 5406
Gear 5407;The second sliding rail 5408 is connected on front side of first fixed plate 5403, the second sliding block 5409 and the second sliding rail 5408 slide
Connection;Rack gear 5405 is connected on second sliding block 5409, rack gear 5405 is engaged with gear 5407;The front side of rack gear 5405 is connected with
First connecting rod 5404,5404 end of first connecting rod and upper millstone 55 are affixed.
Interval propulsive mechanism 58 includes the second fixed plate 5801, third fixed plate 5802, the first elastic component 5803, second
Elastic component 5804, the second push plate 5805, third push plate 5806, the second motor 5807, first bearing seat 5808, second bearing seat
5809, first rotating shaft 5810, the second connecting rod 5811, installing frame 5812,3rd bearing seat 5813, the second shaft 5814 and idler wheel
5815;53 bottom side of mounting plate is connected with the second fixed plate 5801, and the 53 bottom other side of mounting plate is connected with third fixed plate
5802;Second fixed plate 5801 is connected with multiple first elastic components 5803, the first elasticity close to the side of third fixed plate 5802
5803 end of part is connected with the second push plate 5805;Third fixed plate 5802 is connected with multiple close to the side of the second fixed plate 5801
Second elastic component 5804,5804 end of the second elastic component are connected with third push plate 5806, the second push plate 5805 and third push plate
5806 are respectively positioned on the lower section of upper millstone 55, and the width of the width of the second push plate 5805 and third push plate 5806 and titanium alloy block 3
It is identical;53 bottom of mounting plate is successively connected with the second motor 5807, first close to the side of the second fixed plate 5801 from front to back
Bearing block 5808 and second bearing seat 5809,5810 rear end of first rotating shaft and second bearing seat 5809 are pivotally connected, first rotating shaft 5810
Front end and first bearing seat 5808 are pivotally connected, and affixed through first bearing seat 5808 and the output end of the second motor 5807;The
Multiple second connecting rods 5811 are connected in one shaft 5810,5811 end of the second connecting rod is connected with installing frame 5812, installation
Front and rear sides are connected with 3rd bearing seat 5813 in frame 5812,5814 rear and front end of the second shaft respectively with two 3rd bearing seats
5813 are pivotally connected, and idler wheel 5815 is connected on 5814 middle part of the second shaft, and idler wheel 5815 and the second push plate 5805 cooperate.
Dust collection mechanism 59 includes dust suction pump 5901, hose 5902 and dust flue 5903;Dust suction pump 5901 is fixed in
53 top of mounting plate is equipped with hose 5902 and dust flue on the side of the second fixed plate 5801, dust suction pump 5901
5903, and hose 5902 is protruded into upper millstone 55 and is connected to channel 511.
The material of rack 51 is stainless steel.
The cross section of support rod 57 is square.
The height of first push plate 2 is greater than the height of titanium alloy block 3.
When needing to be polished titanium alloy block 3, start the first cylinder 1 first, so that the first push plate 2 is to close
The direction of titanium alloy block 3 moves horizontally, so that multiple titanium alloy blocks 3 be shifted onto the second conveying device 7.Then starting second is defeated
Device 7 is sent, and then multiple titanium alloy blocks 3 are shifted onto lower millstone 56 top by connecting plate 4.
Then start the second cylinder 52, so that the interval propulsive mechanism 58 and upper millstone 55 of mounting plate 53 and its bottom are downward
It is mobile, and then make to contact at the top of upper millstone 55 and titanium alloy block 3, the nog plate 512 of front and rear sides will be located at titanium alloy block 3 at this time
Front and rear sides, while 58 liang of output ends of interval propulsive mechanism will be located at titanium alloy block 3 the left and right sides.Starting interval at this time
Propulsive mechanism 58, and then titanium alloy block 3 will be made to move left and right, so that upper millstone 55 and lower millstone 56 will be to titanium alloy blocks
3 top and bottom rubs, so that the upper and lower surfaces of titanium alloy block 3 be polished.Titanium closes at the same time
Gold bullion 3 moves left and right, and two output ends of interval propulsive mechanism 58 will rub the left and right sides of titanium alloy block 3, from
And also the left side of titanium alloy block 3 and right side are polished.
Start mobile mechanism 54 at the same time, so that upper millstone 55 be driven to be moved forward and backward, and then just will drive titanium alloy block 3
It is moved forward and backward, so that being located at the leading flank of the titanium alloy block 3 of front side will rub with the nog plate 512 of front side, the titanium of rear side
The trailing flank of alloy block 3 will rub with the nog plate 512 of rear side, and adjacent two titanium alloys block 3 will mutually rub at the same time
It wipes, so that the leading flank of titanium alloy block 3 and trailing flank are all polished, thus by six face wholes of titanium alloy block 3
It is polished.
Start dust collection mechanism 59 at the same time, thus will will be broken between the top of titanium alloy block 3 and 55 bottom of upper millstone
Bits are drawn into channel 511 by air suction opening 510, are drawn into the input terminal of dust collection mechanism 59 later again, are then passed through suction again
The output end of dirt mechanism 59 is discharged, to make its environment not easy to pollute, and is also easy to be cleared up.
When finishing the polishing of titanium alloy block 3, interval propulsive mechanism 58, mobile mechanism 54 stop working.When titanium alloy block 3
When clast between 55 bottom of top and upper millstone all siphons away, dust collection mechanism 59 stops working.Restart the second cylinder later
52, so that the interval propulsive mechanism 58 and upper millstone 55 of mounting plate 53 and its bottom are moved upward to reset.It finally again will polishing
Good titanium alloy block 3 is transported away by the first conveying device 6.
Wherein, as shown in Figure 4, Figure 5 and Figure 6, mobile mechanism 54 includes the first sliding rail 5401, the first sliding block 5402,
One fixed plate 5403, first connecting rod 5404, rack gear 5405, first motor 5406, gear 5407, the second sliding rail 5408 and second
Sliding block 5409;Multiple first sliding rails 5401 are equidistantly fixed in 53 bottom of mounting plate, the first sliding block 5402 and in the horizontal direction
One sliding rail 5401 is slidably connected, and 5402 bottom of the first sliding block and 55 top of upper millstone are affixed;First motor 5406 and first is fixed
Plate 5403 is fixed in 53 bottom rear of mounting plate, and first motor 5406 is located at the front side of the first fixed plate 5403;First electricity
Gear 5407 is connected on the output end of machine 5406;The second sliding rail 5408, the second sliding block are connected on front side of first fixed plate 5403
5409 are slidably connected with the second sliding rail 5408;Rack gear 5405 is connected on second sliding block 5409, rack gear 5405 is nibbled with gear 5407
It closes;The front side of rack gear 5405 is connected with first connecting rod 5404, and 5404 end of first connecting rod and upper millstone 55 are affixed.
When needing the front and rear sides face to titanium alloy block 3 to polish, start first motor 5406, and then with moving gear
5407 rotations, to be moved forward and backward with carry-over bar 5405.At this time under the action of the first sliding block 5402 and the first sliding rail 5401, just
It will drive the back-and-forth motion of upper millstone 55, to drive titanium alloy block 3 to be moved forward and backward, thus before being located at the titanium alloy block 3 of front side
Side will rub with the nog plate 512 of front side, the trailing flank of the titanium alloy block 3 of rear side will with the nog plate 512 of rear side into
Row friction, at the same time adjacent two titanium alloys block 3 will phase mutual friction so that the leading flank of titanium alloy block 3 and trailing flank
All polished.
Wherein, as shown in Figure 7, Figure 8 and Figure 9, interval propulsive mechanism 58 includes the second fixed plate 5801, third fixed plate
5802, the first elastic component 5803, the second elastic component 5804, the second push plate 5805, third push plate 5806, the second motor 5807,
One bearing block 5808, second bearing seat 5809, first rotating shaft 5810, the second connecting rod 5811, installing frame 5812,3rd bearing seat
5813, the second shaft 5814 and idler wheel 5815;53 bottom side of mounting plate is connected with the second fixed plate 5801,53 bottom of mounting plate
The other side is connected with third fixed plate 5802;Second fixed plate 5801 is connected with multiple close to the side of third fixed plate 5802
One elastic component 5803,5803 end of the first elastic component are connected with the second push plate 5805;Third fixed plate 5802 is fixed close to second
The side of plate 5801 is connected with multiple second elastic components 5804, and 5804 end of the second elastic component is connected with third push plate 5806, the
Two push plates 5805 and third push plate 5806 are respectively positioned on the lower section of upper millstone 55, and the width of the second push plate 5805 and third push plate 5806
It spends of same size with titanium alloy block 3;53 bottom of mounting plate is successively affixed from front to back close to the side of the second fixed plate 5801
There are the second motor 5807, first bearing seat 5808 and second bearing seat 5809,5810 rear end of first rotating shaft and second bearing seat
5809 pivot joints, 5810 front end of first rotating shaft and first bearing seat 5808 are pivotally connected, and through first bearing seat 5808 and the second electricity
The output end of machine 5807 is affixed;Multiple second connecting rods 5811,5811 end of the second connecting rod are connected in first rotating shaft 5810
It is connected with installing frame 5812, front and rear sides are connected with 3rd bearing seat 5813,5814 front and back of the second shaft in installing frame 5812
Both ends are pivotally connected with two 3rd bearing seats 5813 respectively, are connected with idler wheel 5815 on the middle part of the second shaft 5814, idler wheel 5815 and the
Two push plates 5805 cooperation.
When needing the upper surface to titanium alloy block 3, lower surface, left side and right side to polish, the second electricity of starting
Machine 5807 so that first rotating shaft 5810 be driven to rotate, and then drives the second connecting rod 5811 and installing frame 5812 thereon to rotate,
To drive idler wheel 5815 to rotate.When a wherein idler wheel 5815 with wherein as soon as the second push plate 5805 contacts when, will push this
Two push plates 5805, and then one of titanium alloy block 3 is driven to move right.When another idler wheel 5815 and another second push plate 5805
When contact, this second push plate 5805 just will push, and then another piece of titanium alloy block 3 is driven to move right, at the same time due to the
The effect of two elastic components 5804, above-mentioned titanium alloy block 3 will reset.It is reciprocal with this, all titanium alloy blocks 3 or so will be made
It is mobile, so that upper millstone 55 and lower millstone 56 will rub to the top and bottom of titanium alloy block 3, thus by titanium alloy block
3 upper and lower surfaces are polished.Titanium alloy block 3 moves left and right at the same time, and the second push plate 5805 will close titanium
The left side of gold bullion 3 rubs, while third push plate 5806 will rub the right side of titanium alloy block 3, thus also by titanium
The left side and right side of alloy block 3 are polished.
Wherein, as shown in Figure 10, dust collection mechanism 59 includes dust suction pump 5901, hose 5902 and dust flue 5903;
Dust suction pump 5901 is fixed in the side of close second fixed plate 5801 in 53 top of mounting plate, and it is soft to be equipped with dust suction on dust suction pump 5901
Pipe 5902 and dust flue 5903, and hose 5902 is protruded into upper millstone 55 and is connected to channel 511.
Also start 5901 work of dust suction pump while polishing, thus dust suction pump 5901 will by the top of titanium alloy block 3 with it is upper
Clast and dust between 55 bottom of mill are drawn into channel 511 by air suction opening 510, are drawn into hose again later
In 5902, then it is discharged again by dust flue 5903, to make its environment not easy to pollute, and is also easy to be cleared up.
Using technical solution of the present invention or those skilled in the art under the inspiration of technical solution of the present invention, if
Similar technical solution is counted out, and reaches above-mentioned technical effect, is to fall into protection scope of the present invention.
Claims (7)
1. a kind of high strength titanium alloy production grinding machine, includes the first conveying device and the second conveying device;It is characterized in that,
It further include having the first cylinder, the first push plate, connecting plate and grinding device;The first push plate is connected on the output end of first cylinder,
Side close to the first push plate is placed with the second conveying device, and the side close to the second conveying device is placed with grinding device, beats
It is connected between mill apparatus and the second conveying device by connecting plate;Side close to grinding device is placed with the first conveying device;
Grinding device includes organic frame, the second cylinder, mounting plate, mobile mechanism, upper millstone, lower millstone, support rod, interval pusher
Structure, dust collection mechanism and nog plate;Support bar top is connected with lower millstone, and connecting plate and lower millstone side are affixed, the top of lower millstone
Organic frame is installed;Front and rear sides are connected with multiple second cylinders among bottom of the frame, are connected with peace on the output end of the second cylinder
Loading board;It is connected with mobile mechanism among mounting plate bottom, upper millstone is connected on the output end of mobile mechanism, under upper millstone is located at
The surface of mill;Upper millstone bottom front and rear sides are connected with nog plate, and the height of nog plate is identical as the height of titanium alloy block;On
Mill bottom is equidistantly provided with multiple air suction openings in the horizontal direction, and channel is provided in upper millstone, and channel is connected to air suction opening;Installation
Board bottom portion is connected with interval propulsive mechanism, and the output end of interval propulsive mechanism is located at the lower section of upper millstone;It is affixed at the top of mounting plate
There is dust collection mechanism, the input terminal of dust collection mechanism is protruded into upper millstone and is connected to channel.
2. a kind of high strength titanium alloy production grinding machine according to claim 1, which is characterized in that mobile mechanism includes
First sliding rail, the first sliding block, the first fixed plate, first connecting rod, rack gear, first motor, gear, the second sliding rail and second are sliding
Block;Multiple first sliding rails are equidistantly fixed in mounting plate bottom in the horizontal direction, and the first sliding block is slidably connected with the first sliding rail, the
One slider bottom and upper millstone top are affixed;First motor and the first fixed plate are fixed in mounting plate bottom rear, and first
Motor is located at the front side of the first fixed plate;Gear is connected on the output end of first motor;The is connected on front side of first fixed plate
Two sliding rails, the second sliding block are slidably connected with the second sliding rail;Rack gear, rack and pinion engagement are connected on second sliding block;Rack gear
Front side is connected with first connecting rod, and first connecting rod end and upper millstone are affixed.
3. a kind of high strength titanium alloy production grinding machine according to claim 2, which is characterized in that interval propulsive mechanism packet
The second fixed plate, third fixed plate, the first elastic component, the second elastic component, the second push plate, third push plate, the second motor, are included
One bearing block, second bearing seat, first rotating shaft, the second connecting rod, installing frame, 3rd bearing seat, the second shaft and idler wheel;Installation
Plate bottom side is connected with the second fixed plate, and the mounting plate bottom other side is connected with third fixed plate;Second fixed plate is close to
The side of three fixed plates is connected with multiple first elastic components, and the first elastic component end is connected with the second push plate;Third fixed plate is leaned on
The side of nearly second fixed plate is connected with multiple second elastic components, and the second elastic component end is connected with third push plate, the second push plate
It is respectively positioned on the lower section of upper millstone with third push plate, and the width of the second push plate and third push plate and titanium alloy block is of same size;
Mounting plate bottom is successively connected with the second motor, first bearing seat and second bearing close to the side of the second fixed plate from front to back
Seat, first rotating shaft rear end and second bearing seat are pivotally connected, and first rotating shaft front end and first bearing seat are pivotally connected, and run through first bearing
Seat is affixed with the output end of the second motor;Multiple second connecting rods are connected in first rotating shaft, the second connection boom end is connected with
Installing frame, front and rear sides are connected with 3rd bearing seat in installing frame, the second shaft rear and front end respectively with two 3rd bearing seats
It is pivotally connected, idler wheel is connected on the second shaft middle part, idler wheel and the second push plate cooperate.
4. a kind of high strength titanium alloy production grinding machine according to claim 3, which is characterized in that dust collection mechanism includes
Dust suction pump, hose and dust flue;Dust suction pump is fixed in the side at the top of mounting plate close to the second fixed plate, pacifies on dust suction pump
Equipped with hose and dust flue, and hose is protruded into upper millstone and is connected to channel.
5. a kind of high strength titanium alloy production grinding machine according to claim 4, which is characterized in that the material of rack is not
Become rusty steel.
6. a kind of high strength titanium alloy production grinding machine according to claim 5, which is characterized in that the cross section of support rod
It is square.
7. a kind of high strength titanium alloy production grinding machine according to claim 6, which is characterized in that the height of the first push plate
Greater than the height of titanium alloy block.
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| KR20130143307A (en) * | 2012-06-21 | 2013-12-31 | 주식회사 에스앤에스텍 | Polishing equipment of mask blank substrate and method of polishing for mask blank substrate using the same |
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