CN110252193A - A kind of proportion of MULTIPLE COMPOSITE alloy quantifies metallurgical method - Google Patents
A kind of proportion of MULTIPLE COMPOSITE alloy quantifies metallurgical method Download PDFInfo
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- CN110252193A CN110252193A CN201910577715.6A CN201910577715A CN110252193A CN 110252193 A CN110252193 A CN 110252193A CN 201910577715 A CN201910577715 A CN 201910577715A CN 110252193 A CN110252193 A CN 110252193A
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- China
- Prior art keywords
- drive cavity
- shaft
- delivery pipe
- drive
- end wall
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F35/00—Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
- B01F35/71—Feed mechanisms
- B01F35/717—Feed mechanisms characterised by the means for feeding the components to the mixer
- B01F35/71805—Feed mechanisms characterised by the means for feeding the components to the mixer using valves, gates, orifices or openings
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F35/00—Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
- B01F35/71—Feed mechanisms
- B01F35/717—Feed mechanisms characterised by the means for feeding the components to the mixer
- B01F35/71815—Feed mechanisms characterised by the means for feeding the components to the mixer using vibrations, e.g. standing waves or ultrasonic vibrations
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F35/00—Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
- B01F35/80—Forming a predetermined ratio of the substances to be mixed
- B01F35/83—Forming a predetermined ratio of the substances to be mixed by controlling the ratio of two or more flows, e.g. using flow sensing or flow controlling devices
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F2101/00—Mixing characterised by the nature of the mixed materials or by the application field
- B01F2101/45—Mixing in metallurgical processes of ferrous or non-ferrous materials
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- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Manipulator (AREA)
Abstract
The invention discloses a kind of proportions of MULTIPLE COMPOSITE alloy to quantify metallurgical method, including mounting bracket, the apparatus main body being arranged in the mounting bracket and the traverse displacement unit being arranged on the upside of described device main body, described device body rotation is fitted with the delivery pipe extended up and down, the delivery pipe is provided with feeding chamber up and down, the first drive cavity extended to the right is provided in described device main body, and the delivery pipe penetrates rotatably first drive cavity, power motor is fixedly installed on the right side of the first drive cavity lower end wall, the power motor upper end is connected by power the first rotating shaft upwardly extended, the first driving wheel for being fixedly mounted on the first rotating shaft upper end is provided in first drive cavity, the second driving wheel for being fixedly mounted on the conveying tube outer surface is provided in first drive cavity, described The first transmission belt has been connected by power between one driving wheel and second driving wheel.
Description
Technical field
The present invention relates to metal working technical area, specially a kind of proportion of MULTIPLE COMPOSITE alloy quantifies metallurgical method.
Background technique
With the development of science and technology, social progress, science and technology strength is increasingly by the attention of every country, and China is also always
Promote high-tech development, the use of composite alloy is also more and more, and composite alloy needs in metallurgical process by plurality of liquid
Alloy mixing match, traditional composite alloy metallurgical equipment function is more single, exists after metallurgy to the beating of hybrid alloys
Dead angle makes hybrid alloys that more times be needed to be solidified, so as to cause the lower influence processing progress of efficiency of metallurgy.
Summary of the invention
The purpose of the present invention is to provide a kind of proportions of MULTIPLE COMPOSITE alloy to quantify metallurgical method, for overcoming existing skill
Drawbacks described above in art.
A kind of proportion of MULTIPLE COMPOSITE alloy according to the present invention quantifies metallurgical method, including mounting bracket, setting in institute
The traverse displacement unit stating the apparatus main body in mounting bracket and being arranged on the upside of described device main body, described device body rotation are matched
Conjunction is equipped with the delivery pipe extended up and down, and the delivery pipe is provided with feeding chamber up and down, is arranged in described device main body
There is the first drive cavity extended to the right, and the delivery pipe penetrates rotatably first drive cavity, first drive cavity
It is fixedly installed with power motor on the right side of lower end wall, the power motor upper end is connected by power the first rotating shaft upwardly extended,
The first driving wheel for being fixedly mounted on the first rotating shaft upper end is provided in first drive cavity, in first drive cavity
Be provided with the second driving wheel for being fixedly mounted on the conveying tube outer surface, first driving wheel and second driving wheel it
Between be connected by power the first transmission belt, be provided in described device main body on the downside of first drive cavity second transmission
Chamber, and the delivery pipe rotationally protrudes into second drive cavity, being provided in second drive cavity can slide up and down
Elevator, be provided with lifting groove up and down in the elevator, and the delivery pipe protrude into the lifting groove and with
The lifting groove inner wall is slidably connected, and left and right is provided in described device main body and extends across second drive cavity
Third drive cavity, the third drive cavity is rotatably assorted between end wall is equipped with splined sleeve up and down, and the elevator passes through
The splined sleeve is simultaneously connect with the splined sleeve spline fitted, is provided in described device main body and is driven positioned at the third
The 4th drive cavity on the downside of chamber and across second drive cavity, rotates between the third drive cavity and the 4th drive cavity
It is connected with symmetrical second shaft, and second shaft upper end is rotatably assorted with the third drive cavity upper end wall
Connection, second shaft lower end is rotatably assorted with the 4th drive cavity lower end wall and connect, is arranged in the third drive cavity
There is the irregular gear for being fixedly mounted on the splined sleeve outer surface, is also symmetrically provided in the third drive cavity
The transmission gear for being fixedly mounted on second shaft outer surface and being meshed with the irregular gear, the 4th drive cavity
It is slidably installed between inner wall and is fixedly mounted on the link block of the elevator outer surface, second shaft passes through described
Link block and being threadedly engaged with the link block is connect, and the motion thread between second shaft and the link block in left side with
Motion thread between second shaft and the link block on right side is on the contrary, fixed between end wall above and below the 4th drive cavity pacify
Equipped with symmetrical first guide rod, and first guide rod passes through the link block and is slidably matched with the link block
It connects, the efferent duct being connected with the external world is provided in the 4th drive cavity lower end wall and is exported, set in the efferent duct outlet
It is equipped with the briquetting for being fixedly mounted on the delivery pipe lower end, through-hole up and down, and the conveying are provided in the briquetting
Bellows is provided with and communicated between chamber and the through-hole.
Further technical solution, the traverse displacement unit include the traverse displacement unit master being arranged on the upside of described device main body
Body is provided in the traverse displacement unit main body and is provided with fixed block, and the conveying in traversing chamber, the traversing chamber up and down
Pipe upwardly extends and penetrates rotatably the fixed block, and the delivery pipe upper end is fixedly installed with entrance mounting blocks, it is described enter
Hybrid alloys entrance up and down is provided in mouth mounting blocks, and the hybrid alloys entrance is connected with the feeding chamber,
It is fixedly installed with traversing motor on the left of the traversing chamber in end wall, the traversing motor right end is connected by power the extended to the right
Three shafts, and the third shaft right end is rotatably assorted with end wall on the right side of the traversing chamber and connect, the third shaft can be rotated
Ground passes through the fixed block and is located on rear side of the delivery pipe, is fixedly installed with second between the traversing chamber left and right sides end wall and leads
To bar, and second guide rod is slidably disposed through the fixed block and is located on rear side of the delivery pipe.
Further technical solution, the opposing end surface of two support bases of described mounting bracket or so are provided with and extraneous phase
5th drive cavity of connection is symmetrically provided with the be located on the upside of two the 5th drive cavities in left and right in the mounting bracket
Six drive cavities, left and right two the 6th drive cavities respectively left and right two the 5th drive cavities between be rotatably assorted be equipped with up and down it is downward
The 4th shaft stretched, and the 4th shaft upper end is rotatably assorted with the 6th drive cavity upper end wall and connect, the 5th of left side the
Lifting motor is fixedly installed in drive cavity lower end wall, the 4th shaft lower end in left side and lifting motor upper surface power connect
It connects, the 4th shaft lower end in the left side on right side and the 5th drive cavity lower end wall on right side are rotatably assorted connection, left and right two two
Be provided with the third driving wheel for being fixedly mounted on the 4th shaft outer surface in 6th drive cavity, two the 6th drive cavities it
Between be provided with and communicated with link slot, the second transmission across the link slot is connected by power between the two third driving wheels in left and right
Band is provided with the supporting block that can slide up and down in two the 5th drive cavities in left and right, and two supporting blocks in left and right respectively with it is described
The connection of traverse displacement unit main body or so end face secure fit, be symmetrically provided in the mounting bracket extend up and down and with institute
State the limiting slot that the 5th drive cavity is connected, be provided in the limiting slot can slide up and down and with the supporting block secure fit
The limited block of connection.
Further technical solution, the irregular gear are half gear, and two transmission gears exist when device is run or so
The same time, only one was meshed with the irregular gear.
The beneficial effects of the present invention are:
The configuration of the present invention is simple, it is easy to operate, it is realized by compact drive mechanism and hybrid alloys to be patted repeatedly
Function makes the beating to hybrid alloys not generate dead angle, to keep hybrid alloys metallurgy more tight, together by traverse displacement unit
When due to device operation characteristic so that feeding chamber is not resulted in blockage due to hybrid alloys.
Detailed description of the invention
Fig. 1 is that a kind of proportion of MULTIPLE COMPOSITE alloy of the invention quantifies overall structure diagram inside metallurgical method;
Fig. 2 is the structural schematic diagram in the present invention in Fig. 1 at A;
Fig. 3 is the structural schematic diagram in the present invention in Fig. 2 at B-B;
Fig. 4 is the structural schematic diagram in the present invention in Fig. 1 at C;
Fig. 5 is the structural schematic diagram in the present invention in Fig. 4 at D-D.
Specific embodiment
Below with reference to Fig. 1-5, the present invention is described in detail, for sake of convenience, now such as to hereafter described orientation regulation
Under: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.
Referring to Fig.1-5, a kind of proportion of MULTIPLE COMPOSITE alloy of embodiment according to the present invention quantifies metallurgical method, including
Mounting bracket 100, the apparatus main body 127 being arranged in the mounting bracket 100 and setting are in 127 upside of described device main body
Traverse displacement unit, described device main body 127 is rotatably assorted the delivery pipe 131 for being equipped with and extending up and down, about 131 delivery pipe
It is provided with to perforation feeding chamber 132, the first drive cavity 130 extended to the right is provided in described device main body 127, and described defeated
It send pipe 131 to penetrate rotatably first drive cavity 130, is fixedly installed in 130 lower end wall of the first drive cavity right side
Power motor 137,137 upper end of power motor are connected by power the first rotating shaft 136 upwardly extended, first drive cavity
It is provided with the first driving wheel 135 for being fixedly mounted on 136 upper end of first rotating shaft in 130, is set in first drive cavity 130
It is equipped with the second driving wheel 133 for being fixedly mounted on 131 outer surface of delivery pipe, first driving wheel 135 and described second
It has been connected by power the first transmission belt 134 between driving wheel 133, has been provided in described device main body 127 positioned at first transmission
Second drive cavity 126 of 130 downside of chamber, and the delivery pipe 131 rotationally protrudes into second drive cavity 126, it is described
It is provided with the elevator 125 that can slide up and down in second drive cavity 126, liter up and down is provided in the elevator 125
Slot 143 drops, and the delivery pipe 131 is protruded into the lifting groove 143 and is slidably connected with 143 inner wall of lifting groove,
It is provided with left and right in described device main body 127 and extends across the third drive cavity 123 of second drive cavity 126, described the
It is rotatably assorted between three drive cavities, about 123 end wall and splined sleeve 124 is installed, and the elevator 125 passes through the spline
Sleeve 124 is simultaneously connect with 124 spline fitted of splined sleeve, is provided in described device main body 127 and is passed positioned at the third
Dynamic 123 downside of chamber and the 4th drive cavity 115 for passing through second drive cavity 126, the third drive cavity 123 and the described 4th
Be rotatably assorted between drive cavity 115 and be connected with symmetrical second shaft 120, and 120 upper end of the second shaft with it is described
123 upper end wall of third drive cavity is rotatably assorted connection, 120 lower end of the second shaft and 115 lower end wall of the 4th drive cavity
Be rotatably assorted connection, is provided in the third drive cavity 123 and is fixedly mounted on the irregular of 124 outer surface of splined sleeve
Gear 121 is also symmetrically provided in the third drive cavity 123 and is fixedly mounted on 120 outer surface of the second shaft
And the transmission gear 122 being meshed with the irregular gear 121, be slidably matched between 115 inner wall of the 4th drive cavity peace
Equipped with the link block 117 for being fixedly mounted on 125 outer surface of elevator, second shaft 120 passes through the link block 117
And it is threadedly engaged and connect with the link block 117, and the transmission spiral shell between second shaft 120 and the link block 117 in left side
Motion thread between line and second shaft 120 and the link block 117 on right side is on the contrary, about 115 the 4th drive cavity
Symmetrical first guide rod 116 is fixedly installed between end wall, and first guide rod 116 passes through the link block
It 117 and is slidably connected with the link block 117, is provided in 115 lower end wall of the 4th drive cavity and is connected with the external world
Efferent duct outlet 139, be provided with the briquetting for being fixedly mounted on 131 lower end of delivery pipe in efferent duct outlet 139
140, through-hole 141 up and down is provided in the briquetting 140, and be connected between the feeding chamber 132 and the through-hole 141
It is provided with bellows 142.
Valuably or illustratively, the traverse displacement unit includes the traverse displacement unit that 127 upside of described device main body is arranged in
Main body 145, be provided in the traverse displacement unit main body 145 be provided in traversing chamber 154, the traversing chamber 154 up and down it is solid
Determine block 153, and the delivery pipe 131 upwardly extends and penetrate rotatably the fixed block 153,131 upper end of delivery pipe
Entrance mounting blocks 150 are fixedly installed with, hybrid alloys entrance 151 up and down is provided in the entrance mounting blocks 150, and
The hybrid alloys entrance 151 is connected with the feeding chamber 132, is fixedly installed with cross in the traversing 154 left side end wall of chamber
Motor 146 is moved, traversing 146 right end of motor is connected by power the third shaft 147 extended to the right, and the third shaft
147 right ends are rotatably assorted with the traversing 154 right side end wall of chamber and connect, and the third shaft 147 penetrates rotatably described solid
Determine block 153 and be located at 131 rear side of delivery pipe, is fixedly installed with the second guiding between the traversing 154 left and right sides end wall of chamber
Bar 155, and second guide rod 155 is slidably disposed through the fixed block 153 and is located at 131 rear side of delivery pipe.
Valuably or illustratively, the opposing end surface of 100 or so two support bases of mounting bracket be provided with outside
The 5th drive cavity 103 that boundary is connected symmetrically is provided in the mounting bracket 100 and is located at the transmission of left and right two the 5th
6th drive cavity 110 of 103 upside of chamber, two the 6th drive cavities 110 in left and right are respectively between two the 5th drive cavities 103 in left and right
It is rotatably assorted and lower the 4th shaft 104 extended, and 104 upper end of the 4th shaft and the 6th drive cavity up and down is installed
110 upper end walls are rotatably assorted connection, are fixedly installed with lifting motor 101 in 103 lower end wall of the 5th drive cavity in left side, left side
4th shaft, 104 lower end is connected by power with 101 upper surface of lifting motor, 104 lower end of the 4th shaft in the left side on right side with
5th drive cavity, 103 lower end wall on right side is rotatably assorted connection, is provided with fixation in two two the 6th drive cavities 110 in left and right
It is mounted on the third driving wheel 107 of 104 outer surface of the 4th shaft, the company of being provided with and communicated between two the 6th drive cavities 110
Access slot 112 controls the second transmission belt 111 being connected by power between two third driving wheels 107 across the link slot 112,
The supporting block 105 that can slide up and down is provided in two the 5th drive cavities 103 in left and right, and the supporting block 105 of left and right two is distinguished
It connect with 145 or so the end face secure fit of traverse displacement unit main body, is symmetrically provided in the mounting bracket 100
Lower extension and the limiting slot 102 that is connected with the 5th drive cavity 103 are provided with and can be slided up and down in the limiting slot 102
And the limited block 106 being connect with 105 secure fit of supporting block.
Valuably or illustratively, the irregular gear 121 is half gear, two transmission gears when device is run or so
122 in the same time, only one is meshed with the irregular gear 121.
When original state, the lifting motor 101 is in close state, and the supporting block 105 is passed the described 5th at this time
Utmostly upward sliding in dynamic chamber 103, thus 105 upper surface of the supporting block and the 103 upper end wall phase of the 5th drive cavity
It abuts, the traversing motor 146 is in close state, and the fixed block 153 is in the traversing chamber 154 in center meta position
Set, the power motor 137 is in close state, at this time the elevator 125 in second drive cavity 126 utmostly
It moves up, so that 140 upper surface of the briquetting and 115 lower end wall of the 4th drive cavity are in same level.
In use, starting the lifting motor 101, the lifting motor 101 drives a left side by the 4th shaft 104 in left side
The third driving wheel 107 of side rotates, and the third driving wheel 107 in left side is rotated by between the third driving wheel 107 on right side
Power cooperation drives the 4th shaft 104 rotation on right side, thus by between the 4th shaft 104 and the supporting block 105
Be threadedly engaged relationship drive described device main body 127 decline, institute is closed when described device main body 127 drops to suitable location
Lifting motor 101 is stated, staff adds mixing into the feeding chamber 132 by the hybrid alloys entrance 151 and closes at this time
Gold, so that hybrid alloys, which pass sequentially through the feeding chamber 132, the bellows 142 and the through-hole 141, falls on alloy groove
In, while starting the power motor 137, the power motor 137 drives first transmission by the first rotating shaft 136
135 rotation of wheel, first driving wheel 135 drive the conveying by the power cooperation between second driving wheel 133
Pipe 131 rotates, and the delivery pipe 131 drives the irregular gear 121 to rotate by the splined sleeve 124, described at this time
Irregular gear 121 drives second shaft 120 to rotate by the meshing relation of the transmission gear 122 with left side, and described the
Two shafts 120 drive the link block 117 to move down by the relationship that is threadedly engaged between the link block 117, described
Link block 117 drives the briquetting 140 to move down by the delivery pipe 131, to the irregular rotation of gear 121 100
Transmission gear 122 after 80 degree with left side is disengaged from, the transmission gear 122 of described at this time irregular gear 121 and right side
It is engaged, so that the briquetting 140 be driven to move up, passes through two transmission gears 122 of the splined sleeve 124 and left and right
Between interval meshing relation drive the briquetting 140 constantly to pat hybrid alloys, while starting the traversing motor
146, the traversing motor 146 is driven described solid by being threadedly engaged between the third shaft 147 and the fixed block 153
It is mobile to determine block 153, positive and negative rotation is constantly carried out by the traversing motor 146 and drives the briquetting 140 is constantly traversing to close to mixing
Gold is patted, so that hybrid alloys are metallurgically more firm.
The beneficial effects of the present invention are:
The configuration of the present invention is simple, it is easy to operate, it is realized by compact drive mechanism and hybrid alloys to be patted repeatedly
Function makes the beating to hybrid alloys not generate dead angle, to keep hybrid alloys metallurgy more tight, together by traverse displacement unit
When due to device operation characteristic so that the feeding chamber 132 is not resulted in blockage due to hybrid alloys.
Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design
To make the various modifications for above embodiments, fall within the scope of protection of the present invention, protection scheme of the invention
It is subject to claims appended hereto.
Claims (3)
1. a kind of proportion of MULTIPLE COMPOSITE alloy quantifies metallurgical method, including mounting bracket, it is arranged in the mounting bracket
Apparatus main body and the traverse displacement unit being arranged on the upside of described device main body, wherein described device body rotation is fitted with
The delivery pipe extended up and down, the delivery pipe are provided with feeding chamber up and down, are provided in described device main body and prolong to the right
The first drive cavity stretched, and the delivery pipe penetrates rotatably first drive cavity, the first drive cavity lower end wall is right
It is fixedly installed with power motor in side, the power motor upper end is connected by power the first rotating shaft upwardly extended, and described first
It is provided with the first driving wheel for being fixedly mounted on the first rotating shaft upper end in drive cavity, is provided in first drive cavity solid
Dingan County is mounted in the second driving wheel of the conveying tube outer surface, and power connects between first driving wheel and second driving wheel
It is connected to the first transmission belt, the second drive cavity being provided in described device main body on the downside of first drive cavity, and it is described
Delivery pipe rotationally protrudes into second drive cavity, is provided with the elevator that can slide up and down in second drive cavity,
Be provided with lifting groove up and down in the elevator, and the delivery pipe protrude into the lifting groove and with the lifting groove
Inner wall is slidably connected, and the third transmission that left and right extends across second drive cavity is provided in described device main body
Chamber, the third drive cavity are rotatably assorted between end wall are equipped with splined sleeve up and down, and the elevator passes through the spline
Sleeve is simultaneously connect with the splined sleeve spline fitted, is provided on the downside of the third drive cavity in described device main body simultaneously
Across the 4th drive cavity of second drive cavity, be rotatably assorted connection between the third drive cavity and the 4th drive cavity
There is symmetrical second shaft, and second shaft upper end is rotatably assorted with the third drive cavity upper end wall and connect, institute
It states the second shaft lower end and is rotatably assorted with the 4th drive cavity lower end wall and connect, be provided with fixed peace in the third drive cavity
Irregular gear mounted in the splined sleeve outer surface is also symmetrically provided with fixed installation in the third drive cavity
Between second shaft outer surface and the transmission gear that is meshed with the irregular gear, the 4th transmission cavity wall
It is slidably installed and is fixedly mounted on the link block of the elevator outer surface, second shaft passes through the link block simultaneously
It is threadedly engaged and connect with the link block, and of the motion thread and right side between second shaft and the link block in left side
Motion thread between two shafts and the link block is on the contrary, be fixedly installed with left and right between end wall above and below the 4th drive cavity
Symmetrical first guide rod, and first guide rod passes through the link block and is slidably connected with the link block, institute
It states the efferent duct for being provided in the 4th drive cavity lower end wall and being connected with the external world to export, is provided with fixation in the efferent duct outlet
Be mounted on the briquetting of the delivery pipe lower end, be provided with through-hole up and down in the briquetting, and the feeding chamber with it is described
Bellows is provided with and communicated between through-hole;The traverse displacement unit includes the traverse displacement unit master being arranged on the upside of described device main body
Body is provided in the traverse displacement unit main body and is provided with fixed block, and the conveying in traversing chamber, the traversing chamber up and down
Pipe upwardly extends and penetrates rotatably the fixed block, and the delivery pipe upper end is fixedly installed with entrance mounting blocks, it is described enter
Hybrid alloys entrance up and down is provided in mouth mounting blocks, and the hybrid alloys entrance is connected with the feeding chamber,
It is fixedly installed with traversing motor on the left of the traversing chamber in end wall, the traversing motor right end is connected by power the extended to the right
Three shafts, and the third shaft right end is rotatably assorted with end wall on the right side of the traversing chamber and connect, the third shaft can be rotated
Ground passes through the fixed block and is located on rear side of the delivery pipe, is fixedly installed with second between the traversing chamber left and right sides end wall and leads
To bar, and second guide rod is slidably disposed through the fixed block and is located on rear side of the delivery pipe;
The method is characterized in that: hybrid alloys pass sequentially through feeding chamber, bellows and through-hole and fall in alloy groove, simultaneously
Start power motor, power motor drives the first driving wheel to rotate by first rotating shaft, and the first driving wheel with second by being driven
Power cooperation between wheel drives delivery pipe rotation, and delivery pipe drives irregular gear to rotate, do not advise at this time by splined sleeve
Then gear drives the rotation of the second shaft by the meshing relation of the transmission gear with left side, and the second shaft passes through between link block
Be threadedly engaged relationship drive link block move down, link block is moved down by duct tape dynamic pressure block, to irregular tooth
Transmission gear after 180 degree of wheel rotation with left side is disengaged from, and irregular gear and the transmission gear on right side carry out at this time
Engagement passes through the interval meshing relation band between two transmission gears of splined sleeve and left and right so that briquetting be driven to move up
Dynamic pressure block constantly pats hybrid alloys, while starting traversing motor, traversing motor by third shaft and fixed block it
Between be threadedly engaged and drive fixed block mobile, positive and negative rotation is constantly carried out by traversing motor and drives briquetting constantly traversing to mixing conjunction
Gold is patted, so that hybrid alloys are metallurgically more firm.
2. a kind of proportion of MULTIPLE COMPOSITE alloy according to claim 1 quantifies metallurgical method, it is characterised in that: the peace
The opposing end surface of dress two support bases of bracket or so be provided with extraneous the 5th drive cavity being connected, in the mounting bracket
Symmetrically it is provided with the 6th drive cavity being located on the upside of two the 5th drive cavities in left and right, the 6th drive cavity difference of left and right two
It is rotatably assorted between two the 5th drive cavities in left and right and lower the 4th shaft extended, and the 4th shaft upper end up and down is installed
It is rotatably assorted and connect with the 6th drive cavity upper end wall, lifting electricity is fixedly installed in the 5th drive cavity lower end wall in left side
Machine, the 4th shaft lower end and the lifting motor upper surface in left side are connected by power, the 4th shaft lower end in the left side on right side with
The 5th drive cavity lower end wall on right side is rotatably assorted connection, is provided with and is fixedly mounted in two two the 6th drive cavities in left and right
The third driving wheel of the 4th shaft outer surface, is provided with and communicated with link slot between two the 6th drive cavities, left and right two the
It is connected by power the second transmission belt across the link slot between three driving wheels, is provided in two the 5th drive cavities in left and right
Can slide up and down supporting block, and two supporting blocks in left and right connect with the traverse displacement unit main body or so end face secure fit respectively
It connects, the limiting slot for extending up and down and being connected with the 5th drive cavity, institute is symmetrically provided in the mounting bracket
State the limited block for being provided in limiting slot and can sliding up and down and connecting with the supporting block secure fit.
3. a kind of proportion of MULTIPLE COMPOSITE alloy according to claim 1 quantifies metallurgical method, it is characterised in that: it is described not
Regular gear is half gear, when device is run or so two transmission gears the same time only one with the irregular gear
It is meshed.
Priority Applications (1)
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CN201910577715.6A CN110252193A (en) | 2019-06-28 | 2019-06-28 | A kind of proportion of MULTIPLE COMPOSITE alloy quantifies metallurgical method |
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CN201910577715.6A CN110252193A (en) | 2019-06-28 | 2019-06-28 | A kind of proportion of MULTIPLE COMPOSITE alloy quantifies metallurgical method |
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CN110252193A true CN110252193A (en) | 2019-09-20 |
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CN201910577715.6A Withdrawn CN110252193A (en) | 2019-06-28 | 2019-06-28 | A kind of proportion of MULTIPLE COMPOSITE alloy quantifies metallurgical method |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117732361A (en) * | 2024-02-21 | 2024-03-22 | 四川兆雪科技有限公司 | Device and method for preparing oil-gas well tracer agent with high efficiency and high quality |
-
2019
- 2019-06-28 CN CN201910577715.6A patent/CN110252193A/en not_active Withdrawn
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117732361A (en) * | 2024-02-21 | 2024-03-22 | 四川兆雪科技有限公司 | Device and method for preparing oil-gas well tracer agent with high efficiency and high quality |
CN117732361B (en) * | 2024-02-21 | 2024-04-30 | 四川兆雪科技有限公司 | Device and method for preparing oil-gas well tracer agent with high efficiency and high quality |
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