CN108772566A - Powder metallurgy automatically cleaning mold - Google Patents
Powder metallurgy automatically cleaning mold Download PDFInfo
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- CN108772566A CN108772566A CN201811051543.0A CN201811051543A CN108772566A CN 108772566 A CN108772566 A CN 108772566A CN 201811051543 A CN201811051543 A CN 201811051543A CN 108772566 A CN108772566 A CN 108772566A
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- bottom end
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22F—WORKING METALLIC POWDER; MANUFACTURE OF ARTICLES FROM METALLIC POWDER; MAKING METALLIC POWDER; APPARATUS OR DEVICES SPECIALLY ADAPTED FOR METALLIC POWDER
- B22F3/00—Manufacture of workpieces or articles from metallic powder characterised by the manner of compacting or sintering; Apparatus specially adapted therefor ; Presses and furnaces
- B22F3/22—Manufacture of workpieces or articles from metallic powder characterised by the manner of compacting or sintering; Apparatus specially adapted therefor ; Presses and furnaces for producing castings from a slip
- B22F3/225—Manufacture of workpieces or articles from metallic powder characterised by the manner of compacting or sintering; Apparatus specially adapted therefor ; Presses and furnaces for producing castings from a slip by injection molding
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- Manufacturing & Machinery (AREA)
- Mechanical Engineering (AREA)
- Moulds For Moulding Plastics Or The Like (AREA)
Abstract
The invention discloses powder metallurgy automatically cleaning molds,Its structure includes injection hole,Upper top cover,Fixed link,Body,It is mutually welded with the top of upper top cover the bottom end of injection hole,Upper top cover is located at the top of body,The top of fixed link is vertically embedded into the bottom end of upper top cover,The bottom end of fixed link is vertically embedded on the top of body,Body includes flow control mechanism,Powder collects driving mechanism,Powder collecting mechanism,Demoulding mechanism,The present invention passes through the structure inside improving,Make it when injection mold raw material,The size of injection hole can be automatically changed according to the velocity of liquid assets of injection device,To carry out stability contorting to injection molding velocity of liquid assets,Prevent that flow velocity is too fast and leads to workpiece after shaping,Surface forms core,Simultaneously when depanning,Mold bottom can uniformly be shaken,Workpiece is set to fall off,Workpiece is avoided when being agitated,It causes to wear in surface.
Description
Technical field
The present invention relates to mould applications, particularly with regard to a kind of powder metallurgy automatically cleaning mold.
Background technology
There are many molds, with a variety of methods of injection molding, blowing, extrusion, die casting or forging forming, smelting, punching press etc.
Compaction molding is carried out to the raw material in mold and is widely used in the extensive batch of workpiece in the market from entity workpiece is made
Production, but there is following a little disadvantages for existing mold;
1, prior art mold needs injection device being aligned on the injection port of mold when being used, injection molding
The flow of device is often flowed according to the difference of material density, smaller in solution density, when speed, easily makes original
When material is filled in a mold, the bottom of mold is not reached also, subsequent raw material, which is just swarmed, to be come, and easily by external gas band
Into among mold, the raw material made is uneven in mould inside point, and core easily occurs in the workpiece surface processed so that workpiece
The level of production industry is not achieved.
2 at the same equipment when carrying out molding, often using head cover turned over it, molding workpiece is tilted with tool,
Change that method is firmly uneven, easily the surface of die workpiece damaged so that workpiece portion fragmentation is within mold so that
Workpiece is scrapped, and can not be further processed.
Invention content
In view of the deficiencies of the prior art, the present invention is to realize by the following technical solutions:Powder metallurgy automatically cleaning mould
Tool, structure includes injection hole, upper top cover, fixed link, body, and the bottom end of the injection hole is mutually welded with the top of upper top cover,
The upper top cover is located at the top of body, and the top of the fixed link is vertically embedded into the bottom end of upper top cover, the fixed link
Bottom end is vertically embedded on the top of body, and the body includes flow control mechanism, powder collects driving mechanism, powder collects machine
Structure, demoulding mechanism, molding mechanism, shell, the top of the flow control mechanism are mutually welded with the top of shell, the powder
The left end that driving mechanism level is embedded in shell is collected at end, and top and the powder of the powder collecting mechanism collect driving mechanism
Bottom end is flexibly connected, and the demoulding mechanism is located at below the middle part of shell, and the molding mechanism is located at the middle part of shell, institute
State the surface that demoulding mechanism is located at molding mechanism.
As advanced optimizing for the technical program, the flow control mechanism includes latch plate, spring, into chute, cunning
Movable plate, sliding slot, fixed valve block, rotation valve block, joining rod, connecting rod, current limiting plate, the bottom end of the spring and the top of latch plate
It mutually welds, the latch plate is set to the lower section of sliding panel, and mutually welds, the middle part that shell is set into chute, and two
Person is integrated, and on the chute, the sliding slot is set into the left and right ends of chute, and two for sliding panel insertion installation
Person is integrated, and the right end of the fixed valve block is mutually welded with the left end of sliding panel, and the top of the rotation valve block is set to
The bottom end of fixed valve block, and the two is integrated, and one end of the joining rod is flexibly connected with the middle part of rotation valve block,
The other end is flexibly connected with the left part of connecting rod, and the right end of the connecting rod is mutually welded with the left end of current limiting plate, the current limiting plate
Level is embedded in the both sides into chute.
As advanced optimizing for the technical program, it includes ratch, limiting plate, pressing that the powder, which collects driving mechanism,
Block, shifting block, the left end of the ratch are mutually welded with the right end of briquetting, and the limiting plate is fitted around on ratch, described to press
Briquetting level is embedded in the left end of shell, and the shifting block is set to the lower section of ratch, and the two is meshed, the bottom end of the shifting block
It is flexibly connected with the top of powder collecting mechanism.
As advanced optimizing for the technical program, the powder collecting mechanism includes movable lower lock block, take out block, outlet,
The bottom end of pipeline, air entry, the activity lower lock block is vertically embedded into the bottom end for taking out block, and the outlet is set to the left end of shell,
And the two is integrated, and the right end of the outlet is set on the left end of pipeline, and the two is mutually welded, the air entry
Top and the bottom end of pipeline mutually weld, it is described activity lower lock block top be flexibly connected with the bottom end of shifting block.
As advanced optimizing for the technical program, the demoulding mechanism includes driving mechanism, pushing mechanism, jarring machine
Structure, the bottom end of the driving mechanism are mutually welded with the bottom end of shell, and the driving mechanism is located at the left of pushing mechanism, and two
Person's activity coordinates, and the pushing mechanism is set to the left of percussion mechanism, and the two is mutually welded, the bottom end of the percussion mechanism with
It mutually welds the bottom end of shell.
As advanced optimizing for the technical program, the driving mechanism includes belt, rotation axis, support base, motor, institute
Strap lug is stated around installing on the rotating shaft, the rotation axis insertion is mounted on the middle part of motor, top and the electricity of the support base
The bottom end of machine is mutually welded, and the bottom end of the support base is mutually welded with the bottom end of shell.
As advanced optimizing for the technical program, the pushing mechanism includes sector gear, mobility framework, sliding block, company
Strut is connect, the sector gear is set in mobility framework and the two is meshed, and the bottom end insertion of the mobility framework is mounted on
The top of sliding block, the left end and the right end of mobility framework of the connection strut mutually weld, the right end of the connection strut and vibrations
The left end of mechanism mutually welds.
As advanced optimizing for the technical program, the percussion mechanism includes support base, mobile sliding block, push rod, shake
Movable plate, push rod rotation axis, the bottom end of the support base are mutually welded with the bottom end of shell, and the bottom end of the mobile sliding block is embedded in
It is flexibly connected in the middle part of the top of support base, one end of the push rod and mobile sliding block, the middle part of the other end and push rod rotation axis
Flexible connection, the push rod rotation axis is set to the middle part of jolting plate, and the two is integrated, a left side for the mobile sliding block
End and the mutually welding for the right end for connecting strut.
As advanced optimizing for the technical program, the molding mechanism includes template, inclined plate, module, mold slots,
The template is set to the bottom end of mold slots, and the two is integrated, and the inclined plate is set to the left and right ends of template, and
The two is integrated, and the bottom end of the module is mutually welded with the top of template, and the mold slots are set to the middle part of shell, and
And the two is integrated.
The beneficial effects of the present invention are:Powder metallurgy automatically cleaning mold of the present invention passes through note when being used
Modeling mouth to carry out coagulation forming to body addition raw material, when raw material is via flow control mechanism, can impact on sliding panel,
Make the impact force slide downward a distance of sliding panel according to flow velocity, fixed valve block driven to move down, pushes joining rod movement,
It pushes connecting rod to be displaced outwardly, is displaced outwardly to pull into the current limiting plate on chute, increases the bore into chute, reduce stream
Speed, when charging rate is faster, bore will be opened bigger, and charging rate is stabilized, and when being demoulded, be sent out by motor
It is dynamic, drive sector gear to be rotated so that the reciprocating motion that mobility framework is controlled drives mobile sliding block in support base
Upper sliding so that push and push up and down, make jolting plate shake the bottom of template repeatedly, you can to make molding work
Part is split away off from module, is taken out, and finally when clearing up the powder in mold, is made by constantly pressing briquetting
Ratch is matched with shifting block, and shifting block is allowed to rotate, and is matched with the upper end of movable lower lock block, it is made to be taken out repeatedly on taking out block
It is dynamic so as to generate gas in pipeline, air-breathing is generated from air entry, by the adsorbing powder dust to pipeline in mold slots, via going out
Mouth discharge.
For the prior art, the present invention makes it when injection mold raw material, energy by the structure inside improving
Enough sizes that injection hole is automatically changed according to the velocity of liquid assets of injection device, to carry out stablizing control to injection molding velocity of liquid assets
System, prevents flow velocity too fast and leads to workpiece after shaping, and surface forms core, while when depanning, can be to mold bottom
Portion is uniformly shaken, and workpiece is made to fall off, and avoids workpiece when being agitated, surface causes to wear.
Description of the drawings
Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention,
Objects and advantages will become more apparent upon:
Fig. 1 is the structural schematic diagram of powder metallurgy automatically cleaning mold of the present invention.
Fig. 2 is the detailed construction schematic diagram of body of the present invention.
Fig. 3 is the dynamic structure schematic diagram of body of the present invention.
Fig. 4 is the structural schematic diagram after body movement of the present invention.
In figure:Injection hole -1, upper top cover -2, fixed link -3, body -4, flow control mechanism -41, powder collect driving machine
Structure -42, powder collecting mechanism -43, demoulding mechanism -44, molding mechanism -45, shell -46, latch plate -4101, spring -
4102, into chute -4103, sliding panel -4104, sliding slot -4105, fixed valve block -4106, rotation valve block -4107, joining rod -
4108, connecting rod -4109, current limiting plate -4110, ratch -4201, limiting plate -4202, briquetting -4203, shifting block -4204, activity
Lower lock block -4301 takes out block -4302, outlet -4303, pipeline -4304, air entry -4305, driving mechanism -441, pushing mechanism -
442, percussion mechanism -443, belt -44101, rotation axis -44102, support base -44103, -44104 sector gear of motor -
44201, mobility framework -44202, sliding block -44203, connection strut -44204, support base -44301, mobile sliding block -44302,
Push rod -44303, jolting plate -44304, push rod rotation axis -44305, template -4501, inclined plate -4502, module -4503, mold
Slot -4504.
Specific implementation mode
To make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, with reference to
Specific implementation mode and description of the drawings, the preferred embodiment that the present invention is further explained.
Embodiment
Please refer to Fig.1-Fig. 4, the present invention provides powder metallurgy automatically cleaning mold, structure include injection hole 1, upper top cover 2,
Fixed link 3, body 4, the bottom end of the injection hole 1 are mutually welded with the top of upper top cover 2, and the upper top cover 2 is located at the upper of body 4
Side, the top of the fixed link 3 are vertically embedded into the bottom end of upper top cover 2, and the bottom end of the fixed link 3 is vertically embedded into body 4
Top, the body 4 include flow control mechanism 41, powder collect driving mechanism 42, powder collecting mechanism 43, demoulding mechanism
44, molding mechanism 45, shell 46, the top of the flow control mechanism 41 are mutually welded with the top of shell 46, the powder
The left end that 42 level of driving mechanism is embedded in shell 46 is collected at end, and the top of the powder collecting mechanism 43 is collected with powder to be driven
The bottom end of mechanism 42 is flexibly connected, and the demoulding mechanism 44 is located at below the middle part of shell 46, the molding mechanism 45
In the middle part of shell 46, the demoulding mechanism 44 is located at the surface of molding mechanism 45, and the flow control mechanism 41 wraps
Include latch plate 4101, spring 4102, into chute 4103, sliding panel 4104, sliding slot 4105, fixed valve block 4106, rotation valve block
4107, joining rod 4108, connecting rod 4109, current limiting plate 4110, the bottom end of the spring 4102 and the top phase of latch plate 4101
Welding, the latch plate 4101 are set to the lower section of sliding panel 4104, and mutually weld, described to be set to shell 46 into chute 4103
Middle part, and the two is integrated, and the insertion of the sliding panel 4104 is mounted on sliding slot 4105, and the sliding slot 4105 is set to
Into the left and right ends of chute 4103, and the two is integrated, right end and the sliding panel 4104 of the fixed valve block 4106
Left end mutually weld, the top of the rotation valve block 4107 is set to the bottom end of fixed valve block 4106, and the two is that integration is tied
One end of structure, the joining rod 4108 is flexibly connected with the middle part of rotation valve block 4107, the left part of the other end and connecting rod 4109
Flexible connection, the right end of the connecting rod 4109 are mutually welded with the left end of current limiting plate 4110, and the current limiting plate 4110 is horizontal embedded
In the both sides into chute 4103, the powder collect driving mechanism 42 include ratch 4201, limiting plate 4202, briquetting 4203,
Shifting block 4204, the left end of the ratch 4201 are mutually welded with the right end of briquetting 4203, and the limiting plate 4202 is fitted around
On ratch 4201,4203 level of the briquetting is embedded in the left end of shell 46, and the shifting block 4204 is set under ratch 4201
Side, and the two is meshed, and the bottom end of the shifting block 4204 is flexibly connected with the top of powder collecting mechanism 43, and the powder is received
Collecting mechanism 43 includes movable lower lock block 4302, takes out block 4302, exports 4303, pipeline 4304, air entry 4305, and the activity pushes
The bottom end of block 4302 is vertically embedded into the bottom end for taking out block 4302, and the outlet 4303 is set to the left end of shell 46, and the two is
The right end of integral structure, the outlet 4303 is set on the left end of pipeline 4304, and the two is mutually welded, the air entry
4305 top and the bottom end of pipeline 4304 are mutually welded, the top of the activity lower lock block 4302 and the bottom end activity of shifting block 4204
Connection, the demoulding mechanism 44 include driving mechanism 441, pushing mechanism 442, percussion mechanism 443, the driving mechanism 441
Bottom end and the bottom end of shell 46 are mutually welded, and the driving mechanism 441 is located at the left of pushing mechanism 442, and the two activity is matched
It closes, the pushing mechanism 442 is set to the left of percussion mechanism 443, and the two is mutually welded, the bottom end of the percussion mechanism 443
It is mutually welded with the bottom end of shell 46, the driving mechanism 441 includes belt 44101, rotation axis 44102, support base 44103, electricity
Machine 44104, the belt 44101 are fitted around in rotation axis 44102, and the insertion of the rotation axis 44102 is mounted on motor
44104 middle part, the top of the support base 44103 are mutually welded with the bottom end of motor 44104, the bottom of the support base 44103
The bottom end with shell 46 is held mutually to weld, the pushing mechanism 442 includes sector gear 44201, mobility framework 44202, sliding block
44203, strut 44204 is connected, the sector gear 44201 is set in mobility framework 44202 and the two is meshed, the shifting
The bottom end insertion of dynamic frame 44202 is mounted on the top of sliding block 44203, the left end and mobility framework of the connection strut 44204
44202 right end mutually welds, and the left end of the right end and percussion mechanism 443 of the connection strut 44204 mutually welds, the jarring machine
Structure 443 includes support base 44301, mobile sliding block 44302, push rod 44303, jolting plate 44304, push rod rotation axis 44305, institute
The bottom end for stating support base 44301 and the bottom end of shell 46 are mutually welded, and the bottom end of the mobile sliding block 44302 is embedded in support bottom
The top of seat 44301, one end of the push rod 44303 are flexibly connected with 44302 middle part of mobile sliding block, and the other end is rotated with push rod
The middle part of axis 44305 is flexibly connected, and the push rod rotation axis 44305 is set to the middle part of jolting plate 44304, and the two is integrated
Change structure, the mutually welding of the left end of the mobile sliding block 44302 and the right end for connecting strut 44204, the molding mechanism
45 include template 4501, inclined plate 4502, module 4503, mold slots 4504, and the template 4501 is set to the bottom end of mold slots 4504,
And the two is integrated, and the inclined plate 4502 is set to the left and right ends of template 4501, and the two is integrated,
The bottom end of the module 4503 and the top of template 4501 are mutually welded, and the mold slots 4504 are set to the middle part of shell 46, and
The two is integrated.
The principle of the present invention:When being used, it is frozen by injection hole 1 to add raw material to body 4
Type can impact when raw material is via flow control mechanism 41 on sliding panel 4104, make the rushing according to flow velocity of sliding panel 4104
Power slide downward a distance is hit, drives fixed valve block 4106 to move down, joining rod 4108 is pushed to move, push connecting rod
4109 are displaced outwardly, and are displaced outwardly to pull into the current limiting plate 4110 on chute 4103, increase the bore into chute 4103, subtract
Flow velocity is lacked, when charging rate is faster, bore will be opened bigger, and charging rate is stabilized, and when being demoulded, pass through
Motor 44104 starts, and sector gear 44201 is driven to be rotated so that the reciprocating motion that mobility framework 44202 is controlled,
Mobile sliding block 44302 is driven to be slided in support base 44301 so as to push 44303 push up and down, make jolting plate
It is shaken repeatedly the bottom of 44304 pairs of templates 4501, you can make molding workpiece, split away off from module 4053, taken out
Come, finally when clearing up the powder in mold, makes ratch 4201 and 4204 phase of shifting block by constantly pressing briquetting 4203
Cooperation allows shifting block 4204 to rotate, is matched with the upper end of movable lower lock block 4301, it is made to be taken out repeatedly on taking out block 4302
It is dynamic so as to generate gas in pipeline 4034, air-breathing is generated from air entry 4035, by the adsorbing powder dust in mold slots 4504 to pipe
In road 4304, via 4303 discharge of outlet.
Problems solved by the invention is prior art mold when being used, and needs injection device being aligned in mold
Injection port on, the flow of injection device is often flowed according to the difference of material density, smaller in solution density, speed compared with
When fast, when easily raw material being made to fill in a mold, the bottom of mold is not reached also, subsequent raw material, which is just swarmed, to be come, and
Among easily bringing external gas into mold, the raw material made is uneven in mould inside point, and the workpiece surface processed is easy
There is core so that the level of production industry is not achieved in workpiece, while equipment often uses when carrying out molding by head cover
It is turned over, is tilted molding workpiece with tool, changes that method is firmly uneven, easily the surface of die workpiece is damaged, is made
Workpiece portion fragmentation is obtained within mold so that workpiece is scrapped, and can not be further processed, and the present invention passes through above-mentioned component
Be combined with each other, the present invention by improve inside structure, make it when injection mold raw material, can be automatically according to note
The velocity of liquid assets of device is moulded to be changed the size of injection hole, stability contorting is carried out to injection molding velocity of liquid assets, prevents flow velocity mistake
Lead to workpiece after shaping soon, surface forms core, while when depanning, can uniformly be shaken to mold bottom
It is dynamic, so that workpiece is fallen off, avoids workpiece when being agitated, surface causes to wear.
Claims (9)
1. powder metallurgy automatically cleaning mold, structure includes injection hole (1), upper top cover (2), fixed link (3), body (4), described
The bottom end of injection hole (1) and the top of upper top cover (2) are mutually welded, and the upper top cover (2) is located at the top of body (4), feature
It is:
The top of the fixed link (3) is vertically embedded into the bottom end of upper top cover (2), and the bottom end of the fixed link (3) is vertically embedded into
Top in body (4);
The body (4) includes flow control mechanism (41), powder collection driving mechanism (42), powder collecting mechanism (43), takes off
Mold mechanism (44), molding mechanism (45), shell (46), the top on the top and shell (46) of the flow control mechanism (41)
End is mutually welded, and the powder collects the left end that driving mechanism (42) level is embedded in shell (46), the powder collecting mechanism
(43) bottom end that driving mechanism (42) is collected on top with powder is flexibly connected, and the demoulding mechanism (44) is located at shell (46)
Below middle part, the molding mechanism (45) is located at the middle part of shell (46), and the demoulding mechanism (44) is located at mold molding
The surface of mechanism (45).
2. powder metallurgy automatically cleaning mold according to claim 1, it is characterised in that:Flow control mechanism (41) packet
Include latch plate (4101), spring (4102), into chute (4103), sliding panel (4104), sliding slot (4105), fixed valve block
(4106), rotation valve block (4107), joining rod (4108), connecting rod (4109), current limiting plate (4110), the spring (4102)
Bottom end and the top of latch plate (4101) are mutually welded, and the latch plate (4101) is set to the lower section of sliding panel (4104), and phase
Welding, the middle part that shell (46) is set into chute (4103), and the two is integrated, the sliding panel (4104)
Embedded to be mounted on sliding slot (4105), the sliding slot (4105) is set to the left and right ends into chute (4103), and the two is one
The left end of body structure, the right end and sliding panel (4104) of the fixed valve block (4106) mutually welds, the rotation valve block
(4107) top is set to the bottom end of fixed valve block (4106), and the two is integrated, the joining rod (4108)
One end is flexibly connected with the middle part of rotation valve block (4107), and the other end is flexibly connected with the left part of connecting rod (4109), the company
The right end of extension bar (4109) and the left end of current limiting plate (4110) mutually weld, and current limiting plate (4110) level is embedded in into chute
(4103) both sides.
3. powder metallurgy automatically cleaning mold according to claim 1, it is characterised in that:The powder collects driving mechanism
(42) include ratch (4201), limiting plate (4202), briquetting (4203), shifting block (4204), the left end of the ratch (4201)
It is mutually welded with the right end of briquetting (4203), the limiting plate (4202) is fitted around on ratch (4201), the briquetting
(4203) level is embedded in the left end of shell (46), and the shifting block (4204) is set to the lower section of ratch (4201), and the two phase
Engagement, the bottom end of the shifting block (4204) is flexibly connected with the top of powder collecting mechanism (43).
4. powder metallurgy automatically cleaning mold according to claim 1, it is characterised in that:Powder collecting mechanism (43) packet
It includes movable lower lock block (4302), take out block (4302), outlet (4303), pipeline (4304), air entry (4305), the activity pushes
The bottom end of block (4302) is vertically embedded into the bottom end for taking out block (4302), and the outlet (4303) is set to the left end of shell (46), and
And the two is integrated, the right end of the outlet (4303) is set on the left end of pipeline (4304), and the two is mutually welded,
The top and the bottom end of pipeline (4304) of the air entry (4305) are mutually welded, it is described activity lower lock block (4302) top with dial
The bottom end of block (4204) is flexibly connected.
5. powder metallurgy automatically cleaning mold according to claim 1, it is characterised in that:The demoulding mechanism (44) includes driving
Motivation structure (441), pushing mechanism (442), percussion mechanism (443), the bottom of the bottom end and shell (46) of the driving mechanism (441)
End is mutually welded, and the driving mechanism (441) is located at the left of pushing mechanism (442), and the two activity coordinates, the promotion machine
Structure (442) is set to the left of percussion mechanism (443), and the two is mutually welded, the bottom end of the percussion mechanism (443) and shell
(46) it mutually welds bottom end.
6. powder metallurgy automatically cleaning mold according to claim 5, it is characterised in that:The driving mechanism (441) includes
Belt (44101), rotation axis (44102), support base (44103), motor (44104), the belt (44101) are fitted around
In rotation axis (44102), the rotation axis (44102) is embedded mounted on the middle part of motor (44104), the support base
(44103) top and the bottom end of motor (44104) are mutually welded, the bottom of the bottom end and shell (46) of the support base (44103)
It mutually welds at end.
7. powder metallurgy automatically cleaning mold according to claim 5, it is characterised in that:The pushing mechanism (442) includes
Sector gear (44201), mobility framework (44202), sliding block (44203), connection strut (44204), the sector gear
(44201) it is set in mobility framework (44202) and the two is meshed, the bottom end insertion installation of the mobility framework (44202)
Top in sliding block (44203), the left end and the right end of mobility framework (44202) of the connection strut (44204) mutually weld, institute
The left end for stating the right end and percussion mechanism (443) of connection strut (44204) mutually welds.
8. powder metallurgy automatically cleaning mold according to claim 5, it is characterised in that:The percussion mechanism (443) includes
Support base (44301), mobile sliding block (44302), push rod (44303), jolting plate (44304), push rod rotation axis (44305),
The bottom end and the bottom end of shell (46) of the support base (44301) are mutually welded, the bottom end insertion of the mobile sliding block (44302)
It is flexibly connected in the middle part of top in support base (44301), one end of the push rod (44303) and mobile sliding block (44302), separately
One end is flexibly connected with the middle part of push rod rotation axis (44305), and the push rod rotation axis (44305) is set to jolting plate (44304)
Middle part, and the two is integrated, the left end of the mobile sliding block (44302) and the right end for connecting strut (44204)
Mutually welding.
9. powder metallurgy automatically cleaning mold according to claim 1, it is characterised in that:Molding mechanism (45) packet
Template (4501), inclined plate (4502), module (4503), mold slots (4504) are included, the template (4501) is set to mold slots
(4504) bottom end, and the two is integrated, and the inclined plate (4502) is set to the left and right ends of template (4501), and
The two is integrated, and the bottom end and the top of template (4501) of the module (4503) are mutually welded, the mold slots
(4504) it is set to the middle part of shell (46), and the two is integrated.
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CN201811051543.0A CN108772566A (en) | 2018-09-10 | 2018-09-10 | Powder metallurgy automatically cleaning mold |
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CN201811051543.0A CN108772566A (en) | 2018-09-10 | 2018-09-10 | Powder metallurgy automatically cleaning mold |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111283952A (en) * | 2020-02-26 | 2020-06-16 | 大连交通大学 | VR glasses forming device |
CN115007856A (en) * | 2022-06-21 | 2022-09-06 | 德钜(厦门)特种合金制品有限公司 | Powder metallurgy forming jig |
-
2018
- 2018-09-10 CN CN201811051543.0A patent/CN108772566A/en not_active Withdrawn
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111283952A (en) * | 2020-02-26 | 2020-06-16 | 大连交通大学 | VR glasses forming device |
CN115007856A (en) * | 2022-06-21 | 2022-09-06 | 德钜(厦门)特种合金制品有限公司 | Powder metallurgy forming jig |
CN115007856B (en) * | 2022-06-21 | 2024-01-02 | 德钜(厦门)特种合金制品有限公司 | Powder metallurgy forming jig |
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Application publication date: 20181109 |