CN114589304A - Tantalum powder forming device with high-precision powder shaking function - Google Patents

Tantalum powder forming device with high-precision powder shaking function Download PDF

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Publication number
CN114589304A
CN114589304A CN202210175491.8A CN202210175491A CN114589304A CN 114589304 A CN114589304 A CN 114589304A CN 202210175491 A CN202210175491 A CN 202210175491A CN 114589304 A CN114589304 A CN 114589304A
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China
Prior art keywords
powder
tantalum
cylinder
discharging
disc
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CN202210175491.8A
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Chinese (zh)
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CN114589304B (en
Inventor
何晓舟
王俊
王斌
王�华
李露
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Jiangsu Zhenhua Xinyun Electronics Co ltd
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Jiangsu Zhenhua Xinyun Electronics Co ltd
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Priority to CN202210175491.8A priority Critical patent/CN114589304B/en
Priority claimed from CN202210175491.8A external-priority patent/CN114589304B/en
Publication of CN114589304A publication Critical patent/CN114589304A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22FWORKING METALLIC POWDER; MANUFACTURE OF ARTICLES FROM METALLIC POWDER; MAKING METALLIC POWDER; APPARATUS OR DEVICES SPECIALLY ADAPTED FOR METALLIC POWDER
    • B22F3/00Manufacture of workpieces or articles from metallic powder characterised by the manner of compacting or sintering; Apparatus specially adapted therefor ; Presses and furnaces
    • B22F3/004Filling molds with powder
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22FWORKING METALLIC POWDER; MANUFACTURE OF ARTICLES FROM METALLIC POWDER; MAKING METALLIC POWDER; APPARATUS OR DEVICES SPECIALLY ADAPTED FOR METALLIC POWDER
    • B22F3/00Manufacture of workpieces or articles from metallic powder characterised by the manner of compacting or sintering; Apparatus specially adapted therefor ; Presses and furnaces
    • B22F3/02Compacting only
    • B22F3/03Press-moulding apparatus therefor
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P10/00Technologies related to metal processing
    • Y02P10/25Process efficiency

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  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Mechanical Engineering (AREA)
  • Weight Measurement For Supplying Or Discharging Of Specified Amounts Of Material (AREA)

Abstract

The invention discloses a tantalum powder forming device with a high-precision powder shaking function, which belongs to the technical field of tantalum powder forming devices, wherein a regulating motor is started to drive a rotary table to incline to a second powder guide pipe after the weight reaches the standard, so that tantalum powder enters a powder adding barrel through the second powder guide pipe, the tantalum powder falls onto a conical frame, then powder is guided through a side powder guide groove, the tantalum powder is guided into a forming groove through inclined guide holes on two sides of the inner wall of the powder adding barrel, then a side telescopic arm is started to drive an outer convex ring to carry out downward pressing forming, the formed tantalum powder barrel is positioned on the inner wall of a tantalum shell barrel, a first electric lifting rod is started to recycle, then a conveying motor is started to rotate the conveying barrel, another group of first electric lifting rods are moved to the lower part of the conical frame through a conveying belt, and another group of tantalum powder barrels needing to be formed in the inner wall forming barrel and sleeved outside the powder adding barrel again.

Description

Tantalum powder forming device with high-precision powder shaking function
Technical Field
The invention relates to a tantalum powder forming device, in particular to a tantalum powder forming device with a high-precision powder shaking function, and belongs to the technical field of tantalum powder forming devices.
Background
The tantalum powder is metal tantalum powder, the metal tantalum powder, and a dense oxide film generated on the surface of the powder has the property of one-way conductive valve metal.
The prepared anode film has stable chemical performance, high resistivity (7.5 multiplied by 1010 omega cm), large dielectric constant (27.6) and small leakage current, and is particularly stable in an acid electrolyte.
The device also has the advantages of wide working temperature range (-80-200 ℃), high reliability, shock resistance, long service life and the like.
The following problems exist in the process of carrying out a tantalum powder forming device in the prior art:
1. after the tantalum powder is agglomerated, because the required tantalum block is smaller and the light requirement is accurate, the powder shaking and adding structure in the prior art is not accurate enough, the shaking structure is unreasonable in design, and the problem that the powder adding is excessive and cannot be adjusted easily occurs;
2. in the prior art, continuous automatic operation cannot be performed when tantalum powder is formed, so that the working efficiency is low;
therefore, the tantalum powder forming device with the high-precision powder shaking function is designed to optimize the problems.
Disclosure of Invention
The invention mainly aims to provide a tantalum powder forming device with a high-precision powder shaking function, wherein a connection with a fixing frame is opened through rotating a transparent plastic cover, a tantalum powder box is placed on the inner side of an inner clamping plate and is clamped through a reset force after being compressed by a vibration spring, a vibration motor is started to shake tantalum powder out of the top of an upper adjusting disc, then a discharging motor is started to drive the upper adjusting disc to rotate, powder discharging holes are adjusted through aligned or staggered reserved holes between a first discharging hole and a second discharging hole, the fallen tantalum powder falls onto a rotary disc and is weighed through an electronic scale, when the weight exceeds a set value, an adjusting motor is started to drive the rotary disc to rotate, the tantalum powder is obliquely poured onto a first powder guide pipe through the rotation of the rotary disc, the rotary disc is reset after the tantalum powder reaches the standard, the adjusting motor is started to drive the rotary disc to incline a second powder guide pipe through the second powder guide pipe to enter a powder adding cylinder after the tantalum powder reaches the standard, the tantalum powder falls into on the conical frame after lead the powder through the side guide groove and lead the powder and derive the tantalum powder to the shaping inslot through the slope passage of adding powder section of thick bamboo inner wall both sides, then start the flexible arm in side and drive evagination ring drop shaping, tantalum powder section of thick bamboo after the shaping is located tantalum shell section of thick bamboo inner wall and starts first electric lift rod and retrieve, then start the rotatory conveying section of thick bamboo of conveying motor, remove another group's first electric lift rod to conical frame below through the conveyer belt, and will the centre gripping have another group of needs embolia the outside of adding the powder section of thick bamboo once more at inner wall shaping tantalum powder section of thick bamboo and carry out the shaping.
The purpose of the invention can be achieved by adopting the following technical scheme:
a tantalum powder forming device with a high-precision powder shaking function comprises a fixing frame, wherein a transparent plastic cover is meshed on the outer side of the fixing frame, an outer fixing cylinder is arranged in the middle of the inner side of the fixing frame, a clamping vibration plate assembly is arranged on the inner side of the outer fixing cylinder, a conical discharging cylinder is arranged at the bottom of the outer fixing cylinder, a powder discharging assembly with an adjustable aperture is arranged at the bottom of the conical discharging cylinder, a detachable material weighing disc assembly is arranged in the middle of the inner bottom of the fixing frame, a second powder guide pipe and a first powder guide pipe are respectively arranged on the inner side of the fixing frame and below the detachable material weighing disc assembly, the end of the second powder guide pipe is communicated with a powder inlet cylinder assembly, the powder inlet cylinder assembly is arranged on a base through a side telescopic arm, an adjustable lifting powder guide cone assembly is arranged in the powder inlet cylinder assembly, and a conveying belt assembly is arranged below the inner side telescopic arm, and a lifting adsorption disc component is arranged on the conveyor belt component, a tantalum shell cylinder is adsorbed on the inner side of the lifting adsorption disc component, and a forming groove is formed between the tantalum shell cylinder and the powder feeding cylinder component.
Preferably, centre gripping vibrations board subassembly includes outer slide cylinder, interior slide cylinder, vibrations spring and interior splint, outer slide cylinder is installed to the inner wall equidistant of outer fixed cylinder, the medial extremity department of outer slide cylinder installs vibrations spring, just interior slide cylinder is installed to the other end of vibrations spring, interior grip block is installed to the other end of interior slide cylinder.
Preferably, adjustable aperture goes out powder subassembly and includes ejection of compact motor, rotary rod, goes up adjustment disk, first discharge opening, side spacing groove, lower play charging tray and second discharge opening, the lower play charging tray is installed to the bottom of feed cylinder under the awl, the equidistant second discharge opening of having seted up on the lower play charging tray, the end middle part department of lower play charging tray installs ejection of compact motor, the output of ejection of compact motor runs through down the charging tray and installs the rotary rod, the adjustment disk is installed in the outside top department of rotary rod, go up the equidistant first discharge opening of having seted up on the adjustment disk, the inboard bottom department of feed cylinder has seted up the side spacing groove under the awl, just go up the adjustment disk insert to the inboard in side spacing groove.
Preferably, the demountable weighing tray assembly comprises an electronic scale, an annular frame, a rotary table and an adjusting motor, the electronic scale is mounted at the middle of the bottom of the fixed frame through a supporting leg, the annular frame is mounted on two sides of the top of the electronic scale through a tilting support, the rotary table is hinged to the inner side of the annular frame, the adjusting motor is mounted at the middle of the outer side of the rotary table, and the output end of the adjusting motor penetrates through the annular frame and the rotary table.
Preferably, advance a powder section of thick bamboo subassembly and include the roof, add a powder section of thick bamboo and evagination ring, the roof is installed at the top of the flexible arm of side, the top mid-mounting of roof has a powder section of thick bamboo, just add a powder section of thick bamboo with the powder pipe intercommunication is led to the second, the top department in the outside of adding a powder section of thick bamboo installs the evagination ring.
Preferably, adjustable lift is led powder and is bored subassembly and is included second electric lift pole, conical frame and side guide powder groove, the inner bottom middle part department that adds a powder section of thick bamboo installs second electric lift pole, conical frame is installed to the output of second electric lift pole, conical frame's top is the tapered structure, just side guide powder groove has been seted up to conical frame's top inclined plane.
Preferably, the conveyer belt subassembly includes conveying motor, a conveying section of thick bamboo, pivot and conveyer belt, the side end middle part department of the flexible arm of side installs the conveying motor, just the output of conveying motor runs through the pivot is installed to the flexible arm of side, the outside cover of pivot is equipped with a conveying section of thick bamboo, the outside cover of conveying section of thick bamboo is equipped with the conveyer belt, just the inboard of the flexible arm of side with be equipped with from the conveying section of thick bamboo on the conveying section of thick bamboo horizontal direction, another pot head of conveyer belt inboard is established in the from the conveying section of thick bamboo outside.
Preferably, lift adsorption disc subassembly includes first electric lift pole, grip slipper and sucking disc, the outside of conveyer belt pushes up middle part department equidistant and installs first electric lift pole, the grip slipper is installed to the output of first electric lift pole, the inboard equidistant sucking disc that is equipped with of grip slipper, the inboard adsorption of sucking disc has a tantalum shell section of thick bamboo, and constitutes the shaping groove between a tantalum shell section of thick bamboo and the powder adding section of thick bamboo and the evagination ring, the inside of grip slipper is equipped with the air pump, this air pump with the sucking disc intercommunication.
The tantalum powder forming device also comprises the following using method:
step 1: the connection with the fixing frame is opened by rotating the transparent plastic cover, the tantalum powder box is placed to the inner side of the inner clamping plate and is clamped by the reset force after the vibration spring is compressed;
step 2: starting a vibration motor to shake out the tantalum powder to the top of the upper adjusting disc, then starting a discharging motor to drive the upper adjusting disc to rotate, and adjusting powder discharging holes through aligned or staggered reserved holes between the first discharging holes and the second discharging holes;
and step 3: the falling tantalum powder falls onto a turntable and is weighed by an electronic scale;
and 4, step 4: when the weight exceeds a set value, starting an adjusting motor to drive a turntable to rotate, obliquely pouring tantalum powder onto a first powder guide pipe through the rotation of the turntable, continuously weighing, and resetting the turntable when the weight reaches the standard;
and 5: starting an adjusting motor to drive the rotary table to incline to the second powder guide pipe after the weight reaches the standard, so that the tantalum powder enters the powder adding barrel through the second powder guide pipe;
step 6: after falling onto the conical frame, tantalum powder is guided through the side powder guide grooves and guided into the forming grooves through the inclined material guide holes on the two sides of the inner wall of the powder adding cylinder, and then the side telescopic arm is started to drive the outer convex ring to be formed in a downward pressing mode;
and 7: the formed tantalum powder cylinder is positioned on the inner wall of the tantalum shell cylinder, the first electric lifting rod is started to recover the tantalum powder cylinder, and then the conveying motor is started to rotate the conveying cylinder;
and 8: and moving the other group of first electric lifting rods to the lower part of the conical frame through the conveying belt, and sleeving the other group of tantalum powder cylinders which are required to be formed on the inner wall into the outer side of the powder adding cylinder again for forming.
The invention has the beneficial technical effects that:
the invention provides a tantalum powder forming device with a high-precision powder shaking function, which is characterized in that a connection with a fixing frame is opened through rotating a transparent plastic cover, a tantalum powder box is placed inside an inner clamping plate and is clamped through a reset force after being compressed by a vibration spring, a vibration motor is started to shake tantalum powder out of the top of an upper adjusting disc, then a discharge motor is started to drive the upper adjusting disc to rotate, powder discharge holes are adjusted through aligned or staggered reserved holes between a first discharge hole and a second discharge hole, the dropped tantalum powder falls onto a rotary disc and is weighed through an electronic scale, when the weight exceeds a set value, an adjusting motor is started to drive the rotary disc to rotate, the tantalum powder is obliquely poured onto a first powder guide pipe through the rotation of the rotary disc, the rotary disc is reset continuously weighed when the tantalum powder reaches the standard, the adjusting motor is started to drive the rotary disc to incline towards a second powder guide pipe when the weight reaches the standard, and the tantalum powder enters a powder feeding cylinder through the second powder guide pipe, the tantalum powder falls into on the conical frame after lead the powder through the side guide groove and lead the powder and derive the tantalum powder to the shaping inslot through the slope passage of adding powder section of thick bamboo inner wall both sides, then start the flexible arm in side and drive evagination ring drop shaping, tantalum powder section of thick bamboo after the shaping is located tantalum shell section of thick bamboo inner wall and starts first electric lift rod and retrieve, then start the rotatory conveying section of thick bamboo of conveying motor, remove another group's first electric lift rod to conical frame below through the conveyer belt, and will the centre gripping have another group of needs embolia the outside of adding the powder section of thick bamboo once more at inner wall shaping tantalum powder section of thick bamboo and carry out the shaping.
Drawings
Fig. 1 is a sectional side view showing the whole of a preferred embodiment of a tantalum powder forming apparatus having a high-precision powder shaking function according to the present invention;
fig. 2 is a schematic structural diagram of a powder shaking clamping bin assembly, a powder discharging assembly and a weighing assembly of a preferred embodiment of the tantalum powder forming device with a high-precision powder shaking function according to the invention;
FIG. 3 is a schematic view of the combined structure of the conveyor belt assembly, the adsorption assembly, the forming assembly and the material distribution assembly of a preferred embodiment of the tantalum powder forming device with high-precision powder shaking function according to the invention;
FIG. 4 is an enlarged view of a structure at a position a of a preferred embodiment of a tantalum powder forming device with a high-precision powder shaking function according to the present invention;
FIG. 5 is an enlarged view of the structure at the position d of a preferred embodiment of a tantalum powder forming device with a high-precision powder shaking function according to the present invention;
FIG. 6 is a schematic structural diagram of a weighing assembly of a preferred embodiment of the tantalum powder forming device with high-precision powder shaking function according to the invention;
FIG. 7 is an enlarged view of the structure at the position c of a preferred embodiment of a tantalum powder forming device with a high-precision powder shaking function according to the present invention;
fig. 8 is an enlarged view of the structure at the position b of a preferred embodiment of the tantalum powder forming device with a high-precision powder shaking function according to the invention.
In the figure: 1-transparent plastic cover, 2-outer fixed cylinder, 3-inner clamping plate, 4-fixed frame, 5-cone blanking cylinder, 6-first powder guide pipe, 7-second powder guide pipe, 8-annular frame, 9-electronic scale, 11-side telescopic arm, 12-tantalum shell cylinder, 13-clamping seat, 14-first electric lifting rod, 15-conveyor belt, 16-conveyor motor, 17-rotating shaft, 18-conveyor cylinder, 19-powder adding cylinder, 20-rotating disc, 21-base, 22-second electric lifting rod, 23-cone frame, 24-side powder guide groove, 25-top plate, 26-inner sliding cylinder, 27-outer sliding cylinder, 28-vibrating spring, 29-rotating rod, 30-upper adjusting disc, 31-lower discharging disc, 32-discharge motor, 33-first discharge hole, 34-second discharge hole, 35-side limiting groove, 36-suction cup, 37-forming groove and 38-vibration motor.
Detailed Description
In order to make the technical solutions of the present invention more clear and definite, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.
As shown in fig. 1-8, the tantalum powder forming device with high precision powder shaking function provided by this embodiment comprises a fixing frame 4, a transparent plastic cover 1 is engaged with the outer side of the fixing frame 4, an outer fixing cylinder 2 is installed in the middle of the inner side of the fixing frame 4, a clamping vibration plate assembly is arranged on the inner side of the outer fixing cylinder 2, a cone discharging cylinder 5 is installed at the bottom of the outer fixing cylinder 2, an adjustable aperture powder discharging assembly is arranged at the bottom of the cone discharging cylinder 5, a detachable weighing plate assembly is installed in the middle of the inner bottom of the fixing frame 4, a second powder guiding pipe 7 and a first powder guiding pipe 6 are respectively arranged on the inner side of the fixing frame 4 and below the detachable weighing plate assembly, a powder feeding cylinder assembly is connected to the end of the second powder guiding pipe 7, the powder feeding cylinder assembly is installed on a base 21 through a side telescopic arm 11, an adjustable lifting powder guiding cone assembly is arranged inside the powder feeding cylinder assembly, a conveyor belt assembly is arranged below the inner side of the side telescopic arm 11, a lifting adsorption disc assembly is arranged on the conveyor belt assembly, a tantalum shell cylinder 12 is adsorbed on the inner side of the lifting adsorption disc assembly, and a forming groove 37 is formed between the tantalum shell cylinder 12 and the powder feeding cylinder assembly.
The connection with the fixed frame 4 is opened by rotating the transparent plastic cover 1, a tantalum powder box is placed on the inner side of the inner clamping plate 3 and is clamped by the reset force after being compressed by the vibration spring 28, the vibration motor 38 is started to shake out tantalum powder to the top of the upper adjusting disc 30, then the discharging motor 32 is started to drive the upper adjusting disc 30 to rotate, a powder discharging hole is adjusted through an aligned or staggered reserved hole between the first discharging hole 33 and the second discharging hole 34, the dropped tantalum powder falls onto the rotary disc 20 and is weighed by the electronic scale 9, when the weight exceeds a set value, the adjusting motor is started to drive the rotary disc 20 to rotate, the tantalum powder is obliquely poured onto the first powder guide pipe 6 by the rotation of the rotary disc 20, the rotary disc 20 is reset when the tantalum powder is continuously weighed, when the tantalum powder reaches the standard, the adjusting motor is started to drive the rotary disc 20 to incline the second powder guide pipe 7 to enable the tantalum powder to enter the powder feeding barrel 19 through the second powder guide pipe 7, the tantalum powder falls into the conical frame 23 and then is guided through the side powder guide groove 24, and is guided into the forming groove 37 through the inclined material guide holes on two sides of the inner wall of the powder adding cylinder 19, then the side telescopic arm 11 is started to drive the outer convex ring to be formed downwards, the formed tantalum powder cylinder is located on the inner wall of the tantalum shell cylinder 12, the first electric lifting rod 14 is started to be recovered, then the conveying motor 16 is started to rotate the conveying cylinder 18, the other group of first electric lifting rods 14 are moved to the lower part of the conical frame 23 through the conveying belt 15, and the other group of tantalum powder cylinders needing to be formed on the inner wall are clamped and sleeved into the outer side of the powder adding cylinder 19 again to be formed.
In this embodiment, the clamping vibration plate assembly comprises an outer sliding cylinder 27, an inner sliding cylinder 26, a vibration spring 28 and an inner clamping plate 3, the outer sliding cylinder 27 is installed on the inner wall of the outer fixing cylinder 2 at equal intervals, the vibration spring 28 is installed at the end part of the inner side of the outer sliding cylinder 27, the inner sliding cylinder 26 is installed at the other end of the vibration spring 28, and the inner clamping plate 3 is installed at the other end of the inner sliding cylinder 26.
In this embodiment, adjustable aperture goes out powder subassembly and includes ejection of compact motor 32, rotary rod 29, go up adjustment disk 30, first discharge opening 33, side spacing groove 35, lower discharge disk 31 and second discharge opening 34, lower discharge disk 31 is installed to the bottom of awl feed cylinder 5, second discharge opening 34 has been seted up to equidistant lower discharge disk 31, discharge motor 32 is installed to the end middle part department of lower discharge disk 31, rotary rod 29 is installed to discharge motor 32's output through lower discharge disk 31, adjustment disk 30 is installed to the outside top department of rotary rod 29, first discharge opening 33 has been seted up to equidistant on going up adjustment disk 30, side spacing groove 35 has been seted up to the inboard bottom department of awl feed cylinder 5, and go up adjustment disk 30 and insert the inboard to side spacing groove 35.
In this embodiment, the unloading dish subassembly of weighing includes electronic scale 9, annular frame 8, carousel 20 and adjusting motor, and electronic scale 9 is installed through the supporting leg in 4 end middle parts of mount, and the annular frame 8 is installed through the support of inclining to the both sides at electronic scale 9 top, and the inboard of annular frame 8 articulates there is carousel 20, and adjusting motor is installed to the outside middle part department of carousel 20, and this adjusting motor's output runs through annular frame 8 and is fixed with carousel 20.
In this embodiment, the powder feeding cylinder assembly comprises a top plate 25, a powder feeding cylinder 19 and an outer convex ring, the top plate 25 is installed at the top of the side telescopic arm 11, the powder feeding cylinder 19 is installed in the middle of the top plate 25, the powder feeding cylinder 19 is communicated with the second powder guide pipe 7, and the outer convex ring is installed at the top of the outer side of the powder feeding cylinder 19.
In this embodiment, adjustable lift is led powder and is bored subassembly and is included second electric lift rod 22, conical frame 23 and side guide powder groove 24, and interior bottom middle part department of adding powder section of thick bamboo 19 installs second electric lift rod 22, and conical frame 23 is installed to the output of second electric lift rod 22, and the top of conical frame 23 is the tapered structure, and the top inclined plane of conical frame 23 has seted up side guide powder groove 24.
In this embodiment, the conveyer belt subassembly includes conveying motor 16, a transfer cylinder 18, pivot 17 and conveyer belt 15, conveying motor 16 is installed to the side end middle part department of the flexible arm 11 of side, and conveying motor 16's output runs through the flexible arm 11 of side and installs pivot 17, the outside cover of pivot 17 is equipped with a transfer cylinder 18, the outside cover of a transfer cylinder 18 is equipped with conveyer belt 15, and be equipped with driven transfer cylinder on the inboard of the flexible arm 11 of side and the 18 horizontal direction of a transfer cylinder, another pot head of the inboard conveyer belt 15 is established in the driven transfer cylinder outside.
In this embodiment, the lifting adsorption disc assembly comprises a first electric lifting rod 14, a clamping seat 13 and a suction disc 36, the first electric lifting rod 14 is installed at the middle of the top of the outer side of the conveyor belt 15 at equal intervals, the clamping seat 13 is installed at the output end of the first electric lifting rod 14, the suction disc 36 is arranged at the inner side of the clamping seat 13 at equal intervals, the tantalum shell 12 is adsorbed on the inner side of the suction disc 36, a forming groove 37 is formed between the tantalum shell 12 and the powder adding cylinder 19 and between the tantalum shell and the outer convex ring, an air pump is arranged inside the clamping seat 13, and the air pump is communicated with the suction disc 36.
The tantalum powder forming device also comprises the following using method:
step 1: the connection with the fixed frame 4 is opened by rotating the transparent plastic cover 1, the tantalum powder box is placed on the inner side of the inner clamping plate 3 and is clamped by the reset force of the vibration spring 28 after compression;
step 2: starting a vibration motor 38 to shake out the tantalum powder to the top of the upper adjusting disc 30, then starting a discharging motor 32 to drive the upper adjusting disc 30 to rotate, and adjusting the powder discharging hole through the aligned or staggered reserved hole between the first discharging hole 33 and the second discharging hole 34;
and step 3: the fallen tantalum powder falls onto a turntable 20 and is weighed by an electronic scale 9;
and 4, step 4: when the weight exceeds a set value, starting an adjusting motor to drive the turntable 20 to rotate, obliquely pouring tantalum powder onto the first powder guide pipe 6 through the rotation of the turntable 20, continuously weighing, and resetting the turntable 20 when the weight reaches the standard;
and 5: after the weight reaches the standard, the adjusting motor is started to drive the turntable 20 to incline to the second powder guide pipe 7, so that the tantalum powder enters the powder adding barrel 19 through the second powder guide pipe 7;
step 6: after falling onto the conical frame 23, tantalum powder is guided through the side powder guide groove 24 and guided into the forming groove 37 through the inclined material guide holes on two sides of the inner wall of the powder adding cylinder 19, and then the side telescopic arm 11 is started to drive the outer convex ring to be formed in a downward pressing mode;
and 7: the formed tantalum powder cylinder is positioned on the inner wall of the tantalum shell cylinder 12, the first electric lifting rod 14 is started to recover, and then the conveying motor 16 is started to rotate the conveying cylinder 18;
and 8: the other group of first electric lifting rods 14 is moved to the lower part of the conical frame 23 through the conveyor belt 15, and the other group of tantalum powder cylinders needing to be formed on the inner wall is sleeved on the outer side of the powder adding cylinder 19 again to be formed.
The above are only further embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and its concept within the scope of the present invention.

Claims (9)

1. The utility model provides a tantalum powder forming device with powder function is trembled to high accuracy which characterized in that: comprises a fixed frame (4), the outside of the fixed frame (4) is engaged with a transparent plastic cover (1), the middle part of the inner side of the fixed frame (4) is provided with an outer fixed cylinder (2), the inner side of the outer fixed cylinder (2) is provided with a clamping vibration plate component, the bottom of the outer fixed cylinder (2) is provided with a cone discharging cylinder (5), the bottom of the cone discharging cylinder (5) is provided with an adjustable aperture powder discharging component, the middle part of the inner bottom of the fixed frame (4) is provided with a detachable material weighing plate component, the inner side of the fixed frame (4) is provided with a second powder guide pipe (7) and a first powder guide pipe (6) below the detachable material weighing plate component respectively, the end part of the second powder guide pipe (7) is communicated with a powder feeding cylinder component, the powder feeding cylinder component is arranged on a base (21) through a side telescopic arm (11), the inner part of the powder feeding cylinder component is internally provided with an adjustable lifting powder guide cone component, a conveyor belt component is arranged below the inner side of the side telescopic arm (11), a lifting adsorption disc component is arranged on the conveyor belt component, a tantalum shell cylinder (12) is adsorbed on the inner side of the lifting adsorption disc component, and a forming groove (37) is formed between the tantalum shell cylinder (12) and the powder feeding cylinder component.
2. The tantalum powder forming device with the high-precision powder shaking function as claimed in claim 1, wherein: centre gripping vibrations board subassembly includes outer slide cylinder (27), interior slide cylinder (26), vibrations spring (28) and interior grip block (3), outer slide cylinder (27) are installed to the inner wall equidistant of outer fixed cylinder (2), the medial extremity department of outer slide cylinder (27) installs vibrations spring (28), just interior slide cylinder (26) are installed to the other end of vibrations spring (28), interior grip block (3) are installed to the other end of interior slide cylinder (26).
3. The tantalum powder forming device with the high-precision powder shaking function as claimed in claim 2, wherein: the aperture-adjustable powder discharging component comprises a discharging motor (32), a rotating rod (29), an upper adjusting disc (30), a first discharging hole (33), a side limiting groove (35), a lower discharging disc (31) and a second discharging hole (34), a lower discharging disc (31) is arranged at the bottom of the conical discharging barrel (5), second discharging holes (34) are arranged on the lower discharging disc (31) at equal intervals, a discharging motor (32) is arranged in the middle of the bottom of the lower discharging disc (31), the output end of the discharging motor (32) penetrates through the lower discharging disc (31) and is provided with a rotating rod (29), an upper adjusting disc (30) is arranged at the top of the outer side of the rotating rod (29), the upper adjusting disc (30) is provided with first discharging holes (33) at equal intervals, a side limiting groove (35) is arranged at the bottom of the inner side of the cone discharging barrel (5), and the upper adjusting disk (30) is inserted into the inner side of the side limiting groove (35).
4. The tantalum powder forming device with the high-precision powder shaking function as claimed in claim 3, wherein: the unloading weighing tray assembly comprises an electronic scale (9), an annular frame (8), a rotary table (20) and an adjusting motor, the electronic scale (9) is installed at the middle of the bottom of the fixed frame (4) through supporting legs, the annular frame (8) is installed on the two sides of the top of the electronic scale (9) through inclined supports, the rotary table (20) is hinged to the inner side of the annular frame (8), the adjusting motor is installed at the middle of the outer side of the rotary table (20), and the output end of the adjusting motor runs through the annular frame (8) and the rotary table (20) are fixed.
5. The tantalum powder forming device with the high-precision powder shaking function as claimed in claim 4, wherein: advance a powder section of thick bamboo subassembly and include roof (25), add a powder section of thick bamboo (19) and bulge loop, roof (25) are installed at the top of the flexible arm of side (11), the top mid-mounting of roof (25) has and adds a powder section of thick bamboo (19), just add a powder section of thick bamboo (19) with second leads powder pipe (7) intercommunication, the top department in the outside of adding a powder section of thick bamboo (19) installs the bulge loop.
6. The tantalum powder forming device with the high-precision powder shaking function as claimed in claim 5, wherein: adjustable lift is led powder and is bored subassembly and is included second electric lift pole (22), awl type frame (23) and side guide powder groove (24), inner bottom middle part department that adds a powder section of thick bamboo (19) installs second electric lift pole (22), awl type frame (23) are installed to the output of second electric lift pole (22), the top of awl type frame (23) is the awl type structure, just side guide powder groove (24) have been seted up to the top inclined plane of awl type frame (23).
7. The tantalum powder forming device with the high-precision powder shaking function as claimed in claim 6, wherein: the conveyer belt subassembly includes conveying motor (16), a conveying section of thick bamboo (18), pivot (17) and conveyer belt (15), the side end middle part department of the flexible arm of side (11) installs conveying motor (16), just the output of conveying motor (16) runs through pivot (17) are installed in the flexible arm of side (11), the outside cover of pivot (17) is equipped with a conveying section of thick bamboo (18), the outside cover of a conveying section of thick bamboo (18) is equipped with conveyer belt (15), just the inboard of the flexible arm of side (11) with be equipped with from the conveying section of thick bamboo on conveying section of thick bamboo (18) the horizontal direction, the other pot head of conveyer belt (15) inboard is established in from the conveying section of thick bamboo outside.
8. The tantalum powder forming device with the high-precision powder shaking function as claimed in claim 7, wherein: the lift adsorption disc subassembly includes first electric lift pole (14), grip slipper (13) and sucking disc (36), first electric lift pole (14) are installed to the outside top middle part department equidistant of conveyer belt (15), grip slipper (13) are installed to the output of first electric lift pole (14), the inboard equidistant of grip slipper (13) is equipped with sucking disc (36), the inboard adsorption of sucking disc (36) has tantalum shell section of thick bamboo (12), and constitutes shaping groove (37) between tantalum shell section of thick bamboo (12) and the powder adding section of thick bamboo (19) and the evagination ring, the inside of grip slipper (13) is equipped with the air pump, this air pump with sucking disc (36) intercommunication.
9. The tantalum powder forming device with the high-precision powder shaking function as claimed in claim 8, wherein: the tantalum powder forming device also comprises the following using method:
step 1: the connection with the fixed frame (4) is opened by rotating the transparent plastic cover (1), the tantalum powder box is placed on the inner side of the inner clamping plate (3) and is clamped by the reset force of the vibration spring (28) after being compressed;
and 2, step: starting a vibrating motor (38) to shake out tantalum powder to the top of the upper adjusting disc (30), then starting a discharging motor (32) to drive the upper adjusting disc (30) to rotate, and adjusting powder discharging holes through aligned or staggered reserved holes between the first discharging hole (33) and the second discharging hole (34);
and step 3: the fallen tantalum powder falls onto a rotary disc (20) and is weighed by an electronic scale (9);
and 4, step 4: when the weight exceeds a set value, starting an adjusting motor to drive a turntable (20) to rotate, obliquely pouring tantalum powder onto a first powder guide pipe (6) through the rotation of the turntable (20), continuously weighing, and resetting the turntable (20) when the weight reaches the standard;
and 5: after the weight reaches the standard, the adjusting motor is started to drive the turntable (20) to incline to the second powder guide pipe (7), so that the tantalum powder enters the powder adding cylinder (19) through the second powder guide pipe (7);
step 6: after falling onto the conical frame (23), tantalum powder is guided through the side powder guide groove (24) and guided into the forming groove (37) through the inclined material guide holes on two sides of the inner wall of the powder adding cylinder (19), and then the side telescopic arm (11) is started to drive the outer convex ring to be pressed and formed;
and 7: the formed tantalum powder cylinder is positioned on the inner wall of the tantalum shell cylinder (12), a first electric lifting rod (14) is started to recover, and then a conveying motor (16) is started to rotate a conveying cylinder (18);
and 8: and moving another group of first electric lifting rods (14) to the lower part of the conical frame (23) through a conveyor belt (15), and sleeving another group of tantalum powder cylinders needing to be formed on the inner wall into the outer side of the powder adding cylinder (19) again for forming.
CN202210175491.8A 2022-02-25 Tantalum powder forming device with high-precision powder shaking function Active CN114589304B (en)

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