CN203077432U - Forming die of grinding wheel forming machine - Google Patents

Forming die of grinding wheel forming machine Download PDF

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Publication number
CN203077432U
CN203077432U CN 201320060047 CN201320060047U CN203077432U CN 203077432 U CN203077432 U CN 203077432U CN 201320060047 CN201320060047 CN 201320060047 CN 201320060047 U CN201320060047 U CN 201320060047U CN 203077432 U CN203077432 U CN 203077432U
Authority
CN
China
Prior art keywords
mould
bolster
abrasive wheel
wheel forming
template
Prior art date
Application number
CN 201320060047
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Chinese (zh)
Inventor
李新迎
李永民
Original Assignee
李新迎
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 李新迎 filed Critical 李新迎
Priority to CN 201320060047 priority Critical patent/CN203077432U/en
Application granted granted Critical
Publication of CN203077432U publication Critical patent/CN203077432U/en

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Abstract

The utility model discloses a forming die of a grinding wheel forming machine. The forming die comprises a lower template, a die ring and an upper template, wherein an elastic supporting device is arranged between the die ring and an installing base of the forming die. A back pressure supporting column is arranged on the installing base of the forming die. A bearing plate is installed on the back pressure supporting column. The lower template is arranged above the bearing plate. A lower template lifting column is connected on the lower surface of the lower template. A lower template lift driving device is connected with the lower template lifting column. A through hole used for penetrating of the lower template lifting column is formed in the bearing plate. The installing base of the forming die is further provided with a core column which penetrates through a grinding wheel forming cavity. A core hole which corresponds to the core column is arranged in the upper template. Friction among grinding materials in the grinding wheel forming cavity and the inner wall of the die ring is increased due to downward-pressing of the lower template, so that the die ring is driven to press downwardly relative to the lower template, compaction to the grinding materials at the lower portion of the grinding wheel forming cavity is achieved, complex steps of traditional process are avoided, the forming die of the grinding wheel forming machine is suitable for automatic production, production efficiency is greatly improved, and operation is stable and reliable.

Description

The abrasive wheel forming forming machine mould
Technical field
The utility model relates to a kind of abrasive wheel forming machine mould.
Background technology
As Figure 11 and shown in Figure 12, tradition abrasive wheel forming mould comprises lower bolster 301, stem stem 304, cope match-plate pattern 303 and mould circle 302, cope match-plate pattern 303 is located at mould circle 302 inner chamber tops, lower bolster 301 is located at mould circle 302 inner chamber bottoms, cope match-plate pattern 303 and lower bolster 301 centers are respectively equipped with stem stem installing hole 315, stem stem 304 two ends are sleeved on the stem stem installing hole 315 of cope match-plate pattern 303 and lower bolster 301, be placed with upper surface on the described cope match-plate pattern 303 and exceed the trim ring 316 of described mould circle 302, the top of described trim ring 316 is corresponding to abrasive wheel forming pressure head 105, and the external diameter of described abrasive wheel forming pressure head 105 is greater than the internal diameter of described mould circle 302.
,, comprise the steps: during the moulding of emery wheel blank to shown in Figure 15 as Figure 12
The first step as shown in figure 12, place cushion block 317 in mould circle 302 lower edges, stem stem 304 is fixed on the stem stem installing hole 315 of lower bolster 301, abrasive material is put into the abrasive wheel forming chamber, abrasive material is stirred and the equating arrangement, cover template 303 then, place trim ring 316 again on cope match-plate pattern 303, the upper surface of described trim ring 316 exceeds described mould circle 302.
Second step as shown in figure 13, mould is pushed forcing press, abrasive wheel forming pressure head 105 presses down described trim ring 316, described trim ring 316 promotes described cope match-plate pattern 303 and moves downward, be positioned at abrasive material downward compacting from top in abrasive wheel forming chamber, when the abrasive wheel forming pressure head was pressed in for 105 times on the described mould circle 302, abrasive wheel forming pressure head 105 no longer moved downward, press on the abrasive material and finish, this moment, the density of abrasive material after pressure forming on top, abrasive wheel forming chamber was bigger.
The 3rd step was lifted abrasive wheel forming pressure head 105 as shown in figure 14, and cushion block 317 is removed, and had raised mould circle 302 because of cushion block 317, and mould circle 302 has had downward space.
The 4th step as shown in figure 15, the starting pressure machine, abrasive wheel forming pressure head, mould circle 302, trim ring 316 and cope match-plate pattern 303 move downward together, lower bolster 301 moves upward with respect to mould circle 302, so compacting the abrasive material of bottom, abrasive wheel forming chamber, make that the emery wheel blank compacted density in the abrasive wheel forming die cavity is even.
The 5th step, mould is moved on on the dedicated, carry out stripping operation, at first manually respectively stem stem 304 and mould circle 302 are beaten from cope match-plate pattern, emery wheel blank and lower bolster and gone out, remove cope match-plate pattern then, place emery wheel blank supporting plate, again the emery wheel blank is overturn, remove lower bolster, the emery wheel blank is placed on the moulding of promptly finishing the emery wheel blank on the emery wheel blank storage rack together with emery wheel blank supporting plate.
The shortcoming of prior art is:
1. the forcing press in forming process, all the other operations are all manually finished, the complex steps complexity, and production efficiency is low, is unsuitable for producing in enormous quantities.
2. need manually beat at knockout course medium plain emery wheel moulding stem stem 304 and go out, consume operating personnel's muscle power in a large number, production efficiency is lower.
3. the security of emery wheel blank moulding is relatively poor.
The utility model content
Technical problem to be solved in the utility model provides a kind of automated production that is applicable to, and the high abrasive wheel forming forming machine mould of production efficiency.
For solving the problems of the technologies described above, the technical solution of the utility model is: the abrasive wheel forming forming machine mould, comprise lower bolster, be positioned at the mould circle and the cope match-plate pattern that is installed on the abrasive wheel forming pressure head of mould mount pad top, described mould circle, described cope match-plate pattern and described lower bolster form the abrasive wheel forming chamber, be provided with resilient supporting unit between described mould circle and the described mould mount pad, also be provided with the back-pressure pillar on the described mould mount pad, on the described back-pressure pillar bearing plate is installed, described bearing plate top is provided with lower bolster, described lower bolster lower surface is connected with the lower bolster lifting column, described lower bolster lifting column is connected with the lower bolster lifting drive, described bearing plate is provided with the through hole that passes for described lower bolster lifting column, also be provided with the stem stem that penetrates in the described abrasive wheel forming chamber on the described mould mount pad, described cope match-plate pattern is provided with the core hole corresponding with described stem stem.
As optimized technical scheme, described resilient supporting unit comprises the lead that is located on the described mould mount pad, described mould circle is provided with the fairlead that is sleeved on the described lead, is provided with the spring that is sleeved on described lead outer surface between described fairlead and the described mould mount pad.
As optimized technical scheme, described lower bolster lifting drive comprises hydraulic cylinder, the fixedly connected described lower bolster lifting column of the piston rod of described hydraulic cylinder.
As optimized technical scheme, described lower bolster top also is provided with the ejection supporting plate.
Owing to adopted technique scheme, the abrasive wheel forming forming machine mould, comprise lower bolster, be positioned at the mould circle and the cope match-plate pattern that is installed on the abrasive wheel forming pressure head of mould mount pad top, described mould circle, described cope match-plate pattern and described lower bolster form the abrasive wheel forming chamber, be provided with resilient supporting unit between described mould circle and the described mould mount pad, also be provided with the back-pressure pillar on the described mould mount pad, on the described back-pressure pillar bearing plate is installed, described bearing plate top is provided with lower bolster, described lower bolster lower surface is connected with the lower bolster lifting column, described lower bolster lifting column is connected with the lower bolster lifting drive, described bearing plate is provided with the through hole that passes for described lower bolster lifting column, also be provided with the stem stem that penetrates in the described abrasive wheel forming chamber on the described mould mount pad, described cope match-plate pattern is provided with the core hole corresponding with described stem stem; During use, earlier abrasive material is sent into the abrasive wheel forming chamber, abrasive material is stirred, start the abrasive wheel forming pressure head this moment, the abrasive wheel forming pressure head drives cope match-plate pattern and presses down, the mould circle is because the support of resilient supporting unit, cope match-plate pattern moves downward with respect to the mould circle, the abrasive material on top, abrasive wheel forming chamber is compacted like this, along with pressing down of cope match-plate pattern, the pressure that abrasive material bears in the abrasive wheel forming chamber is increasing, and the frictional force in the abrasive wheel forming chamber between abrasive material and the described mould circle inwall also increases gradually, when frictional force increases to a certain degree, cope match-plate pattern will drive the mould circle and press down with respect to lower bolster together, lower bolster because by back-pressure shore supports under the bearing plate on the mould mount pad, produce counter-pressure to bottom, abrasive wheel forming chamber, the abrasive material of bottom, abrasive wheel forming chamber is compacted like this; Then the abrasive wheel forming pressure head drives cope match-plate pattern and rises, and the lower bolster lifting drive drives lower bolster and rises, and the emery wheel blank of moulding is raised deviates from the abrasive wheel forming chamber, be applicable to automated production, reduced use, can improve production efficiency greatly, and working stability has been reliable manpower.
Description of drawings
Fig. 1 is the structural representation of the automatic abrasive wheel forming machine of swing type among the utility model embodiment;
Fig. 2 is the rearview of Fig. 1;
Fig. 3 is the structural representation of the utility model embodiment medium sand material collating unit;
Fig. 4 is the utility model embodiment medium sand material collating unit working state schematic representation;
Fig. 5 is that the A-A of Fig. 4 is to cutaway view;
Fig. 6 is the structural representation of support roller device among the utility model embodiment:
Fig. 7 is the structural representation of the utility model embodiment medium plain emery wheel mould:
Fig. 8, Fig. 9, Figure 10 are the course of work schematic diagrames of utility model embodiment medium plain emery wheel mould:
Figure 11 is the structural representation of existing design in the background technology;
Figure 12-Figure 15 is that formed in mould schematic diagram is carried out in existing design in the background technology;
Among the figure: the 1-base; 2-mould mount pad; 3-abrasive wheel forming mould; 4-filling ejection station; 5-sand material collating unit; 6-abrasive wheel forming station; The 101-front column; The 102-rear column; The 103-footstock; The 104-hydraulic jack; 105-abrasive wheel forming pressure head; The 106-swing arm; 107-ring gear section; The 108-external gear; 109-external gear drive motor; The 110-roller; 111-roller support arm; 112-compresses spring; The 301-lower bolster; 302-mould circle; The 303-cope match-plate pattern; The 304-stem stem; The 305-hydraulic cylinder; 306-back-pressure pillar; The 307-bearing plate; 308-lower bolster lifting column; The 309-through hole; 310-core hole; The 311-lead; The 312-fairlead; The 313-spring; 314-ejection supporting plate; 315-stem stem installing hole; The 316-trim ring; The 317-cushion block; 501-sand material arrangement pedestal; 502-mixes the pawl rotating shaft thoroughly; 503-mixes pawl thoroughly; The 504-crossbearer; The 505-claw bar; The floating pecten of 506-; The 507-spline; The 508-spline housing; The 509-elevating bracket; 510-lifting groove; The 511-bearing; The 512-cylinder; The 513-leading screw; The 514-pilot hole; The 515-lead; The 516-drive motors; 517-leading screw drive motors.
The specific embodiment
The abrasive wheel forming forming machine mould is the important component part of the automatic abrasive wheel forming machine of swing type, below in conjunction with the composition of the automatic abrasive wheel forming machine of swing type structure to the abrasive wheel forming forming machine mould, the principle and the course of work describe in detail, as depicted in figs. 1 and 2, the automatic abrasive wheel forming machine of swing type, comprise base 1, the front portion of described base 1 is installed with a front column 101, the rear portion of described base 1 is installed with two rear columns 102, described front column 101 and described rear column 102 upper fixed are equipped with footstock 103, be installed with hydraulic jack 104 on the described footstock 103, the abrasive wheel forming pressure head 105 that moves downward is installed on the described hydraulic jack 104, be rotatablely equipped with two swing arms 106 of rolling to each side to described front column 101 respectively on the described front column 101, the outer end of described swing arm 106 is installed with mould mount pad 2, on the described mould mount pad 2 abrasive wheel forming mould 3 is installed, described base 1 is provided with the abrasive wheel forming station 6 and the filling ejection station 4 that is positioned at described front column 101 both sides corresponding to abrasive wheel forming pressure head 105, be provided with the oscillatory gearing mechanism that switches station between described mould mount pad 2 and the described base 1, be separately installed with sand material collating unit 5 on the described footstock 103 corresponding to two described filling ejection stations 4.
Described oscillatory gearing mechanism comprises the support roller device that is installed in described mould mount pad 2 bottom surfaces and is supported on plane on the described base 1, the ring gear section 107 that is provided with along described abrasive wheel forming mould swinging track also is installed on the described base 1, described ring gear section 107 and described front column 101 are provided with one heart, described mould mount pad 2 is provided with the external gear 108 with described ring gear section 107 engagements, and described external gear 108 is connected with the external gear drive motor 109 that is fixedly mounted on the described mould mount pad 2.
As shown in Figure 6, described support roller device comprises at least one roller 110, and described roller 110 is installed on the roller support arm 111 that slides up and down setting, is provided with compression spring 112 between described roller support arm 111 and the described mould mount pad 2; When described abrasive wheel forming pressure head 105 pressed down moulding, the bottom surface together support of the bottom surface of described roller 110 and described mould mount pad 2 was on plane on the described base 1; During described abrasive wheel forming pressure head 105 returns, the bottom supporting of described roller 110 is on plane on the described base 1, and the last plane of the bottom surface of described mould mount pad 2 and described base 1 has certain clearance.
As shown in Figure 7, the abrasive wheel forming forming machine mould, comprise lower bolster 301, be positioned at the mould circle 302 and the cope match-plate pattern 303 that is installed on the abrasive wheel forming pressure head 105 of mould mount pad 2 tops, described mould circle 302, described cope match-plate pattern 303 and described lower bolster 301 form the abrasive wheel forming chamber, be provided with resilient supporting unit between described mould circle 302 and the described mould mount pad 2, also be provided with back-pressure pillar 306 on the described mould mount pad 2, on the described back-pressure pillar 306 bearing plate 307 is installed, described bearing plate 307 tops are provided with lower bolster 301, described lower bolster 301 lower surfaces are connected with lower bolster lifting column 308, described lower bolster lifting column 308 is connected with the lower bolster lifting drive, described bearing plate 307 is provided with the through hole 309 that passes for described lower bolster lifting column 308, also be provided with the stem stem 304 that penetrates in the described abrasive wheel forming chamber on the described mould mount pad 2, described cope match-plate pattern 303 is provided with the core hole 310 corresponding with described stem stem 304.
Described resilient supporting unit comprises the lead 311 that is located on the described mould mount pad 2, described mould circle 302 is provided with the fairlead 312 that is sleeved on the described lead 311, is provided with the spring 313 that is sleeved on described lead 311 outer surfaces between described fairlead 312 and the described mould mount pad 2.
Described lower bolster lifting drive comprises hydraulic cylinder 305, the fixedly connected described lower bolster lifting column 308 of the piston rod of described hydraulic cylinder 305.
Described lower bolster 301 tops also are provided with ejection supporting plate 314.
As Fig. 8, Fig. 9 and shown in Figure 10, during use, earlier abrasive material is sent into the abrasive wheel forming chamber, abrasive material is stirred, start abrasive wheel forming pressure head 105 this moment, abrasive wheel forming pressure head 105 drives cope match-plate pattern 303 and presses down, mould circle 302 is because the support of resilient supporting unit, cope match-plate pattern 303 moves downward with respect to mould circle 302, the abrasive material on top, abrasive wheel forming chamber is compacted like this, along with pressing down of cope match-plate pattern 303, the pressure that abrasive material bears in the abrasive wheel forming chamber is increasing, frictional force in the abrasive wheel forming chamber between abrasive material and described mould circle 302 inwalls also increases gradually, when frictional force increases to a certain degree, cope match-plate pattern 303 will drive mould circle 302 and press down with respect to lower bolster 301 together, and lower bolster 301 is because be supported on the mould mount pad 2 by back-pressure pillar 306 under the bearing plate, generation is to the counter-pressure of bottom, abrasive wheel forming chamber, and the abrasive material of bottom, abrasive wheel forming chamber is compacted like this.
As Fig. 1, Fig. 3, Fig. 4 and shown in Figure 5, described sand material collating unit 5 comprises the sand material arrangement lowering or hoisting gear that is installed on the described footstock 103, the lower end of described sand material arrangement lowering or hoisting gear is equipped with sand material arrangement pedestal 501, on the described sand material arrangement pedestal 501 the sand material is installed and mixes device and sand material floating device thoroughly.
Described sand material is mixed device thoroughly and is comprised being rotatably installed in and mix pawl rotating shaft 502 thoroughly on the described sand material arrangement pedestal 501, and described pawl rotating shaft 502 lower ends of mixing thoroughly are connected with and mix pawl 503 thoroughly, describedly mixes pawl rotating shaft 502 thoroughly and is connected with sand material arrangement drive unit; The described pawl 503 of mixing thoroughly comprises and is fixedly mounted on the described crossbearer of mixing thoroughly in the pawl rotating shaft 502 504 that described crossbearer 504 is provided with sagging claw bar 505.Described sand material arrangement drive unit, described sand material arrangement drive unit comprises drive motors 516.
Described sand material floating device comprises floating pecten 506, be provided with floating pecten lowering or hoisting gear between described floating pecten 506 and the described sand material arrangement pedestal 501, described floating pecten 506 and described mixing thoroughly are provided with floating pecten device of rotation driving between the pawl rotating shaft 502, described floating pecten device of rotation driving comprises and is located at the described outer spline 507 of pawl rotating shaft 502 of mixing thoroughly, described spline 507 is set with spline housing 508, the lower end of described spline housing 508 is equipped with described floating pecten 506, described floating pecten lowering or hoisting gear comprises elevating bracket 509, described elevating bracket 509 is sleeved on described mixing thoroughly in the pawl rotating shaft 502, be provided with the elevating bracket lifting drive between described elevating bracket 509 and the described sand material arrangement pedestal 501, be provided with between the upper end of described spline housing 508 and the described elevating bracket 509 and relatively rotate device, also be provided with lifting groove 510 on the described spline housing 508, the described crossbearer 504 of mixing pawl 503 thoroughly is located in the described lifting groove 510, the described device that relatively rotates comprises the bearing 511 that is located between described spline housing 508 upper ends and the described elevating bracket 509, described elevating bracket lifting drive comprises the cylinder 512 that is fixedly mounted on the described sand material arrangement pedestal 501, and the piston rod of described cylinder 512 connects described elevating bracket 509.
Described sand material arrangement lowering or hoisting gear comprises the leading screw 513 that is rotatably installed on the described footstock 103, described leading screw 513 is provided with screw, described screw is fixedly mounted on the described sand material arrangement pedestal 501, be provided with lifting and guiding device between described sand material arrangement pedestal 501 and the described footstock 103, described leading screw 513 is connected with the leading screw device of rotation driving, described leading screw device of rotation driving comprises leading screw drive motors 517, described lifting and guiding device comprises the lead 515 that is located on the described sand material arrangement pedestal 501, and described footstock 103 is provided with the pilot hole 514 that cooperates with described lead 515.
As shown in Figure 1 and Figure 4, after abrasive material sent into the abrasive wheel forming chamber, sand material arrangement lowering or hoisting gear drives sand material arrangement pedestal 501 and moves downward, make that mixing pawl 503 thoroughly enters into inside, abrasive wheel forming chamber, sand material arrangement this moment drive unit drives mixes pawl 503 rotations thoroughly, abrasive material in the abrasive wheel forming chamber is mixed thoroughly, mix thoroughly finish after sand material arrangement lowering or hoisting gear drive sand material arrangement pedestal 501 and move upward, make that mixing pawl 503 thoroughly leaves inside, described abrasive wheel forming chamber, the elevating bracket 509 of elevating bracket lifting drive drive then moves downward, elevating bracket 509 drives spline housing 508 again and moves downward, the floating pecten 506 of drive that moves downward of spline housing 508 moves downward, sand material arrangement drive unit drives mixes pawl rotating shaft 502 rotations thoroughly, mix pawl rotating shaft 502 thoroughly and drive described spline housing 508 rotations by spline 507, because be provided with bearing 511 between elevating bracket 509 and the described spline housing 508, the rotation of described spline housing 508 can not be transmitted on the elevating bracket 509, during abrasive material top, the rotation of floating pecten is floating with abrasive wheel forming chamber upper surface in floating pecten 506 moves downward described abrasive wheel forming chamber; Stir, floating quality is good, and efficient is higher, has realized automated production.
The external gear drive motor 109 that is fixedly mounted on described abrasive wheel forming mould 3 bottoms drives external gear 108 and rotates, external gear 108 makes abrasive wheel forming mould 3 rotate around front column 101 under the support of swing arm 106 with being meshing with each other of ring gear section 107, after arriving abrasive wheel forming station 6 from filling ejection station 4, sand material collating unit 5 stirs the abrasive material in the abrasive wheel forming chamber, and it is floating to finish the surface, then abrasive wheel forming pressure head 105 presses down the abrasive material compacting, realize abrasive wheel forming, then under the effect of the oscillatory gearing mechanism that switches station, abrasive wheel forming mould 3 turns to filling ejection station 4 from abrasive wheel forming station 6, the described lower bolster lifting drive drive lower bolster 301 of abrasive wheel forming mould 3 moves upward at this moment, the emery wheel blank is held out, then the emery wheel blank is taken out, finish the abrasive wheel forming process one time, and so forth, realize the automatic forming production of emery wheel.
The station switching device shifter drives abrasive wheel forming mould 3 and constantly switches between filling ejection station 4 and abrasive wheel forming station 6, finish and in mould, add abrasive material and abrasive wheel forming operation, realized automated production, reduced use to manpower, improved production efficiency greatly, and working stability is reliable.
More than show and described basic principle of the present utility model, principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that describes in the foregoing description and the specification just illustrates principle of the present utility model; under the prerequisite that does not break away from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall in claimed the utility model scope.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (4)

1. abrasive wheel forming forming machine mould, it is characterized in that: comprise lower bolster, be positioned at the mould circle and the cope match-plate pattern that is installed on the abrasive wheel forming pressure head of mould mount pad top, described mould circle, described cope match-plate pattern and described lower bolster form the abrasive wheel forming chamber, be provided with resilient supporting unit between described mould circle and the described mould mount pad, also be provided with the back-pressure pillar on the described mould mount pad, on the described back-pressure pillar bearing plate is installed, described bearing plate top is provided with lower bolster, described lower bolster lower surface is connected with the lower bolster lifting column, described lower bolster lifting column is connected with the lower bolster lifting drive, described bearing plate is provided with the through hole that passes for described lower bolster lifting column, also be provided with the stem stem that penetrates in the described abrasive wheel forming chamber on the described mould mount pad, described cope match-plate pattern is provided with the core hole corresponding with described stem stem.
2. abrasive wheel forming forming machine mould as claimed in claim 1, it is characterized in that: described resilient supporting unit comprises the lead that is located on the described mould mount pad, described mould circle is provided with the fairlead that is sleeved on the described lead, is provided with the spring that is sleeved on described lead outer surface between described fairlead and the described mould mount pad.
3. abrasive wheel forming forming machine mould as claimed in claim 1 is characterized in that: described lower bolster lifting drive comprises hydraulic cylinder, the fixedly connected described lower bolster lifting column of the piston rod of described hydraulic cylinder.
4. as the described abrasive wheel forming forming machine mould of the arbitrary claim of claim 1 to 3, it is characterized in that: described lower bolster top also is provided with the ejection supporting plate.
CN 201320060047 2013-02-01 2013-02-01 Forming die of grinding wheel forming machine CN203077432U (en)

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CN 201320060047 CN203077432U (en) 2013-02-01 2013-02-01 Forming die of grinding wheel forming machine

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104044090A (en) * 2014-06-24 2014-09-17 郑州磨料磨具磨削研究所有限公司 Layered compression molding method and device for grinding wheel ring
CN104070470A (en) * 2014-06-24 2014-10-01 郑州磨料磨具磨削研究所有限公司 Abrasive block layered press forming method and forming device thereof
CN104400678A (en) * 2014-12-05 2015-03-11 甘虹 Efficient grinding wheel mold
CN104400679A (en) * 2014-12-08 2015-03-11 甘虹 Special die for manufacturing grinding wheel
CN104589225A (en) * 2014-12-04 2015-05-06 泰兴市和庆机械配件厂 Feeding and net pressing system for grinding wheel production
CN105196197A (en) * 2015-08-28 2015-12-30 浙江工业大学 Progressive mesh pneumatic grinding wheel and preparation method thereof
CN106217632A (en) * 2016-08-29 2016-12-14 无锡市锡山区仁景模具厂 One is used for manufacturing the efficient mould of curb decorative pattern
CN106217609A (en) * 2016-08-29 2016-12-14 无锡市锡山区仁景模具厂 A kind of curb mould with stamp function
CN107457717A (en) * 2017-09-22 2017-12-12 禹州市昆仑模具有限公司 A kind of press device of abrasive tool moulding
CN109202759A (en) * 2018-08-14 2019-01-15 盐城市锐克斯研磨科技有限公司 A kind of vertical abrasive cloth wheel production mould and production technology

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104070470A (en) * 2014-06-24 2014-10-01 郑州磨料磨具磨削研究所有限公司 Abrasive block layered press forming method and forming device thereof
CN104044090A (en) * 2014-06-24 2014-09-17 郑州磨料磨具磨削研究所有限公司 Layered compression molding method and device for grinding wheel ring
CN104589225B (en) * 2014-12-04 2017-03-29 泰兴市和庆机械配件厂 A kind of emery wheel produces the pressure network system that feeds intake
CN104589225A (en) * 2014-12-04 2015-05-06 泰兴市和庆机械配件厂 Feeding and net pressing system for grinding wheel production
CN104400678A (en) * 2014-12-05 2015-03-11 甘虹 Efficient grinding wheel mold
CN104400678B (en) * 2014-12-05 2017-04-12 甘虹 Efficient grinding wheel mold
CN104400679A (en) * 2014-12-08 2015-03-11 甘虹 Special die for manufacturing grinding wheel
CN105196197A (en) * 2015-08-28 2015-12-30 浙江工业大学 Progressive mesh pneumatic grinding wheel and preparation method thereof
CN106217609A (en) * 2016-08-29 2016-12-14 无锡市锡山区仁景模具厂 A kind of curb mould with stamp function
CN106217632A (en) * 2016-08-29 2016-12-14 无锡市锡山区仁景模具厂 One is used for manufacturing the efficient mould of curb decorative pattern
CN106217609B (en) * 2016-08-29 2018-09-04 无锡市东北塘永丰橡塑厂 A kind of curb stone mould with stamp function
CN107457717A (en) * 2017-09-22 2017-12-12 禹州市昆仑模具有限公司 A kind of press device of abrasive tool moulding
CN109202759A (en) * 2018-08-14 2019-01-15 盐城市锐克斯研磨科技有限公司 A kind of vertical abrasive cloth wheel production mould and production technology
CN109202759B (en) * 2018-08-14 2020-02-18 盐城市锐克斯研磨科技有限公司 Vertical abrasive cloth wheel production mold and production process

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Granted publication date: 20130724

Termination date: 20140201