CN105058179A - Technique and processing system for ceramic ferrule without processing inner hole and concentricity - Google Patents

Abstract

The invention discloses a technique and processing system for a ceramic ferrule without processing an inner hole and the concentricity. The technique comprises the steps of S1 workblank forming, S2 rough centerless grinding, S3 front end and tail end grinding, S4 fine centerless grinding, S5 spherical surface grinding and S6 inspection. According to the technique and processing system for the ceramic ferrule without processing the inner hole and the concentricity, inner hole grinding and concentricity grinding are avoided, so that the processing difficulty and cost are reduced; production efficiency is improved; in addition, pre-production and manual quality inspection are carried out before mass production in each step, and equipment parameters are adjusted according to inspection results, it is guaranteed that mass production is carried out after equipment is in the optimal working state, and products produced by the processing technique are more excellent; a laser device arranged on an automatic feeding disc can be used for distinguishing the front end and the tail end in the front end and tail end grinding process, and the degree of automation is high, so that the method enables production personnel to conduct production conveniently..

Description

A kind of ceramic insertion core exempts from technique and the system of processing of processing endoporus and concentricity

Technical field

The present invention relates to technique and system of processing that a kind of ceramic insertion core exempts to process endoporus and concentricity.

Background technology

Existing ceramic insertion core processing technology used device capital quantity is large, and processing technology is complicated, and capital equipment is concentrated and wanted endoporus grinding and concentricity to grind two operations, because difficulty of processing is large, yield poorly, cause production cost to remain high, cause cost of investment large, the situations such as reciprocation cycle is long.

Existing ceramic insertion core technique is generally little before each step is produced tests to equipment, and cause later stage substandard product many, no matter detect trouble, be from human cost aspect, or product quality aspect all also has some shortcomings part.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, provide a kind of ceramic insertion core to exempt to process technique and the system of processing of endoporus and concentricity, do not carry out endoporus grinding and concentricity grinding, reduce difficulty of processing, saved cost, improve production efficiency; And before each step is produced in batches, carry out pre-manufactured and manual quality detects, and according to testing result, device parameter is adjusted, the equipment of guarantee is produced in batches after being in optimum duty again, and the product that processing technology is produced is more outstanding; Before carrying out during tail end grinding, by the laser apparatus on automatic feeding plate, tail end before distinguishing, automaticity is higher, and producers are convenient for production.

The object of the invention is to be achieved through the following technical solutions: a kind of ceramic insertion core exempts to process the technique of endoporus and concentricity, it comprises blank forming step S1, thick centerless grinding step S2, front tail end grinding steps S3, smart centerless grinding step S4, sphere grinding steps S5 and checking procedure S6;

Described blank forming step S1 comprises following sub-step:

S11. start blank forming machine power supply, the production pellet comprising superfine zirconia powder is poured in the hopper in blank forming machine;

S12. by equipment screw rod heat stepwise, production pellet is fused into flowing colloid substance, enters shaping production 5 molded blanks in mould, use micrometer and manual coaxial detector to detect the parameter of producing 5 molded blanks obtained;

S13. judge that whether molded blank parameter is qualified:

(1) molded blank parameter is defective, then debug blank forming machine, and jump to step S12;

(2) molded blank parameter is qualified, enters automatic machining state, by equipment screw rod heat stepwise, production pellet is fused into flowing colloid substance, enters in mould shaping, batch production molded blank;

Described thick centerless grinding step S2 comprises following sub-step:

S21. start the power supply of thick centerless lapping machine, the blank that step S1 medium quantity batch processing obtains is poured in the automatic feeding plate of thick centerless lapping machine;

S22. wherein 5 blanks in the automatic feeding plate of thick centerless lapping machine are sent into device interior by feed table, carry out thick centreless grinding, produce the workpiece obtaining 5 thick centreless grindings of process, use radium-shine instrument to detect whether qualified through 5 workpiece of thick centreless grinding:

(1) workpiece through thick centreless grinding is defective, adjusts the parameter of thick centerless lapping machine, and jumps to step S22;

(2) workpiece through thick centreless grinding is qualified, enters automatic machining state, successively the blank in the automatic feeding plate of thick centerless lapping machine is sent into device interior by feed table, carries out the thick centreless grinding of batch;

Described step S3 comprises following sub-step:

S31. tail end grinder power supply before starting, by pouring in automatic feeding plate through the batch workpiece that slightly centreless grinding obtains of obtaining in step S2, and by the laser apparatus on automatic feeding plate, tail end before distinguishing;

S32. wherein 5 workpiece in the automatic feeding plate of front tail end grinder sent into device interiors to grind, obtain 5 workpiece ground through front tail end, and whether 5 workpiece sizes ground through front tail end using micrometer to detect to obtain are qualified:

(1) workpiece size ground through front tail end is defective, and before adjustment, the parameter of tail end grinder, jumps to step S32;

(2) workpiece size ground through front tail end is qualified, enters automatic machining state, the workpiece on the automatic feeding plate of front tail end grinder is sent into device interior successively, carries out the front tail end grinding of batch;

Described smart centerless grinding step S4 comprises following sub-step:

S41. start the power supply of smart centerless lapping machine, the tail end before batch obtained is ground the workpiece obtained pour in the automatic feeding plate of smart centerless lapping machine in step S3;

S42. wherein 5 workpiece in the automatic feeding plate of smart centerless lapping machine are sent into device interior by feed table, carry out smart centreless grinding, produce the workpiece obtaining 5 smart centreless grindings of process, use radium-shine instrument to detect whether qualified through 5 workpiece of thick centreless grinding:

(1) workpiece through smart centreless grinding is defective, adjusts the parameter of smart centerless lapping machine, and jumps to step S42;

(2) workpiece through smart centreless grinding is qualified, enters automatic machining state, successively the workpiece in the automatic feeding plate of smart centerless lapping machine is sent into device interior by feed table, carries out the smart centreless grinding of batch;

Described sphere grinding steps S5 comprises following sub-step:

S51. start the power supply of sphere grinding machine, pour in the automatic feeding plate of sphere grinding machine by what obtain in step S4 through the workpiece that smart centreless grinding obtains in batches;

S52. by the automatic feeding plate on sphere grinding machine wherein 5 workpiece send into device interiors, carry out sphere grinding and obtain 5 workpiece through sphere grinding, whether the workpiece using interferometer to detect through sphere grinding qualified:

(1) workpiece through sphere grinding is defective, the parameter of adjustment sphere grinding machine, and jumps to step S52;

(2) workpiece through sphere grinding is qualified, enters automatic machining state, successively the workpiece in the automatic feeding plate of sphere grinding machine is sent into device interior, carries out the smart centreless grinding of batch, obtains the ceramic insertion core product of batch;

Described checking procedure S6 comprises following sub-step:

S61. open the power supply of automatic image concentricity tester, pour in the feeding mouth of automatic image concentricity tester by the ceramic insertion core product obtaining batch, automatic image concentricity tester detects the ceramic insertion core product entered from feeding mouth successively; And certified products and defective work are separated;

S62. certified products are carried out packaging warehouse-in by staff, are carried out reprocessing or double teeming by defective work.

The system of processing that the technique that described a kind of ceramic insertion core exempts to process endoporus and concentricity uses, comprises blank forming machine, thick centerless lapping machine, front tail end grinder, smart centerless lapping machine, sphere grinding machine and automatic image concentricity tester; The discharging opening of described blank forming machine is connected with thick centerless lapping machine, the discharging opening of thick centerless lapping machine is connected with front tail end grinder, the discharging opening of front tail end grinder is connected with smart centerless lapping machine, the discharging opening of essence centerless lapping machine is connected with sphere grinding machine, and the discharging opening of sphere grinding machine is connected with automatic image concentricity tester.

The mould of described blank forming machine inside comprises fixed wire upper end fixed head, fixed wire, shaping equipment and fixed wire lower end fixed head; Die cavity is provided with in described shaping equipment; Described fixed wire upper end is connected with fixed head center, fixed wire upper end, fixed wire lower end is connected with fixed head center, fixed wire lower end through shaping equipment by die cavity, the center of described lower end fixed head and the center of upper end fixed head just right, described lower end fixed head can be provided with the aperture consistent with fixed wire diameter, and fixed wire is connected with lower end fixed head by the aperture on the fixed head of lower end.

Described lower end fixed head is also connected with a support, and described support is used for fixing lower end fixed head.

Described mould also comprises a molded blank pulp-collecting box, and described molded blank pulp-collecting box is positioned at immediately below fixed head center, lower end.

The invention has the beneficial effects as follows: (1) does not carry out endoporus grinding and concentricity grinding, reduces difficulty of processing, has saved cost, improve production efficiency.

(2) before each step is produced in batches, pre-manufactured is carried out and manual quality detects, and according to testing result, device parameter is adjusted, the equipment of guarantee is produced in batches after being in optimum duty again, and the product that processing technology is produced is more outstanding.

(3) when before carrying out, tail end grinds, by the laser apparatus on automatic feeding plate, tail end before distinguishing, automaticity is higher, and producers are convenient for production.

(4) line is shaped through after die cavity, one end is connected with fixed head center, fixed wire upper end, one end is connected with fixed head center, fixed wire lower end, and fixed head center, fixed wire upper end and fixed head center, fixed wire lower end just right, bought by this connected mode, can ensure that the molded blank concentricity produced is high.

Accompanying drawing explanation

Fig. 1 is flow chart of the present invention;

Fig. 2 is the structural representation of mould in the present invention;

Fig. 3 is the structural representation of lower end fixed head in the present invention;

In figure, 1-fixed wire upper end fixed head, 2-fixed wire, 3-shaping equipment, 4-die cavity, 5-lower end fixed head, 6-molded blank pulp-collecting box, 7-aperture, 8-annular frame for movement.

Detailed description of the invention

Below in conjunction with accompanying drawing, technical scheme of the present invention is described in further detail, but protection scope of the present invention is not limited to the following stated.

As shown in Figure 1, a kind of ceramic insertion core exempts from the technique of processing endoporus and concentricity, and it comprises blank forming step S1, thick centerless grinding step S2, front tail end grinding steps S3, smart centerless grinding step S4, sphere grinding steps S5 and checking procedure S6;

Described blank forming step S1 comprises following sub-step:

S11. start blank forming machine power supply, the production pellet comprising superfine zirconia powder is poured in the hopper in blank forming machine;

S12. by equipment screw rod heat stepwise, production pellet is fused into flowing colloid substance, enters shaping production 5 molded blanks in mould, use micrometer and manual coaxial detector to detect the parameter of producing 5 molded blanks obtained;

S13. judge that whether molded blank parameter is qualified:

(1) molded blank parameter is defective, then debug blank forming machine, and jump to step S12;

(2) molded blank parameter is qualified, enters automatic machining state, by equipment screw rod heat stepwise, production pellet is fused into flowing colloid substance, enters in mould shaping, batch production molded blank;

Described thick centerless grinding step S2 comprises following sub-step:

S21. start the power supply of thick centerless lapping machine, the blank that step S1 medium quantity batch processing obtains is poured in the automatic feeding plate of thick centerless lapping machine;

S22. wherein 5 blanks in the automatic feeding plate of thick centerless lapping machine are sent into device interior by feed table, carry out thick centreless grinding, produce the workpiece obtaining 5 thick centreless grindings of process, use radium-shine instrument to detect whether qualified through 5 workpiece of thick centreless grinding:

(1) workpiece through thick centreless grinding is defective, adjusts the parameter of thick centerless lapping machine, and jumps to step S22;

(2) workpiece through thick centreless grinding is qualified, enters automatic machining state, successively the blank in the automatic feeding plate of thick centerless lapping machine is sent into device interior by feed table, carries out the thick centreless grinding of batch;

Described step S3 comprises following sub-step:

S31. tail end grinder power supply before starting, by pouring in automatic feeding plate through the batch workpiece that slightly centreless grinding obtains of obtaining in step S2, and by the laser apparatus on automatic feeding plate, tail end before distinguishing;

S32. wherein 5 workpiece in the automatic feeding plate of front tail end grinder sent into device interiors to grind, obtain 5 workpiece ground through front tail end, and whether 5 workpiece sizes ground through front tail end using micrometer to detect to obtain are qualified:

(1) workpiece size ground through front tail end is defective, and before adjustment, the parameter of tail end grinder, jumps to step S32;

(2) workpiece size ground through front tail end is qualified, enters automatic machining state, the workpiece on the automatic feeding plate of front tail end grinder is sent into device interior successively, carries out the front tail end grinding of batch;

Described smart centerless grinding step S4 comprises following sub-step:

S41. start the power supply of smart centerless lapping machine, the tail end before batch obtained is ground the workpiece obtained pour in the automatic feeding plate of smart centerless lapping machine in step S3;

S42. wherein 5 workpiece in the automatic feeding plate of smart centerless lapping machine are sent into device interior by feed table, carry out smart centreless grinding, produce the workpiece obtaining 5 smart centreless grindings of process, use radium-shine instrument to detect whether qualified through 5 workpiece of thick centreless grinding:

(1) workpiece through smart centreless grinding is defective, adjusts the parameter of smart centerless lapping machine, and jumps to step S42;

(2) workpiece through smart centreless grinding is qualified, enters automatic machining state, successively the workpiece in the automatic feeding plate of smart centerless lapping machine is sent into device interior by feed table, carries out the smart centreless grinding of batch;

Described sphere grinding steps S5 comprises following sub-step:

S51. start the power supply of sphere grinding machine, pour in the automatic feeding plate of sphere grinding machine by what obtain in step S4 through the workpiece that smart centreless grinding obtains in batches;

S52. by the automatic feeding plate on sphere grinding machine wherein 5 workpiece send into device interiors, carry out sphere grinding and obtain 5 workpiece through sphere grinding, whether the workpiece using interferometer to detect through sphere grinding qualified:

(1) workpiece through sphere grinding is defective, the parameter of adjustment sphere grinding machine, and jumps to step S52;

(2) workpiece through sphere grinding is qualified, enters automatic machining state, successively the workpiece in the automatic feeding plate of sphere grinding machine is sent into device interior, carries out the smart centreless grinding of batch, obtains the ceramic insertion core product of batch;

Described checking procedure S6 comprises following sub-step:

S61. open the power supply of automatic image concentricity tester, pour in the feeding mouth of automatic image concentricity tester by the ceramic insertion core product obtaining batch, automatic image concentricity tester detects the ceramic insertion core product entered from feeding mouth successively; And certified products and defective work are separated;

S62. certified products are carried out packaging warehouse-in by staff, are carried out reprocessing or double teeming by defective work.

The system of processing that the technique that described a kind of ceramic insertion core exempts to process endoporus and concentricity uses, comprises blank forming machine, thick centerless lapping machine, front tail end grinder, smart centerless lapping machine, sphere grinding machine and automatic image concentricity tester; The discharging opening of described blank forming machine is connected with thick centerless lapping machine, the discharging opening of thick centerless lapping machine is connected with front tail end grinder, the discharging opening of front tail end grinder is connected with smart centerless lapping machine, the discharging opening of essence centerless lapping machine is connected with sphere grinding machine, and the discharging opening of sphere grinding machine is connected with automatic image concentricity tester.

The mould of described blank forming machine inside comprises fixed wire upper end fixed head 1, fixed wire 2, shaping equipment 3 and fixed wire lower end fixed head 5; Die cavity 4 is provided with in described shaping equipment 3; Described fixed wire 2 upper end is connected with fixed head center, fixed wire upper end 1, and fixed wire 2 lower end is connected with fixed head 5 center, fixed wire lower end through shaping equipment 3 by die cavity 4, the center of described lower end fixed head 5 and the center of upper end fixed head 1 just right;

As shown in Figure 3, described lower end fixed head 5 can be provided with the aperture consistent with fixed wire 2 diameter, and the degree of depth of described aperture 7 is the half of lower end fixed head 5 thickness, and fixed wire 2 is connected with lower end fixed head 5 by the aperture 7 on lower end fixed head 5; The surrounding of described aperture 7 is also provided with annular frame for movement 8, the external diameter of described annular frame for movement 8 is consistent with the internal diameter of die cavity 4, thickness and the lower end fixed head of annular frame for movement 8 are of uniform thickness, and described ring-type frame for movement can manually control or automatic control mode is retracted to lower end fixed head 5 inside.

Described lower end fixed head 5 is also connected with a support, and described support is used for fixing lower end fixed head 5.

Described mould also comprises a molded blank pulp-collecting box 6, and described molded blank pulp-collecting box 6 is positioned at immediately below lower end fixed head 5 center, and when annular frame for movement 8 is shunk, molded blank just can be entered in molded blank pulp-collecting box 6 by fixed wire 2.

Claims (5)

1. ceramic insertion core exempts from a technique of processing endoporus and concentricity, it is characterized in that: it comprises blank forming step S1, thick centerless grinding step S2, front tail end grinding steps S3, smart centerless grinding step S4, sphere grinding steps S5 and checking procedure S6;

Described blank forming step S1 comprises following sub-step:

S11. start blank forming machine power supply, the production pellet comprising superfine zirconia powder is poured in the hopper in blank forming machine;

S12. by equipment screw rod heat stepwise, production pellet is fused into flowing colloid substance, enters shaping production 5 molded blanks in mould, use micrometer and manual coaxial detector to detect the parameter of producing 5 molded blanks obtained;

S13. judge that whether molded blank parameter is qualified:

(1) molded blank parameter is defective, then debug blank forming machine, and jump to step S12;

(2) molded blank parameter is qualified, enters automatic machining state, by equipment screw rod heat stepwise, production pellet is fused into flowing colloid substance, enters in mould shaping, batch production molded blank;

Described thick centerless grinding step S2 comprises following sub-step:

S21. start the power supply of thick centerless lapping machine, the blank that step S1 medium quantity batch processing obtains is poured in the automatic feeding plate of thick centerless lapping machine;

S22. wherein 5 blanks in the automatic feeding plate of thick centerless lapping machine are sent into device interior by feed table, carry out thick centreless grinding, produce the workpiece obtaining 5 thick centreless grindings of process, use radium-shine instrument to detect whether qualified through 5 workpiece of thick centreless grinding:

(1) workpiece through thick centreless grinding is defective, adjusts the parameter of thick centerless lapping machine, and jumps to step S22;

(2) workpiece through thick centreless grinding is qualified, enters automatic machining state, successively the blank in the automatic feeding plate of thick centerless lapping machine is sent into device interior by feed table, carries out the thick centreless grinding of batch;

Described step S3 comprises following sub-step:

S31. tail end grinder power supply before starting, by pouring in automatic feeding plate through the batch workpiece that slightly centreless grinding obtains of obtaining in step S2, and by the laser apparatus on automatic feeding plate, tail end before distinguishing;

S32. wherein 5 workpiece in the automatic feeding plate of front tail end grinder sent into device interiors to grind, obtain 5 workpiece ground through front tail end, and whether 5 workpiece sizes ground through front tail end using micrometer to detect to obtain are qualified:

(1) workpiece size ground through front tail end is defective, and before adjustment, the parameter of tail end grinder, jumps to step S32;

(2) workpiece size ground through front tail end is qualified, enters automatic machining state, the workpiece on the automatic feeding plate of front tail end grinder is sent into device interior successively, carries out the front tail end grinding of batch;

Described smart centerless grinding step S4 comprises following sub-step:

S41. start the power supply of smart centerless lapping machine, the tail end before batch obtained is ground the workpiece obtained pour in the automatic feeding plate of smart centerless lapping machine in step S3;

S42. wherein 5 workpiece in the automatic feeding plate of smart centerless lapping machine are sent into device interior by feed table, carry out smart centreless grinding, produce the workpiece obtaining 5 smart centreless grindings of process, use radium-shine instrument to detect whether qualified through 5 workpiece of thick centreless grinding:

(1) workpiece through smart centreless grinding is defective, adjusts the parameter of smart centerless lapping machine, and jumps to step S42;

(2) workpiece through smart centreless grinding is qualified, enters automatic machining state, successively the workpiece in the automatic feeding plate of smart centerless lapping machine is sent into device interior by feed table, carries out the smart centreless grinding of batch;

Described sphere grinding steps S5 comprises following sub-step:

S51. start the power supply of sphere grinding machine, pour in the automatic feeding plate of sphere grinding machine by what obtain in step S4 through the workpiece that smart centreless grinding obtains in batches;

S52. by the automatic feeding plate on sphere grinding machine wherein 5 workpiece send into device interiors, carry out sphere grinding and obtain 5 workpiece through sphere grinding, whether the workpiece using interferometer to detect through sphere grinding qualified:

(1) workpiece through sphere grinding is defective, the parameter of adjustment sphere grinding machine, and jumps to step S52;

(2) workpiece through sphere grinding is qualified, enters automatic machining state, successively the workpiece in the automatic feeding plate of sphere grinding machine is sent into device interior, carries out the smart centreless grinding of batch, obtains the ceramic insertion core product of batch;

Described checking procedure S6 comprises following sub-step:

S61. open the power supply of automatic image concentricity tester, pour in the feeding mouth of automatic image concentricity tester by the ceramic insertion core product obtaining batch, automatic image concentricity tester detects the ceramic insertion core product entered from feeding mouth successively; And certified products and defective work are separated;

S62. certified products are carried out packaging warehouse-in by staff, are carried out reprocessing or double teeming by defective work.

2. the system of processing that the technique that a kind of ceramic insertion core according to claim 1 exempts to process endoporus and concentricity uses, is characterized in that: comprise blank forming machine, thick centerless lapping machine, front tail end grinder, smart centerless lapping machine, sphere grinding machine and automatic image concentricity tester; The discharging opening of described blank forming machine is connected with thick centerless lapping machine, the discharging opening of thick centerless lapping machine is connected with front tail end grinder, the discharging opening of front tail end grinder is connected with smart centerless lapping machine, the discharging opening of essence centerless lapping machine is connected with sphere grinding machine, and the discharging opening of sphere grinding machine is connected with automatic image concentricity tester.

3. the system of processing that the technique that a kind of ceramic insertion core according to claim 2 exempts to process endoporus and concentricity uses, is characterized in that: the mould of described blank forming machine inside comprises fixed wire upper end fixed head (1), fixed wire (2), shaping equipment (3) and fixed wire lower end fixed head (5), die cavity (4) is provided with in described shaping equipment (3), described fixed wire (2) upper end is connected with fixed head center, fixed wire upper end (1), fixed wire (2) lower end is connected with fixed head (5) center, fixed wire lower end through shaping equipment (3) by die cavity (4), the center of described lower end fixed head (5) and the center of upper end fixed head (1) just right, described lower end fixed head (5) can be provided with the aperture (7) consistent with fixed wire (2) diameter, the degree of depth of described aperture (7) is the half of lower end fixed head (5) thickness, fixed wire (2) is connected with lower end fixed head (5) by the aperture (7) on lower end fixed head (5).

4. the system of processing that the technique that a kind of ceramic insertion core according to claim 3 exempts to process endoporus and concentricity uses, it is characterized in that: described lower end fixed head (5) is also connected with a support, described support is used for fixing lower end fixed head (5).

5. the system of processing that the technique that a kind of ceramic insertion core according to claim 3 exempts to process endoporus and concentricity uses, it is characterized in that: described mould also comprises a molded blank pulp-collecting box (6), described molded blank pulp-collecting box (6) is positioned at immediately below lower end fixed head (5) center.