CN100391900C - Ceramic product forming process and producing apparatus - Google Patents
Ceramic product forming process and producing apparatus Download PDFInfo
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- CN100391900C CN100391900C CNB2005100329414A CN200510032941A CN100391900C CN 100391900 C CN100391900 C CN 100391900C CN B2005100329414 A CNB2005100329414 A CN B2005100329414A CN 200510032941 A CN200510032941 A CN 200510032941A CN 100391900 C CN100391900 C CN 100391900C
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Abstract
The present invention discloses a making method for a ceramic product. Firstly, raw materials are put in a feeding device, heated and stirred into slurry materials, and the temperature of the slurry materials is controlled to 60 DEG C to 75 DEG C; then, the stirred slurry materials are put in an injection device from the feeding device through pressure and injected to a ceramic product molding mould for being molded through the injection device, and therefore, the ceramic product is made. The present invention has the advantages of high production efficiency, good product quality, high yield and multiple varieties of made ceramic products. A production device used in the making method of the ceramic product is composed of the feeding device, the injection device and conveying pipes of the injection device, and the production device has the advantages of reasonable structure, broad application range, high production efficiency and low investment cost.
Description
Technical field
The present invention relates to a kind of manufacturing process and production unit thereof of ceramic.
Background technology
At present, the moulding manufacturing technology of special ceramic material, also in the mode of production of using the external sixties, as: forming mould personnel selection manual manipulation (being commonly called as fingerprint), the slurry after its handgrip of mainly choosing stirs joins in the mould and is compressed, and its mould becomes the multilayer partition, its production method falls behind, production efficiency is low, and yield rate is low, and difficult quality guarantee; And another kind is to add wind to promote heat material type than modern technique, it mainly utilizes the blast machine to add blast slurry is sent to die cavity through pipeline, though its production efficiency obtains certain raising, 1), utilize people's manual manipulation but still there is following shortcoming:, or the blast pressurization, the curring time of every mould needs 4 minutes to 5 minutes, even the longer time, so its production efficiency is very low; 2), utilize blast machine when pressurization, influenced by its insufficient pressure, be difficult to make intensity height, bulky ceramic, limited the kind of ceramic, the demand in incompatibility market; 3), because aforesaid device does not have attemperator, thereby the temperature of slurry constantly descends in the production process, and its flowability is weakened, and the flowability of slurry is the poorest when going to die cavity, thereby causes the poor quality of ceramic, yield rate is lower.
Summary of the invention
The objective of the invention is to solve above-mentioned shortcoming, and a kind of production efficiency height is provided, quality is good, yield rate is high and the ceramic product kind made is many Production of Ceramics method.
Another object of the present invention be to provide a kind of rational in infrastructure, use range is wide, production efficiency is high and the little Ceramic Production equipment of cost that drops into.
The object of the present invention is achieved like this: a kind of manufacture method of ceramic, heat-generating pipe heating raw on the feeding device, and stir into slurry, and the temperature of slurry is controlled at 60 ℃-75 ℃, again with the slurry that stirs from the feeding device force feed to injection device, the heat-generating pipe 111 heating slurries on the injection device, its slurry temperature remains on 60 ℃-75 ℃, slurry is expelled to moulding in the forming mould of ceramic via injection device, thereby makes ceramic.
Another object of the present invention is achieved in that described ceramic production device by feeding device, and injection device and carrier pipe thereof are formed; Described feeding device includes hopper, the stirring extruding pressure bar in the hopper, and the hydraulic motor that drives the stirring extruding pressure bar, and the tail end of corresponding stirring extruding pressure bar has discharge port on the described hopper, also is wound with heat-generating pipe on the hopper perisporium; Described injection device includes injection cylinder, is located at the working cylinder and the nozzle formation thereof of injection cylinder front end, is provided with the injection plunger that links with injection cylinder cylinder axle in the described working cylinder, also has an opening for feed on the working cylinder; Described carrier pipe is made up of feeding tube and Connection Block thereof, discharge port on the inlet grafting material bin of feeding tube, its outlet is connected with described Connection Block, described Connection Block is fixed on the opening for feed place on the working cylinder, Connection Block is provided with check valve, and the two ends of check valve connect feeding tube outlet and working cylinder opening for feed respectively.
The bottom sidewall of described hopper is provided with discharge port, and its top is provided with bucket cover, is fixed with hydraulic motor on the bucket cover.
Be wound with heat-generating pipe on the outer wall of described carrier pipe and working cylinder respectively.
Described feeding device is fixed in the top of injection cylinder.
The bottom of described injection cylinder is provided with an injection seat, and injection seat is seated on the slide bar, and the two ends branch of described slide bar is fixed on two supporting seats.
Described feeding device and injection device are connected with micro electronmechanical.
Described stirring extruding pressure bar is a screw rod.
1), manufacture method of the present invention the beneficial effects of the utility model are:, make earlier slurry in hopper after stirring and being heated evenly, being stirred the extruding rod clamp-ons in the carrier pipe, owing to be provided with check valve in the carrier pipe, slurry increases and forms certain pressure in carrier pipe, makes it open the interior check valve of pipe, slurry injects in the working cylinder, at this moment, injection cylinder promotes injection plunger slurry is injected die cavity through nozzle, finishes whole injection process; Because slurry is heated simultaneously in hopper and stirs, temperature remains on 60 ℃-75 ℃, makes the slurry thermally equivalent, so, in the process of slurry from the feeding device to the injection device, can both keep good mobility, improve the effect and the quality of its moulding, reduce the appearance of waste product; 2), in the employed equipment of this injecting method, slurry is to be extruded in hopper by the stirring extruding pressure bar, and forms certain pressure in carrier pipe, until changing check valve, slurry injects in the working cylinder, by injection device slurry is injected in the die cavity at last; Because slurry is injected into die cavity under enough pressure, so this equipment can be made into intensity height, bulky various ceramics, satisfies the different needs in market; Moreover the running of feeding device and injection device is by microcomputer control, can guarantee consistency of product; 3), use this injecting method and equipment thereof, can enhance productivity and reduce the input cost of equipment, below be production unit and existing installation some comparative datas when production equal number product that adopt present method and this method of use:
The mode of production | Mould drops into | Number of devices | Personnel amount | Molding time | Qualification rate | The input volume |
Original equipment | 1.6 ten thousand | 20 | 70 people | 4-5 minute | 80% | About 170,000 |
Existing equipment | 1.5 ten thousand | 1 | 4 people | 15-20 second | 95% | About 100,000 |
As seen from the above table, this equipment can be provided with rotating disk as required, a plurality of moulds are set on the rotating disk, and the corresponding dial rotation that at every turn shoots material of injection device can realize above-mentioned effect, so manufacture method of the present invention and equipment thereof have the little effect of input cost of production efficiency height and equipment.
Description of drawings
Fig. 1 is the employed device structure synoptic diagram of the inventive method;
Embodiment
A kind of manufacture method of ceramic, earlier raw material is put into the hopper of feeding device, heat-generating pipe 111 heating raws on the feeding device, and stir into slurry, and the temperature of slurry is controlled at 60 ℃-75 ℃, again with the slurry that stirs from the feeding device force feed to injection device, heat-generating pipe 111 heating slurries on the injection device, its slurry temperature remains on 60 ℃-75 ℃, and slurry is expelled to moulding in the forming mould of ceramic via injection device, thereby makes ceramic.
As shown in Figure 1, be the employed production unit of the manufacture method that realizes above-mentioned ceramic, described equipment is by feeding device 1, and injection device 2 and carrier pipe 3 thereof are formed; Described feeding device 1 includes hopper 11, the stirring extruding pressure bar 12 in the hopper 11, and the hydraulic motor 14 that drives stirring extruding pressure bar 12, and the tail end of corresponding stirring extruding pressure bar has discharge port 110 on the described hopper 11, also is wound with heat-generating pipe 111 on hopper 11 perisporiums; Described injection device 2 includes injection cylinder 21, is located at the working cylinder 23 and nozzle 26 formations thereof of injection cylinder 21 front ends, is provided with the injection plunger 25 that links with injection cylinder cylinder axle 22 in the described working cylinder 23, also has an opening for feed 231 on the working cylinder 23; Described carrier pipe 3 is made up of feeding tube 31 and Connection Block 32 thereof, discharge port 110 on the inlet grafting material bin 11 of feeding tube 31, its outlet is connected with described Connection Block 32, described Connection Block 32 is fixed on opening for feed 231 places on the working cylinder 23, Connection Block 32 is provided with check valve 321, and the two ends of check valve 321 connect feeding tube outlet and working cylinder opening for feed 231 respectively.
The bottom sidewall of described hopper 11 is provided with discharge port 110, and its top is provided with bucket cover 13, is fixed with hydraulic motor 14 on the bucket cover 13.Be wound with heat-generating pipe 111 respectively on the outer wall of described carrier pipe 3 and working cylinder 23.Described feeding device 1 is fixed in the top of injection cylinder 21.
The bottom of described injection cylinder 21 is provided with an injection seat 29, and injection seat 29 is seated on the slide bar 28, and the two ends branch of described slide bar 28 is fixed on two supporting seats 27.
Described feeding device 1 and injection device 2 are connected with micro electronmechanical.Described stirring extruding pressure bar 12 is screw rods.
Principle of work: make earlier slurry in hopper 11 after stirring and being heated evenly, being stirred extruding rod 12 clamp-ons in the carrier pipe 3, owing to be provided with check valve 321 in the carrier pipe 3, slurry increases and forms certain pressure in carrier pipe 3, make it open the interior check valve 321 of pipe, slurry injects in the working cylinder 23, at this moment, injection cylinder 21 promotes injection plunger 25 slurry is injected die cavity through nozzle 26, finishes whole injection process; Because slurry is heated simultaneously in hopper 11 and stirs, temperature remains on 60 ℃-75 ℃, makes the slurry thermally equivalent, so slurry 2 the process, can both keep good mobility from feeding device 1 to injection device, improve the effect and the quality of its moulding, reduce the appearance of waste product; Moreover, because slurry is injected into die cavity under enough pressure, so this equipment can be made into intensity height, bulky various ceramics, satisfies the needs in market.
Claims (7)
1. the manufacture method of a ceramic, it is characterized in that, earlier raw material is put into feeding device, the heat-generating pipe on the feeding device (111) heating raw, and stir into slurry, and the temperature of slurry is controlled at 60 ℃-75 ℃, again with the slurry that stirs from the feeding device force feed to injection device, the heat-generating pipe on the injection device (111) heating slurry, its slurry temperature remains on 60 ℃-75 ℃, slurry is expelled to moulding in the forming mould of ceramic via injection device, thereby makes ceramic.
2. the employed production unit of manufacture method of realizing the described ceramic of claim 1 is characterized in that, described equipment is by feeding device (1), and injection device (2) and carrier pipe (3) thereof are formed; Described feeding device (1) includes hopper (11), stirring extruding pressure bar (12) in the hopper (11), and the hydraulic motor (14) that drives stirring extruding pressure bar (12), the tail end that described hopper (11) is gone up corresponding stirring extruding pressure bar has discharge port (110), also is wound with heat-generating pipe (111) on hopper (11) perisporium; Described injection device (2) includes injection cylinder (21), is located at the working cylinder (23) and nozzle (26) formation thereof of injection cylinder (21) front end, be provided with the injection plunger (25) that links with injection cylinder cylinder axle (22) in the described working cylinder (23), also have an opening for feed (231) on the working cylinder (23); Described carrier pipe (3) is made up of feeding tube (31) and Connection Block (32) thereof, discharge port (110) on the inlet grafting material bin (11) of feeding tube (31), its outlet is connected with described Connection Block (32), the opening for feed (231) that described Connection Block (32) is fixed on the working cylinder (23) is located, Connection Block (32) is provided with check valve (321), the two ends of check valve (321) connect feeding tube outlet and working cylinder opening for feed (231) respectively, are wound with heat-generating pipe (111) respectively on the outer wall of described carrier pipe (3) and working cylinder (23).
3. according to the production unit of the described a kind of ceramic of claim 2, it is characterized in that the bottom sidewall of described hopper (11) is provided with discharge port (110), its top is provided with bucket cover (13), is fixed with hydraulic motor (14) on the bucket cover (13).
4. according to the production unit of the described a kind of ceramic of claim 2, it is characterized in that described feeding device (1) is fixed in the top of injection cylinder (21).
5. according to the production unit of claim 2 or 4 described a kind of ceramics, it is characterized in that, the bottom of described injection cylinder (21) is provided with an injection seat (29), and injection seat (29) is seated on the slide bar (28), and the two ends branch of described slide bar (28) is fixed on two supporting seats (27).
6. according to the production unit of claim 2 or 4 described a kind of ceramics, it is characterized in that described feeding device (1) and injection device (2) are connected with micro electronmechanical.
7. according to the production unit of the described a kind of ceramic of claim 2, it is characterized in that described stirring extruding pressure bar (12) is a screw rod.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNB2005100329414A CN100391900C (en) | 2005-01-28 | 2005-01-28 | Ceramic product forming process and producing apparatus |
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CNB2005100329414A CN100391900C (en) | 2005-01-28 | 2005-01-28 | Ceramic product forming process and producing apparatus |
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CN1810721A CN1810721A (en) | 2006-08-02 |
CN100391900C true CN100391900C (en) | 2008-06-04 |
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CNB2005100329414A Expired - Fee Related CN100391900C (en) | 2005-01-28 | 2005-01-28 | Ceramic product forming process and producing apparatus |
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Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102380904A (en) * | 2011-10-18 | 2012-03-21 | 刘国文 | Improved charging barrel and ceramic pressure grouting machine |
CN107214810A (en) * | 2017-07-24 | 2017-09-29 | 潮州市长城世家瓷业有限公司 | Using the ceramic grout forming method of physical dispersion mud |
CN108083803B (en) * | 2017-11-20 | 2020-07-24 | 大同新成新材料股份有限公司 | Preparation method of graphite product formed by die pressing and graphite product |
CN113733298B (en) * | 2021-09-14 | 2022-09-27 | 盐城工学院 | High-precision functional ceramic injection molding machine |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1413943A (en) * | 2002-09-26 | 2003-04-30 | 孙晓晴 | High alumina ceramic product and its production method |
JP2003212672A (en) * | 2002-01-21 | 2003-07-30 | Ngk Insulators Ltd | Process for manufacturing porous ceramic structure |
CN1544385A (en) * | 2003-11-13 | 2004-11-10 | 上海大学 | Reinforced daily ceramic manufacturing process |
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Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003212672A (en) * | 2002-01-21 | 2003-07-30 | Ngk Insulators Ltd | Process for manufacturing porous ceramic structure |
CN1413943A (en) * | 2002-09-26 | 2003-04-30 | 孙晓晴 | High alumina ceramic product and its production method |
CN1544385A (en) * | 2003-11-13 | 2004-11-10 | 上海大学 | Reinforced daily ceramic manufacturing process |
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