CN103950093B - The integrated poured block molding equipment that is divided into of gypsum block - Google Patents
The integrated poured block molding equipment that is divided into of gypsum block Download PDFInfo
- Publication number
- CN103950093B CN103950093B CN201410205875.5A CN201410205875A CN103950093B CN 103950093 B CN103950093 B CN 103950093B CN 201410205875 A CN201410205875 A CN 201410205875A CN 103950093 B CN103950093 B CN 103950093B
- Authority
- CN
- China
- Prior art keywords
- gypsum
- mandrel
- die cavity
- block
- overall die
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- Expired - Fee Related
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B7/00—Moulds; Cores; Mandrels
- B28B7/14—Moulds with means incorporated therein, or carried thereby, for cutting the moulded article into parts
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B7/00—Moulds; Cores; Mandrels
- B28B7/16—Moulds for making shaped articles with cavities or holes open to the surface, e.g. with blind holes
- B28B7/18—Moulds for making shaped articles with cavities or holes open to the surface, e.g. with blind holes the holes passing completely through the article
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B7/00—Moulds; Cores; Mandrels
- B28B7/28—Cores; Mandrels
- B28B7/285—Core puller
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B7/00—Moulds; Cores; Mandrels
- B28B7/28—Cores; Mandrels
- B28B7/30—Cores; Mandrels adjustable, collapsible, or expanding
- B28B7/32—Cores; Mandrels adjustable, collapsible, or expanding inflatable
Landscapes
- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Chemical & Material Sciences (AREA)
- Ceramic Engineering (AREA)
- Mechanical Engineering (AREA)
- Devices For Post-Treatments, Processing, Supply, Discharge, And Other Processes (AREA)
- Producing Shaped Articles From Materials (AREA)
Abstract
The present invention relates to plaster block production equipment field, the integrated poured block molding equipment that is divided into of especially a kind of gypsum block. Technical problem to be solved is to provide a kind of integrated poured block molding equipment that is divided into of gypsum block of fundamentally removing demarcation strip from. This equipment comprises end template, side shield, end-stopping plate and mandrel, also comprise overall die cavity and gypsum stripping and slicing device, entirety die cavity is surrounded by end template, side shield and end-stopping plate, mandrel is arranged in overall die cavity through end template and described mandrel by the bed die hole on end template, and overall die cavity top is slidably provided with overall die cavity scraper plate; Side shield drives by side shield drive unit, and end-stopping plate drives by end-stopping plate drive unit; Gypsum stripping and slicing device is cut into gypsum by the gypsum monoblock of moulding in overall die cavity and becomes piece. The present invention has realized the flexible production of plaster block, has greatly improved efficiency and the flexibility of producing. The present invention is particularly useful for streamline automated production plaster block.
Description
Technical field
The present invention relates to plaster block production equipment field, the integrated poured block molding equipment that is divided into of especially a kind of gypsum block.
Background technology
Existing gypsum production equipment is generally to utilize directly to become formation of lots, then realizes by the mode demoulding of jacking. ButThat such mode of production consumes a large amount of energy in first can causing due to the frictional force between gypsum and dividing plate and mandrel producingAmount, the more important thing is, because being directly becomes formation of lots by set up demarcation strip in die cavity, can cause on the plate face of demarcation stripAdhere to aborning the gypsum residue that a part has been condensed, for the residue on this part demarcation strip (comprising around die cavity), eachAll need labor cleaning and spraying releasing agent. Complete one from " cast--initial set--final set-ejecting-transfer (unloading) "Molding cycle, needs about 10 minutes. This kind equipment except above defect, due to every complete equipment all dispose center Hydraulic Station andComplicated control system, vertical height is large, structural material and overall weight large, can not move. Can not realize efficient large ruleThe continuous production of mould automation. Utilization rate of equipment and installations, investment cost performance are had a greatly reduced quality. Also increased enterprise in process of production simultaneouslyHuman cost.
Summary of the invention
Thereby technical problem to be solved by this invention is to provide one fundamentally removes separation from by global formation, secondary stripping and slicingThe integrated poured block molding equipment that is divided into of gypsum block of plate.
The technical solution adopted for the present invention to solve the technical problems is: the integrated poured block molding equipment that is divided into of gypsum block, bagDraw together end template, side shield, end-stopping plate and mandrel, also comprise overall die cavity and gypsum stripping and slicing device, described overall die cavity is by bed diePlate, side shield and end-stopping plate surround, and described mandrel is arranged at whole by the bed die hole on end template through end template and described mandrelIn build chamber, overall die cavity top is slidably provided with overall die cavity scraper plate; Side shield drives by side shield drive unit,End-stopping plate drives by end-stopping plate drive unit; Described gypsum stripping and slicing device is by the gypsum monoblock cutting of moulding in overall die cavityFor gypsum becomes piece.
Further, described gypsum stripping and slicing device is line cutting stripping and slicing device, and described line cutting stripping and slicing device is by around being arranged atThe line of cut of entirety die cavity periphery and be fixedly installed on the line of cut guide rail on side shield drive unit.
Further, on side shield, be fixedly installed line of cut regulating wheel.
Further, be provided with the end template cutting seam matching with described line of cut on end template, establish described end template belowBe equipped with laminate.
Further, comprise the plaster block tong for gypsum monoblock is gone out from overall die cavity inner clip, and for gypsum is wholePiece is sent to the conveyer belt of gypsum stripping and slicing device from overall die cavity, described overall die cavity top is provided with grouting mouthful.
Further, described overall die cavity is at least two, and the below of each overall die cavity is provided with conveyer belt, described biographySend band that overall die cavity circulation is delivered to grouting mouthful below and plaster block tong place.
Further, described mandrel below is provided with mandrel drive unit, and described mandrel drive unit drives mandrel around mandrelCentral axis rotation, and described mandrel drive unit is extracted mandrel in gypsum monoblock.
Further, described mandrel is circulating aeration type mandrel, is provided with cavity in mandrel, on the base of mandrel bottom, arrangesThere is the mandrel passage that is communicated with cavity and ambient atmosphere.
Further, comprise the mandrel brace table on the top that is fixedly installed on the cavity in mandrel, base and the mandrel of mandrel prop upBetween support platform, be provided with mandrel support bar.
Further, the shape of cross section of described mandrel is circle or polygon.
The invention has the beneficial effects as follows: the marrow of the present invention design is by gypsum slurry " first global formation, and then cut into piece ".With respect to traditional mode of production of passing through demarcation strip and directly plaster block being become piece, the present invention has saved demarcation strip, also avoids simultaneouslyA lot of technical problems of bringing of cleaning demarcation strip, thereby for having increased substantially production efficiency, reduced the inferior of cleaning residueNumber. In order structurally to realize above-mentioned design, first the present invention has built overall die cavity, then by the side that can move is in addition setBaffle plate, end-stopping plate, be cut into gypsum by gypsum monoblock and become piece thereby be convenient to gypsum stripping and slicing device. By moulding and stripping and slicing are divided intoTwo steps not only can realize the circulation of die cavity and produce during " global formation ", also can in the time of stripping and slicing, call flexiblyGypsum stripping and slicing device is produced. Further say, the present invention has realized the flexible production of plaster block, has greatly improved productionEfficiency and flexibility. The present invention is particularly useful for streamline automated production gypsum block.
Brief description of the drawings
Fig. 1 is top view of the present invention.
Fig. 2 is the structural representation that the present invention adopts line cutting mode.
Fig. 3 is the side view that the present invention adopts line cutting mode.
Fig. 4 is the schematic diagram of the present invention while adopting line cutting mode jacking stripping and slicing.
The monolithic devices cavity segment schematic diagram of Fig. 5 when to be the present invention realized moulding and stripping and slicing and produced continuously by conveyer belt.
The signal of Fig. 6 gypsum stripping and slicing device cutting gypsum monoblock when to be the present invention realized moulding and stripping and slicing and produced continuously by conveyer beltFigure.
Fig. 7 is that the gypsum obtaining after the present invention cuts becomes piece schematic diagram.
Fig. 8 is the structural representation that the present invention adopts mandrel drive unit.
Fig. 9 be the present invention adopt mandrel drive unit by mandrel the schematic diagram from extracting in gypsum monoblock.
Figure 10 is the structural representation that the present invention adopts circulating aeration type mandrel.
In figure, be labeled as: overall die cavity 1, overall die cavity scraper plate 11, side shield 2, side shield drive unit 21, line of cut are ledRail 211, line of cut 212, line of cut regulating wheel 213, side shield support bar 214, end-stopping plate 3, end-stopping plate drive unit 31,Side shield support bar 311, end template 4, end template cutting seam 41, laminate 42, jacking drive unit 43, mandrel 5, mandrelBrace table hold-down screw 51, mandrel brace table 52, mandrel support bar 521, base 53, mandrel passage 531, cavity 54,Annular groove 55, hold-down screw through hole 56, mandrel drive unit 57, grouting mouth 6, gypsum stripping and slicing device 7, gypsum stripping and slicing dressPut cutting knife 71, conveyer belt 8, gypsum monoblock 9, gypsum and become piece 91.
Detailed description of the invention
Below in conjunction with accompanying drawing, the present invention is further described.
The integrated poured block molding equipment that is divided into of gypsum block as shown in Figures 1 to 10, comprise end template 4, side shield 2,End-stopping plate 3 and mandrel 5, also comprise overall die cavity 1 and gypsum stripping and slicing device 7, and described overall die cavity 1 is by end template 4, side blockPlate 2 and end-stopping plate 3 surround, and described mandrel 5 arranges through end template 4 and described mandrel 5 by the bed die hole on end template 4In overall die cavity 1, overall die cavity 1 top is slidably provided with overall die cavity scraper plate 11; Side shield 2 drives by side shieldDevice 21 drives, and end-stopping plate 3 drives by end-stopping plate drive unit 31; Described gypsum stripping and slicing device 7 is by entiretyThe gypsum monoblock 9 of die cavity 1 interior moulding is cut into gypsum and becomes piece 91.
In actual production, first end template 4, side shield 2, end-stopping plate 3 are surrounded to overall die cavity 1, mandrel 5 is passed through the end of toBed die hole in template 4 is passed end template 4 and described mandrel 5 is arranged in overall die cavity 1, in order to ensure overall die cavity 1There is not the leakage of gypsum slurry, need to ensure closely cooperating between end template 4, side shield 2, end-stopping plate 3; Next,Gypsum slurry is circulated in overall die cavity 1, slowly condenses after basic forming until described gypsum slurry, by overall die cavity 1 topSlidably arrange overall die cavity scraper plate 11 along its glide direction, smooth, general, described entirety is scraped in gypsum slurry topDie cavity scraper plate 11 and the contact edge of gypsum slurry are that (the overall die cavity scraper plate 11 that refers to Fig. 2 is illustrated for the side of irregular shapeFigure), reason is to ensure after above-mentioned steps scraping, forms protruding with the end template 4 of gypsum slurry bottom at gypsum slurry topThe concaveconvex structure that piece matches; Secondly, along with after the gypsum slurry of having shaped continues to solidify, by side shield drive unit 21Side shield 2 is opened, by end-stopping plate drive unit 31, end-stopping plate 3 is opened; Last, will by gypsum stripping and slicing device 7The gypsum monoblock 9 obtaining is cut into gypsum and becomes piece 91, has completed final gypsum and has become piece 91 products.
Core technology design of the present invention is by gypsum slurry " global formation, secondary stripping and slicing " is finally obtained to product, thisFirst be a change of carrying out for the production technology of conventional gypsum. In the time of concrete production, owing to having saved demarcation strip, thereforeAnd saved as the numerous subsidiary operation brought of cleaning demarcation strip. Owing to being global formation, entirety need to being become of certainty againThe gypsum monoblock 9 of type is cut into gypsum by gypsum stripping and slicing device 7 and becomes piece 91, and still, such cutting step is in practiceBe easy to realize, thereby in overall production process, the present invention is more excellent.
For material and the design feature of gypsum product and gypsum monoblock 9, for gypsum stripping and slicing device 7, can be preferably lineCutting stripping and slicing device, described line cutting stripping and slicing device is by around being arranged at the line of cut 212 of overall die cavity 1 periphery and being fixedly installedLine of cut guide rail 211 on side shield drive unit 21. As shown in Figure 2, Figure 3 and Figure 4, formed in gypsum mouldingAfter gypsum monoblock 9, can be by opening side shield 2 and end-stopping plate 3 the direct line of cut that cuts stripping and slicing device by drive wireGypsum monoblock 9 is cut into gypsum by 212 becomes piece 91, also can by jacking drive unit 43 by end template 4 up jacking go out wholeBuild chamber 1 is also cut stripping and slicing device by line and gypsum monoblock 9 is cut into gypsum is become piece 91 (referring to Fig. 4).
As the improvement to previous step scheme, in order to ensure carrying out line when cutting line of cut 212 in tight cut state,Can on side shield 2, be fixedly installed line of cut regulating wheel 213. As shown in 4, on side shield 2, be fixedly installed line of cutRegulating wheel 213 can ensure the good cut state of line of cut 212 in the time of cutting, thereby has also ensured the gypsum that cutting obtainsBecome the quality of piece 91.
Further, complete in order to ensure that the line of cut 212 in line when cutting can cut gypsum monoblock 9 fully, can not go outNow after cutting, adjacent gypsum becomes the state still connecting between piece 91, can on end template 4, arrange and described line of cut 212The end template cutting seam 41 matching, described end template 4 belows are provided with laminate 42. As shown in Figure 2, in the time that reality is cut,Line of cut 212 can finally cut in end template cutting seam 41, thereby ensures completely gypsum monoblock 9 to be cut into complete each otherIndependently gypsum becomes piece 91. Meanwhile, in order to prevent that gypsum slurry from cutting seam 41 at Early filling stage by end template and flowing out,Laminate 42 also need to be set below end template 4, thereby prevent that gypsum slurry from cutting the outflow of seam 41 by end template. In realityWhen border arranges, generally can preferably laminate 42 be arranged between jacking drive unit 43 and end template 4.
Produce in order to allow the present invention be suitable for streamline, can carry out such improvement to scheme: comprise for by gypsum monoblock 9The plaster block tong going out from overall die cavity 1 inner clip, and for gypsum monoblock 9 is sent to gypsum stripping and slicing dress from overall die cavity 1Put 7 conveyer belt 8, described overall die cavity 1 top is provided with grouting mouth 6. As shown in Fig. 5, Fig. 6 and Fig. 7, at gypsumSlurry solidifies after end, opens side shield 2 and end-stopping plate 3, and (normal by being arranged at the plaster block tong on overall die cavity 1 sideWith startup manipulator) in type gypsum monoblock 9 is walked from end template 4 folder, and gypsum monoblock 9 is placed into biographySend and be with on 8 until be sent to gypsum stripping and slicing device 7 and cut. Improved advantage be like this realized " global formation " andThe real separation that " cuts into piece ", thus the guarantee of equipment is provided for realizing flexible production. Grouting mouth 6 is used to wholeBe in the milk in build chamber 1.
As further improving, in order to improve the efficiency of gypsum moulding, can select such scheme: described overall die cavity1 is at least two, and the below of each overall die cavity 1 is provided with conveyer belt 8, and described conveyer belt 8 circulates defeated by overall die cavity 1Deliver to grouting mouthful 6 belows and plaster block tong place. In the time of practical operation, first overall die cavity 1 is filled with by grouting mouth 6After slurry, can remove by conveyer belt 8, for second overall die cavity 1 is in the milk space is provided by grouting mouth 6, successivelyCirculation; On the other hand, be in the milk and waited for that 1 of the overall die cavity solidifying is originally delivered to plaster block tong place, end to be solidifiedRear gypsum monoblock 9 is pressed from both sides out and is placed into by plaster block tong the conveyer belt 8 that gypsum monoblock 9 is delivered to gypsum stripping and slicing device 7On. Thus, realizing that circulation is constantly in the milk, is solidified, gypsum monoblock 9 is carried and cut, having improved greatly gypsumProduction efficiency, this is also that traditional gypsum production equipment cannot be accomplished.
In addition, the present invention also has made some improvements mandrel 5, and concrete scheme is: described mandrel 5 belows are provided with mandrelDrive unit 57, described mandrel drive unit 57 drives the central axis rotation of mandrel 5 around mandrel 5, and described mandrel drivesDevice 57 is extracted mandrel 5 in gypsum monoblock 9. In the time of practical operation, gypsum slurry is circulated into overall die cavity 1 interior after,Drive the central axis rotation of mandrel 5 around mandrel 5 by mandrel drive unit 57, therefore in the process of condensing at gypsum, mandrel 5Always all in the central axis rotation around mandrel 5 until gypsum condensed, last, due to mandrel 5 not with the gypsum solidifyingBonding, therefore mandrel drive unit 57 can be extracted mandrel 5 easily in gypsum monoblock 9, this greatly reduces extracts mandrel5 power consumption, has also ensured the quality of gypsum monoblock 9.
For the structure of mandrel 5, can select mandrel 5 for circulating aeration type mandrel, concrete structure is: the interior setting of mandrel 5There is cavity 54, on the base 53 of mandrel 5 bottoms, be provided with the mandrel passage 531 that is communicated with cavity 54 and ambient atmosphere. DescribedCirculating aeration type mandrel, referred to before pouring into calcium plaster, and circulating aeration type mandrel is inflated and allowed mandrel integral hardness reachTo the standard of producing calcium plaster endoporus, allow mandrel 5 there is identical effect with traditional metal core axle. Finish and need in mouldingWhen gypsum block will be ejected, only the gas in mandrel 5 need be released, now the outer surface of mandrel 5 and gypsum block endoporus itBetween frictional force can greatly reduce. In conjunction with concrete production practices, the first-selected elastomeric material of described circulating aeration type mandrel 5 is madeCirculating aeration type mandrel. Utilize the characteristic of rubber, the circulating aeration type mandrel of described elastomeric material is inflated, adjust gasPressure can realize the hardness that rubber entirety is enough and reach the hole diameter that product design requires. In the time that needs eject gypsum block,Only need, by the Bas Discharged in the circulating aeration type mandrel of elastomeric material, can eliminate frictional force. By on the base of mandrel 5 53Mandrel passage 531 is set, can directly extraneous source of inflation gas be communicated with described mandrel passage 531, and realize and followingThe inflation of ring and venting operation.
Further, in order to strengthen the rigidity of mandrel 5 after venting, for fear of occurring that bending appears in mandrel 5 after ventingEtc. situation, can select such scheme: comprise the mandrel brace table 52 on the top of the cavity 54 being fixedly installed in mandrel 5,Between the base 53 of mandrel 5 and mandrel brace table 52, be provided with mandrel support bar 521. Mandrel support bar 521 supports with mandrelPlatform 52 provides support for mandrel 5 together, avoids the bending of mandrel 5. Especially, for the fixed form of mandrel brace table 52,Can select to fix like this: by offering hold-down screw through hole 56 on mandrel 1 top, and by mandrel brace table hold-down screw 51Through hold-down screw through hole 56, finally realize and being connected with mandrel brace table 52. In practice, this fixed form is not only firm, and justIn the replacing of later stage parts. In addition, mandrel brace table hold-down screw 51 places gas leakage when preventing from inflating, can be at mandrel 5With on the contact-making surface of mandrel brace table hold-down screw 51, set up annular groove 55, thereby effectively realize the sealing to gas leakage. SeparatelyOuter, can also choose according to the demand of actual production the shape of cross section of mandrel 5, general, described mandrel 5 transversalFace is shaped as circle or polygon.
Claims (9)
1. the integrated poured block molding equipment that is divided into of gypsum block, comprises end template (4), side shield (2), end-stopping plate (3)And mandrel (5), it is characterized in that: comprise overall die cavity (1) and gypsum stripping and slicing device (7), described overall die cavity (1) byEnd template (4), side shield (2) and end-stopping plate (3) surround, and described mandrel (5) is by the bed die hole on end template (4)Be arranged in overall die cavity (1) through end template (4) and described mandrel (5), overall die cavity (1) top slidably arrangesThere is overall die cavity scraper plate (11); Side shield (2) drives by side shield drive unit (21), and end-stopping plate (3) passes throughEnd-stopping plate drive unit (31) drives; Described gypsum stripping and slicing device (7) is by whole the gypsum of the interior moulding of overall die cavity (1)Piece (9) is cut into gypsum and becomes piece (91);
Described gypsum stripping and slicing device (7) is line cutting stripping and slicing device, and described line cutting stripping and slicing device is by around being arranged at overall die cavity(1) line of cut of periphery (212) and be fixedly installed on the line of cut guide rail (211) on side shield drive unit (21).
2. the integrated poured block molding equipment that is divided into of gypsum block as claimed in claim 1, is characterized in that: side shield (2)On be fixedly installed line of cut regulating wheel (213).
3. the integrated poured block molding equipment that is divided into of gypsum block as claimed in claim 1 or 2, is characterized in that: end template(4) on, be provided with the end template cutting seam (41) matching with described line of cut (212), establish described end template (4) belowBe equipped with laminate (42).
4. the integrated poured block molding equipment that is divided into of gypsum block as claimed in claim 1, is characterized in that: comprise for inciting somebody to actionThe plaster block tong that gypsum monoblock (9) goes out from overall die cavity (1) inner clip, and for by gypsum monoblock (9) from overall die cavity(1) be sent to the conveyer belt (8) of gypsum stripping and slicing device (7), described overall die cavity (1) top is provided with grouting mouthful (6).
5. the integrated poured block molding equipment that is divided into of gypsum block as claimed in claim 4, is characterized in that: described monolithic devicesChamber (1) is at least two, and the below of each overall die cavity (1) is provided with conveyer belt (8), and described conveyer belt (8) is by wholeBuild chamber (1) circulation is delivered to grouting mouthful (6) below and plaster block tong place.
6. the integrated poured block molding equipment that is divided into of gypsum block as claimed in claim 1, is characterized in that: described mandrel (5)Below is provided with mandrel drive unit (57), and described mandrel drive unit (57) drives the center of mandrel (5) around mandrel (5)Axis rotation, and described mandrel drive unit (57) is extracted mandrel (5) in gypsum monoblock (9).
7. the integrated poured block molding equipment that is divided into of the gypsum block as described in claim 1 or 6, is characterized in that: described coreAxle (5) is circulating aeration type mandrel, is provided with cavity (54) in mandrel (5), on the base (53) of mandrel (5) bottomBe provided with the mandrel passage (531) that is communicated with cavity (54) and ambient atmosphere.
8. the integrated poured block molding equipment that is divided into of gypsum block as claimed in claim 7, is characterized in that: comprise fixedly and establishingBe placed in the mandrel brace table (52) on the top of the cavity (54) in mandrel (5), the base (53) of mandrel (5) props up with mandrelBetween support platform (52), be provided with mandrel support bar (521).
9. the integrated poured block molding equipment that is divided into of the gypsum block as described in claim 1 or 6, is characterized in that: described coreThe shape of cross section of axle (5) is circle or polygon.
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CN201410205875.5A CN103950093B (en) | 2014-05-15 | 2014-05-15 | The integrated poured block molding equipment that is divided into of gypsum block |
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CN201410205875.5A CN103950093B (en) | 2014-05-15 | 2014-05-15 | The integrated poured block molding equipment that is divided into of gypsum block |
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CN103950093B true CN103950093B (en) | 2016-05-18 |
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Families Citing this family (5)
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CN105583944B (en) * | 2016-02-19 | 2017-09-29 | 福州欣翔威电子科技有限公司 | Ceramic capacitor dry-pressing equipment |
CN111688000A (en) * | 2020-07-01 | 2020-09-22 | 孙明生 | Forming and cutting method and device for perforated building blocks |
CN112092152A (en) * | 2020-09-16 | 2020-12-18 | 杭州天佳建材科技有限公司 | Honeycomb ceramic production and preparation mold and production and preparation process |
CN113199009A (en) * | 2021-04-29 | 2021-08-03 | 漳州市金典工艺制品有限公司 | Safe continuous vacuum casting device and process for building cast aluminum plate |
CN113863563A (en) * | 2021-10-11 | 2021-12-31 | 石若金 | Coal ash porous brick and special mould thereof |
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US20110300252A1 (en) * | 2008-07-10 | 2011-12-08 | Ness Inventions, Inc. | Concrete block machine having a controllable cutoff bar |
CN202448223U (en) * | 2012-02-27 | 2012-09-26 | 固安永丰北叉京工工程机械有限公司 | Automatic production line for aerated concrete blocks |
CN203510444U (en) * | 2013-09-04 | 2014-04-02 | 赵玉峰 | Automatic gypsum line production system |
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