CN202293018U - Gypsum composite wallboard production line - Google Patents
Gypsum composite wallboard production line Download PDFInfo
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- CN202293018U CN202293018U CN2011204213935U CN201120421393U CN202293018U CN 202293018 U CN202293018 U CN 202293018U CN 2011204213935 U CN2011204213935 U CN 2011204213935U CN 201120421393 U CN201120421393 U CN 201120421393U CN 202293018 U CN202293018 U CN 202293018U
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Abstract
The utility model relates to a gypsum composite wallboard production line. According to the technical scheme, the gypsum composite wallboard production line consists of a bottom layer mixing device, a middle layer mixing device, a surface layer mixing device, a dynamic molding device and a coil insertion device, wherein the dynamic molding device consists of a lower mold stripe, two lateral mold strips and an upper mold strip; a bottom layer molding bin is formed at one end of the dynamic molding device through the lower mold strip and the two lateral mold strips; a middle layer molding bin is formed at the middle end of the dynamic molding device through the lower mold strip and the two lateral mold strips, and a surface layer molding bin is formed at the other end of the dynamic molding device through the lower mold strip, the two lateral mold strips and the upper mold strip; the lower ends of the bottom layer mixing device, the middle layer mixing device and the surface layer mixing device correspond to the bottom layer molding bin, the middle layer molding bin and the surface layer molding bin respectively; and the dynamic molding device is connected with the coil insertion device.
Description
Technical field
The utility model belongs to building materials production line field, relate to particularly a kind of can be continuously shaped, produce the compound gypsum board production line of multilayer material.
Background technology
Developing rapidly of skyscraper, the imbalance between supply and demand that brings construction material, it is more outstanding to alleviate problems such as building deadweight and Aseismic Design.Structural material develops towards the high-strength light direction, and has sound insulation, heat insulation, fire prevention, superperformance such as anticorrosion, thereby alleviates the weight of building greatly, has reduced the workload of construction and transportation, lowers cost.Construction market needs many kinds of a large amount of high-qualitys, the New Building Materials of many specifications.
And the gypsum lightweight wallboard machinery that is applied to the domestic construction industry at present is commonly the formwork erection make-up machine; There are problems such as production technology is backward, output is little, efficient is low, the waste water waste material is many, production environment difference in it; In addition along with development of technology; Also more and more need a kind of composite gypsum board that multiple difference in functionality layer is combined with each other that has, to satisfy the demand of different buildings.And prior art can't satisfy the many kinds of construction market, many specifications, demand that demand is big, also is unfavorable for applying of New Building Materials.
Summary of the invention
In order to address the above problem, the utility model provide a kind of can be continuously shaped, and can production MULTILAYER COMPOSITE composite gypsum board assembly line together.
The technical scheme that the utility model adopts is: a kind of gypsum composite wall board assembly line: by bottom mixing device, middle level mixing device, and the surface layer mixing device, dynamic molding device and coil inserting apparatus are formed; Described dynamic molding device is made up of bed die band, two side mold bands and mold band; One end of dynamic molding device forms bottom moulding storehouse by bed die band and two side mold bands; Formable layer storehouse during middle-end is formed by bed die band and two side mold bands, the other end forms surface layer moulding storehouse by bed die band, two side mold bands and mold band; Bottom mixing device, middle level mixing device and surface layer mixing device lower end be corresponding bottom moulding storehouse, middle formable layer storehouse and surface layer moulding storehouse respectively; The dynamic molding device connects coil inserting apparatus.
Above-mentioned gypsum composite wall board assembly line: described bottom mixing device is: be provided with some former feed bin I; An electronics metering conveyer I is installed on each former feed bin I; The discharging opening of former feed bin I is installed variable conveying worm I down; Variable conveying worm I is connected with the feeding end of the vertical conveyer I of speed change; The discharge end of the vertical conveyer I of speed change is connected with the feeding end of vertical dry powder blender I, and the discharge end of vertical dry powder blender I is connected with the feeding end of the vertical conveyer II of speed change, and the vertical conveyer II of speed change discharge end is connected with the feeding end that revolves shaft type powder stirrer I; Revolve variable conveying worm II is installed under the shaft type powder stirrer I; The discharge end of variable conveying worm II is installed the centrifugal blender I down, and the centrifugal blender I is connected with liquid additive mixer I, is bottom moulding storehouse inlet under the centrifugal blender I.
Above-mentioned gypsum composite wall board assembly line: described middle level mixing device is: be provided with some former feed bin II; An electronics metering conveyer II is installed on each former feed bin II; The discharging opening of former feed bin II is installed variable conveying worm III down; Variable conveying worm III is connected with the feeding end of the vertical conveyer III of speed change; The discharge end of the vertical conveyer III of speed change is connected with the feeding end of vertical dry powder blender II, and the discharge end of vertical dry powder blender II is connected with the feeding end of the vertical conveyer IV of speed change, and the vertical conveyer IV of speed change discharge end is connected with the feeding end that revolves shaft type powder stirrer II; Revolve variable conveying worm IV is installed under the shaft type powder stirrer II; The discharge end of variable conveying worm IV is installed the centrifugal blender II down, and the centrifugal blender II is connected with liquid additive mixer II, is middle formable layer storehouse inlet under the centrifugal blender II.
Above-mentioned gypsum composite wall board assembly line: described surface layer mixing device is: be provided with some former feed bin III; An electronics metering conveyer III is installed on each former feed bin III; The discharging opening of former feed bin III is installed variable conveying worm V down, and variable conveying worm V is connected with the feeding end of the vertical conveyer V of speed change, and the discharge end of the vertical conveyer V of speed change is connected with the feeding end of vertical dry powder blender III; The discharge end of vertical dry powder blender III is connected with the feeding end of the vertical conveyer VI of speed change; The vertical conveyer VI of speed change discharge end is connected with the feeding end that revolves shaft type powder stirrer III, revolves variable conveying worm VI is installed under the shaft type powder stirrer III, and the discharge end of variable conveying worm VI is installed the centrifugal blender III down; The centrifugal blender III is connected with the blowing agent machine, is surface layer moulding storehouse inlet under the centrifugal blender III.
Above-mentioned gypsum composite wall board assembly line: described coil inserting apparatus is: the front end of roller type fortune plate machine is provided with cutting machine, and rear side is provided with two groups of panel turnover machine I and panel turnover machine II, and cutting machine places the end of dynamic molding device bed die band.
The beneficial effect of the utility model is: owing to adopt the structure in dynamic molding storehouse, guarantee at mold band, bed die band and side mold band can realize the continuity of production line on the basis of hollow gypsum wall board shape; Since be provided with two groups of panel turnover machines, forked working, thus guarantee that in type hollow gypsum wall board is transported on the fork truck continuously, and then be transported to the health place, therefore improved production efficiency.Because each material bin all is provided with electronics metering conveyer, has not only reduced labour intensity, has also guaranteed the accuracy of material proportion; Carry out batch mixing twice owing to adopt vertical gypsum dry powder blender and revolve the shaft type powder stirrer, guaranteed the abundant mixing of material, so adopt the utility model further to guarantee the quality of product.Because on tinuous production, adopt bottom mixing device, middle level mixing device, surface layer mixing device, thereby when producing continuously, can the multilayer slurry be carried out to type has respectively produced the plasterboard of multilayer at last compound.The utility model has overcome the defective of existing formwork erection equipment, has realized mechanization production, has significantly improved output, has guaranteed product quality, can adjust wallboard specification (thickness, length) rapidly, reduces production costs, and is fit to the demand of construction market.
Description of drawings
Fig. 1 is the structural representation of the utility model.
The specific embodiment
As shown in Figure 1, a kind of gypsum composite wall board assembly line: by bottom mixing device (1), middle level mixing device (2), surface layer mixing device (3), dynamic molding device (4) and coil inserting apparatus (5) are formed; Described dynamic molding device (4) is made up of bed die band (40), two side mold bands (41) and mold band (42); One end of dynamic molding device (4) forms bottom moulding storehouse (43) by bed die band (40) and two side mold bands (41); Formable layer storehouse (44) during middle-end is formed by bed die band (40) and two side mold bands (41), the other end forms surface layer moulding storehouse (45) by bed die band (40), two side mold bands (41) and mold band (42); Bottom mixing device (1), middle level mixing device (2) and surface layer mixing device (3) lower end be corresponding bottom moulding storehouse (43), middle formable layer storehouse (44) and surface layer moulding storehouse (45) respectively; Dynamic molding device (4) connects coil inserting apparatus (5).
Above-mentioned gypsum composite wall board assembly line: described bottom mixing device (1) is: be provided with some former feed bin I (10); Each former feed bin I (10) goes up installs an electronics metering conveyer I (11); The discharging opening of former feed bin I (10) is installed variable conveying worm I (12) down; Variable conveying worm I (12) is connected with the feeding end of the vertical conveyer I of speed change (13); The discharge end of the vertical conveyer I of speed change (13) is connected with the feeding end of vertical dry powder blender I (14); The discharge end of vertical dry powder blender I (14) is connected with the feeding end of the vertical conveyer II of speed change (15); The vertical conveyer II of speed change (15) discharge end is connected with the feeding end that revolves shaft type powder stirrer I (16), revolves variable conveying worm II (18) is installed under the shaft type powder stirrer I (16), and the discharge end of variable conveying worm II (18) is installed centrifugal blender I (19) down; Centrifugal blender I (19) is connected with liquid additive mixer I (17), and centrifugal blender I (19) is bottom moulding storehouse (43) inlet down.
Above-mentioned gypsum composite wall board assembly line: described middle level mixing device (2) is: be provided with some former feed bin II (20); Each former feed bin II (20) goes up installs an electronics metering conveyer II (21); The discharging opening of former feed bin II (20) is installed variable conveying worm III (22) down; Variable conveying worm III (22) is connected with the feeding end of the vertical conveyer III of speed change (23); The discharge end of the vertical conveyer III of speed change (23) is connected with the feeding end of vertical dry powder blender II (24); The discharge end of vertical dry powder blender II (24) is connected with the feeding end of the vertical conveyer IV of speed change (25); The vertical conveyer IV of speed change (25) discharge end is connected with the feeding end that revolves shaft type powder stirrer II (26), revolves variable conveying worm IV (28) is installed under the shaft type powder stirrer II (26), and the discharge end of variable conveying worm IV (28) is installed centrifugal blender II (29) down; Centrifugal blender II (29) is connected with liquid additive mixer II (27), and centrifugal blender II (29) is middle formable layer storehouse (44) inlet down.
Above-mentioned gypsum composite wall board assembly line: described surface layer mixing device (3) is: be provided with some former feed bin III (30); Each former feed bin III (30) goes up installs an electronics metering conveyer III (31); The discharging opening of former feed bin III (30) is installed variable conveying worm V (32) down; Variable conveying worm V (32) is connected with the feeding end of the vertical conveyer V of speed change (33); The discharge end of the vertical conveyer V of speed change (33) is connected with the feeding end of vertical dry powder blender III (34); The discharge end of vertical dry powder blender III (34) is connected with the feeding end of the vertical conveyer VI of speed change (35); The vertical conveyer VI of speed change (35) discharge end is connected with the feeding end that revolves shaft type powder stirrer III (36), revolves variable conveying worm VI (38) is installed under the shaft type powder stirrer III (36), and the discharge end of variable conveying worm VI (38) is installed centrifugal blender III (39) down; Centrifugal blender III (39) is connected with blowing agent machine (37), and centrifugal blender III (39) is surface layer moulding storehouse (45) inlet down.
Above-mentioned gypsum composite wall board assembly line: described coil inserting apparatus (5) is: the front end of roller type fortune plate machine (51) is provided with cutting machine (50); Rear side is provided with two groups of panel turnover machine I (52) and panel turnover machine II (53), and cutting machine (50) places the end of dynamic molding device (4) bed die band (40).
The technical process of the utility model is: present embodiment is an example to prepare three layers of composite gypsum wallboard.Mixing procedure is: former feed bin through electronics metering conveyer directly by the proportioning accommodating source material, not only facility but also save manpower.Adopt the variable conveying worm can the vertical conveyer of raw material smooth delivery of power to speed change with different fineness in; The vertical conveyer of speed change is the vertical dry powder blender needed raw material quantity of supply in time; Vertical dry powder blender with revolve the shaft type powder stirrer and can at short notice multiple batching be stirred; The variable conveying worm is transported to centrifugal blender with mixed dry material; Simultaneously the liquid additive mixer evenly mixes waterproofing agent etc. with water and also is transported to centrifugal blender by the ratio of mud, and material fully mixes.During moulding, at first the material of bottom mixing device gets into bottom moulding storehouse, and the moulding bottom is along with the running of bed die band; Bottom after the moulding is transported to the stage casing, and the material of middle level mixing device falls into bottom, and the moulding middle level is after the moulding; Continuation is along with the bed die tape travel, and in the surface layer moulding storehouse of the other end, the mixed material of surface layer mixing device falls, and carries out the moulding of surface layer; Therefore, once production can realize three moulding, the gypsum wallboard that the production three-decker is compound.The bed die band is delivered to cutting machine with the plasterboard that is combined with each other, cutting machine and wallboard synchronous operation and scale cutting, and the gypsum wallboard after the cutting falls on the roller type fortune plate machine; At first roll off the production line through the panel turnover machine I, the panel turnover machine I quits work during to some, uses the fork truck wallboard that will roll off the production line to be transported to the health place; The wallboard that has cut simultaneously begins to carry to the panel turnover machine II; The panel turnover machine II is started working, panel turnover machine I and panel turnover machine II forked working, and going round and beginning again has guaranteed that wallboard produces continuously.
Claims (5)
1. gypsum composite wall board assembly line is characterized in that: by bottom mixing device (1), middle level mixing device (2), and surface layer mixing device (3), dynamic molding device (4) and coil inserting apparatus (5) are formed; Described dynamic molding device (4) is made up of bed die band (40), two side mold bands (41) and mold band (42); One end of dynamic molding device (4) forms bottom moulding storehouse (43) by bed die band (40) and two side mold bands (41); Formable layer storehouse (44) during middle-end is formed by bed die band (40) and two side mold bands (41), the other end forms surface layer moulding storehouse (45) by bed die band (40), two side mold bands (41) and mold band (42); Bottom mixing device (1), middle level mixing device (2) and surface layer mixing device (3) lower end be corresponding bottom moulding storehouse (43), middle formable layer storehouse (44) and surface layer moulding storehouse (45) respectively; Dynamic molding device (4) connects coil inserting apparatus (5).
2. gypsum composite wall board assembly line as claimed in claim 1; It is characterized in that: described bottom mixing device (1) is: be provided with some former feed bin I (10); Each former feed bin I (10) goes up installs an electronics metering conveyer I (11); The discharging opening of former feed bin I (10) is installed variable conveying worm I (12) down; Variable conveying worm I (12) is connected with the feeding end of the vertical conveyer I of speed change (13); The discharge end of the vertical conveyer I of speed change (13) is connected with the feeding end of vertical dry powder blender I (14), and the discharge end of vertical dry powder blender I (14) is connected with the feeding end of the vertical conveyer II of speed change (15), and the vertical conveyer II of speed change (15) discharge end is connected with the feeding end that revolves shaft type powder stirrer I (16); Revolve variable conveying worm II (18) is installed under the shaft type powder stirrer I (16); The discharge end of variable conveying worm II (18) is installed centrifugal blender I (19) down, and centrifugal blender I (19) is connected with liquid additive mixer I (17), and centrifugal blender I (19) is bottom moulding storehouse (43) inlet down.
3. gypsum composite wall board assembly line as claimed in claim 1; It is characterized in that: described middle level mixing device (2) is: be provided with some former feed bin II (20); Each former feed bin II (20) goes up installs an electronics metering conveyer II (21); The discharging opening of former feed bin II (20) is installed variable conveying worm III (22) down; Variable conveying worm III (22) is connected with the feeding end of the vertical conveyer III of speed change (23); The discharge end of the vertical conveyer III of speed change (23) is connected with the feeding end of vertical dry powder blender II (24), and the discharge end of vertical dry powder blender II (24) is connected with the feeding end of the vertical conveyer IV of speed change (25), and the vertical conveyer IV of speed change (25) discharge end is connected with the feeding end that revolves shaft type powder stirrer II (26); Revolve variable conveying worm IV (28) is installed under the shaft type powder stirrer II (26); The discharge end of variable conveying worm IV (28) is installed centrifugal blender II (29) down, and centrifugal blender II (29) is connected with liquid additive mixer II (27), and centrifugal blender II (29) is middle formable layer storehouse (44) inlet down.
4. gypsum composite wall board assembly line as claimed in claim 1; It is characterized in that: described surface layer mixing device (3) is: be provided with some former feed bin III (30); Each former feed bin III (30) goes up installs an electronics metering conveyer III (31); The discharging opening of former feed bin III (30) is installed variable conveying worm V (32) down; Variable conveying worm V (32) is connected with the feeding end of the vertical conveyer V of speed change (33); The discharge end of the vertical conveyer V of speed change (33) is connected with the feeding end of vertical dry powder blender III (34), and the discharge end of vertical dry powder blender III (34) is connected with the feeding end of the vertical conveyer VI of speed change (35), and the vertical conveyer VI of speed change (35) discharge end is connected with the feeding end that revolves shaft type powder stirrer III (36); Revolve variable conveying worm VI (38) is installed under the shaft type powder stirrer III (36); The discharge end of variable conveying worm VI (38) is installed centrifugal blender III (39) down, and centrifugal blender III (39) is connected with blowing agent machine (37), and centrifugal blender III (39) is surface layer moulding storehouse (45) inlet down.
5. gypsum composite wall board assembly line as claimed in claim 1; It is characterized in that: described coil inserting apparatus (5) is: the front end of roller type fortune plate machine (51) is provided with cutting machine (50); Rear side is provided with two groups of panel turnover machine I (52) and panel turnover machine II (53), and cutting machine (50) places the end of dynamic molding device (4) bed die band (40).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011204213935U CN202293018U (en) | 2011-10-31 | 2011-10-31 | Gypsum composite wallboard production line |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011204213935U CN202293018U (en) | 2011-10-31 | 2011-10-31 | Gypsum composite wallboard production line |
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| Publication Number | Publication Date |
|---|---|
| CN202293018U true CN202293018U (en) | 2012-07-04 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2011204213935U Expired - Fee Related CN202293018U (en) | 2011-10-31 | 2011-10-31 | Gypsum composite wallboard production line |
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| CN (1) | CN202293018U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110900788A (en) * | 2019-12-27 | 2020-03-24 | 河北绿洲机械制造集团有限公司 | Gypsum foaming batten forming method and manufacturing equipment |
| CN110936488A (en) * | 2019-12-27 | 2020-03-31 | 河北绿洲机械制造集团有限公司 | Equipment and process for producing gypsum foamed batten |
| CN110978220A (en) * | 2019-12-27 | 2020-04-10 | 河北绿洲机械制造集团有限公司 | Foaming gypsum batten forming process and continuous production line |
-
2011
- 2011-10-31 CN CN2011204213935U patent/CN202293018U/en not_active Expired - Fee Related
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110900788A (en) * | 2019-12-27 | 2020-03-24 | 河北绿洲机械制造集团有限公司 | Gypsum foaming batten forming method and manufacturing equipment |
| CN110936488A (en) * | 2019-12-27 | 2020-03-31 | 河北绿洲机械制造集团有限公司 | Equipment and process for producing gypsum foamed batten |
| CN110978220A (en) * | 2019-12-27 | 2020-04-10 | 河北绿洲机械制造集团有限公司 | Foaming gypsum batten forming process and continuous production line |
| CN110978220B (en) * | 2019-12-27 | 2021-09-28 | 河北绿洲机械制造集团有限公司 | Foaming gypsum batten forming process and continuous production line |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C17 | Cessation of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120704 Termination date: 20121031 |