CN204751351U - Production line of self preservation temperature building block - Google Patents
Production line of self preservation temperature building block Download PDFInfo
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- CN204751351U CN204751351U CN201520330953.4U CN201520330953U CN204751351U CN 204751351 U CN204751351 U CN 204751351U CN 201520330953 U CN201520330953 U CN 201520330953U CN 204751351 U CN204751351 U CN 204751351U
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Abstract
The utility model provides a production line of self preservation temperature building block, includes transfer system, block molding system, movement system, fog room, the system of moulding plastics and unloading system, the movement system including place the first bracket used from the layer board and the hollow building block of the conveying of block molding system, will from the layer board of block molding system conveying and hollow building block emission extremely layering conveyer, the whole primary and secondary conveyer used of first bracket, place and follow second bracket that the layer board that shifts out and hollow building block used after the fog room maintenance and put the layer board on the second bracket and building block the layering conveyer of using to transfer system. Adopt this technical scheme, improved the transportation efficiency of hollow building block, and then improved production efficiency, reduce the processing cost, practice thrift area.
Description
Technical field
The utility model relates to the technical field of heat insulation building block processing, particularly a kind of manufacturing line of heat insulation building block.
Background technology
Along with society and expanding economy, modern architecture is more and more favored in heat insulation building block, and described heat insulation building block is normally fill insulant material and making in the through hole of building-block.Described building-block is generally formed by die casting after the materials such as sand, stone and water according to a certain percentage mix and blend.
In prior art, have plenty of and produce building-block separately, then on other building block injection-moulding devices, carry out injection molding, increase the transfer operation of building block, reduce work efficiency.And when transporting the building-block of die casting, because the vibrational power flow of transporter is unreasonable, having had a strong impact on the transport efficacy of building-block, and then having have impact on the work efficiency of heat insulation building block.The deficiencies in the prior art part that Here it is.
Utility model content
Technical problem to be solved in the utility model, is exactly for the deficiency existing for prior art, and provides a kind of manufacturing line of heat insulation building block, can improve the production efficiency of heat insulation building block.
This programme is achieved by the following technical measures: a kind of manufacturing line of heat insulation building block, comprise transfer system, block forming system, movement system, fog room, adapted to injection system and blanking system, described movement system comprises the first bracket placing supporting plate and the building-block transmitted from block forming system, the supporting plate transmitted from block forming system and building-block are disposed to the layering conveyer of the first bracket, overall primary and secondary conveyer, place from the second bracket of the supporting plate shifted out after fog room maintenance and building-block and the layering conveyer the supporting plate the second bracket and building block put to transfer system.
The technical characteristic of this programme also comprises: above-mentioned overall primary and secondary conveyer comprises overall primary and secondary conveyer frame, the overall conveyer frame of described primary and secondary is provided with the actuating device I driving overall primary and secondary conveyer machine frame movement and the sub-conveyer I of entirety for mobile pallet and building-block, in described fog room, is provided with one group of the 3rd bracket adapted with the first bracket, the second carrier structure.
The technical characteristic of this programme also comprises: above-mentioned overall primary and secondary conveyer comprises overall primary and secondary conveyer frame, the overall conveyer frame of described primary and secondary is provided with the actuating device I driving overall primary and secondary conveyer machine frame movement and the sub-conveyer II of entirety for moving the first bracket and the second bracket.
The technical characteristic of this programme also comprises: the sub-conveyer of above-mentioned entirety I comprises overall sub-conveyer frame I, described entirety sub-conveyer frame I is provided with the actuating device II, the 4th bracket and the jacking system I for driving the 4th bracket to move up and down that drive the movement of overall sub-conveyer frame I, the structure of described 4th bracket and the first bracket, the second bracket and the 3rd bracket adapts.
The technical characteristic of this programme also comprises: the sub-conveyer of above-mentioned entirety II comprises overall sub-conveyer frame II, described entirety sub-conveyer frame II is provided with and drives the actuating device III of overall sub-conveyer frame II movement and the actuating device IV for driving the first bracket and the second bracket to move up and down.
The technical characteristic of this programme also comprises: above-mentioned layering conveyer comprises layering conveyer frame, described layering conveyer frame is provided with the jacking system II driving the actuating device V of layering conveyer machine frame movement, layering carriage and drive layering carriage to move up and down.
The technical characteristic of this programme also comprises: above-mentioned actuating device I comprises and is arranged on overall primary and secondary conveyer frame two bottom sides imput shaft I and driven shaft I, described imput shaft I and driven shaft I are all rotatably connected with overall primary and secondary conveyer frame, the two ends of described imput shaft I and driven shaft I are provided with roller I, and described imput shaft I is driven by motor I.
The technical characteristic of this programme also comprises: above-mentioned actuating device II comprises and is arranged on overall sub-conveyer frame I two bottom sides imput shaft II and driven shaft II, all sub-conveyer frame I is rotatably connected with entirety for described imput shaft II and driven shaft II, the two ends of described imput shaft II and driven shaft II are provided with roller II, and described imput shaft II is driven by motor II.
The technical characteristic of this programme also comprises: above-mentioned actuating device III comprises and is arranged on overall sub-conveyer frame II two bottom sides imput shaft III and driven shaft III, all sub-conveyer frame II is rotatably connected with entirety for described imput shaft III and driven shaft III, the two ends of described imput shaft III and driven shaft III are provided with roller III, and described imput shaft III is driven by motor III; Described actuating device IV comprises the air cylinder or hydraulic actuating cylinder that coordinate with the first bracket, the second bracket base.
The technical characteristic of this programme also comprises: above-mentioned actuating device V comprises and is arranged on layering conveyer frame two bottom sides imput shaft IV and driven shaft IV, described imput shaft IV and driven shaft IV are all rotatably connected with layering conveyer frame, the two ends of described imput shaft IV and driven shaft IV are provided with roller IV, and described imput shaft IV is driven by motor IV.
The technical characteristic of this programme also comprises: above-mentioned jacking system I comprises the rotating shaft I driven by motor V, two columns I in the two ends of described rotating shaft I and the sub-conveyer frame I of entirety are rotatably connected, described rotating shaft I is installed with gear I, described gear I coordinates chain I is installed, one end of described chain I is fixedly connected with the 3rd bracket, the other end is fixedly connected with clump weight I, the groove I bearing fit on the two ends of described 3rd bracket and column I;
Described jacking system II comprises the rotating shaft II driven by motor VI, two columns II in the two ends of described rotating shaft II and layering conveyer frame are rotatably connected, described rotating shaft II is installed with gear II, described gear II coordinates chain II is installed, one end of described chain II is fixedly connected with layering carriage, the other end is fixedly connected with clump weight II, the groove II bearing fit on the two ends of described layering carriage and column II.
The technical characteristic of this programme also comprises: be provided with turning device between above-mentioned blanking system and block forming system; Preferably, described turning device comprises the trip shaft be arranged on transfer system, and described trip shaft is provided with turning rack, and described trip shaft is driven by motor VII.Arrange turning rack, supporting plate overturns after being unloaded by heat insulation building block complete for injection moulding by blanking system, and make supporting plate continue to run on transfer system, supporting plate is able to repeated usage.
The beneficial effects of the utility model can be learnt from above-mentioned technical scheme: a kind of manufacturing line of heat insulation building block, comprise transfer system, block forming system, movement system, fog room, adapted to injection system and blanking system, described movement system comprises the first bracket placing supporting plate and the building-block transmitted from block forming system, the supporting plate transmitted from block forming system and building-block are disposed to the layering conveyer of the first bracket, overall primary and secondary conveyer, place from the second bracket of the supporting plate shifted out after fog room maintenance and building-block and the layering conveyer the supporting plate the second bracket and building block put to transfer system.Adopt the technical program, improve the transport efficacy of building-block, can automated production be realized, and then substantially increase the production efficiency of heat insulation building block, cut down finished cost, save floor occupying area.
As can be seen here, the utility model compared with prior art, has substantive distinguishing features and progress, and its beneficial effect implemented also is apparent.
Accompanying drawing explanation
Fig. 1 is the structural representation of embodiment 1;
Fig. 2 is the structural representation of movement system in embodiment 1;
Fig. 3 is first layer conveyer and the first bracket engagement schematic diagram in embodiment 1;
Fig. 4 be in embodiment 1 overall primary and secondary conveyer and the first bracket coordinate schematic diagram;
Fig. 5 is the structural representation of first layer conveyer;
Fig. 6 is the structural representation of overall primary and secondary conveyer;
Fig. 7 is the local structure schematic diagram at turning device place.
In figure: 1-transfer system, 2-block forming system, 3-movement system, 4-fog room, 5-adapted to injection system, 6-blanking system, 7-turning device, 8-first layer conveyer, 8.1-first layer conveyer frame, 8.2-imput shaft IV, 8.3-roller IV, 8.4-column II, 8.4.1-groove II, 8.5-layering carriage, 8.6-breeds block, 8.7-rotating shaft II, 8.8-gear II, 8.9-chain II, 8.10-motor VI, 8.11-drop-gear box, 8.12-gear, 8.13-chain, 8.14-gear, 8.15-motor IV, 8.16-retarder, 8.17-gear, 8.18-gear, 8.19-chain, 8.20-driven shaft IV, 8.21-control box, 9-first bracket, 10-second layering conveyer, 10.1-second layering conveyer frame, 10.2-imput shaft IV, 10.3-roller IV, 10.4-column II, 10.4.1-groove II, 10.5-layering carriage, 10.6-breeds block II, 10.7-rotating shaft II, 10.8-gear II, 10.9-chain II, 10.10-motor VI, 10.11-drop-gear box, 10.12-gear, 10.13-chain, 10.14-gear, 10.15-motor IV, 10.16-retarder, 10.17-gear, 10.18-gear, 10.19-chain, 10.20-driven shaft IV, 10.21-control box, 11-second bracket, the overall primary and secondary conveyer of 13-, 13.1-overall primary and secondary conveyer frame, 13.1.1-groove III, 13.2-imput shaft I, 13.3-roller I, 13.4-motor I, 13.5-retarder, 13.6-gear, 13.7-gear, 13.8-driven shaft I, the overall sub-conveyer frame I of 13.9-, 13.10-imput shaft II, 13.11-roller II, 13.12-column I, 13.12.1-groove I, 13.13-the 3rd bracket, 13.14-clump weight I, 13.15-rotating shaft I, 13.16-gear I, 13.17-gear, 13.18-gear, 13.19-chain, 13.20-retarder, 13.21-motor V, 13.22-gear, 13.23-gear, 13.24-chain, 13.25-retarder, 13.26-motor II, 13.27-driven shaft II, 13.28-control box, 13.29-chain I, 14-trip shaft, 15-turning rack, 16-motor VII, 17-retarder, 18-supporting plate, 19-building-block, the overall sub-conveyer frame II of 20.1-, 20.2-imput shaft III, 20.3-driven shaft III, 20.4-roller III, 20.5-motor III, 20.6-gear, 20.7-gear, 20.8-chain, 20.9-retarder, 20.10-air cylinder.
Detailed description of the invention
For the technical characterstic of this programme can be clearly demonstrated, below by detailed description of the invention, and in conjunction with its accompanying drawing, this programme is set forth.
embodiment 1
A manufacturing line for heat insulation building block, comprises transfer system 1, block forming system 2, movement system 3, fog room 4, adapted to injection system 5 and blanking system 6.
Described transfer system 1 is common driving roller device; Described block forming system 2 comprises proportioner and block machine.
Described movement system 3 comprises the first bracket 9, the supporting plate 18 on transfer system 1 and building block 19 is disposed to the layering conveyer of the first bracket 9, being first layer conveyer 8, overall primary and secondary conveyer 13, second bracket 11 and the supporting plate 18 on the second bracket 11 and building block 19 are put to the layering conveyer on transfer system 1 in the present embodiment, is the second layering conveyer 10 in the present embodiment.
Described first layer conveyer 8 comprises first layer conveyer frame 8.1, described first layer conveyer frame 8.1 is provided with the jacking system II driving the actuating device V of first layer conveyer frame 8.1 movement, layering carriage 8.5 and drive layering carriage 8.5 to move up and down.
Described actuating device V comprises and is arranged on first layer conveyer frame 8.1 two bottom sides imput shaft IV 8.2 and driven shaft IV 8.20, described imput shaft IV 8.2 and driven shaft IV 8.20 are all rotatably connected with first layer conveyer frame 8.1, the two ends of described imput shaft IV 8.2 and driven shaft IV 8.20 are provided with roller IV 8.3, and described imput shaft IV 8.2 is driven by motor IV 8.15.
Described jacking system II comprises the rotating shaft II 8.7 driven by motor VI 8.10, two columns II 8.4 in the two ends of described rotating shaft II 8.7 and first layer conveyer frame 8.1 are rotatably connected, described rotating shaft II 8.7 is installed with gear II 8.8, described gear II 8.8 coordinates chain II 8.9 is installed, one end of described chain II 8.9 is fixedly connected with layering carriage 8.5, the other end is fixedly connected with clump weight II 8.6, the groove II 8.4.1 bearing fit on the two ends of described layering carriage 8.5 and column II 8.4.
Described second layering conveyer 10 comprises the second layering conveyer frame 10.1, the jacking system II described first layer conveyer frame 10.1 being provided with the actuating device V of driving second layering conveyer frame 10.1 movement, layering carriage 10.5 and driving layering carriage 10.5 to move up and down.
Described actuating device V comprises and is arranged on the second layering conveyer frame 10.1 two bottom sides imput shaft IV 10.2 and driven shaft IV 10.20, described imput shaft IV 10.2 and driven shaft IV 10.20 are all rotatably connected with the second layering conveyer frame 10.1, the two ends of described imput shaft IV 10.2 and driven shaft IV 10.20 are provided with roller IV 10.3, and described imput shaft IV 10.2 is driven by motor IV 10.15.
Described jacking system II comprises the rotating shaft II 10.7 driven by motor VI 10.10, two columns II 10.4 in the two ends of described rotating shaft II 10.7 and the second layering conveyer frame 10.1 are rotatably connected, described rotating shaft II 10.7 is installed with gear II 10.8, described gear II 10.8 coordinates chain II 10.9 is installed, one end of described chain II 10.9 is fixedly connected with layering carriage 10.5, the other end is fixedly connected with clump weight II 10.6, the groove II 8.4.1 bearing fit on the two ends of described layering carriage 10.5 and column II 10.4.
Described overall primary and secondary conveyer 13 comprises overall primary and secondary conveyer frame 13.1, the overall conveyer frame 13.1 of described primary and secondary is provided with the actuating device I and moveable overall sub-conveyer I that drive the movement of overall primary and secondary conveyer frame 13.1, the moving direction of the sub-conveyer of described entirety I is vertical with the moving direction of overall primary and secondary conveyer frame 13.1, and the direction along groove III 13.1.1 is moved.Described actuating device I comprises and is arranged on overall primary and secondary conveyer frame 13.1 two bottom sides imput shaft 13.2 I and driven shaft 13.8 I, described imput shaft 13.2 I and driven shaft 13.8 I are all rotatably connected with overall primary and secondary conveyer frame 13.1, the two ends of described imput shaft I 13.2 and driven shaft I 13.8 are provided with roller I 13.3, and described imput shaft I 13.2 is driven by motor I 13.4.
The sub-conveyer of described entirety I comprises overall sub-conveyer frame I 13.9, described entirety sub-conveyer frame I 13.9 is provided with the actuating device II, the 3rd bracket 13.13 and the jacking system I for driving the 3rd bracket 13.13 to move up and down that drive the movement of overall sub-conveyer frame I 13.9, the structure of described 3rd bracket 13.13 and the first bracket 9, second bracket 11 adapts.
Described actuating device II comprises and is arranged on overall sub-conveyer frame I 13.9 two bottom sides imput shaft II 13.10 and driven shaft II 13.27, all sub-conveyer frame I 13.9 is rotatably connected with entirety for described imput shaft II 13.10 and driven shaft II 13.27, the two ends of described imput shaft II 13.10 and driven shaft II 13.27 are provided with roller II 13.11, and described imput shaft II 13.10 is driven by motor II 13.26.
Described jacking system I comprises the rotating shaft I 13.15 driven by motor V 13.21, two columns I 13.12 in the two ends of described rotating shaft I 13.15 and the sub-conveyer frame I 13.9 of entirety are rotatably connected, described rotating shaft I 13.15 is installed with two gears I 13.16, described gear I 13.16 coordinates chain I 13.29 is installed, one end of described chain I 13.29 is fixedly connected with the 3rd bracket 13.13, the other end is fixedly connected with clump weight I 13.14, groove I 13.12.1 bearing fit on the two ends of described 3rd bracket 13.13 and column I 13.12.
Be provided with one group of the 4th bracket (not shown) adapted with the 3rd bracket 13.13 structure in described fog room 4 and move with overall primary and secondary conveyer 13 the track (not shown) coordinated, supporting plate 18 on first bracket 9 and building-block 19 are delivered on the 4th bracket and carry out maintenance by described overall primary and secondary conveyer, in the process, the first bracket 9 does not move; Building-block good for maintenance in fog room can move to the second bracket 11 from the 4th bracket together with the supporting plate 18 below building-block 19 by described overall primary and secondary conveyer 13.
Turning device 7 is provided with between described blanking system 6 and block forming system 2.Unloaded by heat insulation building block on transfer system by blanking system, supporting plate continues to run on transfer system, and described turning device 7, for being overturn by supporting plate, makes supporting plate reuse.
Described turning device 7 comprises the trip shaft 14 be arranged on transfer system 1, and described trip shaft 14 is provided with turning rack 15, and described trip shaft 14 is driven by motor 16.
Heat insulation building block is produced and is comprised the following steps:
A places supporting plate 18 on transfer system 1, when supporting plate 18 moves to the below of block forming system 2, makes building-block 19 by block forming system 2 on supporting plate 18;
Supporting plate 18 and building-block 19 are transported to fog room 4 by movement system 3 by B, are then transported on transfer system 1 by movement system 3 by supporting plate 18 and the good building-block 19 of maintenance, specific as follows: the supporting plate 18 below the building-block 19 that block forming system 2 is made by described first layer conveyer 8 and building-block 19 is disposed on the first bracket 9 successively, after first bracket 9 is piled, building-block 19 on first bracket 9 and supporting plate 18 are transported on the 4th bracket in fog room 4 by overall primary and secondary conveyer 13, and the first bracket 9 does not move, building-block 19 good for maintenance on 4th bracket is also transported on the second bracket 11 together with the supporting plate 18 below it by overall primary and secondary conveyer 13, supporting plate 18 on second bracket 11 and building-block 19 are placed on transfer system 1 by the second layering conveyer 10 successively, supporting plate 18 on second bracket 11 and building-block 19 are all placed into after on transfer system, overall primary and secondary conveyer 13 is transported on the second empty bracket 11 at building-block 19 from the 4th bracket, maintenance is good together with the supporting plate 18 below it, building-block 19 and supporting plate 18 are transported to adapted to injection system 5 place and carry out injection molding under the transmission of transfer system 1, this movement system is adopted only to use an overall primary and secondary conveyer and two layering conveyers just can complete transfer operation, improve transport efficacy, cut down finished cost, save floor occupying area, and the 3rd bracket 13.13 is set on overall primary and secondary conveyer, first bracket 9 and the second bracket 11 need not be transported, the transhipment number of times of bracket can be greatly reduced, improve transport efficacy.
C, when supporting plate 18 and the good building-block 19 of maintenance move to injection moulding apparatus, forms heat insulation building block by injection moulding apparatus injection moulding warm material in the through hole of building-block 19;
Heat insulation building block is unloaded from transfer system by blanking system by D, and supporting plate 18 continues to run on transfer system 1, when supporting plate 18 moves to block forming system 2 place again, makes building-block 19 by block forming system 2 on supporting plate 18; As preferably, after heat insulation building block unloads, described supporting plate 18 is overturn by the panel turnover device 7 be arranged on transfer system 1.
E repeats above-mentioned B-E step.
Each system can be run under the manipulation of staff, also operation that can be orderly under control of the control system, described control system can after each system be determined, motion according to each system designs, after each system motion is determined, control system does not relate to utility model point, does not repeat them here.
embodiment 2
A kind of manufacturing line of heat insulation building block, comprise transfer system 1, block forming system 2, movement system 3, fog room 4, adapted to injection system 5 and blanking system 6, the space of the first bracket 9 and the second bracket 11 is provided with in described fog room 4, preferably, the vacant bracket of replaceable first bracket or the second bracket is deposited in described fog room 4; Described movement system comprises the supporting plate and the first bracket 9 of building-block, the first layer conveyer 8 supporting plate transmitted from block forming system and building-block being disposed to the first bracket, overall primary and secondary conveyer 13, the second bracket 11 placing the supporting plate 18 and building-block 19 shifted out after fog room 4 maintenance and the second layering conveyer 10 supporting plate 18 the second bracket 11 and building-block 19 put to transfer system 1 placing and transmit from block forming system.
Described overall primary and secondary conveyer 13 comprises overall primary and secondary conveyer frame 13.1, the overall conveyer frame 13.1 of described primary and secondary is provided with the actuating device I driving the movement of overall primary and secondary conveyer frame 13.1 and the sub-conveyer II 20 of entirety for mobile first bracket 9.
The sub-conveyer of described entirety II 20 comprises overall sub-conveyer frame II 20.1, described entirety sub-conveyer frame II 20.1 is provided with and drives the actuating device III of overall sub-conveyer frame II 20.1 movement and the actuating device IV for driving the first bracket 9 and the second bracket 11 to move up and down, described actuating device IV comprises and the air cylinder coordinated bottom the first bracket 9, second bracket 11 or hydraulic actuating cylinder, in the present embodiment, air cylinder 20.10 is preferably.
Heat insulation building block is produced and is comprised the following steps:
A places supporting plate 18 on transfer system 1, when supporting plate 18 moves to the below of block forming system 2, makes building-block 19 by block forming system 2 on supporting plate 18;
First bracket 9, supporting plate 18 and building-block 19 are transported to fog room 4 by movement system 3 by B, are then transported on transfer system 1 by movement system 3 by supporting plate 18 and the good building-block 19 of maintenance; Specific as follows: the supporting plate 18 below the building-block 19 that block forming system 2 is made by described first layer conveyer 8 and building-block 19 is disposed on the first bracket 9, after first bracket 9 is piled, first bracket 9 is transported in fog room 4 by overall primary and secondary conveyer 13, in the process, the building-block 19 that block forming system 2 is made by first layer conveyer is placed on another first bracket 9, and overall primary and secondary conveyer transports a vacant bracket from fog room and is placed on the first cradle be moved away; Overall primary and secondary conveyer 13 is also by second carriage-carried to the second layering conveyer work place of building-block good for indoor for maintenance maintenance together with building-block place, supporting plate 18 on second bracket 11 and building-block 19 are placed on transfer system 1 by the second layering conveyer 10 successively, building-block 19 and supporting plate 18 are transported to adapted to injection system 5 place and carry out injection molding under the transmission of transfer system 1, the second bracket vacated is delivered in fog room 4 as vacant bracket by overall primary and secondary conveyer simultaneously, in this transport process, the first bracket and the second bracket all move.
C, when supporting plate 18 and the good building-block 19 of maintenance move to injection moulding apparatus, forms heat insulation building block by injection moulding apparatus injection moulding warm material in the through hole of building-block 19;
Heat insulation building block is unloaded from transfer system by blanking system by D, and supporting plate 18 continues to run on transfer system 1, when supporting plate 18 moves to block forming system 2 place again, makes building-block 19 by block forming system 2 on supporting plate 18; As preferably, after heat insulation building block unloads, described supporting plate 18 is overturn by the panel turnover device 7 be arranged on transfer system 1.
E repeats above-mentioned B-E step.
Can pass through without the technical characteristic described in the utility model or adopt existing techniques in realizing; do not repeat them here; certainly; above-mentioned explanation is not to restriction of the present utility model; the utility model is also not limited in above-mentioned embodiment; the change that those of ordinary skill in the art makes in essential scope of the present utility model, remodeling, interpolation or replacement, also should belong to protection domain of the present utility model.
Claims (12)
1. the manufacturing line of a heat insulation building block, comprise transfer system, block forming system, movement system, fog room, adapted to injection system and blanking system, it is characterized in that: described movement system comprises the first bracket placing supporting plate and the building-block transmitted from block forming system, the supporting plate transmitted from block forming system and building-block are disposed to the layering conveyer of the first bracket, overall primary and secondary conveyer, place from the second bracket of the supporting plate shifted out after fog room maintenance and building-block and the layering conveyer the supporting plate the second bracket and building block put to transfer system.
2. the manufacturing line of heat insulation building block according to claim 1, it is characterized in that: described overall primary and secondary conveyer comprises overall primary and secondary conveyer frame, the overall conveyer frame of described primary and secondary is provided with the actuating device I driving overall primary and secondary conveyer machine frame movement and the sub-conveyer I of entirety for mobile pallet and building-block, in described fog room, is provided with one group of the 3rd bracket adapted with the first bracket, the second carrier structure.
3. the manufacturing line of heat insulation building block according to claim 1, it is characterized in that: described overall primary and secondary conveyer comprises overall primary and secondary conveyer frame, the overall conveyer frame of described primary and secondary being provided with the actuating device I driving overall primary and secondary conveyer machine frame movement and the sub-conveyer II of entirety for moving the first bracket and the second bracket.
4. the manufacturing line of heat insulation building block according to claim 2, it is characterized in that: the sub-conveyer of described entirety I comprises overall sub-conveyer frame I, described entirety sub-conveyer frame I is provided with the actuating device II, the 4th bracket and the jacking system I for driving the 4th bracket to move up and down that drive the movement of overall sub-conveyer frame I, the structure of described 4th bracket and the first bracket, the second bracket and the 3rd bracket adapts.
5. the manufacturing line of heat insulation building block according to claim 3, it is characterized in that: the sub-conveyer of described entirety II comprises overall sub-conveyer frame II, described entirety sub-conveyer frame II is provided with and drives the actuating device III of overall sub-conveyer frame II movement and the actuating device IV for driving the first bracket and the second bracket to move up and down.
6. the manufacturing line of the heat insulation building block according to claim 1 or 2 or 3 or 4 or 5, it is characterized in that: described layering conveyer comprises layering conveyer frame, described layering conveyer frame is provided with the jacking system II driving the actuating device V of layering conveyer machine frame movement, layering carriage and drive layering carriage to move up and down.
7. the manufacturing line of the heat insulation building block according to Claims 2 or 3, it is characterized in that: described actuating device I comprises and is arranged on overall primary and secondary conveyer frame two bottom sides imput shaft I and driven shaft I, described imput shaft I and driven shaft I are all rotatably connected with overall primary and secondary conveyer frame, the two ends of described imput shaft I and driven shaft I are provided with roller I, and described imput shaft I is driven by motor I.
8. the manufacturing line of heat insulation building block according to claim 4, it is characterized in that: described actuating device II comprises and is arranged on overall sub-conveyer frame I two bottom sides imput shaft II and driven shaft II, all sub-conveyer frame I is rotatably connected with entirety for described imput shaft II and driven shaft II, the two ends of described imput shaft II and driven shaft II are provided with roller II, and described imput shaft II is driven by motor II.
9. the manufacturing line of heat insulation building block according to claim 5, it is characterized in that: described actuating device III comprises and is arranged on overall sub-conveyer frame II two bottom sides imput shaft III and driven shaft III, all sub-conveyer frame II is rotatably connected with entirety for described imput shaft III and driven shaft III, the two ends of described imput shaft III and driven shaft III are provided with roller III, and described imput shaft III is driven by motor III; Described actuating device IV comprises the air cylinder or hydraulic actuating cylinder that coordinate with the first bracket, the second bracket base.
10. the manufacturing line of heat insulation building block according to claim 6, it is characterized in that: described actuating device V comprises and is arranged on layering conveyer frame two bottom sides imput shaft IV and driven shaft IV, described imput shaft IV and driven shaft IV are all rotatably connected with layering conveyer frame, the two ends of described imput shaft IV and driven shaft IV are provided with roller IV, and described imput shaft IV is driven by motor IV.
The manufacturing line of 11. heat insulation building blocks according to claim 6, it is characterized in that: described jacking system I comprises the rotating shaft I driven by motor V, two columns I in the two ends of described rotating shaft I and the sub-conveyer frame I of entirety are rotatably connected, described rotating shaft I is installed with gear I, described gear I coordinates chain I is installed, one end of described chain I is fixedly connected with the 3rd bracket, the other end is fixedly connected with clump weight I, the groove I bearing fit on the two ends of described 3rd bracket and column I;
Preferably, described jacking system II comprises the rotating shaft II driven by motor VI, two columns II in the two ends of described rotating shaft II and layering conveyer frame are rotatably connected, described rotating shaft II is installed with gear II, described gear II coordinates chain II is installed, one end of described chain II is fixedly connected with layering carriage, the other end is fixedly connected with clump weight II, the groove II bearing fit on the two ends of described layering carriage and column II.
The manufacturing line of 12. heat insulation building blocks according to claim 1, is characterized in that: be provided with turning device between described blanking system and block forming system; Preferably, described turning device comprises the trip shaft be arranged on transfer system, and described trip shaft is provided with turning rack, and described trip shaft is driven by motor VII.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520330953.4U CN204751351U (en) | 2015-05-21 | 2015-05-21 | Production line of self preservation temperature building block |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520330953.4U CN204751351U (en) | 2015-05-21 | 2015-05-21 | Production line of self preservation temperature building block |
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| Publication Number | Publication Date |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104986531A (en) * | 2015-05-21 | 2015-10-21 | 山东汇星科技开发有限公司 | Production line for self-thermal insulation building blocks |
| CN106276266A (en) * | 2016-11-05 | 2017-01-04 | 黄河科技学院 | A kind of intelligent heat insulation building block ferry-boat collects and palletizing apparatus |
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2015
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104986531A (en) * | 2015-05-21 | 2015-10-21 | 山东汇星科技开发有限公司 | Production line for self-thermal insulation building blocks |
| CN106276266A (en) * | 2016-11-05 | 2017-01-04 | 黄河科技学院 | A kind of intelligent heat insulation building block ferry-boat collects and palletizing apparatus |
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Effective date of registration: 20210107 Address after: 257000 No.150 Fenhe Road, Dongying District, Dongying City, Shandong Province Patentee after: SHANDONG HUIXING TECHNOLOGY DEVELOPMENT Co.,Ltd. Patentee after: SHANDONG CHUANGWEI EXTERNAL WALL INSULATION MATERIAL GROUP Co.,Ltd. Address before: No.150 Fenhe Road, Dongying District, Dongying City, Shandong Province 257091 Patentee before: SHANDONG HUIXING TECHNOLOGY DEVELOPMENT Co.,Ltd. |
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