Self preservation temperature building block transports grinding device
Technical Field
The utility model relates to a grinding device especially relates to a grinding device is transported to self preservation temperature building block.
Background
The production process of the self-insulation building block comprises the steps of loading a mold, injecting materials, shaping, demolding, cutting, forming, drying and the like, in the actual production, after a green brick molded by casting is released from the mold, the green brick needs to be cut into small building blocks, and because the green brick is not completely dried after the foaming process is finished, the materials are easily attached to the two sides of the insulation board after the green brick is dried, so that the cut self-insulation building blocks are adhered and are not easy to separate, and the attractiveness of the product is influenced; in addition, after the self-insulation building blocks are dried, long stacking is carried out, and a large amount of manpower and material resources are wasted due to manual edging during edging treatment.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a self-heat-preservation building block transferring and grinding device, which is characterized in that a first conveying chain and an edge grinding device are arranged, so that edge grinding wheels can realize edge grinding and waste material cleaning in the self-heat-preservation building block transmission process; the self-insulation building blocks stacked in stacks are enabled to realize layered transferring and edging through the arrangement of the second conveying chain and the transferring mechanism.
Grinding device is transported to self preservation temperature building block, including first transfer chain, set up the edging device on the first transfer chain, the edging device includes first clean case, first main shaft and edging wheel, first clean case both ends set up the opening that supplies self preservation temperature building block to pass through, first main shaft one end is connected with drive arrangement, and the perpendicular first conveyer belt trend of the other end runs through first clean case, the fixed edging wheel in first main shaft both sides in the first clean case, edging wheel interval suits with self preservation temperature building block width.
The driving device can be set as a motor, the motor drives the first main shaft to rotate, and then the edge grinding wheel is driven to rotate to clean the adhesion on the two sides of the self-insulation building block.
The conveying mechanism comprises a driving cylinder, a first side plate, a second side plate, a first fixing seat and a second fixing seat, the first fixing seat is fixed below the tail end of the second conveying chain, the second fixing seat is fixed below the head end of the first conveying chain, the second side plate is transversely fixed on one side of the first side plate, the bottom end of the first side plate is connected with the first fixing seat in a rotating mode, a telescopic rod of the driving cylinder is connected with the second side plate in a rotating mode, and a cylinder body of the driving cylinder is connected with the second fixing seat in a rotating mode.
The stacked self-insulation building blocks can be integrally placed on the second conveying chain through the gantry crane and conveyed to the transfer mechanism through the second conveying chain, the telescopic rod of the driving cylinder is pushed out, the first side plate and the second side plate rotate towards the second conveying chain around the first fixing seat until the first side plate is parallel and level with the lower end of the second conveying chain, the second side plate is in a vertical state at the moment, after the self-insulation building blocks reach the upper portion of the first side plate, the telescopic rod of the driving cylinder is retracted, the first side plate and the second side plate rotate towards the first conveying chain around the first fixing seat, the self-insulation building blocks are turned to the second side plate through the first side plate, when the second side plate is parallel and level with the lower end of the first conveying chain, the self-insulation building blocks are transferred to the first conveying chain through the second side plate, and.
The self-insulation building block cleaning device comprises a second main shaft and a second cleaning box arranged on one side of the first cleaning box, wherein openings for self-insulation building blocks to pass through are formed in two ends of the second cleaning box, one end of the second main shaft is connected with a driving device, the other end of the second main shaft penetrates through the second cleaning box in a direction perpendicular to the direction of a first conveying belt, a rolling brush is fixed on the second main shaft in the second cleaning box, and the distance between the rolling brush and the first conveying chain is matched with the height of the self-insulation building blocks.
The driving device can be set as a motor, and the motor drives the second main shaft to rotate, so as to drive the rolling brush to rotate to clean floating dust on the upper surface of the self-insulation building block.
And the top parts of the first cleaning box and the second cleaning box are provided with dust removing openings. The dust removal port is used for being connected with dust removal equipment and absorbing dust generated in the grinding and rolling process.
The utility model has the advantages that: the edge grinding wheel is used for realizing edge grinding and waste material cleaning in the transmission process of the self-insulation building block by arranging the first conveying chain and the edge grinding device; the self-insulation building blocks stacked in stacks are enabled to realize layered transferring and edging through the arrangement of the second conveying chain and the transferring mechanism.
Drawings
FIG. 1 is a front view of a structure of the embodiment;
FIG. 2 is a top view of a structure according to an embodiment;
FIG. 3 is a schematic view of the cross-sectional structure A-A of FIG. 1;
FIG. 4 is a schematic cross-sectional view B-B of FIG. 1;
FIG. 5 is a schematic view of the structure of the portion A in FIG. 1;
FIG. 6 is a schematic structural view of the portion A in FIG. 1 in a use state;
in the figure: 1. a first conveyor chain; 2. a first cleaning tank; 3. a first main shaft; 4. grinding an edge wheel; 5. a second conveyor chain; 6. a drive cylinder; 7. a first side plate; 8. a second side plate; 9. a first fixed seat; 10. a second fixed seat; 11. a second cleaning tank; 12. a second main shaft; 13. rolling and brushing; 14. a dust removal port; 15. self-heat preservation dicing; 16. an electric motor.
Detailed Description
The present invention will be further explained with reference to the accompanying drawings.
As shown in fig. 1-6, the self-insulation building block transferring and grinding device of the present invention comprises a first conveying chain 1, a second conveying chain 5 and a transferring mechanism, wherein an edge grinding device is arranged on the first conveying chain 1, the edge grinding device comprises a first cleaning box 2, a first main shaft 3 and edge grinding wheels 4, openings for passing self-insulation building blocks are arranged at two ends of the first cleaning box 2, one end of the first main shaft 3 is connected with a driving device, the other end of the first main shaft runs through the first cleaning box 2 in a direction perpendicular to the direction of the first conveying belt, the edge grinding wheels 4 are fixed at two sides of the first main shaft 3 in the first cleaning box 2, and the distance between the edge grinding wheels 4 is adapted to the width of the self-insulation building blocks; the first conveying chain 1 is connected with the second conveying chain 5 through a transfer mechanism, the transfer mechanism comprises a driving cylinder 6, a first side plate 7, a second side plate 8, a first fixed seat 9 and a second fixed seat 10, the first fixed seat 9 is fixed below the tail end of the second conveying chain 5, the second fixed seat 10 is fixed below the head end of the first conveying chain 1, the second side plate 8 is transversely fixed on one side of the first side plate 7, the bottom end of the first side plate 7 is rotatably connected with the first fixed seat 9, the telescopic rod of the driving cylinder is rotatably connected with the second side plate 8, and the cylinder body of the driving cylinder is rotatably connected with the second fixed seat 10; the self-insulation building block cleaning device is characterized by further comprising a second cleaning box 11 and a second main shaft 12, wherein openings for self-insulation building blocks to pass through are formed in two ends of the second cleaning box 11, one end of the second main shaft 12 is connected with the driving device, the other end of the second main shaft 12 penetrates through the second cleaning box 11 in a direction perpendicular to the direction of the first conveying belt, a rolling brush 13 is fixed on the second main shaft 12 in the second cleaning box 11, and the distance between the rolling brush 13 and the first conveying chain 1 is matched with the height of the self-insulation building blocks; dust removal openings 14 are formed in the tops of the first cleaning box 2 and the second cleaning box 11.
Specifically, the driving device can be set as a motor 16, the motor 16 drives the first main shaft 3, and further drives the edge grinding wheel 4 to rotate to clean adhesion on two sides of the self-heat-preservation building block 15; the motor 16 drives the second main shaft 12 to rotate, and further drives the rolling brush 13 to rotate to clean floating dust on the upper surface of the self-insulation building block 15; when the self-insulation building block stacking machine works, stacked self-insulation building blocks 15 are placed on a second conveying chain 5 and conveyed to a transfer mechanism through the second conveying chain 5, telescopic rods of a driving cylinder are pushed out, a first side plate 7 and a second side plate 8 rotate to the second conveying chain 5 side around a first fixed seat 9 until the first side plate 7 is flush with the lower end of the second conveying chain 5, the second side plate 8 is in a vertical state at the moment, after the self-insulation building blocks 15 reach the upper part of the first side plate 7, telescopic rods of the driving cylinder are retracted, the first side plate 7 and the second side plate 8 rotate to the first conveying chain 1 side around the first fixed seat 9, the self-insulation building blocks are turned over to the second side plate 8 from the first side plate 7, when the second side plate 8 is flush with the lower end of the first conveying chain 1, the self-insulation building blocks 15 are transferred to the first conveying chain 1 through circulation, layered transfer of the self-insulation building blocks is achieved, absorbing dust generated in the grinding and rolling process.
The utility model discloses a use as follows: during operation, stacked self-insulation building blocks are placed on the second conveying chain, the single-layer self-insulation building blocks are conveyed to the first conveying chain through the conveying mechanism, and then adhesion grinding of the two sides of the self-insulation building blocks and cleaning of floating dust on the upper surface are completed sequentially through the first cleaning box and the second cleaning box.
Of course, the above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the embodiments of the present invention. The present invention is not limited to the above examples, and the technical field of the present invention is equivalent to the changes and improvements made in the actual range of the present invention, which should be attributed to the patent coverage of the present invention.