CN210161390U - Self preservation temperature building block production line based on add air parcel production line transformation - Google Patents

Abstract

The utility model relates to a it relates to a self preservation temperature building block production line based on air entrainment piece production line is reformed transform. The utility model has the advantages that the original air-entrapping block mould box can be used for producing self-heat-preservation building blocks by arranging the heat-preservation plates and the fixing frames; the pouring bin is arranged to enable the stirring materials to be uniformly dropped, so that the impact of the stirring materials on the heat insulation plate is reduced; through setting up the grinding device of transporting, make the self preservation temperature building block after the evaporation to dryness shaping realize edging and waste material clearance in the transmission process. The utility model discloses set up between agitator tank and mould case and pour the storehouse, pour the storehouse including the storehouse body and door controlling means, the storehouse body is hourglass hopper-shaped, the top is equipped with the feed inlet, the feed inlet corresponds with the agitator tank discharge gate, the feed inlet bottom sets up the bar discharge gate; the bin gate control device comprises a door plate and a driving piece, the door plate is matched with the strip-shaped discharge hole, and the driving piece is used for driving the door plate and controlling the opening and closing of the door plate and the strip-shaped discharge hole; the mould box also comprises heat insulation plates and a fixing frame, wherein the heat insulation plates are arranged in the box body at intervals; the fixing frame is used for fixing the heat preservation plate.

Description

Self preservation temperature building block production line based on add air parcel production line transformation

Technical Field

The utility model relates to a self preservation temperature building block production line especially relates to a self preservation temperature building block production line based on air entrainment piece production line is reformed transform.

Background

The production process of the aerated block comprises the steps of dropping the stirred material into a mold box through a stirring tank, carrying out primary shaping through the mold box, then demoulding, cutting the incompletely dried blank into small blocks through a cutting device, and finally drying the small blocks by a still kettle to dryness to form a finished product.

At present, aerated block production enterprises need to transform to produce self-insulation building blocks based on development requirements, and if a production line is reconfigured, a large amount of manpower and material resources need to be wasted, so that a design transformation is urgently needed, and the original aerated block production line is suitable for production of the self-insulation building blocks.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a self-heat-preservation building block production line based on the reformation of an air-entraining block production line, which can lead an original air-entraining block mould box to be used for producing the self-heat-preservation building block by arranging a heat preservation plate and a fixing frame; the pouring bin is arranged to enable the stirring materials to be uniformly dropped, so that the impact of the stirring materials on the heat insulation plate is reduced; through setting up the grinding device of transporting, make the self preservation temperature building block after the evaporation to dryness shaping realize edging and waste material clearance in the transmission process.

The utility model discloses a self preservation temperature building block production line based on aerated block production line transformation, including agitator tank, mould box, cutting device, evaporate the pressure cauldron, stirring material falls into the mould box through the agitator tank, the mould box is used for stirring the material and becomes the mould, including the box, the box top is equipped with the opening, and box one side sets up the closing plate of being connected with the box, cutting device is used for the adobe to cut into pieces; the autoclave is used for molding green bricks cut into blocks, a pouring bin is arranged between the stirring tank and the mould box and comprises a bin body and a bin gate control device, the bin body is funnel-shaped, the top of the bin body is provided with a feed inlet, the feed inlet corresponds to a discharge hole of the stirring tank, and the bottom of the feed inlet is provided with a strip-shaped discharge hole; the bin gate control device comprises a door plate and a driving piece, the door plate is matched with the strip-shaped discharge hole, and the driving piece is used for driving the door plate and controlling the opening and closing of the door plate and the strip-shaped discharge hole; the mould box also comprises heat insulation plates and a fixing frame, wherein the heat insulation plates are arranged in the box body at intervals; the fixing frame is used for fixing the heat preservation plate.

Pour the storehouse setting and suit with the width of mould case between the mould case of agitator tank and self preservation temperature building block, the length of bar discharge gate, the mould incasement interval sets up the heated board parallel with the long limit direction of mould case, and the stirring material falls the feed inlet on the storehouse body through the agitator tank, falls the storehouse body after full, and driving piece control door plant separates with the bar discharge gate, and the material evenly falls into the mould incasement of below through the bar discharge gate, and the stirring material is less to the heated board impact, heated board non-deformable, storehouse external surface sets up the strengthening rib for consolidate the storehouse body.

The driving piece is a first air cylinder, a cylinder body of the first air cylinder is arranged on the bin body on one side of the long side end of the strip-shaped discharge port, and a supporting plate is fixed at the tail end of a telescopic rod of the first air cylinder and is fixedly connected with the bottom surface of the door plate.

After the first cylinder telescopic link is withdrawn, the door plate is abutted with the strip-shaped discharge port to seal the strip-shaped discharge port, and when the first cylinder telescopic link extends out, the door plate is separated from the strip-shaped discharge port, and the stirring material falls into the mold box at the lower part from the strip-shaped discharge port.

The splash-proof device comprises a baffle and a second cylinder, wherein the baffle is hinged to the short side end of the strip-shaped discharge port, the second cylinder body is hinged to the bin body, and a telescopic rod of the second cylinder is hinged to the baffle.

During the blanking, the second cylinder telescopic link is released, and the baffle rotates to bar discharge gate minor face, prevents that the stirring material from being withdrawed by bar discharge gate minor face end spill, and the blanking finishes the back second cylinder telescopic link.

The fixing frame comprises a cross arm, an isolation column and a fastening mechanism, and two ends of the cross arm are respectively abutted against the side edge of the box body and the sealing plate; the isolation columns are arranged at intervals along the long side direction of the cross arm, and the distance between the isolation columns is adaptive to the thickness of the heat preservation plate; and the fastening mechanism is used for fastening the cross arm.

The fastening mechanism comprises an outward flange, a screw rod and a fastening nut, and the outward flange is respectively arranged at the top ends of the box body and the sealing plate; the screw rod vertically penetrates through the cross arm, and a blocking rod bent towards one side of the outward flanging is fixed at the bottom of the screw rod; the fastening nut is sleeved with the screw rod, and the crank is fixed on one side of the fastening nut.

When the cross arm is fastened, the fastening nut is rotated through the crank handle, so that the screw rod moves upwards to drive the blocking rod to be abutted against the outward flanging, and the cross arm is fastened.

The device also comprises a pressing plate and a through shaft, wherein the pressing plate is arranged between two adjacent isolation columns; the through shaft vertically penetrates through the cross arm, the pressing plate is fixed at the bottom of the through shaft, and the stop head is fixed at the top of the through shaft.

The clamp plate accessible runs through the axle and reciprocates along vertical direction, and the clamp plate bottom compresses tightly the heated board under the dead weight effect.

The utility model discloses a self preservation temperature building block, including still transporting grinding device, transport grinding device includes first transfer chain, sets 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 first clean case is run through in the perpendicular first conveyer belt trend of the other end, 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 is characterized by further comprising 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 the first conveying belt, a rolling brush is fixed to 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: by arranging the heat insulation plate and the fixing frame, the original air-entrapping block mold box can be used for producing the self-heat-insulation building block; the pouring bin is arranged to enable the stirring materials to be uniformly dropped, so that the impact of the stirring materials on the heat insulation plate is reduced; through setting up the grinding device of transporting, make the self preservation temperature building block after the evaporation to dryness shaping realize edging and waste material clearance in transmission process, finally accomplish the production of self preservation temperature building block.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is a schematic structural view of a pouring bin;

FIG. 3 is a side view of FIG. 2;

FIG. 4 is a bottom view of FIG. 2;

FIG. 5 is a schematic view of a mold box construction;

FIG. 6 is a schematic view of the structure of the fixing frame;

FIG. 7 is a schematic view of a connection structure of a fixing frame and an insulation board;

FIG. 8 is a front view of the transfer grinding apparatus;

FIG. 9 is a top view of the transfer grinding apparatus;

FIG. 10 is a schematic view of the cross-sectional configuration A-A of FIG. 8;

FIG. 11 is a schematic view of the cross-sectional structure B-B of FIG. 8;

FIG. 12 is a schematic view of the structure of portion A in FIG. 8;

FIG. 13 is a schematic structural view of the portion A in FIG. 8 in a use state;

in the figure: 1. a storehouse is poured; 1.1, a bin body; 1.2, a feed inlet; 1.3, a strip-shaped discharge hole; 1.4, door panels; 1.5, a first cylinder; 1.6, a support plate; 1.7, a baffle plate; 1.8, a second cylinder; 1.9, reinforcing ribs;

2. a mould box; 2.1, a box body; 2.2, sealing plates; 2.3, heat insulation boards; 2.4, cross arms; 2.5, isolating columns; 2.6, flanging; 2.7, a screw rod; 2.8, a gear lever; 2.9, fastening a nut; 2.10, a crank; 2.11, pressing plates; 2.12, penetrating the shaft; 2.13, a stop head;

3. transferring a grinding device; 3.1, a first conveying chain; 3.2, a first cleaning box; 3.3, a first main shaft; 3.4, grinding edge wheels; 3.5, a second transmission chain; 3.6, driving a cylinder; 3.7, a first side plate; 3.8, a second side plate; 3.9, a first fixed seat; 3.10, a second fixed seat; 3.11, a second cleaning box; 3.12, a second main shaft; 3.13, rolling and brushing; 3.14, a dust removal port;

4. and (5) stirring the mixture.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Example 1

As shown in fig. 1-4, a pouring bin 1 is arranged between the stirring tank 4 and the mold box 2, the pouring bin 1 comprises a bin body 1.1 and a bin gate control device, the bin body 1.1 is funnel-shaped, the top of the bin body is provided with a feed inlet 1.2, the feed inlet 1.2 corresponds to a discharge port of the stirring tank, and the bottom of the feed inlet 1.2 is provided with a strip-shaped discharge port 1.3; the bin gate control device comprises a door plate 1.4 and a driving piece, wherein the door plate 1.4 is matched with the strip-shaped discharge port 1.3, and the driving piece is used for driving the door plate 1.4 and controlling the opening and closing of the door plate 1.4 and the strip-shaped discharge port 1.3; the driving piece is a first air cylinder 1.5, the cylinder body of the first air cylinder is arranged on the bin body 1.1 on one side of the long edge end of the strip-shaped discharge hole 1.3, the tail end of the telescopic rod of the first air cylinder is fixedly provided with a supporting plate 1.6, and the supporting plate 1.6 is fixedly connected with the bottom surface of the door plate 1.4; still set up the anti-splash device in storehouse body 1.1 both sides including the symmetry, the anti-splash device includes 1.7 and the second cylinder 1.8 of baffle articulated with bar discharge gate 1.3 minor face end, the second cylinder body is articulated with the storehouse body 1.1 of bar discharge gate minor face end, and second cylinder telescopic link is articulated with baffle 1.7.

Pour 1 setting in storehouse and between 2 at the mold box of agitator tank 4 and self preservation temperature building block, the length of bar discharge gate 1.3 suits with the width of mold box 2, the interval sets up the heated board parallel with 2 long edge direction of mold box in the mold box 2, the stirring material falls into the feed inlet on the storehouse body 1.1 through agitator tank 4, after the storehouse body 1.1 falls, driving piece control door plant 1.4 separates with 1.3 mouths of bar ejection of compact, the material evenly falls into in the mold box 2 of below through 1.3 of bar discharge gate, the stirring material is less to the heated board impact, heated board non-deformable, 1.1 surface in the storehouse body sets up strengthening rib 1.9 and is used for consolidating the storehouse body. Concretely, first cylinder telescopic link withdraws the back, door plant 1.4 and bar discharge gate 1.3 butt, sealed bar discharge gate 1.3, when first cylinder telescopic link stretches out, door plant 1.4 and bar discharge gate 1.3 separation, the stirring material is by bar discharge gate 1.3 fall into the mould incasement 2 of lower part, during the blanking, the second cylinder telescopic link is released, baffle 1.7 rotates to bar discharge gate 1.3 minor face, prevent that the stirring material from being by bar discharge gate 1.3 minor face end spill, the second cylinder telescopic link withdraws after the blanking finishes.

Example 2

As shown in fig. 5-7, the mold box 2 includes a box body 2.1, an insulation board 2.3 and a fixing frame, an opening is arranged at the top of the box body 2.1, a sealing board 2.2 connected with the box body is arranged at one side of the box body, and the insulation boards 2.3 are arranged in the box body 2.1 at intervals; the fixing frame is used for fixing the heat insulation plate 2.3; the fixing frame comprises a cross arm 2.4, an isolation column 2.5 and a fastening mechanism; two ends of the cross arm 2.4 are respectively abutted against the side edge of the box body and the sealing plate 2.2; the isolation columns 2.5 are arranged at intervals along the long side direction of the cross arm 2.4, the distance between the isolation columns 2.5 is matched with the thickness of the heat preservation plate, the specific isolation column 2.5 vertically penetrates through the cross arm 2.4, and a stopper 2.13 is fixed at the top of the isolation column 2.5; the fastening mechanism is used for fastening the cross arm 2.4; the fastening mechanism comprises an outward flange 2.6, a screw rod 2.7 and a fastening nut 2.9, wherein the outward flange 2.6 is respectively arranged at the top ends of the box body 2.1 and the sealing plate 2.2; the screw rod 2.7 vertically penetrates through the cross arm 2.4, and the bottom of the screw rod is fixedly provided with a stop lever 2.8 bent towards one side of the outward flanging 2.6; the fastening nut 2.9 and the screw rod 2.7 are sleeved, and the crank 2.10 is fixed on one side of the fastening nut 2.9; the device also comprises a pressing plate 2.11 and a through shaft 2.12, wherein the pressing plate 2.11 is arranged between two adjacent isolation columns 2.5; a penetrating shaft 2.12 vertically penetrates through the cross arm 2.4, a pressing plate 2.11 is fixed at the bottom of the penetrating shaft 2.12, and a stop 2.13 is fixed at the top of the penetrating shaft 2.12; seven heat insulation plates 2.3 are arranged at intervals along the short side direction of the box body 2.1; three groups of fixing frames are arranged along the long edge direction of the box body 2.1.

When the cross arm 2.4 is fastened, the crank handle 2.10 is used for rotating the fastening nut 1.9, so that the screw rod 2.7 moves upwards, the blocking rod 2.8 is driven to be upwards abutted against the outward flanging 2.6, and the cross arm 2.4 is further fastened; the pressing plate 2.11 can move up and down along the vertical direction through the penetrating shaft 2.12, and the bottom of the pressing plate 2.11 compresses the heat-insulation plate 2.3 under the action of self weight.

When installation heated board 2.3, at first erect a mount in box 2.1 one end, then put into heated board 2.3 between mount insulated column 2.5, compress tightly heated board 2.3 top through clamp plate 2.11, then set up remaining mount interval on box 2.1, it is fixed all through insulated column 2.5 to make heated board 2.3 both sides, fasten cross arm 2.4 on flanging 2.6 through fastening device at last, convenient follow-up pouring.

Example 3

As shown in fig. 8-13, the transferring and grinding device 3 includes a first conveying chain 3.1, a second conveying chain 3.5 and a transferring mechanism, an edge grinding device is disposed on the first conveying chain 3.1, the edge grinding device includes a first cleaning box 3.2, a first main shaft 3.3 and edge grinding wheels 3.4, openings for building blocks to pass through are disposed at two ends of the first cleaning box 3.2, one end of the first main shaft 3.3 is connected with a driving device, the other end of the first main shaft penetrates through the first cleaning box 3.2 in a direction perpendicular to the first conveying belt, the edge grinding wheels 3.4 are fixed at two sides of the first main shaft 3.3 in the first cleaning box 3.2, and the distance between the edge grinding wheels 3.4 is adapted to the self-heat-insulation width of the building blocks; the first conveying chain 3.1 is connected with the second conveying chain 3.5 through a transfer mechanism, the transfer mechanism comprises a driving cylinder 3.6, a first side plate 3.7, a second side plate 3.8, a first fixed seat 3.9 and a second fixed seat 3.10, the first fixed seat 3.9 is fixed below the tail end of the second conveying chain 3.5, the second fixed seat 3.10 is fixed below the head end of the first conveying chain 3.1, the second side plate 3.8 is transversely fixed on one side of the first side plate 3.7, the bottom end of the first side plate 3.7 is rotatably connected with the first fixed seat 3.9, the telescopic rod of the driving cylinder is rotatably connected with the second side plate 3.8, and the cylinder body of the driving cylinder is rotatably connected with the second fixed seat 3.10; the self-insulation building block cleaning device is characterized by further comprising a second cleaning box 3.11 and a second main shaft 3.12, openings for self-insulation building blocks to pass through are formed in two ends of the second cleaning box 3.11, one end of the second main shaft 3.12 is connected with a driving device, the other end of the second main shaft is perpendicular to the direction of the first conveying belt and penetrates through the second cleaning box 3.11, a rolling brush 3.13 is fixed on the second main shaft 3.12 in the second cleaning box 3.11, and the distance between the rolling brush 3.13 and the first conveying chain 3.1 is matched with the height of the self-insulation building blocks; dust removal openings 3.14 are formed in the tops of the first cleaning box 3.2 and the second cleaning box 3.11.

Specifically, the driving device can be set as a motor 3.16, the motor 3.16 drives the first main shaft 3.3 to rotate, and further drives the edge grinding wheel 3.4 to rotate to clean adhesion on two sides of the self-insulation building block 3.15; the motor 3.16 drives the second main shaft 3.12 to rotate, and further drives the rolling brush 3.13 to rotate to clean floating dust on the upper surface of the self-heat-preservation building block 3.15; when the self-insulation building block stacking machine works, a stacked self-insulation building block 3.15 is placed on a second conveying chain 3.5 and conveyed to a transfer mechanism through the second conveying chain 3.5 to be pushed out by a telescopic rod of a driving cylinder, a first side plate 3.7 and a second side plate 3.8 rotate to the side of the second conveying chain 3.5 around a first fixed seat 3.9 until the lower ends of the first side plate 3.7 and the second conveying chain 3.5 are flush, the second side plate 3.8 is in a vertical state at the moment, after the self-insulation building block 3.15 reaches the upper part of the first side plate 3.7, the telescopic rod of the driving cylinder is retracted, the first side plate 3.7 and the second side plate 3.8 rotate to the side of the first conveying chain 3.1 around the first fixed seat 3.9, the self-insulation building block is turned over to the second side plate 3.8 from the first side plate 3.7, when the second side plate 3.8 and the lower end of the first conveying chain 3.1 are flush, the self-insulation building block 3.15 is transferred to the first conveying chain 3.1 through the second side plate 3.8, absorbing dust generated in the grinding and rolling process.

During operation, the stacked self-insulation building blocks are placed on the second conveying chain 3.5, the single-layer self-insulation building blocks are conveyed to the first conveying chain 3.1 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 3.2 and the second cleaning box 2.11.

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.

Claims (10)

1. A self-insulation building block production line based on aerated block production line transformation comprises a stirring tank (4), a mold box, a cutting device and an autoclave, wherein a stirring material falls into the mold box (2) through the stirring tank (4), the mold box (2) is used for stirring the material to form a mold and comprises a box body (2.1), an opening is formed in the top of the box body (2.1), a sealing plate (2.2) connected with the box body is arranged on one side of the box body, and the cutting device is used for cutting a brick blank into blocks; the still kettle is used for forming green bricks which are cut into blocks, and is characterized in that: a pouring bin (1) is arranged between the stirring tank (4) and the mould box (2), the pouring bin (1) comprises a bin body (1.1) and a bin gate control device, the bin body (1.1) is funnel-shaped, a feed inlet (1.2) is formed in the top of the bin body, the feed inlet (1.2) corresponds to a discharge port of the stirring tank, and a strip-shaped discharge port (1.3) is formed in the bottom of the feed inlet (1.2); the bin gate control device comprises a door plate (1.4) and a driving piece, the door plate (1.4) is matched with the strip-shaped discharge hole (1.3), and the driving piece is used for driving the door plate (1.4) and controlling the opening and closing of the door plate (1.4) and the strip-shaped discharge hole (1.3);

the mould box (2) further comprises heat insulation plates (2.3) and a fixing frame, and the heat insulation plates (2.3) are arranged in the box body (2.1) at intervals; the fixing frame is used for fixing the heat preservation plate (2.3).

2. The self-insulation building block production line reconstructed based on the aerated block production line according to claim 1, is characterized in that: the driving piece is first cylinder (1.5), and first cylinder body sets up on the storehouse body (1.1) of the long limit of strip discharge gate (1.3) end one side, terminal fixed support board (1.6) of first cylinder telescopic link, backup pad (1.6) and door plant (1.4) bottom surface fixed connection.

3. The self-insulation building block production line reconstructed based on the aerated block production line according to claim 2, is characterized in that: still set up the anti-splash device in storehouse body (1.1) both sides including the symmetry, the anti-splash device include with bar discharge gate (1.3) minor face end articulated baffle (1.7) and second cylinder (1.8), the second cylinder body is articulated with storehouse body (1.1) of bar discharge gate minor face end, and second cylinder telescopic link is articulated with baffle (1.7).

4. The self-insulation building block production line reconstructed based on the aerated block production line according to claim 1, is characterized in that: the fixing frame comprises a cross arm (2.4), an isolation column (2.5) and a fastening mechanism, wherein two ends of the cross arm (2.4) are respectively abutted against the side edge of the box body and the sealing plate (2.2); the isolation columns (2.5) are arranged at intervals along the long side direction of the cross arm (2.4), and the distance between the isolation columns (2.5) is adapted to the thickness of the heat preservation plate; a fastening mechanism for fastening the cross arm (2.4).

5. The self-insulation building block production line reconstructed based on the aerated block production line according to claim 4, is characterized in that: the fastening mechanism comprises an outward flange (2.6), a screw (2.7) and a fastening nut (2.9), and the outward flange (2.6) is respectively arranged at the top ends of the box body (2.1) and the sealing plate (2.2); a screw rod (2.7) vertically penetrates through the cross arm (2.4), and a stop lever (2.8) bent towards one side of the outward flanging (2.6) is fixed at the bottom of the screw rod; the fastening nut (2.9) is sleeved with the screw (2.7), and the crank (2.10) is fixed on one side of the fastening nut (2.9).

6. The self-insulation building block production line reconstructed based on the aerated block production line according to claim 5, is characterized in that: the device also comprises a pressing plate (2.11) and a through shaft (2.12), wherein the pressing plate (2.11) is arranged between two adjacent isolation columns (2.5); the penetrating shaft (2.12) vertically penetrates through the cross arm (2.4), the bottom of the penetrating shaft (2.12) is fixed with the pressing plate (2.11), and the top of the penetrating shaft (2.12) is fixed with the stopper (2.13).

7. The self-insulation building block production line reconstructed based on the aerated block production line according to claim 1, is characterized in that: still including transporting grinding device (3), transport grinding device includes first transfer chain (3.1), sets up the edging device on first transfer chain (3.1), the edging device includes first clean case (3.2), first main shaft (3.3) and edging wheel (3.4), first clean case (3.2) both ends set up the opening that supplies the building block to pass through, first main shaft (3.3) one end is connected with drive arrangement, and the perpendicular first conveyer belt of the other end moves towards running through first clean case (3.2), fixed edging wheel (3.4) in first main shaft (3.3) both sides in first clean case (3.2), edging wheel (3.4) interval suits with self preservation temperature building block width.

8. The self-insulation building block production line reconstructed based on the aerated block production line according to claim 7, is characterized in that: still include second transfer chain (3.5) and transport mechanism, first transfer chain (3.1) is connected through transport mechanism with second transfer chain (3.5), transport mechanism includes actuating cylinder (3.6), first curb plate (3.7), second curb plate (3.8), first fixing base (3.9) and second fixing base (3.10), first fixing base (3.9) are fixed in second transfer chain (3.5) terminal below, and second fixing base (3.10) are fixed in first transfer chain (3.1) head end below, transversely fixed second curb plate (3.8) in first curb plate (3.7) one side, first curb plate (3.7) bottom and first fixing base (3.9) rotate to be connected, the actuating cylinder telescopic link rotates with second curb plate (3.8) to be connected, and the actuating cylinder body rotates with second fixing base (3.10) to be connected.

9. The self-insulation building block production line reconstructed based on the aerated block production line according to claim 8, is characterized in that: still include second main shaft (3.12) and set up in the clean case of second (3.11) of first clean case (3.2) one side, the opening that supplies self preservation temperature building block to pass through is set up at second clean case (3.11) both ends, second main shaft (3.12) one end is connected with drive arrangement, and the perpendicular first conveyer belt of the other end moves towards running through the clean case of second (3.11), fixed round brush (3.13) on second main shaft (3.12) in the clean case of second (3.11), the interval and the self preservation temperature building block height phase-adaptation of round brush (3.13) and first conveyer chain (3.1).

10. The self-insulation building block production line reconstructed based on the aerated block production line according to claim 9, is characterized in that: dust removal openings (3.14) are formed in the tops of the first cleaning box (3.2) and the second cleaning box (3.11).

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