CN113183287B - Autoclaved lightweight aerated concrete product manufacturing and processing system - Google Patents

Abstract

The invention relates to a manufacturing and processing system of autoclaved lightweight aerated concrete products, which comprises a base, a support frame, an adjusting device, a moving device and a lifting device, wherein the adjusting device is arranged in the invention, the adjusting rotating shaft is driven to rotate in the forward direction, the adjusting wheels are driven to rotate, the lengths of inner core holes are adjusted when building blocks are poured through the relative movement of inner core adjusting frames on two sides, the lengths of the building blocks are adjusted and controlled when the building blocks are poured through moving plates on two sides, so that building blocks with different lengths are conveniently poured, the moving plates are fixed after being moved through pushing T-shaped rods in inner cavities of T-shaped frames and then pushing cross clamping blocks on the T-shaped rods inwards in fixed grooves, and the moving plates are prevented from loosening due to the gravity of concrete after the moving plates and the overturning plates are combined into an outer die.

Description

Autoclaved lightweight aerated concrete product manufacturing and processing system

Technical Field

The invention relates to the technical field of concrete product manufacturing, in particular to a manufacturing and processing system of an autoclaved lightweight aerated concrete product.

Background

The light concrete is also called foam concrete, and is a novel light heat-insulating material containing a large number of closed pores, which is formed by fully foaming a foaming agent in a mechanical way through a foaming system of a foaming machine, uniformly mixing the foam with cement paste, then carrying out cast-in-situ construction or mold forming through a pumping system of the foaming machine, and naturally curing. The air bubble type heat insulating material is characterized in that closed foam holes are formed in concrete, so that the concrete is light and insulated, meanwhile, the air bubble type heat insulating material is a special variety in aerated concrete, the hole structure and the material performance of the air bubble type heat insulating material are similar to those of the aerated concrete, only the difference between the shape of air holes and the air bubble type heat insulating material is common, building blocks and the like are arranged, the light concrete is prepared into a mould which is adjusted according to the size of a building block to be poured, and then the concrete is poured, dried, molded and demoulded;

the existing autoclaved lightweight aerated concrete product manufacturing and processing system has the following problems when in use:

(1) The through holes of the hollow parts of the inner cores of the building blocks in the market have different requirements, and the length of the inner cores in the built building blocks cannot be adjusted when the building blocks are poured by the conventional device, so that the application range is single, and inconvenience is brought to production and processing;

(2) The prior device can not adjust the outer mold for pouring the building blocks before pouring the building blocks, so that the device is only applicable to pouring the concrete building blocks in one scale, and has limited use.

Disclosure of Invention

The invention aims to solve the technical problems by adopting the following technical scheme: the autoclaved lightweight aerated concrete product manufacturing and processing system comprises a base, a support frame, an adjusting device, a moving device and a lifting device, wherein the support frame is arranged on the upper surface of the base, the adjusting device is arranged on the support frame, and the moving device connected with the base is arranged below the adjusting device:

the adjusting device comprises a cross beam, an adjusting groove, a supporting column, two-way expansion plates, an inner core supporting frame, an inner core adjusting frame, an adjusting rotating shaft, adjusting wheels, connecting rods, worm wheels, balance bars and leveling units, wherein the cross beam is transversely fixedly installed in the middle of an inner cavity of the supporting frame, the adjusting grooves are symmetrically formed in the cross beam, the supporting columns are fixedly installed on the lower surface of the cross beam, the two-way expansion plates are fixedly installed at the bottom of the supporting column, the inner core supporting frame is fixedly installed on two sides of the two-way expansion plates, the inner core adjusting frame is slidably installed on two sides of the inner core supporting frame, the adjusting rotating shaft is rotatably installed on the top of the inner core supporting frame through a bearing, the adjusting wheels are fixedly installed on the adjusting rotating shaft, the connecting rods are rotatably installed on two sides of the adjusting wheels, one ends of the connecting rods, the adjusting wheels are movably connected with the worm wheels through rotation of the cross beam, the balance bars are fixedly installed on the upper ends of one sides of the inner core adjusting frames, the balance bars are located in the adjusting grooves, the leveling units are arranged on two sides of the inner core adjusting frames, the adjusting shafts are rotatably driven through driving the adjusting rotating shafts, the adjusting wheels are rotatably driven to rotate through the connecting rods, and the inner core adjusting frames on two sides are in relative motion, and enable the inner core adjusting frames to move through the connecting rods to be used for adjusting the length of the inner core adjusting frames to be adjusted when the inner core to move correspondingly.

The utility model provides a concrete molding device, mobile device includes the bottom plate, the roll-over board, the movable plate, the movable groove, L template, T type frame, the movable screw, T type pole, the rotating block, extrusion spring, the fixed slot, cross fixture block and reinforcement unit, base upper surface middle part fixed mounting has the bottom plate, the roll-over board has been articulated to the bottom plate both sides, the movable groove has all been seted up to the roll-over board of both sides correspondence, thereby be equipped with the movable plate between the movable groove of both sides, movable slot internal cavity fixed mounting has the T type frame, the movable screw is installed through the bearing rotation to L template one side, and movable screw and roll-over board threaded connection, T type frame inner cavity slidable mounting has T type pole, T type frame inner cavity upper portion bilateral symmetry rotates and installs the rotating block, equal fixed mounting has extrusion spring on the rotating block, extrusion spring is kept away from rotating block one end and is connected with T type pole, fixed slot has all been seted up to the movable plate both sides, T type pole one end fixed mounting has the cross fixture block, thereby the movable plate through the movable plate of moving both sides carries out regulation and control to the length when pouring the building block, thereby be convenient for pour out the building block of different length, through the T type frame inner cavity slidable mounting has T type pole to make T type pole inside the T type pole to make the T type pole outside the fixed plate move to the fixed die, thereby realize moving the fixed plate outside the fixed die, and the fixed die is realized moving the inside the fixed plate that moves the inside the T type pole promptly.

Preferably, elevating gear includes lift screw, band pulley, belt and elevator motor, the bilateral symmetry rotation of base upper surface installs the lift screw, the lift screw of both sides all rotates with the support frame both sides to be connected, the lift screw bottom all runs through base fixed mounting and has the band pulley, through belt drive between the band pulley of both sides, base inner chamber left side fixed mounting has elevator motor, elevator motor output and left lift screw bottom fixed connection, drive the lift screw through opening elevator motor and rotate the inner core support frame and the bottom plate that drives the support frame and descend to the both sides on the support frame, thereby be convenient for follow-up pouring into the concrete and form the building block in the outer mould that turnover plate and movable plate constitute.

Preferably, the leveling unit comprises a plate placing groove, lifting rods, rollers, ejection springs, driving wedge blocks, driven wedge blocks, connecting rods, filling plates and reset springs, the plate placing groove is formed in one side of an inner core adjusting frame, lifting rods are slidably mounted in the middle of the inner cavity of the inner core adjusting frame, the lifting rods are provided with a plurality of lifting rods, the rollers are arranged at the tops of the lifting rods, the ejection springs are mounted on two sides of the lifting rods, the driving wedge blocks are fixedly mounted at the lower ends of the lifting rods, the driven wedge blocks are arranged above the driving wedge blocks, the connecting rods are fixedly mounted on one side of the driven wedge blocks, the filling plates are fixedly mounted through the connecting rods, reset springs are arranged on two sides of the driven wedge blocks and one side of the inner core adjusting frame, and the driving wedge blocks push the driven wedge blocks to move rightwards to drive the connecting rods to move to be flush with one side of the inner core supporting frame so that when the building blocks are poured, and the cavity of the building blocks are kept flat.

Preferably, the reinforcing unit comprises a driving rod, a rotating frame, a pulling rod, a vertical plate and a reinforcing frame, wherein the driving rod is rotatably arranged on the upper surface of the inner cavity of the base, the rotating frame is fixedly arranged on the driving rod, the pulling rods are hinged to two sides of the rotating frame, one ends of the pulling rods on two sides of the rotating frame are respectively hinged to the vertical plates, the vertical plates on two sides are close to one side of the vertical plates from front to back, the reinforcing frames are fixedly arranged in sequence, the reinforcing frames are arranged on the lower portion of the bottom plate, the driving rod rotates to drive the rotating frame to rotate through the rotating rod, and the vertical plates on two sides are driven to move in opposite directions through the pulling rods when the rotating frame rotates, so that the reinforcing frames on two sides reinforce the overturning plate and the moving plate, and the reinforcing frame has better effect when pouring the building blocks.

Preferably, the supporting blocks are symmetrically arranged on two sides of the top of the T-shaped rod, a through groove is formed in one side of the T-shaped frame, the length between the supporting blocks on two sides is larger than that of the through groove, the supporting blocks on the top of the T-shaped rod are placed on the through groove on the T-shaped frame by pulling the T-shaped rod out of the T-shaped frame, and therefore the movable plate can move on the turnover plate conveniently.

Preferably, electric push rods are fixedly installed on the top of the support frame in a bilateral symmetry mode, supporting blocks are fixedly installed at one ends of the electric push rods on two sides, a worm is installed between the supporting blocks in a rotation mode, the electric push rods retract, the supporting blocks are driven to move backwards when the overturning plate retracts, the supporting blocks move backwards to drive the worm to be away from the worm wheel, and therefore the rotating shaft is convenient to adjust and move, and the distance between two inner core dies is adjusted.

1. According to the adjusting device provided by the invention, the adjusting rotating shaft is driven to rotate in the forward direction, the adjusting wheels rotate to push the inner core adjusting frames on the two sides to move relatively through the connecting rods, and the lengths of the inner core holes are adjusted when the building blocks are poured through the relative movement of the inner core adjusting frames on the two sides;

2. according to the moving device, the lengths of the building blocks are regulated and controlled when the building blocks are poured by moving the moving plates on two sides, so that the building blocks with different lengths can be poured conveniently, the T-shaped rods in the inner cavities of the T-shaped frames are pushed inwards to move the T-shaped rods to the fixed grooves, and then the cross clamping blocks which are pushed inwards to the T-shaped rods are positioned in the fixed grooves, so that the moving plates are fixed after being moved, and the moving plates and the turnover plates are prevented from loosening due to the gravity of concrete after being combined into an outer die to influence the forming of the building blocks;

3. according to the leveling unit, when the inner core adjusting frame moves out on the inner core supporting frame, the acting force of the ejection spring drives the lifting rod to move upwards, and meanwhile, the driving wedge block pushes the driven wedge block to drive the connecting rod to move rightwards to drive the filling plate to move to be level with one side of the inner core supporting frame, so that the purpose that an adjustable inner core keeps a plane and a cavity of a building block keeps level when the building block is poured is achieved.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the structure of the present invention after the L-shaped plate, T-shaped frame, T-shaped rod, rotating block, pressing spring, fixing groove, cross-shaped clamping block and reinforcing unit are removed;

FIG. 2 is a schematic view of the structure of the adjusting device of the present invention;

FIG. 3 is a schematic diagram of a mobile device according to the present invention;

FIG. 4 is a schematic view of the structure of the leveling unit of the present invention;

FIG. 5 is a schematic illustration of the front cross-section of the balance bar of the present invention;

FIG. 6 is a side view of a partial structure of the present invention;

FIG. 7 is a schematic view of the bottom view of the interior cavity of the base of the present invention;

fig. 8 is a schematic plan view of the work object of the present invention.

Detailed Description

In order to make the technical means, the creation features, the achievement of the purposes and the effects of the present invention easy to understand, the present invention is further described below with reference to fig. 1 to 8.

The utility model provides an autoclaved lightweight aerated concrete product preparation processing system, includes base 1, support frame 2, adjusting device 3, mobile device 4 and elevating gear 5, base 1 upper surface is equipped with support frame 2, is equipped with adjusting device 3 on the support frame 2, and adjusting device 3 below is equipped with the mobile device 4 who is connected with base 1:

the adjusting device 3 comprises a cross beam 31, an adjusting groove 32, a supporting column 33, a bidirectional expansion plate 34, an inner core supporting frame 35, an inner core adjusting frame 36, an adjusting rotating shaft 37, an adjusting wheel 38, a connecting rod 39, a worm gear 390, a balance rod 391 and a leveling unit 6, wherein the cross beam 31 is transversely and fixedly arranged in the middle of the inner cavity of the supporting frame 2, the adjusting groove 32 is symmetrically arranged on the cross beam 31, the supporting column 33 is fixedly arranged on the lower surface of the cross beam 31, the bidirectional expansion plate 34 is fixedly arranged at the bottom of the supporting column 33, the inner core supporting frame 35 is fixedly arranged at both sides of the bidirectional expansion plate 34, the inner core adjusting frame 36 is slidingly arranged at both sides of the inner core supporting frame 35, the adjusting rotating shaft 37 is rotatably arranged at the top of the inner core supporting frame 35 through a bearing, the adjusting wheel 38 is fixedly arranged on the adjusting rotating shaft 37, the connecting rods 39 are rotatably arranged on two sides of the regulating wheel 38, one ends of the connecting rods 39 on two sides, far away from the regulating wheel 38, are respectively and movably connected with the inner core regulating frames 36, worm wheels 390 are fixedly arranged on the upper parts of the regulating rotating shafts 37, the worm wheels 390 are rotatably connected with the cross beams 31, balance rods 391 are fixedly arranged on the upper ends of the inner core regulating frames 36 on two sides, which are far away from each other, the balance rods 391 are positioned in the regulating grooves 32 and slide, leveling units 6 are arranged on two sides of the inner core regulating frames 36, the regulating rotating shafts 37 are driven to rotate through driving the regulating rotating shafts 37 to positively rotate, the regulating wheels 38 are driven to relatively move through the inner core regulating frames 36 on two sides, and the lengths of inner core holes are regulated when building blocks are poured through the relatively moving inner core regulating frames on two sides.

The moving device 4 comprises a bottom plate 41, a turnover plate 42, a moving plate 43, a moving groove 44, an L-shaped plate 45, a T-shaped frame 46, a moving screw 47, a T-shaped rod 48, a rotating block 49, a pressing spring 490, a fixing groove 491, a cross clamping block 492 and a reinforcing unit 7, wherein the bottom plate 41 is fixedly arranged in the middle of the upper surface of the base 1, the turnover plates 42 are hinged at two sides of the bottom plate 41, the moving grooves 44 are correspondingly arranged at the two sides of the turnover plates 42, the moving plate 43 is arranged between the moving grooves 44 at the front side and the rear side, sealing gaskets are fixedly arranged at the edges of the two sides of the moving plate 43, the sealing gaskets are arranged at the two sides of the moving plate 43, so that concrete is tighter when being poured into a building block, the L-shaped plate 45 is arranged in the moving groove 44 in a sliding way, the T-shaped frame 46 is fixedly arranged in an inner cavity of the L-shaped plate 45, the moving screw 47 is rotatably arranged at one side of the L-shaped plate 45 through a bearing, the movable screw 47 is in threaded connection with the turnover plate 42, a T-shaped rod 48 is slidably arranged in the inner cavity of the T-shaped frame 46, a rotating block 49 is symmetrically arranged at the left and right of the upper part of the inner cavity of the T-shaped frame 46 in a rotating way, an extruding spring 490 is fixedly arranged on each rotating block 49, one end of each extruding spring 490, which is far away from each rotating block 49, is connected with the T-shaped rod 48, fixing grooves 491 are formed in two sides of the movable plate 43, a cross clamping block 492 is fixedly arranged at one end of each T-shaped rod 48, a reinforcing unit 7 is arranged at the lower part of the bottom plate 41, the lengths of the building blocks are regulated and controlled when the building blocks are poured through the movable plates 43 on two sides, so that building blocks with different lengths are conveniently poured, the movable screw 47 is rotated to drive the L-shaped plates 45 to be parallel to the movable plates 43, then the T-shaped rods 48 in the inner cavity of the T-shaped frame 46 are pushed inwards until the T-shaped rods 48 are moved to be moved into the fixing grooves 491, the ninety-degree rotation T-shaped rod 48 is then pushed inwards until the cross clamping blocks 492 on the T-shaped rod 48 are positioned in the fixing grooves 491, so that the movable plate 43 is fixed after movement, and the movable plate 43 is fixed, so that the movable plate 43 is prevented from loosening due to the gravity of concrete after the movable plate 43 and the turnover plate 42 are combined into an outer die, and the forming of the building block is further influenced.

The lifting device 5 comprises lifting screws 51, belt wheels 52, belts 53 and lifting motors 54, the lifting screws 51 are symmetrically arranged on the upper surface of the base 1 in a left-right rotation mode, the lifting screws 51 on two sides are all in rotary connection with two sides of the support frame 2, the belt wheels 52 are fixedly arranged at the bottom ends of the lifting screws 51 in a penetrating mode, the belt wheels 52 on two sides are driven by the belts 53, the lifting motors 54 are fixedly arranged on the left side of an inner cavity of the base 1, the output ends of the lifting motors 54 are fixedly connected with the bottom ends of the lifting screws 51 on the left side, the lifting motors 54 are started, the lifting screws 51 on the left side are driven by the output ends of the lifting motors 54 to rotate, the belt wheels 52 drive the belts 53 to rotate, so that the inner core support frames 35 on two sides of the support frame 2 on the lifting screws 51 on two sides are lowered to the bottom plate 41 to be in contact with the bottom plate 41, and accordingly concrete can be poured into an outer mold formed by the turnover plate 42 and the movable plate 43 conveniently.

Leveling unit 6 includes puts board groove 61, lifter 62, gyro wheel 63, ejector spring 64, initiative wedge 65, driven wedge 66, connecting rod 67, filler plate 68 and reset spring 69, put board groove 61 has been seted up to inner core alignment jig 36 one side, inner core alignment jig 36 inner chamber middle part slidable mounting has lifter 62, and lifter 62 is equipped with a plurality of, the lifter 62 top all is equipped with gyro wheel 63, ejector spring 64 is all installed to lifter 62 both sides, lifter 62 lower extreme fixed mounting has initiative wedge 65, initiative wedge 65 top is equipped with driven wedge 66, driven wedge 66 one side fixed mounting has connecting rod 67, connecting rod 67 runs through put board groove 61 fixed mounting and has filler plate 68, driven wedge 66 both sides and inner core alignment jig 36 one side all are equipped with reset spring 69, when shifting out on inner core support frame 35 through inner core alignment jig 36, inner core support frame 35 cancels the extrusion to lifter 62, because lifter 62 upward moves and initiative wedge 65 drives driven wedge 66 and drives connecting rod 67 and move to the right so as to drive filler plate 68 to remove to pour one side of support frame 35, thereby keep the flat building block of the level when realizing to the leveling to the cavity.

The reinforcing unit 7 comprises a driving rod 71, a rotating frame 72, pulling rods 73, vertical plates 74 and reinforcing frames 75, wherein the driving rod 71 is rotatably installed on the upper surface of the inner cavity of the base 1, the rotating frame 72 is fixedly installed on the driving rod 71, the vertical plates 74 are hinged to the two sides of the rotating frame 72, the vertical plates 74 are respectively hinged to one ends of the pulling rods 73, which are far away from the rotating frame 72, of the two sides, the reinforcing frames 75 are fixedly installed on the two sides, which are close to each other, from front to back, the reinforcing frames 75 are arranged in sequence, the reinforcing frames 75 are located on the lower portion of the bottom plate 41, the rotating driving rod 71 rotates to drive the rotating frame 72 to rotate, and the vertical plates 74 on the two sides are driven to move in opposite directions through the pulling rods 73 when the rotating frame 72 rotates, so that the reinforcing frames 75 on the two sides reinforce the turnover plates 42 and the moving plates 43, and the effect is better when pouring the building blocks.

The supporting blocks 8a are symmetrically arranged on the two sides of the top of the T-shaped rod 48, the through grooves 8b are formed in one side of the T-shaped frame 46, the length between the supporting blocks 8a on the two sides is larger than that of the through grooves 8b, the T-shaped rod 48 is pulled out of the T-shaped frame 46, and the supporting blocks 8a on the top of the T-shaped rod 48 are placed on the through grooves 8b on the T-shaped frame 46, so that the movable plate 43 can move on the turnover plate 42 conveniently.

The electric push rods 9a are symmetrically and fixedly mounted on the top of the support frame 2, the supporting blocks 9b are fixedly mounted at one ends of the electric push rods 9a on two sides, the worm 9c is mounted between the supporting blocks 9b in a rotating mode, the supporting blocks 9b are driven to move backwards when the overturning plate 42 is retracted, the worm 9c is driven to move backwards to be away from the worm wheel 390 by the supporting blocks 9b, and therefore the rotating shaft 37 is convenient to adjust and the distance between two inner core dies is adjusted.

The movable block 3a is placed in the inner cavity of the balance rod 391, the movable block 3a is in a cross structure, the clamping rotating rods 3b are rotatably installed on two sides of the cross beam 31, the clamping plates 3c are rotatably installed at the bottoms of the clamping rotating rods 3b through rotating shafts, the guide rods 3d are fixedly installed on the tops of the clamping plates 3c in a bilateral symmetry mode, the guide rods 3d penetrate through the cross beam 31, when the balance rod 391 is fixed, the movable block 3a is rotated, then the clamping rotating rods 3b are rotated on one side, the clamping rotating rods 3b rotate to drive the clamping plates 3c to move downwards to fix the movable block 3a, and therefore the balance rod 391 is fixed, and the two inner core supporting frames 35 are kept fixed after the balance rod 391 is fixed.

When the device works, firstly, the adjusting rotating shaft 37 is rotated, so that the inner core adjusting frames 36 at two sides move relatively or oppositely, the length of an inner core hole is adjusted when a building block is poured, then the inner core supporting frames 35 at two sides are adjusted, the distance between the two inner core supporting frames 35 is adjusted, then after two moving plates are adjusted, the T-shaped rod in the inner cavity of the T-shaped frame is pushed inwards until the T-shaped rod moves, and the T-shaped rod moves into the fixing groove, so that the moving plate 43 is fixed after moving, and the moving plate 43 is fixed. After the lifting motor 54 is started to enable the support frame 2 to descend until the inner core support frame 35 contacts the bottom plate 41, concrete is poured into the outer mold, and the mold can be removed after the concrete is molded and dried.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing embodiments, and that the foregoing embodiments and description are merely illustrative of the principles of this invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, and these changes and modifications fall within the scope of the invention as hereinafter claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides an evaporate and press lightweight aerated concrete product preparation processing system, includes base (1), support frame (2), adjusting device (3), mobile device (4) and elevating gear (5), its characterized in that: the upper surface of base (1) is equipped with support frame (2), is equipped with adjusting device (3) on support frame (2), and adjusting device (3) below is equipped with mobile device (4) that are connected with base (1):

the adjusting device (3) comprises a cross beam (31), an adjusting groove (32), a supporting column (33), two-way expansion plates (34), an inner core supporting frame (35), an inner core adjusting frame (36), an adjusting rotating shaft (37), an adjusting wheel (38), a connecting rod (39), a worm wheel (390), a balance rod (391) and a leveling unit (6), wherein the cross beam (31) is transversely and fixedly arranged in the middle of the inner cavity of the supporting frame (2), the adjusting groove (32) is symmetrically arranged on the cross beam (31), the supporting column (33) is fixedly arranged on the lower surface of the cross beam (31), the two-way expansion plates (34) are fixedly arranged at the bottom of the supporting column (33), the two sides of the two-way expansion plates (34) are fixedly provided with the inner core supporting frame (35), the two sides of the inner core supporting frame (35) are respectively and slidably provided with the inner core adjusting frame (36), the top of the inner core supporting frame (35) is rotatably provided with the adjusting rotating shaft (37) through a bearing, the adjusting wheel (38) is fixedly arranged on the adjusting rotating shaft (37), the connecting rod (39) on the two sides of the adjusting wheel (38) are rotatably provided with the connecting rod (39) on the two sides, one end far away from the adjusting wheel (38) is respectively movably connected with the inner core adjusting frame (36), the upper part of the worm wheel (390) is fixedly arranged on the upper part of the worm wheel (390), balance rods (391) are fixedly arranged at the upper ends of the inner core adjusting frames (36) on two sides far away from one another, the balance rods (391) are positioned in the adjusting grooves (32) to slide, and leveling units (6) are arranged on two sides of the inner core adjusting frames (36);

the moving device (4) comprises a bottom plate (41), a turnover plate (42), a moving plate (43), a moving groove (44), an L-shaped plate (45), a T-shaped frame (46), a moving screw (47), a T-shaped rod (48), a rotating block (49), a pressing spring (490), a fixed groove (491), a cross clamping block (492) and a reinforcing unit (7), wherein the bottom plate (41) is fixedly arranged in the middle of the upper surface of the base (1), the turnover plate (42) is hinged to two sides of the bottom plate (41), the moving grooves (44) are correspondingly formed in the turnover plate (42) on two sides, the moving plate (43) are arranged between the moving grooves (44) on the front side and the rear side, the L-shaped plate (45) is slidably arranged in the moving groove (44), the T-shaped frame (46) is fixedly arranged in an inner cavity of the L-shaped plate (45), the moving screw (47) is rotatably arranged on one side of the L-shaped plate (45) through a bearing, the moving screw (47) is in threaded connection with the turnover plate (42), the T-shaped rod (48) is slidably arranged in the inner cavity of the T-shaped rod (46), the upper part of the inner cavity of the T-shaped frame (46) is symmetrically rotated in a left and right direction, the rotating block (49) is rotatably arranged on the inner cavity of the rotating block (49), the rotating block (49) is rotatably arranged on the inner cavity of the T-shaped rod (49) and is far away from one end of the pressing spring (490), both sides of the moving plate (43) are provided with fixing grooves (491), one end of the T-shaped rod (48) is fixedly provided with a cross clamping block (492), and the lower part of the bottom plate (41) is provided with a reinforcing unit (7).

2. The autoclaved lightweight aerated concrete product manufacturing processing system as recited in claim 1, wherein: lifting device (5) are including lifting screw (51), band pulley (52), belt (53) and elevator motor (54), lifting screw (51) are installed in bilateral symmetry rotation of base (1) upper surface, lifting screw (51) of both sides all rotate with support frame (2) both sides and are connected, lifting screw (51) bottom all runs through base (1) fixed mounting and has band pulley (52), pass through belt (53) transmission between band pulley (52) of both sides, base (1) inner chamber left side fixed mounting has elevator motor (54), elevator motor (54) output and left lifting screw (51) bottom fixed connection.

3. The autoclaved lightweight aerated concrete product manufacturing processing system as recited in claim 1, wherein: leveling unit (6) are including putting board groove (61), lifter (62), gyro wheel (63), ejecting spring (64), initiative wedge (65), driven wedge (66), connecting rod (67), filling board (68) and reset spring (69), put board groove (61) have been seted up to inner core alignment jig (36) one side, inner core alignment jig (36) inner chamber mid-section slidable mounting has lifter (62), and lifter (62) are equipped with a plurality of, lifter (62) top all is equipped with gyro wheel (63), ejecting spring (64) are all installed to lifter (62) both sides, lifter (62) lower extreme fixed mounting has initiative wedge (65), initiative wedge (65) top is equipped with driven wedge (66), connecting rod (67) one side fixed mounting of driven wedge (66), connecting rod (67) run through and put board groove (61) fixed mounting and fill board (68), driven wedge (66) both sides and inner core alignment jig (36) one side all are equipped with reset spring (69).

4. The autoclaved lightweight aerated concrete product manufacturing processing system as recited in claim 1, wherein: the reinforcing unit (7) comprises a driving rod (71), a rotating frame (72), pulling rods (73), vertical plates (74) and reinforcing frames (75), wherein the driving rod (71) is rotatably installed on the upper surface of an inner cavity of the base (1), the rotating frame (72) is fixedly installed on the driving rod (71), the pulling rods (73) are hinged to two sides of the rotating frame (72), the vertical plates (74) are hinged to one ends, away from the rotating frame (72), of the pulling rods (73), of the two sides respectively, the reinforcing frames (75) are fixedly installed from front to back on the adjacent sides of the vertical plates (74), the reinforcing frames (75) are arranged in a plurality, and the reinforcing frames (75) are located at the lower portion of the bottom plate (41).

5. The autoclaved lightweight aerated concrete product manufacturing processing system as recited in claim 1, wherein: the supporting blocks (8 a) are symmetrically arranged on the two sides of the top of the T-shaped rod (48), a through groove (8 b) is formed in one side of the T-shaped frame (46), and the length between the supporting blocks (8 a) on the two sides is larger than the length of the through groove (8 b).

6. The autoclaved lightweight aerated concrete product manufacturing processing system as recited in claim 1, wherein: electric push rods (9 a) are symmetrically and fixedly arranged at the top of the support frame (2), supporting blocks (9 b) are fixedly arranged at one ends of the electric push rods (9 a) at two sides, and worms (9 c) are jointly installed between the supporting blocks (9 b) in a rotating mode.

7. The autoclaved lightweight aerated concrete product manufacturing processing system as recited in claim 1, wherein: the balancing pole (391) inner chamber has been placed movable block (3 a), movable block (3 a) are the cross structure, and clamping bull stick (3 b) is all installed in rotation of crossbeam (31) both sides, and clamping plate (3 c) is installed through the pivot rotation in clamping bull stick (3 b) bottom, and clamping plate (3 c) top bilateral symmetry fixed mounting has guide arm (3 d), and guide arm (3 d) run through crossbeam (31).

8. The autoclaved lightweight aerated concrete product manufacturing processing system as recited in claim 1, wherein: sealing gaskets are fixedly arranged at the edges of two sides of the moving plate (43), and the thickness of the middle part of the bottom plate (41) is higher than that of two sides of the bottom plate (41).

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