CN217072796U - Light ceramsite plate molding and cutting equipment - Google Patents

Abstract

The utility model provides a light haydite board moulding cutting equipment, include: the molding mechanism comprises a mold box for molding, and the whole mold molded by the mold box can be cut into at least two single plates; the first cutting mechanism is used for cutting the whole die formed by the die box into a plurality of veneers, and comprises a first cutting conveyor, first cutting supports arranged at two sides of the first cutting conveyor and a first cutting assembly arranged on the first cutting supports and used for cutting the whole die during conveying; and the second cutting mechanism comprises a second cutting conveyor, second cutting supports arranged on two sides of the second cutting conveyor, a second edge cutting assembly arranged on the second cutting supports and used for cutting edges of the veneer, and a second forming assembly arranged on the second cutting supports and used for grooving and tenoning the veneer. The utility model discloses simple structure, convenient to use, the moulding is efficient, and the cutting process links up the high efficiency.

Description

Light ceramsite plate molding and cutting equipment

Technical Field

The utility model relates to a light haydite board production facility technical field, concretely relates to light haydite board moulding cutting equipment.

Background

The light partition wall board is a new type of energy-saving wall material, it is a wall material with the same appearance as hollow floor slab, but its both sides have male and female mortises, when it is installed, it only needs to erect the board material, after the male and female mortises are coated with a small quantity of caulking mortar, the board material can be assembled together. The high-efficiency energy-saving building material is prepared from various industrial waste residues such as harmless phosphogypsum, light steel slag, fly ash and the like through variable-frequency steam pressurization curing. The light partition board has the advantages of light weight, high strength, multiple environmental protection, heat preservation, heat insulation, sound insulation, breathing and humidity regulation, fire prevention, rapid construction, wall body cost reduction and the like. The inner layer is provided with the inorganic foaming section bar or other heat preservation materials with reasonable layout, heat insulation and sound absorption, the wallboard is formed by pouring, leveling and scientific maintenance through the production line, the production automation degree is high, and the specifications and varieties are multiple. The hollow strip board is made of light inorganic composite materials such as ceramsite and the like as light aggregates and added with external admixtures such as fly ash, slag and the like, and is a light ceramsite partition board. The product has the characteristics of light weight, high strength, fire prevention, sound insulation, heat preservation and the like, does not contain any harmful substance, and is green and environment-friendly. The material is suitable for projects such as frames, multi-storey buildings, high-rise buildings, old house reconstruction and the like, and is an ideal wall body matching material for fabricated buildings.

The existing light ceramsite plate molding and cutting equipment directly performs casting molding on a veneer during casting molding, then the molded veneer is cut into a length meeting the requirement, the molding efficiency is low, and if the whole mold capable of being cut into a plurality of veneers is formed in one step, the existing cutting device can not meet the cutting requirement, so the light ceramsite plate molding and cutting equipment is needed to be provided to solve the existing problems.

Disclosure of Invention

In view of this, the utility model provides a light haydite board moulding cutting equipment to solve the problem that exists among the background art.

In order to solve the technical problem, the utility model provides a light haydite board moulding cutting equipment, include:

the molding mechanism comprises a mold box for molding, the inner wall of the mold box is flat and smooth, and the whole mold molded by the mold box can be cut into at least two single plates;

the first cutting mechanism is used for cutting the whole die formed by the die box into a plurality of single plates, and comprises a first cutting conveyor for conveying the whole die, first cutting supports arranged on two sides of the first cutting conveyor, and a first cutting assembly arranged on the first cutting supports and used for cutting the whole die during conveying;

the second cutting mechanism comprises a second cutting conveyor for conveying the veneer, second cutting supports arranged on two sides of the second cutting conveyor, a second trimming component arranged on the second cutting supports and used for trimming the veneer, and a second forming component arranged on the second cutting supports and used for grooving and tenoning the trimmed veneer.

Furthermore, the first cutting assembly comprises a first cutting shaft rotatably arranged on the first cutting support, a first cutting driving motor arranged on the first cutting support and used for driving the first cutting shaft to rotate by taking the central axis of the first cutting shaft as the center, and a plurality of first cutting discs uniformly sleeved on the first cutting shaft, coaxially rotating with the first cutting shaft and cutting the whole die into single plates.

Furthermore, the second trimming component comprises a second trimming shaft rotatably arranged on the second cutting support, a second trimming driving motor arranged on the second cutting support and used for driving the second trimming shaft to rotate by taking the central axis of the second trimming shaft as the center, and two second trimming disks which are sleeved on the second trimming shaft, coaxially rotate with the second trimming shaft and perform trimming on two ends of the veneer.

Furthermore, the second forming assembly comprises two second forming shafts rotatably arranged on the inner walls of the side walls of the two sides of the second cutting support, a second forming driving motor arranged on the second cutting support and used for driving the second forming shafts to rotate by taking the central axis of the second forming shafts as the center, and a second forming blade group which is sleeved on the second forming shafts, coaxially rotates with the second forming shafts and performs grooving and tenoning on the two ends of the veneer.

Furthermore, the molding mechanism comprises a transport trolley, the mold box is arranged on the transport trolley, and the mold box comprises a box body which is arranged on the transport trolley and has an upward opening, and a plurality of plug pins which are detachably arranged in the box body.

Furthermore, the inserting drill rod is arranged in the box body along the vertical direction or the horizontal direction.

Furthermore, a correcting mechanism for correcting the conveyed veneer to avoid the veneer from being inclined is arranged on the second cutting mechanism.

Furthermore, the correcting mechanism comprises a correcting wheel component which is arranged on the side wall of one side of the second cutting support and is in rolling contact with the conveyed veneer, and a horizontal pushing component which is arranged on the side wall of the other side of the second cutting support and is used for pushing the conveyed veneer towards the direction close to the correcting wheel component.

Furthermore, revise the wheel subassembly including setting up elastic buffer seat on the second cutting support, rotating the correction gyro wheel that sets up on elastic buffer seat, elastic buffer seat is including setting up mounting panel on the second cutting support, the mount pad of being connected with the mounting panel through a plurality of spring coupling spare, it is connected with the mount pad rotation to revise the gyro wheel.

The above technical scheme of the utility model at least including following beneficial effect:

1. the utility model discloses simple structure, convenient to use, the whole mould that the molding machine constitutes the type and goes out can be cut into two at least veneers, and first cutting mechanism carries out the transportation to the whole mould and cuts into a plurality of veneers with the whole mould branch, and the second conveying mechanism carries out edge cutting, fluting, tenoning to the veneer when carrying out one by one to the veneer, makes light haydite board accord with the production requirement, and the molding is efficient, and the cutting process links up high-efficiently, and production efficiency is high;

2. the molding mechanism comprises a transport trolley, a mold box is arranged on the transport trolley, the mold box comprises a box body which is arranged on the transport trolley and has an upward opening, and a plurality of inserting drill rods which are detachably arranged in the box body, and a whole mold which can be cut into a plurality of single plates can be molded in one step by pouring materials into the box body, so that the operation is convenient, the molding efficiency is high, and the production efficiency is high;

3. the correcting mechanism is arranged to correct the single plates in conveying so as to avoid the single plates from being skewed, prevent the single plates from being skewed in the conveying process to influence the normal operation of the trimming process, and improve the yield.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the molding mechanism of the present invention;

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

FIG. 4 is a schematic cross-sectional view taken along the line A-A in FIG. 2;

fig. 5 is a schematic structural diagram of the first cutting mechanism of the present invention;

fig. 6 is a schematic structural view of a second cutting mechanism of the present invention;

FIG. 7 is a left side view of FIG. 6;

FIG. 8 is a right side view of FIG. 6;

fig. 9 is an enlarged schematic view of a portion B in fig. 7.

In the figure:

1. a molding mechanism; 101. transporting the trolley; 102. a box body; 103. a frame plate; 104. inserting a drill rod; 105. a limiting sleeve member;

2. a blank plate transfer portal frame;

3. a first cutting mechanism; 301. a first cutting conveyor; 302. a first cutting support; 303. a first cutting drive motor; 304. a first cutting drive pulley; 305. a first cutting shaft; 306. a first cutting driven pulley; 307. a first cutting disc;

4. a hoist;

5. a collective conveyor;

6. turning over a plate machine;

7. transferring the portal frame by the single plate;

8. a second cutting mechanism; 801. a second cutting support; 802. a second trimming drive motor; 803. a second trimming drive pulley; 804. a second trimming driven pulley; 805. a second trimming shaft; 806. a second trimming disk; 807. a second molding drive motor; 808. a second forming drive pulley; 809. a second forming driven pulley; 810. a second forming shaft; 811. a second forming blade set;

9. a correction mechanism; 901. a telescoping member; 902. pushing the plate; 903. mounting a plate; 904. a screw; 905. a buffer spring; 906. a mounting seat; 907. and (6) correcting the roller.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 9 of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be derived from the description of the embodiments of the present invention by a person skilled in the art, are within the scope of the present invention.

A light ceramsite plate molding and cutting equipment comprises:

the forming mechanism 1 comprises a mould box for forming a mould, the inner wall of the mould box is flat and smooth, and the whole mould formed by the mould box can be cut into at least two single plates;

the first cutting mechanism 3 is used for cutting the whole die formed by the die box into a plurality of single plates, and the first cutting mechanism 3 comprises a first cutting conveyor 301 for conveying the whole die, first cutting supports 302 arranged on two sides of the first cutting conveyor 301, and a first cutting assembly arranged on the first cutting supports 302 and used for cutting the whole die in conveying;

the second cutting mechanism 8 includes a second cutting conveyor for conveying the veneer, a second cutting support 801 disposed on two sides of the second cutting conveyor, a second trimming assembly disposed on the second cutting support 801 and used for trimming the veneer, and a second forming assembly disposed on the second cutting support 801 and used for grooving and tenoning the trimmed veneer.

Specifically, as shown in fig. 1 to 9, a light ceramsite plate molding and cutting device comprises:

the molding mechanism 1, the molding mechanism 1 includes the mould case used for moulding, the inner wall of the mould case is smooth, the whole mould that the mould case shapes can be cut into ten single-boards;

the first cutting mechanism 3 is used for cutting the whole die formed by the die box into a plurality of single plates, and the first cutting mechanism 3 comprises a first cutting conveyor 301 for conveying the whole die, first cutting supports 302 arranged on two sides of the first cutting conveyor 301, and a first cutting assembly arranged on the first cutting supports 302 and used for cutting the whole die in conveying;

the second cutting mechanism 8, the second cutting mechanism 8 includes a second cutting conveyor for conveying the veneer, a second cutting support 801 installed on both sides of the second cutting conveyor, a second trimming assembly installed on the second cutting support 801 and used for trimming the veneer, and a second forming assembly installed on the second cutting support 801 and used for grooving and tenoning the trimmed veneer.

The utility model discloses simple structure, convenient to use, the whole mould that molding mechanism 1 shaping goes out can be cut into two at least veneers, and first cutting mechanism 3 is cut into a plurality of veneers with the whole mould branch when carrying out the transport to the whole mould, and second conveying mechanism carries out side cut, fluting, tenoning to the veneer when carrying out carrying one by one to the veneer and handles for light haydite board accords with the production requirement, and the molding is efficient, and cutting process links up the high efficiency, and production efficiency is high.

According to an embodiment of the present invention, as shown in fig. 5, the first cutting assembly includes a first cutting shaft 305 rotatably disposed on the first cutting support 302, a first cutting driving motor 303 disposed on the first cutting support 302 and used for driving the first cutting shaft 305 to rotate around its central axis, and a plurality of first cutting discs 307 uniformly sleeved on the first cutting shaft 305 and coaxially rotating with the first cutting shaft 305 and cutting the whole die into a single plate.

Specifically, the whole mold in the mold box is demolded by a stripper and then transferred to a first cutting conveyor 301 via a slab transfer gantry 2, the first cutting conveyor 301 being a belt conveyor of the related art. The first cutting support 302 is positioned at two sides of the first cutting conveyor 301, the first cutting shaft 305 is rotatably installed at the top of the first cutting support 302 through a bearing seat and a bearing along the horizontal direction, a first cutting driven pulley 306 is fixedly sleeved at one end of the first cutting shaft 305, a first cutting driving motor 303 is installed on the first cutting support 302, a first cutting driving pulley 304 is fixedly sleeved at the output end of the first cutting driving motor 303, and a first cutting driving belt is sleeved on the first cutting driving pulley 304 and the first cutting driven pulley 306 in a transmission manner. When the first cutting conveyor 301 conveys the whole die, the first cutting driving motor 303 works to drive the first cutting shaft 305 to rotate, eleven first cutting discs 307 simultaneously cut the whole die in conveying, and the whole die is cut into ten equal parts, namely ten veneers with the same specification. The cutting process is stable and reliable in driving and high in cutting efficiency.

According to another embodiment of the present invention, as shown in fig. 6-8, the second trimming assembly comprises a second trimming shaft 805 rotatably disposed on the second cutting support 801, a second trimming driving motor 802 disposed on the second cutting support 801 and used for driving the second trimming shaft 805 to rotate around the central axis thereof, and two second trimming discs 806 sleeved on the second trimming shaft 805 and coaxially rotated with the second trimming shaft 805 and used for trimming the two ends of the veneer.

Further, the second forming assembly includes two second forming shafts 810 rotatably disposed on the inner walls of the side walls of the two sides of the second cutting support 801, a second forming driving motor 807 disposed on the second cutting support 801 and used for driving the second forming shafts 810 to rotate around the central axis thereof, and a second forming blade set 811 sleeved on the second forming shafts 810 and coaxially rotating with the second forming shafts 810 and grooving and tenoning the two ends of the veneer.

Specifically, the cut veneers collectively pass through a lifting machine 4 and a collective conveyor 5, then are turned over through a panel turnover machine 6, and are transferred to a second cutting mechanism 8 one by one through a veneer transfer gantry 7. The second cutting mechanism 8 includes a second cutting conveyor, and second cutting brackets 801 are mounted on both sides of the second cutting conveyor. A second trimming shaft 805 is horizontally installed on the top of the second cutting support 801, and both ends of the second trimming shaft 805 are rotatably connected to the top of the second cutting support 801 through a bearing block and a bearing. The second trimming driving motor 802 is installed on the second cutting support 801, a second trimming driving pulley 803 is fixedly sleeved at the output end of the second trimming driving motor 802, a second trimming driven pulley 804 is fixedly sleeved at the end part of a second trimming shaft 805, and a second trimming driving belt is sleeved on the second trimming driving pulley 803 and the second trimming driven pulley 804 in a transmission manner. The outer walls of two side walls of the second cutting support 801 are respectively provided with a second forming driving motor 807, the output end of the second forming driving motor 807 faces upwards vertically and is fixedly sleeved with a second forming driving pulley 808, correspondingly, the inner walls of the two side walls of the second cutting support 801 are provided with a second forming shaft 810 along the vertical direction, each second forming shaft 810 is rotatably connected with the inner wall of the side wall of the second cutting support 801 through two bearing blocks and two bearings, the top of each second forming shaft 810 is fixedly sleeved with a second forming driven pulley 809, the second forming driving pulley 808 and the second forming driven pulley 809 are in transmission sleeved with a second forming belt, and the second forming shaft 810 is fixedly sleeved with a second forming cutter blade group 811 which corresponds to the end part of a single plate in conveying and is used for grooving and tenoning. The second cutting conveyor is also a prior art belt conveyor. When the second cutting conveyor conveys the veneer, the first cutting driving motor 303 and the second forming driving motor 807 both work to respectively drive the second trimming shaft 805 and the second forming shaft 810 to rotate, so that the two second trimming disks 806 trim the veneer during conveying, and the second forming blade group 811 performs corresponding grooving and tenoning on the trimmed veneer during conveying. The driving is stable and reliable, and the efficiency is high.

In an embodiment of the present invention, as shown in fig. 2-4, the molding mechanism 1 includes a transportation cart 101, and the mold box is installed on the transportation cart 101, and the mold box includes a box body 102 installed on the transportation cart 101 and having an upward opening, and a plurality of plug pins 104 evenly detachably installed in the box body 102.

Further, the plug pins 104 are disposed in the box body 102 in a vertical direction or a horizontal direction.

Specifically, the box 102 is connected at the top of travelling bogie 101, the top of box 102 is open, frame plate 103 is installed at the top of box 102, frame plate 103 is frame type platelike structure, can not hinder to pour the material and get into in the box 102, evenly runs through on the frame plate 103 and sets up a plurality of jacks, inserts borer 104 and inserts in the jack and be located in the box 102 along vertical direction. The plug pin 104 is sleeved with a limiting sleeve 105, the limiting sleeve 105 comprises a lantern ring and an inclined rod, the lantern ring is sleeved on the plug pin 104, the outer diameter of the lantern ring is larger than the diameter of the jack, the inclined rod is connected with the outer side wall of the lantern ring, the lantern ring plays a limiting role, the inclined rod is convenient for a worker to hold and insert and pull the plug pin 104, and the operation is more convenient and faster; in another embodiment, the insertion holes are uniformly formed through the side wall of the box body 102, and the insertion pins 104 are inserted into the insertion holes in the horizontal direction and positioned inside the box body 102.

In another embodiment of the present invention, as shown in fig. 7 and 9, the second cutting mechanism 8 is provided with a correcting mechanism 9 for correcting the conveyed veneer to avoid the veneer from being skewed.

Further, the correcting mechanism 9 includes a correcting wheel assembly disposed on one side wall of the second cutting support 801 and in rolling contact with the veneer in conveyance, and a horizontal pushing assembly disposed on the other side wall of the second cutting support 801 and configured to push the veneer in conveyance toward the direction approaching the correcting wheel assembly.

Further, the correction wheel assembly comprises an elastic buffer seat arranged on the second cutting support 801 and a correction roller 907 rotatably arranged on the elastic buffer seat, the elastic buffer seat comprises an installation plate 903 arranged on the second cutting support 801 and an installation seat 906 connected with the installation plate 903 through a plurality of spring connecting pieces, and the correction roller 907 is rotatably connected with the installation seat 906.

Specifically, the correction wheel assembly is installed at the top of one side of the second cutting conveyor, the mounting plate 903 is welded at the top of one side of the second cutting conveyor, the mounting plate 903 is provided with a through hole, the screw 904 is penetrated and installed in the through hole, one end of the screw 904, which is far away from the second cutting conveyor, is connected with a nut in a threaded manner, the other end of the screw 904 is welded with the mounting seat 906, the screw 904 is movably sleeved with a buffer spring 905, the buffer spring 905 is located between the mounting plate 903 and the mounting seat 906, and the correction roller 907 is rotatably installed at one side, which is close to the second cutting conveyor, of the mounting seat 906. The horizontal pushing assembly comprises an expansion part 901 arranged on the second cutting support 801 in the horizontal direction and a push plate 902 arranged at one end of the expansion part 901 close to the second cutting conveyor, wherein the expansion part 901 can adopt an air cylinder or an electric push rod, and the purpose is to horizontally push the push plate 902, so that the push plate 902 pushes the single plates in conveying, and the phenomenon that the edge cutting effect is influenced by the deflection of the baffle is avoided.

The utility model discloses a theory of operation: the forming mechanism 1 pours and forms a whole die, then pulls out the drill rod, the whole die is transported into a curing kiln (prior art) through a ferry vehicle for curing, the cured whole die is transported out of the curing kiln through the ferry vehicle, is demoulded through a demoulder, is transferred to a first cutting mechanism 3 through a slab transfer portal frame 2, the whole die is cut into a plurality of single boards while being transported by the first cutting mechanism 3, then is transported by a lifter 4 and a bulk transport machine 5, is turned over by a panel turnover machine 6, then is transferred one by one through a single board transfer portal frame 7, the single boards are transferred one by one to a second cutting mechanism 8, the single boards are cut edge firstly while being transported by the second cutting mechanism 8, then are subjected to slotting and tenoning forming cutting at two ends of the single boards, and finally the single boards become the light ceramsite partition board which meets the production standard. The utility model discloses simple structure, convenient to use, the whole mould that molding mechanism 1 formed can be cut into two at least veneers separately, and first cutting mechanism 3 carries out the whole mould and cuts into a plurality of veneers with the whole mould branch when carrying out the whole mould, and the second conveying mechanism carries out side cut, fluting, tenoning to the veneer when carrying out one by one to the veneer, makes light haydite board accord with the production requirement, and the molding efficiency is high, and the cutting process is coherent high-efficient, and production efficiency is high; the molding mechanism 1 comprises a transport trolley 101, a mold box is arranged on the transport trolley 101, the mold box comprises a box body 102 which is arranged on the transport trolley 101 and has an upward opening, and a plurality of inserting drill rods 104 which are detachably arranged in the box body 102, and a whole mold which can be cut into a plurality of single plates can be molded at one time in a manner of pouring materials into the box body 102, so that the operation is convenient, the molding efficiency is high, and the production efficiency is high; the correcting mechanism 9 is arranged to correct the single plates in conveying so as to avoid the single plates from being skewed, prevent the single plates from being skewed in the conveying process to influence the normal operation of the edge cutting process, and improve the yield.

In the present invention, unless otherwise explicitly specified or limited, for example, it may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a light haydite board moulding cutting equipment which characterized in that includes:

the forming mechanism (1) comprises a mould box for forming a mould, the inner wall of the mould box is flat and smooth, and the whole mould formed by the mould box can be cut into at least two single plates;

the cutting device comprises a first cutting mechanism (3), a second cutting mechanism (3) and a third cutting mechanism, wherein the first cutting mechanism (3) is used for cutting a whole die formed by a die box into a plurality of single plates, and comprises a first cutting conveyor (301) used for conveying the whole die, first cutting supports (302) arranged on two sides of the first cutting conveyor (301), and a first cutting assembly arranged on the first cutting supports (302) and used for cutting the whole die in conveying;

the second cutting mechanism (8) comprises a second cutting conveyor for conveying the veneer, second cutting supports (801) arranged on two sides of the second cutting conveyor, a second edge cutting assembly arranged on the second cutting supports (801) and used for cutting edges of the veneer, and a second forming assembly arranged on the second cutting supports (801) and used for grooving and tenoning the veneer after edge cutting.

2. The light ceramsite plate molding and cutting equipment according to claim 1, wherein the first cutting assembly comprises a first cutting shaft (305) rotatably disposed on the first cutting support (302), a first cutting driving motor (303) disposed on the first cutting support (302) and used for driving the first cutting shaft (305) to rotate around a central axis thereof, and a plurality of first cutting discs (307) uniformly sleeved on the first cutting shaft (305) and coaxially rotating with the first cutting shaft (305) and cutting the whole die into single plates.

3. The light ceramsite plate molding and cutting equipment according to claim 1, wherein the second trimming assembly comprises a second trimming shaft (805) rotatably arranged on the second cutting support (801), a second trimming driving motor (802) arranged on the second cutting support (801) and used for driving the second trimming shaft (805) to rotate around the central axis thereof, and two second trimming disks (806) sleeved on the second trimming shaft (805) and coaxially rotating with the second trimming shaft (805) and trimming two ends of the single plate.

4. The light ceramsite plate molding and cutting equipment according to claim 1, wherein the second molding assembly comprises two second molding shafts (810) rotatably arranged on the inner walls of the two side walls of the second cutting support (801), a second molding driving motor (807) arranged on the second cutting support (801) and used for driving the second molding shafts (810) to rotate around the central axis thereof, and a second molding blade group (811) sleeved on the second molding shafts (810) and coaxially rotating with the second molding shafts (810) and grooving and tenoning two ends of a single plate.

5. The light-weight ceramsite plate molding and cutting equipment according to any one of claims 1-4, wherein the molding mechanism (1) comprises a transport trolley (101), the mold box is arranged on the transport trolley (101), the mold box comprises a box body (102) which is arranged on the transport trolley (101) and has an upward opening, and a plurality of plug pins (104) which are detachably arranged in the box body (102).

6. The molding and cutting equipment for light-weight ceramsite plate according to claim 5, wherein the insert pins (104) are vertically or horizontally arranged in the box body (102).

7. The light-weight ceramsite plate molding and cutting equipment according to any one of claims 1-4, wherein the second cutting mechanism (8) is provided with a correcting mechanism (9) for correcting the conveyed veneers to avoid the veneers from being skewed.

8. The light-weight ceramsite plate molding and cutting equipment according to claim 7, wherein the correcting mechanism (9) comprises a correcting wheel assembly which is arranged on one side wall of the second cutting bracket (801) and is in rolling contact with the conveyed veneer, and a horizontal pushing assembly which is arranged on the other side wall of the second cutting bracket (801) and is used for pushing the conveyed veneer towards the direction close to the correcting wheel assembly.

9. The light ceramsite plate molding and cutting equipment according to claim 8, wherein the correction wheel assembly comprises an elastic buffer seat arranged on the second cutting bracket (801), and a correction roller (907) rotatably arranged on the elastic buffer seat, the elastic buffer seat comprises a mounting plate (903) arranged on the second cutting bracket (801), and a mounting seat (906) connected with the mounting plate (903) through a plurality of spring connectors, and the correction roller (907) is rotatably connected with the mounting seat (906).

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