CN111805693B

CN111805693B - Integrated house wallboard integral forming equipment

Info

Publication number: CN111805693B
Application number: CN202010702671.8A
Authority: CN
Inventors: 周兴和; 张清明
Original assignee: Chengdu Xinghe Qifang Integrated Housing Co ltd
Current assignee: Chengdu Xinghe Qifang Integrated Housing Co ltd
Priority date: 2020-07-21
Filing date: 2020-07-21
Publication date: 2021-11-05
Anticipated expiration: 2040-07-21
Also published as: CN111805693A

Abstract

The invention discloses integrated house wallboard integral forming equipment, relates to the technical field of integrated house part production, and provides integrated house wallboard integral forming equipment capable of producing an improved integrated house wallboard in the background technology. The integrated house wallboard integral forming equipment adds a first moving device and a frame laying device on the basis of an integrated house component production machine disclosed in the patent application with the application number of 201910574395.9; the number of the first moving devices is two, the two first moving devices are respectively positioned outside two ends of the die seat, and the first moving devices are arranged along the width direction of the die seat; the frame laying device comprises a frame box, a first cross beam, a frame taking device and a lifting device, wherein the frame box is located on one side of the mold base, the first cross beam strides across the mold base along the length direction of the mold base, two ends of the first cross beam are connected with the two first moving devices through the lifting device respectively, and the frame taking device is connected with the first cross beam.

Description

Integrated house wallboard integral forming equipment

Technical Field

The invention relates to the technical field of integrated house part production, in particular to integrated house wallboard integral forming equipment.

Background

ZL201510469484.9 discloses an integrated house wallboard, and this integrated house wallboard includes two surface course modules and sets up horizontal module in the middle and the vertical module in the middle between two surface course modules, forms a plurality of blank between horizontal module in the middle and the vertical module in the middle, and the blank packs the insulation material in.

When the integrated house wallboard is manufactured, two surface layer modules, a plurality of middle transverse modules and a plurality of middle longitudinal modules are required to be manufactured respectively; then, one surface layer module is laid flat; then, placing the middle transverse modules and the middle longitudinal modules on the surface layer module and coating adhesive connecting materials at the connecting positions; after the connecting material is solidified, putting the heat-insulating material into the blank; then coating connecting materials on the top surfaces of the middle transverse modules and the middle longitudinal modules, and covering another surface layer module; and finishing the manufacture of the integrated house wallboard after the connecting material is solidified.

The integrated house wallboard can be manufactured by manually matching with some conventional equipment. However, the number of the middle transverse modules and the middle longitudinal modules of the integrated house wallboard is large, the number of the connecting positions is correspondingly large, and the arrangement of the middle transverse modules and the middle longitudinal modules and the coating of connecting materials at the connecting positions need a large amount of labor and are long in time consumption. However, if the efficiency is to be improved and the labor intensity of workers is to be reduced, it is very difficult to mechanically place the middle transverse module and the middle longitudinal module and paint the connecting material.

In order to facilitate the mechanized production of integrated house wall panels, the applicant intends to improve the structure of the integrated house wall panels disclosed in ZL 201510469484.9. As shown in fig. 1 to 3 in particular, the middle transverse module and the middle longitudinal module are integrated into a wall panel middle layer. The wallboard intermediate level includes a plurality of wallboard frames, and each wallboard frame interval sets up, and wallboard frame inner space is used for holding insulation material, fills wall body material between the wallboard frame, wraps up wall body material around the wall body frame. The wallboard frame is provided with a frame positioning body used for ensuring the spacing distance between the adjacent wallboard frames and the distance between the wallboard frame and the production mold.

The patent application No. 201910574395.9 discloses an integrated house component production machine that is capable of mechanically producing face modules, but not the entire integrated house wall panel.

The present patent application is directed to an apparatus for producing the improved integrated house wall panel.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: an integrated house wallboard integral forming device capable of producing the improved integrated house wallboard in the background technology is provided.

The technical scheme adopted for solving the problems is as follows: the integrated house wallboard integral forming equipment comprises a mould seat, a guide frame, a second moving device, a wallboard material laying device, a wood board strip laying device and a glass fiber wire laying device; the guide frame is arranged along the length direction of the die seat and corresponds to the die seat, the second moving devices are matched with the guide frame, and the number of the second moving devices is three; the wallboard material laying device comprises a wallboard material output pipe, and the wallboard material output pipe, the batten laying device and the glass fiber wire laying device are respectively connected with the three second moving devices;

the mould comprises a mould seat, and is characterized by further comprising two first moving devices and a framework laying device, wherein the two first moving devices are respectively positioned outside two ends of the mould seat and arranged along the width direction of the mould seat;

the frame laying device comprises a frame box, a first cross beam, a frame taking device and a lifting device, wherein the frame box is located on one side of the mold base, the first cross beam strides across the mold base along the length direction of the mold base, two ends of the first cross beam are connected with the two first moving devices through the lifting device respectively, and the frame taking device is connected with the first cross beam.

Further, the method comprises the following steps: the frame device of taking is including the device frame of taking and two shoring structures, the device frame of taking is connected with first crossbeam, the shoring structure sets up along mould seat width direction, two shoring structure symmetries set up, the shoring structure is including shoring the telescopic link, the fagging, the elastic backing plate, two uide bushings and two guide bars, two uide bushings are located the shoring telescopic link both sides, uide bushing and shoring telescopic link all are connected with the device frame of taking, the guide bar sets up with uide bushing one-to-one and cooperation, the fagging is connected with the outer end of shoring telescopic link and guide bar, the elastic backing plate is connected with the fagging.

Further, the method comprises the following steps: the first moving device is a linear guide rail sliding table, and the lifting device and the top support telescopic rod are electric push rods.

Further, the method comprises the following steps: the first mobile device is provided with a telescopic protective sleeve.

Further, the method comprises the following steps: the mould seat comprises a mould supporting plate and a vibration driving motor, and the vibration driving motor is positioned below the mould supporting plate; the wallboard material laying apparatus includes a wallboard material container and a wallboard material pump, which are located outside the first moving device.

Further, the method comprises the following steps: the frame take off device is movable along the first beam to adjust position.

Further, the method comprises the following steps: the frame box comprises two bottom beams and two frame limiting structures; the bottom beams are arranged along the width direction of the die seat, and the two bottom beams are arranged at intervals along the length direction of the die seat; the frame limiting structure comprises a second cross beam, two end limiting structures and a plurality of side limiting structures, the second cross beam is arranged along the length direction of the die holder, two ends of the second cross beam are respectively connected with the two bottom beams, the second cross beam can move along the bottom beams to adjust the position, the end limiting structures are connected with the second cross beam and can move along the second cross beam to adjust the position, each end limiting structure comprises an end limiting plate, the side limiting structures are arranged between the two end limiting structures, the side limiting structures are connected with the second cross beam and can move along the second cross beam to adjust the position, and each side limiting structure comprises a frame supporting plate and a side limiting plate; two frame limit structure symmetry sets up.

The invention has the beneficial effects that: the invention can lay the wallboard material, wood lath, glass fiber yarn and wallboard frame of the integrated house wallboard, and can vibrate to compact and level the wallboard material; i.e. all structures of integrated house wall panels can be laid by the present invention, except for laying insulation. According to the wallboard structure, lay integrated house wallboard structure from bottom to top in order to artificially lay insulation material or vibrate when needing, can accomplish all structures of integrated house wallboard and lay. Therefore, the integrated house wallboard can be integrally formed by matching a small amount of labor, the production efficiency of the integrated house wallboard can be improved, and the labor intensity of workers is reduced.

Drawings

FIG. 1 is a diagram of an integrated house wall panel configuration;

FIG. 2 is an enlarged partial view of an integrated house wall panel;

FIG. 3 is a view of the laying of the wallboard frame;

FIG. 4 is a front view of an integrated house wall panel integral forming device

FIG. 5 is a top view of the integrated house wall panel integral forming apparatus;

FIG. 6 is an integrated house wallboard integral forming device

FIG. 7 is an enlarged view of the frame laying apparatus of FIG. 5;

FIG. 8 is a cross-sectional view A-A of FIG. 6;

FIG. 9 is a view of an adjustable frame box;

FIG. 10 is a cross-sectional view B-B of FIG. 9;

FIG. 11 is a diagram illustrating an adjusted structure of the adjustable frame box;

FIG. 12 is a view of the structure and arrangement of the retractable protective cover;

labeled as: the device comprises a mold base 1, a mold supporting plate 1-1, a vibration driving motor 1-2, a first moving device 2, a telescopic protective sleeve 2-1, a frame laying device 3, a frame box 3-1, a bottom beam 3-1-1, a second beam 3-1-2, an end limiting structure 3-1-3, an end limiting plate 3-1-3-1, an end limiting structure sleeve 3-1-3-2, a side limiting structure 3-1-4, a side limiting plate 3-1-4-1, a frame supporting plate 3-1-4-2, a side limiting structure sleeve 3-1-4-3, a first beam 3-2, a frame taking device 3-3, a taking device frame 3-3-1, a top supporting structure 3-3-2, a telescopic protective sleeve 2-1, a frame laying device 3, a frame box 3-1, a bottom beam 3-4-2, a side limiting structure sleeve 3-3-4-3, a side limiting structure sleeve 3-3, a side supporting plate 3-2, a side supporting device and a side supporting plate, 3-3-2-1 part of top bracing telescopic rod, 3-3-2-2 parts of guide sleeve, 3-3-2-3 parts of guide rod, 3-3-2-4 parts of top bracing plate, 3-3-2-5 parts of elastic base plate, 3-4 parts of lifting device, 4 parts of wallboard material laying device, 4-1 parts of wallboard material container, 4-2 parts of wallboard material pump, 4-3 parts of wallboard material output pipe, 5 parts of guide frame and 6 parts of second moving device, the integrated house wall plate comprises a wood plate strip laying device 7, a glass fiber wire laying device 8, a control device 9, a mold 10, an integrated house wall plate 11, wall plate materials 11-1, wood plate strips 11-2, glass fiber wires 11-3, a wall plate frame 11-4, a frame positioning body 11-4-1 and heat insulation materials 11-5.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

The integrated house wallboard integral forming equipment comprises a mould base 1, a guide frame 5, a second moving device 6, a wallboard material laying device 4, a wood lath laying device 7 and a glass fiber wire laying device 8; the guide frame 5 is arranged along the length direction of the die seat 1 and corresponds to the die seat 1 in position, the second moving devices 6 are matched with the guide frame 5, and the number of the second moving devices 6 is three; the wallboard material laying device 4 comprises a wallboard material output pipe 4-3, and the wallboard material output pipe 4-3, the batten laying device 7 and the glass fiber wire laying device 8 are respectively connected with the three second moving devices 6; the mould is characterized by further comprising two first moving devices 2 and a frame laying device 3, wherein the two first moving devices 2 are respectively positioned outside two ends of the mould seat 1, and the first moving devices 2 are arranged along the width direction of the mould seat 1; the frame laying device 3 comprises a frame box 3-1, a first cross beam 3-2, a frame taking device 3-3 and a lifting device 3-4, wherein the frame box 3-1 is located on one side of a mold base 1, the first cross beam 3-2 is arranged across the mold base 1 along the length direction of the mold base 1, two ends of the first cross beam 3-2 are respectively connected with two first moving devices 2 through the lifting device 3-4, and the frame taking device 3-3 is connected with the first cross beam 3-2.

The present invention is a further improvement to the integrated building element production machine disclosed in the patent application No. 201910574395.9. The mould base 1, the guide frame 5, the second moving device 6, the wall panel material laying device 4, the wood lath laying device 7 and the glass fibre thread laying device 8 may all be identical to the integrated house component production machine disclosed in the patent application No. 201910574395.9. Like the integrated house component production machine disclosed in the patent application No. 201910574395.9 and other conventional machines, the present invention is just as simple as if the control device 9 should be included conventionally, and the control device 9 should be structured like the control device of the integrated house component production machine disclosed in the patent application No. 201910574395.9, except that the control device 9 needs to be electrically connected to the frame-laying device 3 and a control program is added accordingly.

It should be noted that the wallboard material of the integrated house wallboard disclosed in ZL201510469484.9 has glass fiber yarns 11-3, and in order to facilitate the transportation of the wallboard material 11-1 by the wallboard material laying device 4, the wallboard material 11-1 of the integrated house wallboard 11 produced by the present invention does not contain the glass fiber yarns 11-3, but is replaced by laying the glass fiber yarns 11-3.

The steps of using the present invention to integrally form the integrated house wall panel 11 shown in fig. 1 to 3 are as follows: A. arranging a mould 10 on the mould seat 1; B. starting the wallboard material laying device 4 to lay a layer of wallboard material 11-1, and vibrating the mould seat 1 to compact and level the wallboard material 11-1; C. starting the batten laying device 7 to lay a layer of batten 11-2; D. starting the wallboard material laying device 4 to lay a layer of wallboard material 11-1, and vibrating the mould seat 1 to compact and level the wallboard material 11-1; E. starting the glass fiber yarn laying device 8 to lay a layer of glass fiber yarns 11-3; F. starting the wallboard material laying device 4 to lay a layer of wallboard material 11-1, and vibrating the die base 1 to compact and level the wallboard material 11-1 to finish laying of a lower surface layer structure of the wallboard; G. starting the frame laying device 3 to lay the wallboard frame 11-4; H. starting the wallboard material laying device 4 to fill the wallboard material 11-1 in the gaps between the wallboard frames 11-4 and the mould 10, and vibrating the mould base 1 to compact and level the wallboard material 11-1; I. manually filling the wallboard frame 11-4 with heat insulation materials 11-5; J. and D, repeating the steps B to F to finish the laying of the upper surface layer structure of the wallboard.

According to the structural design of the upper layer and the lower layer of the wallboard, if two layers of wood laths 11-2 or two layers of glass fiber yarns 11-3 exist, relevant steps are correspondingly added.

When the integrated house wallboard integral forming equipment operates, obviously, all parts should not interfere with each other, as shown in fig. 5, when the framework laying device 3 operates, the wallboard material output pipe 4-3 is positioned at the leftmost side, and the wood lath laying device 7 and the glass fiber wire laying device 8 are positioned at the rightmost side. When the wall material laying device 4 is in operation, the frame laying device 3 is located at the upper side as shown in fig. 5, and the batten laying device 7 and the fiberglass laying device 8 are located at the rightmost side. When the batten laying device 7 is in operation, the frame laying device 3 is positioned at the upper side shown in fig. 5, and the wallboard material output pipes 4-3 and the glass fiber wire laying device 8 are respectively positioned at the left side and the right side. When the fiberglass laying device 8 is in operation, the frame laying device 3 is located at the upper side as shown in fig. 5, and the wallboard material delivery tubes 4-3 and the batten laying device 7 are located at the leftmost side.

As mentioned before, the mould base 1 may be identical to the corresponding structure of the integrated house component production machine disclosed in the patent application No. 201910574395.9, comprising a mould pallet 1-1 and a vibration drive motor 1-2. However, since the mold 10 needs to be input and output from the lower side as shown in fig. 5 during the production of the present invention, in order to prevent the vibration driving motor 1-2 from interfering with the input and output of the mold 10, the vibration driving motor 1-2 is preferably located below the mold pallet 1-1 in the present invention. As previously mentioned, the wallboard material laying apparatus 4 may be the same as the corresponding structure of the integrated house component manufacturing machine disclosed in the patent application No. 201910574395.9, i.e., including the wallboard material container 4-1, the wallboard material pump 4-2 and the wallboard material delivery pipe 4-3, and in order to avoid interference with the operation of the wallboard material delivery pipe 4-3, it is preferable that the wallboard material container 4-1 and the wallboard material pump 4-2 are located outside the first moving apparatus 2.

Step G of the step of integrally forming the integrated house wall panel 11 shown in fig. 1 to 3 by using the present invention specifically includes the following steps: g1, preparing, and putting a row of wallboard frames 11-4 into the frame box 3-1; g2, starting the first moving device 2 to drive the frame laying device 3 to move, and enabling the frame taking device 3-3 to move to a position corresponding to the wallboard frame 11-4; g3, starting the lifting device 3-4 to lower the frame taking device 3-3, and starting the frame taking device 3-3 to take the wallboard frame 11-4; g4, starting the lifting device 3-4 to lift the taking device 3-3, starting the first moving device 2 to drive the frame laying device 3 to move to a laying position, and then starting the frame taking device 3-3 to put down the wallboard frame 11-4, namely finishing the laying of a row of wallboard frames 11-4; g5, repeating the steps G2 to G4, and finishing the laying of all the wallboard frames 11-4.

The specific structure of the frame taking device 3-3 is preferably as shown in fig. 4 and 5, the frame taking device 3-3 comprises a taking device frame 3-3-1 and two top support structures 3-3-2, the taking device frame 3-3-1 is connected with a first cross beam 3-2, the top support structures 3-3-2 are arranged along the width direction of a mold base 1, the two top support structures 3-3-2 are symmetrically arranged, the top support structures 3-3-2 comprise top support telescopic rods 3-3-2-1, top support plates 3-3-2-4, elastic cushion plates 3-3-2-5, two guide sleeves 3-3-2-2 and two guide rods 3-3-2-3, the two guide sleeves 3-3-2-2 are positioned at the top support telescopic rods 3-3-2-1, guide sleeves 3-3-2-2 and top support telescopic rods 3-3-2-1 are connected with a taking device frame 3-3-1, guide rods 3-3-2-3 and 3-3-2-2 are arranged in a one-to-one correspondence and matched mode, top support plates 3-3-2-4 are connected with the outer ends of the top support telescopic rods 3-3-2-1 and the outer ends of the guide rods 3-3-2-3, and elastic base plates 3-3-2-5 are connected with the top support plates 3-3-2-4.

The top support telescopic rod 3-3-2-1 extends, the elastic base plate 3-3-2-5 is abutted against the inner surface of the wallboard frame 11-4, and the wallboard frame 11-4 can be taken by means of friction force. The wallboard frame 11-4 is light, the taking mode is very reliable, and the extrusion force between the elastic cushion plate 3-3-2-5 and the wallboard frame 11-4 is not required to be very large, so that the wallboard frame 11-4 is prevented from being damaged. The control of the elongation of the top bracing telescopic rod 3-3-2-1 can also be suitable for wallboard frames 11-4 of various sizes.

The first moving device 2 is preferably an existing linear guide rail sliding table, and the lifting device 3-4 and the jacking telescopic rod 3-3-2-1 are both preferably existing electric push rods. The linear guide rail sliding table specifically comprises a sliding table, a guide rod, a lead screw and a motor, wherein the sliding table is matched with the guide rod and the lead screw, the sliding table and the lead screw form a lead screw nut structure, and the motor drives the lead screw to rotate so as to drive the sliding table to move along the guide rod. The screw nut structure is precise, and the working environment of the invention is easy to cause the screw to be polluted, thereby influencing the normal work of the linear guide rail sliding table. For this purpose, as shown in fig. 12, the first mobile device 2 of the present invention is preferably provided with a telescopic shield 2-1.

The integrated house wall panels 11 have different specifications, and the integrated house wall panels 11 with different specifications are different in the number of the wall panel frames 11-4, so that the integrated house wall panel frame can be further optimized to adapt to the integrated house wall panels 11 with different specifications.

For example, as shown in fig. 6, more frame taking means 3-3 may be provided and the frame taking means 3-3 can be moved along the first beam 3-2 to adjust the position. Therefore, according to the number and the size of the wallboard frames 11-4, the frame taking devices 3-3 with corresponding number are selected and the positions are adjusted, and redundant frame taking devices 3-3 do not work in the production process. The connection of the picker frame 3-3-1 to the first cross member 3-2 may be as shown in fig. 8.

The frame box 3-1 can be only a common rectangular box, and different frame boxes 3-1 can be replaced when the integrated house wallboard 11 with different specifications is produced, but the method is obviously complicated, and various frame boxes 3-1 need to be prepared, so that the method is not economical.

To be able to accommodate the requirements of different sizes of integrated house wall panels 11, the frame box 3-1 is preferably as shown in fig. 9 and 10: the frame box 3-1 comprises two bottom beams 3-1-1 and two frame limiting structures; the bottom beams 3-1-1 are arranged along the width direction of the die base 1, and the two bottom beams 3-1-1 are arranged at intervals along the length direction of the die base 1; the frame limiting structure comprises a second cross beam 3-1-2, two end limiting structures 3-1-3 and a plurality of side limiting structures 3-1-4, the second cross beam 3-1-2 is arranged along the length direction of the die base 1, two ends of the second cross beam are respectively connected with the two bottom beams 3-1-1, the second cross beam 3-1-2 can move along the bottom beams 3-1-1 to adjust the position, the end limiting structures 3-1-3 are connected with the second cross beam 3-1-2 and can move along the second cross beam 3-1-2 to adjust the position, the end limiting structures 3-1-3 comprise end limiting plates 3-1-3-1, the side limiting structures 3-1-4 are arranged between the two end limiting structures 3-1-3, the side limiting structure 3-1-4 is connected with the second cross beam 3-1-2 and can move along the second cross beam 3-1-2 to adjust the position, and the side limiting structure 3-1-4 comprises a frame supporting plate 3-1-4-2 and a side limiting plate 3-1-4-1; two frame limit structure symmetry sets up.

As can be seen by comparing fig. 9 and 11, the length and width of the frame box 3-1 can be adjusted by adjusting the positions of the second cross beam 3-1-2, the end limiting structure 3-1-3 and the side limiting structure 3-1-4, so that the frame box can adapt to wallboard frames 11-4 with different sizes and quantities. The end limiting structures 3-1-3 may include end limiting structure sleeves 3-1-3-2 that are sleeved on the second beam 3-1-2, and the side limiting structures 3-1-4 may include side limiting structure sleeves 3-1-4-3 that are sleeved on the second beam 3-1-2, so as to realize that the end limiting structures 3-1-3 and the side limiting structures 3-1-4 move along the second beam 3-1-2. The second beam 3-1-2 should be square or other polygonal, and the end limiting structure sleeve 3-1-3-2 and the side limiting structure sleeve 3-1-4-3 are matched with the second beam 3-1-2, so that the end limiting structure sleeve 3-1-3-2 and the side limiting structure sleeve 3-1-4-3 can be prevented from rotating.

Claims

1. The integrated house wallboard integral forming equipment comprises a mould seat (1), a guide frame (5), a second moving device (6), a wallboard material laying device (4), a batten laying device (7) and a glass fiber wire laying device (8); the guide frame (5) is arranged along the length direction of the die base (1) and corresponds to the die base (1), the second moving devices (6) are matched with the guide frame (5), and the number of the second moving devices (6) is three; the wallboard material laying device (4) comprises a wallboard material output pipe (4-3), and the wallboard material output pipe (4-3), the batten laying device (7) and the glass fiber wire laying device (8) are respectively connected with the three second moving devices (6);

the method is characterized in that: the mould comprises first moving devices (2) and a frame laying device (3), wherein the number of the first moving devices (2) is two, the two first moving devices (2) are respectively positioned outside two ends of a mould seat (1), and the first moving devices (2) are arranged along the width direction of the mould seat (1);

the frame laying device (3) comprises a frame box (3-1), a first cross beam (3-2), a frame taking device (3-3) and a lifting device (3-4), wherein the frame box (3-1) is located on one side of the mold base (1), the first cross beam (3-2) crosses over the mold base (1) along the length direction of the mold base (1), two ends of the first cross beam (3-2) are respectively connected with the two first moving devices (2) through the lifting device (3-4), the frame taking device (3-3) is connected with the first cross beam (3-2), and the frame taking device (3-3) can move along the first cross beam (3-2) to adjust the position;

the frame box (3-1) comprises two bottom beams (3-1-1) and two frame limiting structures; the bottom beams (3-1-1) are arranged along the width direction of the die base (1), and the two bottom beams (3-1-1) are arranged at intervals along the length direction of the die base (1); the frame limiting structure comprises a second cross beam (3-1-2), two end limiting structures (3-1-3) and a plurality of side limiting structures (3-1-4), the second cross beam (3-1-2) is arranged along the length direction of the die base (1), two ends of the second cross beam are respectively connected with the two bottom beams (3-1-1), the second cross beam (3-1-2) can move along the bottom beams (3-1-1) to adjust the position, the end limiting structures (3-1-3) are connected with the second cross beam (3-1-2) and can move along the second cross beam (3-1-2) to adjust the position, each end limiting structure (3-1-3) comprises an end limiting plate (3-1-3-1), and each side limiting structure (3-1-4) is arranged on the two end limiting structures (3-1-3) The side limiting structure (3-1-4) is connected with the second cross beam (3-1-2) and can move along the second cross beam (3-1-2) to adjust the position, and the side limiting structure (3-1-4) comprises a frame supporting plate (3-1-4-2) and a side limiting plate (3-1-4-1); two frame limit structure symmetry sets up.

2. The integrated house panel integrated molding apparatus of claim 1, wherein: the frame taking device (3-3) comprises a taking device frame (3-3-1) and two supporting structures (3-3-2), the taking device frame (3-3-1) is connected with the first cross beam (3-2), the supporting structures (3-3-2) are arranged along the width direction of the die seat (1), the two supporting structures (3-3-2) are symmetrically arranged, each supporting structure (3-3-2) comprises a supporting telescopic rod (3-3-2-1), a supporting plate (3-3-2-4), an elastic base plate (3-3-2-5), two guide sleeves (3-3-2-2) and two guide rods (3-3-2-3), and the two guide sleeves (3-3-2-2) are positioned on the supporting telescopic rods (3-3-2-2) -1) on both sides, the guide sleeves (3-3-2-2) and the top support telescopic rods (3-3-2-1) are connected with the taking device frame (3-3-1), the guide rods (3-3-2-3) and the guide sleeves (3-3-2-2) are arranged in a one-to-one correspondence and matching mode, the top support plates (3-3-2-4) are connected with the outer ends of the top support telescopic rods (3-3-2-1) and the guide rods (3-3-2-3), and the elastic base plates (3-3-2-5) are connected with the top support plates (3-3-2-4).

3. The integrated house panel integrated molding apparatus of claim 2, wherein: the first moving device (2) is a linear guide rail sliding table, and the lifting device (3-4) and the top support telescopic rod (3-3-2-1) are both electric push rods.

4. The integrated house panel integrated molding apparatus of claim 3, wherein: the first mobile device (2) is provided with a telescopic protective sleeve (2-1).

5. The integrated house panel integrated molding apparatus of claim 4, wherein: the mould seat (1) comprises a mould supporting plate (1-1) and a vibration driving motor (1-2), and the vibration driving motor (1-2) is positioned below the mould supporting plate (1-1); the wallboard material laying device (4) comprises a wallboard material container (4-1) and a wallboard material pump (4-2), wherein the wallboard material container (4-1) and the wallboard material pump (4-2) are positioned outside the first moving device (2).