CN116856728A

CN116856728A - Semi-automatic construction device for composite fiberboard decoration inner partition wall

Info

Publication number: CN116856728A
Application number: CN202310839575.1A
Authority: CN
Inventors: 李庆军; 金伟; 于文琦; 张伟
Original assignee: Shandong Guochen Decoration Engineering Co ltd
Current assignee: Shandong Guochen Decoration Engineering Co ltd
Priority date: 2023-07-10
Filing date: 2023-07-10
Publication date: 2023-10-10
Anticipated expiration: 2043-07-10
Also published as: CN116856728B

Abstract

The application belongs to the field of decoration construction equipment, and provides a semi-automatic construction device for a composite fiber board decoration inner partition wall, which comprises a board vehicle, wherein one end of the board vehicle is provided with a movable frame in overturning fit with the board vehicle, the movable frame is used for overturning a composite board on the board vehicle to form a certain included angle with the board vehicle, the bottom of the movable frame is provided with an overturning driving mechanism, the movable frame is provided with a balance mechanism in contact fit with the composite board, the upper part of the balance mechanism is provided with a horizontal shifting mechanism for shifting the composite board, the top of the movable frame is provided with a supporting platform, the supporting platform is in a vertical state and is used for supporting a constructor, the supporting platform is in a horizontal state, and one end of the board vehicle opposite to the movable frame is provided with a stepping pushing mechanism. The device has reasonable design, can automatically unload, is favorable for reducing the construction cost and improving the construction efficiency, and is suitable for large-scale popularization.

Description

Semi-automatic construction device for composite fiberboard decoration inner partition wall

Technical Field

The application belongs to the field of decoration construction equipment, and particularly relates to a semi-automatic construction device for a composite fiberboard decoration inner partition wall.

Background

The PRC light composite partition board (fiber cement board surface flame-retardant foaming glue core composite light wall board) is a novel wall material, and has the structure that UAC plant fiber reinforced cement boards are adopted on two sides, and light aggregate concrete is adopted as a core. The wallboard has the advantages of environmental protection, sound insulation, heat preservation, fire prevention, water resistance, easy cutting, high strength and the like, and particularly has the characteristic of easy assembly, so that the advantages of the PRC wallboard in practical engineering are more and more obvious. And the environmental protection and economic benefits are continuously improved.

At present, composite boards for forming an inner partition wall are basically transported through a plate trailer in the construction process, a plurality of composite boards which are stacked up and down simultaneously are transferred to an assembly station by the plate trailer, then are moved down one by workers, and then are placed at the ground reinforcement positions until all the wall boards are assembled. In order to ensure the stability and safety of the composite boards in the transferring process, all the composite boards are basically horizontally arranged and stacked up and down, and in this way, enough movable space is reserved for workers in a plurality of directions, and angles, directions and the like are also needed to be changed, so that the number of the workers is large, certain requirements are also required for the dispatching performance of the workers, and the practical construction efficiency of the composite boards is still to be improved; furthermore, in the case of construction where the height of the wall panel is low but the height of the workshop is high, individual workers are required to ascend to control and connect the height nodes of the composite panel, and there is also a great deal of inconvenience in transferring the ladder back and forth.

Disclosure of Invention

Aiming at the technical problems in the assembly construction of the inner partition wall, the application provides the semi-automatic construction device for decorating the inner partition wall by the composite fiber board, which has reasonable design, can automatically unload, is beneficial to reducing the construction cost and improving the construction efficiency.

In order to achieve the above purpose, the technical scheme includes that the semi-automatic construction device for the composite fiber board decorative inner partition wall comprises a board vehicle, one end of the board vehicle is provided with a movable frame in overturning fit with the movable frame, the movable frame is used for overturning a composite board on the board vehicle to form a certain included angle with the board vehicle, the bottom of the movable frame is provided with an overturning driving mechanism, the movable frame is provided with a balance mechanism in contact fit with the composite board, the balance mechanism is provided with a horizontal shifting mechanism for shifting the composite board above the balance mechanism, the top of the movable frame is provided with a supporting platform, the supporting platform is in a vertical state and is used for supporting the ground, the supporting platform is in a horizontal state and is used for supporting constructors, one end of the board vehicle opposite to the movable frame is provided with a stepping pushing mechanism, the top surface of the board vehicle is provided with a smooth surface, one side of the liner is provided with a first discharge opening, the first discharge opening is rotationally provided with a discharge plate, the board is arranged on the board, the board is provided with a second discharge opening corresponding to the first discharge opening, the second discharge opening is arranged in the board is arranged on the board, the board is in a vertical state, the vertical state is used for supporting the first discharge opening, and the other end of the discharge opening is fixedly connected with one end of the arc-shaped plate.

Preferably, the overturning driving mechanism comprises a pair of driving cylinders hinged with the movable frame, the bottoms of the driving cylinders are hinged with Y-shaped movable arms arranged below the plate trailer, a first screw rod is arranged at the center of each Y-shaped movable arm, and a first gear motor is arranged at the movable end of each first screw rod.

Preferably, the balance mechanism comprises a front end cover and a rear end plate, one side of the front end cover, facing the composite plate, is an inclined plane and is provided with an opening, a balance pressing plate is arranged between the front end cover and the rear end plate, a balance shaft is arranged on one side of the balance pressing plate, facing the rear end plate, and is in movable fit with a waist-shaped hole formed in the rear end plate, a pressure spring is arranged between the balance plate and the rear end plate, and the pressure spring comprises two C-shaped sections connected in an acute angle structure.

Preferably, the movable frame comprises a pair of horizontal square tubes, a plurality of vertical square tubes are arranged on one side of the horizontal square tubes, which is opposite to the overturning driving mechanism, and the vertical square tubes positioned at two ends of the horizontal square tubes are larger than the vertical square tubes in the middle position.

Preferably, the horizontal shifting mechanism comprises a second gear motor connected with one side of the supporting platform, and a shifting plate which is movably matched with the second screw rod is arranged on the power output side of the second gear motor.

Preferably, the stepping pushing mechanism comprises a T-shaped pushing plate, a plurality of pairs of mounting seats are arranged on one side, facing the composite plate, of the pushing plate, a plurality of buffer springs inclining towards the direction of the composite plate are arranged on the mounting seats, and a pushing cylinder is arranged on the other side of the pushing plate.

Preferably, a U-shaped opening is arranged on the vertical surface of the push plate.

Preferably, the stepping pushing mechanism further comprises a guide seat, a slot movably matched with the push plate is arranged in the guide seat, an adjusting rod for adjusting the thickness of the slot is arranged on the guide seat, and a hand wheel is arranged at the top of the adjusting rod.

Preferably, a plate ladder is arranged on one side of the movable frame.

Compared with the prior art, the application has the advantages and positive effects that:

1. according to the semi-automatic construction device for the composite fiberboard decorative inner partition wall, provided by the application, the horizontal supporting surface can be kept by the plate vehicle and the movable support for supporting a plurality of stacked composite board building materials, the turnover driving mechanism can drive the movable support and is matched with the stepping pushing mechanism to enable the composite board to stand up, and the horizontal shifting mechanism is used for unloading the composite board, so that the difficulty of manual unloading is reduced, and the construction efficiency is improved; the balance mechanism is used for improving the stability of the composite board and improving the feeding safety of the horizontal shifting mechanism; the supporting platform can be used for assisting unloading and some construction assembly actions by people, and a construction ladder does not need to be frequently transferred. The device has reasonable design, can automatically unload, is favorable for reducing the construction cost and improving the construction efficiency, and is suitable for large-scale popularization.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a working diagram of a semi-automatic construction device for decorating an inner partition wall by using a composite fiber board according to the embodiment;

FIG. 2 is a working cross-sectional view of a semi-automatic construction device for decorating an inner partition wall by using a composite fiber board according to the embodiment;

FIG. 3 is an isometric view of a semi-automatic construction device for decorating an inner partition wall by using composite fiber boards according to the embodiment;

FIG. 4 is an expanded front view of a semi-automatic construction device for decorating an inner partition wall of a composite fiber board according to the embodiment;

FIG. 5 is a side view of a semi-automatic construction device for decorating an inner partition wall by using a composite fiber board according to the embodiment;

FIG. 6 is a top view of a Y-shaped movable arm provided by an embodiment;

in the drawings, 1, a scooter; 2. a movable frame; 21. a horizontal square tube; 22. a vertical square tube; 3. a turnover driving mechanism; 31. a drive cylinder; 32. a Y-shaped movable arm; 33. a first screw rod; 34. a first gear motor; 4. a balancing mechanism; 41. a front end cover; 42. a rear end plate; 43. a balance pressing plate; 44. a balance shaft; 45. a waist-shaped hole; 46. a pressure spring; 5. a horizontal shifting mechanism; 51. a second gear motor; 52. a second screw rod; 53. a poking plate; 6. a support platform; 7. a stepping pushing mechanism; 71. a push plate; 72. a mounting base; 73. a buffer spring; 74. a pushing cylinder; 75. a U-shaped opening; 76. a guide seat; 77. a slot; 78. an adjusting rod; 79. a hand wheel; 8. a board ladder; 9. a lining plate; 10. a stripper plate; 11. arc spring plates; 12. a composite board.

Detailed Description

In order that the above objects, features and advantages of the application will be more clearly understood, a further description of the application will be rendered by reference to the appended drawings and examples. It should be noted that, without conflict, the embodiments of the present application and features in the embodiments may be combined with each other. For convenience of description, the words "upper", "lower", "left" and "right" are merely used herein to denote a correspondence with the upper, lower, left, and right directions of the drawing figures, and are not limiting on the structure.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced otherwise than as described herein, and therefore the present application is not limited to the specific embodiments of the disclosure that follow.

The embodiment of the application is as shown in figures 1-6, the semi-automatic construction device for the composite fiber board decoration inner partition wall comprises a board truck 1, one end of the board truck 1 is provided with a movable rack 2 in overturning fit with the board truck 1, the movable rack 2 is used for overturning a composite board on the board truck 1 to form a certain included angle with the board truck 1, the bottom of the movable rack 2 is provided with an overturning driving mechanism 3, the movable rack 2 is provided with a balance mechanism 4 in contact fit with the composite board, the upper part of the balance mechanism 4 is provided with a horizontal shifting mechanism 5 for shifting the composite board, the top of the movable rack 2 is provided with a supporting platform 6, the supporting platform 6 is in a vertical state for supporting the ground, the supporting platform 6 is in a horizontal state for supporting constructors, and one end of the board truck 1 opposite to the movable rack 2 is provided with a stepping pushing mechanism 7. Wherein the scooter 1 and the movable support can maintain a horizontal supporting surface for supporting a plurality of stacked composite board building materials until the composite board 12 is transferred to a corresponding assembly station along with the scooter 1; the turnover driving mechanism 3 drives the movable support to gradually turn over and is matched with the stepping pushing mechanism 7 to enable the composite board to stand up, in the process, the composite board 12 is always contacted with the balance mechanism 4, and the stability of the composite board in the turnover process can be ensured; the composite board is unloaded by the horizontal shifting mechanism 5. The device completes the centralizing and unloading operation of the composite board in a maneuvering mode, reduces the number of manual participation, reduces the construction cost, reduces the difficulty of manual unloading, is relatively simple in scheduling, and is beneficial to improving the construction efficiency; the stepping pushing mechanism 7 and the balancing mechanism 4 can be dynamically adjusted according to the specific condition of the composite board, so that the stability of the composite board to be unloaded is maintained, and the feeding safety of the horizontal shifting mechanism 5 is improved. It should be noted that, the movable frame 2 belongs to the lengthened design of the portion of the scooter 1, and the length of the original scooter 1 can be properly shortened to ensure that the specific length of the whole scooter body is not too long, so long as the problem of head planting of the whole device after loading is avoided.

In order to improve the matching performance of the turnover driving mechanism 3, the scooter 1 and the movable rack 2, the application provides that the turnover driving mechanism 3 comprises a pair of driving cylinders 31 hinged with the movable rack 2, the bottoms of the driving cylinders 31 are hinged with Y-shaped movable arms 32 arranged below the scooter 1, a first screw rod 33 is arranged at the center of each Y-shaped movable arm 32, and a first gear motor 34 is arranged at the movable end of each first screw rod 33. The first screw rod 33 and the Y-shaped movable arm 32 are installed under the scooter 1 in a concealed manner, and the Y-shaped movable arm 32 can be used as a supporting base of the driving cylinder 31 to carry out linkage change with the driving cylinder 31, for example, the first speed reducing motor 34 drives the first screw rod 33 to rotate, the first screw rod 33 drives the Y-shaped movable arm 32 to carry out horizontal adjustment, the driving cylinder 31 is powered by a vehicle-mounted power source station, and the driving cylinder 31 can enable the whole overturning driving mechanism 3 to generate plane change when carrying out telescopic adjustment, so that the movable frame 2 is driven to reasonably overturn, and the composite board is righted and unloaded.

In order to improve the balance of the balance mechanism 4, the balance mechanism 4 provided by the application comprises a front end cover 41 and a rear end plate 42 which are connected with a square tube structure of a movable frame, wherein one side of the front end cover 41 facing a composite plate is an inclined surface and is provided with an opening, a balance pressing plate 43 is arranged between the front end cover 41 and the rear end plate 42, one surface of the balance pressing plate 43 facing the rear end plate 42 is provided with a balance shaft 44, the balance shaft 44 is in movable fit with a waist-shaped hole 45 arranged on the rear end plate 42, a pressure spring 46 is arranged between the balance plate and the rear end plate 42, and the pressure spring 46 comprises two C-shaped sections which are connected in an acute angle structure. The balance pressing plate 43 is always in contact with the composite plate 12, the contact angle of the balance pressing plate 43 and the composite plate 12 can be reflected to the specific shape of the pressure spring 46, and the balance shaft 44 has a certain swing range in the waist-shaped hole 45, so that the change of the angle of the balance pressing plate 43 can be automatically adapted. The shape of the compression spring 46 enables the composite board building material to have an inclined supporting effect, and particularly, the composite board building material can reach balance rapidly within a certain angle range when being subjected to the pressure transmitted by the balance pressing plate 43, so that the stability of the composite board building material in the process of changing the horizontal inclination and then centralizing can be met.

In order to improve the stability of the composite board in the process of plane overturning and changing, the application makes special design for the supporting foundation, particularly the movable frame 2. Specifically, the movable frame 2 provided by the application comprises a pair of horizontal square tubes 21, wherein a plurality of vertical square tubes 22 are arranged on one side of the horizontal square tubes 21, which is opposite to the overturning driving mechanism 3, and the vertical heights of the vertical square tubes 22 positioned at two ends of the horizontal square tubes 21 and the vertical square tubes 22 positioned at the middle position are larger than those of the vertical square tubes 22 positioned at the middle position. The vertical square tube 22 and the horizontal square tube 21 form a support network, square tubes for installing hinges are arranged on two sides of the vertical square tube 22, the hinges are used for connecting the driving cylinder 31, the movable ranges of the vertical square tube 22 and other horizontal square tubes 21 cannot interfere with the driving cylinder 31, and particularly the driving cylinder 31 and the movable frame 2 are in a flattened state. Further, the heights of the longitudinal square pipes 22 at the two ends are designed to be high pipe structures, on one hand, the composite boards 12 in all horizontal states are overhead, and the difficulty of the driving cylinder 31 in turning up the movable frame 2 and all the composite boards can be reduced; on the other hand, the vertical square pipe 22 arranged near the head of the horizontal square pipe 21 can limit part of the composite board, so that the stability of the vehicle-mounted composite board in the moving process is ensured.

In order to improve the motor unloading performance of the device, the horizontal shifting mechanism 5 provided by the application comprises a second gear motor 51 connected with one side of the supporting platform 6, wherein a second screw rod 52 is arranged on the power output side of the second gear motor 51, and a shifting plate 53 which is movably matched with the second screw rod 52 is arranged on the power output side of the second gear motor. Further, the top surface of the plate vehicle 1 is provided with the lining plate 9, the top surface of the lining plate 9 is smooth, the resistance of pushing the composite plate by the pushing cylinder is reduced, one side of the lining plate 9 is provided with the first discharge opening, the horizontal width of the first discharge opening is larger than 1/2 of the width of the plate vehicle 1, the first discharge opening is rotationally provided with the discharge plate 10, the plate vehicle 1 is provided with the second discharge opening corresponding to the first discharge opening, the second discharge opening is internally provided with the arc-shaped spring plate 11 for supporting the discharge plate 10, one end of the arc-shaped spring plate 11 is fixedly connected with the plate vehicle 1, and the other end of the arc-shaped spring plate 11 is a free end. The pulling plate 53 can reciprocate linearly against the supporting surface of the movable frame 2 under the driving of the second screw rod 52 and the second gear motor 51, the composite plate in the unloading trend leaves the pressure surface of the scooter 1 after translating a distance at one end and is actually pressed on the stripper plate 10, the stripper plate 10 automatically turns down under the action of pressure, the composite plate slides down along the stripper plate 10 under the dead weight and the inertia of being pulled, enters the paying-off direction of the construction position or the position close to the paying-off direction, and the subsequent corresponding operation such as connection with the bar planting and connection with the hanging beam is completed by a worker.

In order to improve the order of unloading, the application provides a stepping pushing mechanism 7, wherein the stepping pushing mechanism 7 comprises a T-shaped pushing plate 71, one side of the pushing plate 71 facing to a composite plate is provided with a plurality of pairs of mounting seats 72, the mounting seats 72 are provided with a plurality of buffer springs 73 inclining towards the composite plate, and the other side of the pushing plate 71 is provided with a pushing cylinder 74. The pushing plates 71 are gradually pushed by the pushing cylinders 74 according to the number of the composite plates to be unloaded, the composite plates to be unloaded are orderly pushed to the opposite direction of the balance mechanism 4, the horizontal shifting mechanism 5 returns to the original position after the previous unloading action is completed, and the balance mechanism 4 is pressed by the stepping pushing mechanism 7. The arc spring plate is used for bouncing the stripper plate, the stripper plate after unloading can be automatically reset, and most of the weight of the composite board to be unloaded is applied to the lower plate vehicle, and only slightly contacts the stripper plate without forcedly pressing the stripper plate. The bottom of the pushing plate 71, the bottom of the composite plate 12 and the upper surface of the scooter 1 form contact nodes, so that the pushing plate 71 can be pushed from the root of the composite plate 12 after being driven by the pushing cylinder 74, the torque to be overcome is reduced, and the pushing and positioning efficiency is improved. The buffer spring 73 can contact with the last composite plate, and the elastic pressure tilting action of the buffer spring balances the composite plate and the overall reaction force of the buffer spring, so that the composite plate is prevented from being bent backwards greatly in the unloading process, and the unloading efficiency and the unloading safety are improved.

Further, the vertical surface of the push plate 71 can be used as a safety structure for preventing the composite plate from being bent backwards, so that the on-site observation and adjustment of the vehicle-mounted composite plate can be conveniently carried out manually.

In order to improve the activity stability of the push plate 71, the stepping pushing mechanism 7 provided by the application further comprises a guide seat 76, a slot 77 movably matched with the push plate 71 is arranged in the guide seat 76, an adjusting rod 78 for adjusting the thickness of the slot 77 is arranged on the guide seat 76, and a hand wheel 79 is arranged at the top of the adjusting rod 78. The guide seat 76 is used for vertically limiting the bottom of the push plate 71, and the slot 77 provides a specific translation path, so that the stability of the push plate 71 under the driving of the pushing rod can be improved. The adjusting rod 78 and the hand wheel 79 are used as adjusting components, so that the actual caliber of the slot opening of the slot 77 can be controlled, and the slot 77 and the push plate 71 are ensured to have better sliding fit performance.

The support platform 6 provided by the application can be used for a person to perform some auxiliary operations on the top of the support platform, and in order to facilitate the person to climb on the support platform 6, a plate ladder 8 is arranged on one side of the movable frame 2. The board ladder 8 has a certain ground clearance after being flattened along with the movable frame 2, and the movement of the board truck 1 is not affected.

The present application is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present application without departing from the technical content of the present application still belong to the protection scope of the technical solution of the present application.

Claims

1. The utility model provides a semi-automatic construction equipment of partition wall in complex fiberboard is decorated, includes the board car, its characterized in that, the one end of board car is provided with rather than upset complex activity frame, activity frame is used for being certain contained angle with the board car with the last composite sheet upset of board, the bottom of activity frame is provided with upset actuating mechanism, be provided with in the activity frame with composite sheet contact complex balancing mechanism, the top of balancing mechanism is provided with the horizontal shifting mechanism that is used for shifting the composite sheet, the top of activity frame is provided with supporting platform, supporting platform is in vertical state and is used for supporting ground, supporting platform is in horizontal state then is used for supporting constructor, the board car is provided with step pushing equipment in its one end relative with the activity frame, the top surface of board is provided with the welt, the top surface of welt is the plain noodles, one side of welt is provided with first discharge opening, be provided with the stripper on the board, be provided with the second discharge opening that corresponds with first discharge opening in the board, be provided with in the second discharge opening and be used for supporting the stripper, the arc-shaped plate's one end is fixed with the arc-shaped connection free end of arc-shaped plate.

2. The semi-automatic construction device for the composite fiberboard decorative inner partition wall according to claim 1, wherein the overturning driving mechanism comprises a pair of driving cylinders hinged with the movable frame, the bottoms of the driving cylinders are hinged with Y-shaped movable arms arranged below the board vehicle, a first screw rod is arranged in the center of each Y-shaped movable arm, and a first gear motor is arranged at the movable end of each first screw rod.

3. The semi-automatic construction device for the composite fiber board decorative inner partition wall according to claim 2, wherein the balancing mechanism comprises a front end cover and a rear end plate, one side of the front end cover, which faces the composite board, is an inclined plane and is provided with an opening, a balancing pressing plate is arranged between the front end cover and the rear end plate, one side of the balancing pressing plate, which faces the rear end plate, is provided with a balancing shaft, the balancing shaft is movably matched with a waist-shaped hole formed in the rear end plate, a pressure spring is arranged between the balancing plate and the rear end plate, and the pressure spring comprises two C-shaped sections which are connected in an acute angle structure.

4. The semi-automatic construction device for the composite fiber board decorative inner partition wall according to claim 3, wherein the movable frame comprises a pair of horizontal square pipes, a plurality of vertical square pipes are arranged on one side of the horizontal square pipes, which is opposite to the overturning driving mechanism, and the vertical square pipes positioned at two ends of the horizontal square pipes are vertical to the vertical square pipes with the vertical height larger than that of the vertical square pipes in the middle position.

5. The semi-automatic construction device for the composite fiberboard decorative inner partition wall according to claim 1 or 4, wherein the horizontal shifting mechanism comprises a second gear motor connected with one side of the supporting platform, and a shifting plate which is movably matched with the second gear motor is arranged on the power output side of the second gear motor.

6. The semi-automatic construction device for the composite fiber board decorative inner partition wall according to claim 5, wherein the stepping pushing mechanism comprises a T-shaped pushing plate, a plurality of pairs of mounting seats are arranged on one side of the pushing plate facing the composite board, a plurality of buffer springs inclining towards the composite board are arranged on the mounting seats, and a pushing cylinder is arranged on the other side of the pushing plate.

7. The semi-automatic construction device for the decorative inner partition wall of the composite fiber board according to claim 6, wherein a U-shaped opening is arranged on the vertical surface of the push plate.

8. The semi-automatic construction device for the composite fiber board decorative inner partition wall according to claim 7, wherein the stepping pushing mechanism further comprises a guide seat, a slot which is movably matched with the push plate is arranged in the guide seat, an adjusting rod for adjusting the thickness of the slot is arranged on the guide seat, and a hand wheel is arranged at the top of the adjusting rod.

9. The semi-automatic construction device for the composite fiber board decorative inner partition wall according to claim 1, wherein a board ladder is arranged on one side of the movable frame.