CN111285070A - Turnover plate transfer device for external wall panel - Google Patents

Abstract

The embodiment of the invention discloses a turnover plate transfer device of an external wall panel, which comprises a main rotary rod and an auxiliary rotary rod which are transversely arranged in parallel; the main rotary rod is provided with a plurality of main bearing tables for bearing the external wall panel on the conveyor belt on one side through a first connecting shaft, the main bearing tables are provided with circulating locking mechanisms for fixing the external wall panel, and the first connecting shaft is provided with a turnover mechanism for rotating the main bearing tables and locking the main bearing tables to turn over the external wall panel; the invention can automatically complete the turnover and the transfer of the external wall panel through the synergistic action of the main rotating rod and the auxiliary rotating rod, so as to seamlessly butt-joint an upper process and a lower process and synchronously complete the treatment of the external wall panel on a plurality of parallel conveyor belts.

Description

Turnover plate transfer device for external wall panel

Technical Field

The embodiment of the invention relates to the technical field of buildings, in particular to a turnover plate transfer device for an external wall plate.

Background

An exterior wall panel is also called as an exterior wall hanging panel. In terms of construction, the exterior wall cladding is a construction method, and plates are hung outside a wall body through construction methods such as dry hanging and the like so as to achieve the effects of decoration, heat preservation and the like. In terms of products, the exterior wall cladding is a kind of building material, and is a building board for exterior walls. The exterior wall cladding has the basic performances of corrosion resistance, high temperature resistance, ageing resistance, no radiation, fire resistance, insect prevention, no deformation and the like, and simultaneously requires attractive appearance, simple and convenient construction, environmental protection, energy conservation and the like. Common exterior wall cladding panels include fiber cement panels, aluminum-plastic panels, PVC panels, stone materials, and the like.

In the production process of the external wall panel, various coatings, such as waterproof coatings, fireproof coatings and the like, need to be sprayed on the front surface and the back surface of the external wall panel. Therefore, in the production of the production line, the outer wall board needs to be turned over so as to process the front and back surfaces of the outer wall board respectively. However, among the prior art, often adopt the manual work to turn over the board, the manual work turns over not only efficiency lower, when the exterior wall panel is heavier moreover, causes great work degree of difficulty for the staff to the manual work need take out the exterior wall panel and overturn after a process finishes, need shift to next process after the upset, take place the hand easily and slide or the misoperation at this in-process, thereby cause the exterior wall panel to damage.

Disclosure of Invention

Therefore, the embodiment of the invention provides a turnover transferring device for an external wall panel, which is used for solving the problems that the manual turnover plate in the prior art is low in efficiency and needs to be carried and transported on a conveyor belt during turnover.

In order to achieve the above object, an embodiment of the present invention provides the following:

a turnover plate transfer device of an external wall panel comprises a main rotating rod and an auxiliary rotating rod which are transversely arranged in parallel;

the main rotary rod is provided with a plurality of main bearing tables for bearing the external wall panel on the conveyor belt on one side through first connecting shafts, the main bearing tables are provided with circulating locking mechanisms for fixing the external wall panel, and the first connecting shafts are provided with turnover mechanisms for rotating the main bearing tables and locking the external wall panel to turn over;

the main bearing platform is in make the side fascia follow under the rotation of main rotary rod one side of main rotary rod is transported to opposite side and release side fascia install a plurality of through the second connecting axle on the vice rotary rod and be used for accepting the vice bearing platform of main bearing platform release side fascia, vice bearing platform is in make the side fascia follow under the rotation of vice rotary rod one side fortune to the opposite side, install on the second connecting axle and be used for preventing that the side fascia from deviating from vice bearing platform and make the side fascia slide to the self-floating mechanism of opposite side conveyer belt.

As a preferable scheme of the invention, the circulation locking structure comprises a U-shaped sleeve groove which is arranged on the main bearing table and used for limiting the position of the outer wall plate, circulation track grooves are fixedly arranged on both sides of the main bearing table, a friction shaft is nested between the circulation track grooves, and the friction shaft is driven by a motor to rotate to generate friction force to circularly move along the circulation track grooves.

As a preferable scheme of the invention, the friction shaft is hinged with a T-shaped rod through a bearing, and the bottom end of the T-shaped rod is provided with a movable extrusion plate for fixing the external wall panel through an elastic structure.

As a preferable scheme of the invention, two ends of the top end of the T-shaped rod are respectively provided with a limiting slide block, and the two limiting slide blocks are sequentially nested in the two circular track grooves to slide.

In a preferred embodiment of the invention, the U-shaped sleeve groove has no upper bottom surface, the lower bottom surface of the U-shaped sleeve groove is flush with the conveyor belt, and the external wall panel on the conveyor belt enters the U-shaped sleeve groove through the notch of the U-shaped sleeve groove.

As a preferable aspect of the present invention, the self-floating mechanism includes a mounting base plate fixedly mounted on the second connecting shaft, one end of the sub receiving platform is rotatably mounted on an inner side of the mounting base plate, and the other end of the sub receiving platform is mounted on an outer side of the mounting base plate through a periodic lifting member.

As a preferable mode of the present invention, the periodic lifting member includes a rotating shaft rotatably mounted on the mounting base plate by being driven by a motor, the rotating shaft is vertically mounted with a connecting plate, one side surface of the connecting plate is rotatably mounted with a periodic plate, and a top end of the periodic plate is rotatably mounted on one side of the sub-receiving platform.

As a preferable aspect of the present invention, a first locking disk and a second locking disk are sequentially installed on a contact surface of the periodic plate and the connection plate, an annular locking groove is formed on the first locking disk, a mating locking groove for engaging with the annular locking groove to prevent the first locking disk from rotating in a reverse direction is formed on the second locking disk, and the second locking disk is floatably installed on the connection plate through an elastic restoring member.

As a preferable scheme of the invention, the included angle between the installation bottom plate and the horizontal line is 15-30 degrees, the auxiliary bearing table is provided with a limiting guardrail for limiting the outer wallboard, and the auxiliary bearing table is also provided with an anti-collision air bag.

As a preferable scheme of the present invention, the turnover mechanism includes a bearing connecting the main bearing platform and a first connecting shaft, a turnover motor having a self-locking function is installed on the main bearing platform, a bevel gear is fixedly installed on an output shaft of the turnover motor, and an engaging wheel engaged with the bevel gear is sleeved on the first connecting shaft.

The embodiment of the invention has the following advantages:

the turnover and transfer of the external wall panel can be automatically completed through the synergistic effect of the main rotating rod and the auxiliary rotating rod, so that an upper process and a lower process are seamlessly butted, the installation positions of the main rotating rod and the auxiliary rotating rod and the distance between the main rotating rod and the auxiliary rotating rod are only required to be adjusted, the lengths of the first connecting shaft and the second connecting shaft are correspondingly adjusted, the transmission distance after turnover can be adjusted, the two processes with different distances are butted and adapted, and the adaptability of the device is enhanced; through installing a plurality of vice accepting platforms and main accepting platform side by side, and use and drive through same main rotary rod and vice rotary rod, can accomplish the processing of side fascia on a plurality of parallel conveyer belts in step, greatly increase the efficiency that the side fascia was handled, and the occupation of land space of device has been saved to the mounting means that just parallelly overlaps.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

FIG. 1 is an overall schematic configuration diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of a T-bar configuration in accordance with an embodiment of the present invention;

FIG. 3 is a top view of a circular track groove in an embodiment of the present invention;

FIG. 4 is a schematic view of a periodic lifting structure in an embodiment of the present invention

FIG. 5 is a schematic structural view of a first locking disk and a second locking disk in an embodiment of the present invention;

fig. 6 is a schematic structural view of a turnover mechanism in an embodiment of the present invention.

In the figure:

1-a primary rotating rod; 2-auxiliary rotating rod; 3-a first connecting shaft; 4-a main receiving platform; 5-a cycle locking mechanism; 6-turning over mechanism; 7-a second connecting shaft; 8-an auxiliary receiving table; 9-a self-floating mechanism;

a 51-U-shaped jacket groove; 52-a circular track groove; 53-friction shaft; 54-T-shaped rod; 55-an elastic structure; 56-moving the pressing plate; 57-a limit slider;

91-mounting a bottom plate; 92-a periodic lift; 93-limit guard bar; 94-anti-collision air bag;

921-rotation axis; 922-connecting plate; 923-periodic plate; 924-a first locking disk; 925-a second locking disk; 926-an annular locking groove; 927-mating lock grooves; 928-elastic restoring piece.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, 2 and 3, the present invention provides a turnover transferring device for an external wall panel, comprising a primary rotating rod 1 and a secondary rotating rod 2 arranged in parallel in the transverse direction; a plurality of main bearing table 4 used for bearing an external wall panel on a conveyor belt on one side is installed on the main rotary rod 1 through a first connecting shaft 3, a circulation locking mechanism 5 used for fixing the external wall panel is installed on the main bearing table 4, and a turnover mechanism 6 used for rotating the main bearing table 4 and locking the external wall panel to overturn is arranged on the first connecting shaft 3.

And, main takeover platform 4 makes the side fascia transport to the opposite side and release the side fascia from one side of main rotary rod 1 under main rotary rod 1 is rotatory, install a plurality of through second connecting axle 7 on vice rotary rod 2 and be used for accepting the vice takeover platform 8 of main takeover platform 4 release side fascia, vice takeover platform 8 makes the side fascia transport to the opposite side from vice rotary rod 2 one side under vice rotary rod 2 is rotatory, install on the second connecting axle 7 and be used for preventing that the side fascia from deviating from vice takeover platform 8 and make the side fascia slide to the self-floating mechanism 9 of opposite side conveyer belt.

The core scheme of the invention is that a main bearing table 4 on a first connecting shaft 3 is driven to rotate by the rotation of a main rotating rod 1, so that the main bearing table 4 is butted with a left conveyor belt, an external wall panel is moved to the main bearing table 4 through the conveyor belt, the external wall panel is locked by a circulation locking mechanism 5, the external wall panel is locked by a turnover mechanism 6 after being rotated and is conveyed to the other side by the rotation of the main rotating rod 1, an auxiliary bearing table 8 is moved to the lower part of the main bearing table 4 and is overlapped with the main bearing table 4 by the rotation of an auxiliary rotating rod 2, the external wall panel is released by the circulation locking mechanism 5 to drop to the auxiliary bearing table 8, the auxiliary bearing table 8 is butted with a right conveyor belt by the rotation of the auxiliary rotating rod 2, and the external wall panel slides onto the right conveyor belt by a self-floating mechanism 9.

Based on the above, the invention has the following advantages: the turnover and the transfer of the external wall panel can be automatically completed through the synergistic effect of the main rotating rod 1 and the auxiliary rotating rod 2, so that an upper process and a lower process are seamlessly butted, the installation positions of the main rotating rod 1 and the auxiliary rotating rod 2 and the distance between the main rotating rod 1 and the auxiliary rotating rod 2 are only required to be adjusted, the lengths of the first connecting shaft 3 and the second connecting shaft 7 are correspondingly adjusted, the transmission distance after turnover can be adjusted, the two processes with different distances are butted and adapted, and the adaptation capability of the device is enhanced; through installing a plurality of vice takeover platforms 8 and main takeover platform 4 side by side, and use and drive through same main rotary rod 1 and vice rotary rod 2, can accomplish the processing of side fascia on a plurality of parallel conveyer belts in step, greatly increase the efficiency that the side fascia was handled, and the installation mode that overlaps in parallel has saved the occupation of land space of device.

One of the characteristic points of the present invention is that the circulation locking structure 5 includes a U-shaped sleeve groove 51 disposed on the main receiving table 4 and used for limiting the position of the external wall panel, circulation track grooves 52 are fixedly mounted on both sides of the main receiving table 4, a friction shaft 53 is nested between the circulation track grooves 52, and the friction shaft 53 is driven by a motor to rotate to generate friction force to circularly move along the circulation track grooves 52.

The friction force generated by the rotation of the friction shaft 53 in the endless track groove 52 causes the friction shaft 53 to move in an endless track along the endless track groove 52, so that the friction shaft 53 is periodically located above the main standby table 4 and not above the main standby table 4.

When the friction shaft 53 is located above the main receiving platform 4, the T-shaped rod 54 moves along with the friction shaft 53, and the movable extrusion plate 56 at the bottom end of the T-shaped rod 54 extrudes on the surface of the external wall panel, so that the external wall panel is fixed in the U-shaped sleeve groove 51, and the fixing time of the external wall panel in the U-shaped sleeve groove 51 can be controlled by controlling the moving speed of the friction shaft 53 in the circulating track groove 52, so that the external wall panel is matched with the auxiliary receiving platform 8 for release.

Wherein, the friction shaft 53 is hinged with a T-shaped rod 54 through a bearing, and a movable extrusion plate 56 for fixing the external wall panel is arranged at the bottom end of the T-shaped rod 54 through an elastic structure 55.

The two ends of the top end of the T-shaped rod 54 are provided with limiting sliding blocks 57, and the two limiting sliding blocks 57 are nested in the two circular track grooves 52 in sequence to slide.

The purpose of the above-mentioned installation is to make the T-bar 54 follow the circular path of the friction shaft 53 and make the T-bar 54 not rotate along the friction shaft 53, so that the bottom end of the T-bar 54 always faces the inside.

Wherein the U-shaped sleeve groove 51 has no upper bottom surface, the lower bottom surface of the U-shaped sleeve groove 51 is flush with the conveyor belt, and the external wall panel on the conveyor belt enters the U-shaped sleeve groove 51 through the notch thereof.

The second characteristic of the present invention is that the self-floating mechanism 9 includes a mounting plate 91 fixedly mounted on the second connecting shaft 7, one end of the sub-receiving table 8 is rotatably mounted on the inner side of the mounting plate 91, and the other end of the sub-receiving table 8 is mounted on the outer side of the mounting plate 91 through a periodic lifting member 92.

The installation angle of the auxiliary bearing table 8 is changed by periodically and regularly stretching the periodic lifting piece 92, when the auxiliary bearing table 8 inclines to the left side, the right end of the auxiliary bearing table 8 is gradually close to the external wall panel, so that the falling time of the external wall panel can be shortened, and the impact of the external wall panel when falling can be reduced, and the limiting guardrail 93 is arranged on the left side of the auxiliary bearing table 8, so that the falling external wall panel can slide to the left side by the auxiliary bearing table 8 inclined to the left side, and the external wall panel is prevented from falling off the auxiliary bearing table 8 by being blocked by the limiting guardrail 93; and then gradually inclines to the right side through the auxiliary receiving platform 8, so that the external wall panel slides to the right side to the conveyor belt.

As shown in fig. 4 and 5, the periodic lifting member 92 includes a rotation shaft 921 rotatably installed on the installation base plate 91 by being driven by a motor, a connection plate 922 is vertically installed on the rotation shaft 921, a periodic plate 923 is rotatably installed on one side of the connection plate 922, and the top end of the periodic plate 923 is rotatably installed on one side of the secondary receiving platform 8.

Through the rotation of connecting plate 922, periodic plate 923 bottom is rotatory along with connecting plate 922 for when connecting plate 922 is to vertical upwards, the right-hand member of vice accepting platform 8 reaches the peak, makes connecting plate 922 to vertical downwards when, and the right-hand member of vice accepting platform 8 reaches the most place, thereby forms periodic altitude variation.

The third characteristic of the present invention is that a first locking disk 924 and a second locking disk 925 are sequentially installed on the contact surface of the cycle plate 923 and the connection plate 922, an annular locking groove 926 is formed on the first locking disk 924, an engaging locking groove 927 for engaging the annular locking groove 926 to prevent the first locking disk 924 from rotating reversely is formed on the second locking disk 925, and the second locking disk 925 is floatably installed on the connection plate 922 by an elastic restoring member 928.

When the annular lock groove 926 is rotated in one direction, the annular lock groove 926 press-fits the lock groove 927 through an inclined surface, thereby moving the second locking disk 925 to one side and pressing the resilient restoring member 928, so that the first locking disk 924 and the second locking disk 925 slide relative to each other, and when the annular lock groove 926 is rotated in the opposite direction, the annular lock groove 926 press-fits the blocking surface of the lock groove 927 through a flat surface, so that the two cannot rotate relative to each other.

Through the special movement mode, the first locking disk 924 and the second locking disk 925 can only rotate towards one side, so that the phenomenon that the cycle board 923 tends to move towards the opposite direction under the action of gravity in certain special positions, and the motor is greatly damaged is avoided.

The included angle between the installation bottom plate 91 and the horizontal line is 15-30 degrees, the auxiliary bearing table 8 is provided with a limiting guardrail 93 used for limiting the outer wall plate, and the auxiliary bearing table 8 is further provided with an anti-collision air bag 94.

As shown in fig. 6, the turnover mechanism 6 includes a bearing connecting the main receiving platform 4 and the first connecting shaft 3, a turnover motor having a self-locking function is installed on the main receiving platform 4, a bevel gear is fixedly installed on an output shaft of the turnover motor, and an engaging wheel engaged with the bevel gear is sleeved on the first connecting shaft 3.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. The turnover plate transfer device for the external wall panel is characterized by comprising a main rotating rod (1) and an auxiliary rotating rod (2) which are transversely arranged in parallel;

a plurality of main bearing platforms (4) used for bearing the external wall panel on a conveyor belt on one side are installed on the main rotating rod (1) through first connecting shafts (3), a circulating locking mechanism (5) used for fixing the external wall panel is installed on each main bearing platform (4), and a turnover mechanism (6) used for rotating the main bearing platforms (4) and locking the external wall panel to turn over is arranged on each first connecting shaft (3);

main bearing platform (4) is in make the side fascia follow under main rotary rod (1) is rotatory one side transportation to the opposite side and release side fascia install a plurality of through second connecting axle (7) on vice rotary rod (2) and be used for accepting main bearing platform (4) release side fascia's vice bearing platform (8), vice bearing platform (8) are in make the side fascia follow under vice rotary rod (2) is rotatory vice rotary rod (2) one side fortune to the opposite side, install on second connecting axle (7) and be used for preventing that the side fascia from deviating from vice bearing platform (8) and make the side fascia slide to the self-floating mechanism (9) of opposite side conveyer belt.

2. The turnover transferring device for the external wall panel according to claim 1, wherein the circulating locking structure (5) comprises a U-shaped sleeve groove (51) which is arranged on the main bearing platform (4) and used for limiting the external wall panel, circulating track grooves (52) are fixedly arranged on both sides of the main bearing platform (4), a friction shaft (53) is nested between the circulating track grooves (52), and the friction shaft (53) is driven by a motor to rotate to generate friction force to move circularly along the circulating track grooves (52).

3. The turnover transferring device for external wall panels according to claim 2, wherein the friction shaft (53) is hinged with a T-shaped rod (54) through a bearing, and the bottom end of the T-shaped rod (54) is provided with a movable extrusion plate (56) for fixing the external wall panel through an elastic structure (55).

4. The turnover transfer device for external wall panels according to claim 3, wherein limiting sliding blocks (57) are arranged at two ends of the top end of the T-shaped rod (54), and the two limiting sliding blocks (57) are sequentially nested in the two circular track grooves (52) to slide.

5. The turnover transferring device for external wall panels as claimed in claim 4, wherein the U-shaped sleeve groove (51) has no upper bottom surface, and the lower bottom surface of the U-shaped sleeve groove (51) is flush with the conveyor belt, and the external wall panels on the conveyor belt enter the U-shaped sleeve groove (51) through the notch thereof.

6. The turnover transfer device for external wall panels according to claim 1, wherein the self-floating mechanism (9) comprises a mounting base plate (91) fixedly mounted on the second connecting shaft (7), one end of the secondary receiving platform (8) is rotatably mounted on the inner side of the mounting base plate (91), and the other end of the secondary receiving platform (8) is mounted on the outer side of the mounting base plate (91) through a periodic lifting member (92).

7. The turnover transfer device for external wall panel according to claim 6, wherein the periodic lifting member (92) comprises a rotating shaft (921) rotatably installed on the installation base plate (91) through motor driving, the rotating shaft (921) vertically installs a connecting plate (922), one side of the connecting plate (922) is rotatably installed with a periodic plate (923), and the top end of the periodic plate (923) is rotatably installed on one side of the secondary receiving platform (8).

8. The turnover transferring device for the external wall panel according to claim 7, wherein a first locking disk (924) and a second locking disk (925) are sequentially installed on the contact surfaces of the periodic plate (923) and the connecting plate (922), an annular locking groove (926) is formed in the first locking disk (924), a matching locking groove (927) for meshing the annular locking groove (926) to prevent the first locking disk (924) from reversely rotating is formed in the second locking disk (925), and the second locking disk (925) is floatably installed on the connecting plate (922) through an elastic resetting member (928).

9. The turnover transferring device for the external wall panel according to claim 7, wherein the included angle between the installation bottom plate (91) and the horizontal line is 15-30 degrees, a limiting guardrail (93) used for limiting the external wall panel is arranged on the auxiliary bearing platform (8), and an anti-collision air bag (94) is further arranged on the auxiliary bearing platform (8).

10. The turnover transferring device for external wall panels according to claim 1, wherein the turnover mechanism (6) comprises a bearing connecting the main bearing platform (4) and the first connecting shaft (3), a turnover motor with a self-locking function is installed on the main bearing platform (4), a bevel gear is fixedly installed on an output shaft of the turnover motor, and an engaging wheel engaged with the bevel gear is sleeved on the first connecting shaft (3).

Images