CN111075124A - Movable high-altitude tile pressing device and method thereof - Google Patents

Abstract

The invention is suitable for the technical field of tile pressing devices, and provides a movable high-altitude tile pressing device and a method thereof, wherein the movable high-altitude tile pressing device comprises a moving mechanism, a lifting mechanism and a tile pressing mechanism, wherein the lifting mechanism is arranged between the moving mechanism and the tile pressing mechanism; the lifting mechanism comprises a base and a main arm, one end of the main arm is hinged with the base, the other end of the main arm is connected with one end of the tile pressing mechanism through a rotating shaft, the main arm is hinged with one end of a connecting arm, the other end of the connecting arm is hinged with one end of a supporting arm, and the other end of the supporting arm is hinged with the bottom of the tile pressing mechanism; the base is also hinged with a blocking frame; the moving mechanism comprises a bearing plate and a power device. The movable high-altitude tile pressing device and the method thereof provided by the invention can lift the tile pressing mechanism, and realize tile pressing at the position where the color steel tiles need to be laid at the top of a factory building.

Description

Movable high-altitude tile pressing device and method thereof

Technical Field

The invention belongs to the technical field of tile pressing devices, and particularly relates to a movable high-altitude tile pressing device and a movable high-altitude tile pressing method.

Background

In the building construction, the color steel tile is needed to be used when the building is capped, and the color profiling tile is a profiling plate which is formed by rolling and cold-bending a color coating steel plate into various waveforms and is suitable for the roof of the building house with a large-span steel structure.

However, in the current steel structure factory building construction, because the span of the steel structure engineering roof is large, the length of the roof tile is long, and the roof tile is difficult to transport, most of the current projects adopt site ground tile pressing, and because the roof tile is too long, the pressed color tile is easy to deform and kink and damage when being hung to the roof.

Therefore, it is necessary to provide a movable overhead tile pressing device and a method thereof to solve the above problems.

Disclosure of Invention

The embodiment of the invention provides a movable high-altitude tile pressing device, and aims to solve the problems that pressed color tiles are easy to deform, kink and damage when being hung to a roof.

The embodiment of the invention is realized in such a way that the movable high-altitude tile pressing device comprises a moving mechanism, a lifting mechanism and a tile pressing mechanism, wherein the lifting mechanism is arranged between the moving mechanism and the tile pressing mechanism;

the lifting mechanism comprises a base and a main arm, one end of the main arm is hinged with the base, the other end of the main arm is connected with one end of the tile pressing mechanism through a rotating shaft, the base is further hinged with a first hydraulic cylinder, the other end of the first hydraulic cylinder is hinged with the main arm, and the first hydraulic cylinder is obliquely arranged;

the main arm is hinged with one end of a connecting arm, the other end of the connecting arm is hinged with one end of a supporting arm, the other end of the supporting arm is hinged with the bottom of the tile pressing mechanism, a second hydraulic cylinder is hinged between the main arm and the supporting arm, and the second hydraulic cylinder is hinged to the middle of the supporting arm;

a blocking frame is hinged to the base, a third hydraulic cylinder is hinged to one side, facing the main arm, of the blocking frame, and the other end of the third hydraulic cylinder is hinged to the base;

the moving mechanism comprises a bearing plate and power equipment, the lifting mechanism is arranged on the bearing plate, and the power equipment provides power for the moving mechanism.

Furthermore, a rotating table is arranged between the lifting mechanism and the bearing plate, and the lifting mechanism rotates on the bearing plate through the rotating table.

Furthermore, the blocking frame is arranged in a bent mode, and one end, far away from the base, of the blocking frame is rotatably connected with a cross rod.

Furthermore, the cross rod is connected with a rotating roller through a chain, and the steel plate roll is sleeved on the rotating roller.

Furthermore, a supporting hydraulic cylinder is further arranged on the bearing plate, one end of the supporting hydraulic cylinder is further provided with a supporting leg, the supporting leg is abutted to the ground, and the other end of the supporting hydraulic cylinder penetrates through the bearing plate and extends to the upper portion of the bearing plate.

Furthermore, the length of the supporting hydraulic cylinder on the upper part of the bearing plate is greater than that of the supporting hydraulic cylinder on the lower part of the bearing plate.

Furthermore, the main arm comprises an inner arm and an outer arm which are connected in a sliding mode, one end of the inner arm is connected with the tile pressing mechanism, the other end of the inner arm is connected in the outer arm in a sliding mode, the inner arm is further connected with one end of a telescopic mechanism, the other end of the telescopic mechanism is connected with one end, close to the base, of the outer arm, one end, connected with the tile pressing mechanism, of the inner arm is arranged on the outer side of the outer arm, and the first hydraulic cylinder is connected with one end of the outer arm.

Furthermore, one end of the main arm connected with the tile pressing mechanism is provided with a rubber pad, and the corresponding end of the tile pressing mechanism is also provided with a rubber pad.

The embodiment of the invention also provides a movable high-altitude tile pressing method, which comprises the following steps:

the moving mechanism moves to a corresponding operation position, and the supporting hydraulic cylinder is lowered down, so that the support legs are stably supported on the ground;

a steel plate roll is sleeved on the rotating roller, and one end of the steel plate roll is connected to one end of the tile pressing mechanism;

the first hydraulic cylinder lifts the main arm to a preset position, and the second hydraulic cylinder pushes the supporting arm to a first position while the first hydraulic cylinder acts, so that the tile pressing mechanism is parallel to the roof;

the third hydraulic cylinder pushes the blocking frame to the second position, and the rotary roller is placed at the third position through the chain, so that the cross rod is abutted against the steel plate when the steel plate coil is unfolded;

and starting the tile pressing mechanism to perform tile pressing work.

Still further, the lifting of the main arm to the corresponding position of the roof by the first hydraulic cylinder includes:

the hydraulic cylinder extends the inner arm of the main arm out of the outer arm, and one end of the inner arm is lifted to the corresponding position of the roof.

Compared with the related art, the movable high-altitude tile pressing device and the method thereof provided by the invention have the following beneficial effects:

compared with the prior art, the movable high-altitude tile pressing device and the method thereof provided by the invention have the advantages that the tile pressing mechanism can be lifted due to the combination of the tile pressing mechanism and the moving mechanism by adopting the lifting mechanism, tile pressing work at the position where the color steel tiles need to be laid at the top of a factory building is realized, hoisting is not required after the color steel tiles are pressed, and the quality of the color steel tiles is ensured. The tile pressing mechanism realizes steel plate tile pressing at high altitude, and the moving mechanism can also move the tile pressing mechanism to a required corresponding position, so that the applicability of the tile pressing device can be improved. The main arm of the lifting mechanism is hinged on the base, the first hydraulic cylinder pushes the main arm to lift, the supporting arm is pushed by the second hydraulic cylinder, the second hydraulic cylinder is hinged between the main arm and the supporting arm, and the supporting arm is hinged on the tile pressing mechanism, so that the tile pressing mechanism can be balanced on the lifting mechanism.

In addition, a rotating platform is arranged between the base and the bearing plate, and the lifting mechanism can rotate to a proper position through the rotating direction of the rotating platform, so that the high-altitude tile pressing mechanism can adapt to various different working environments. The lifting mechanism can also be rotated to a balanced position, and the concentrated stress on the moving mechanism is reduced. The support hydraulic cylinder and the support leg extending out of the bearing plate can increase the stability of the bearing plate, so that the stability of the whole lifting mechanism is improved, and the stability of the tile pressing mechanism is guaranteed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

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, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

FIG. 1 is a schematic structural diagram of a movable high-altitude tile pressing device provided by an embodiment of the invention;

FIG. 2 is a schematic view of a connection structure of an inner arm and an outer arm of the movable high-altitude tile pressing device provided by the embodiment of the invention;

fig. 3 is a flow chart of a movable overhead tile pressing method provided by the embodiment of the invention.

Reference numerals:

1-moving mechanism, 11-bearing plate, 2-lifting mechanism, 21-base, 22-main arm, 221-inner arm, 222-outer arm, 23-first hydraulic cylinder, 24-connecting arm, 25-supporting arm, 26-second hydraulic cylinder, 3-tile pressing mechanism, 4-blocking frame, 41-third hydraulic cylinder, 42-cross bar, 5-supporting hydraulic cylinder, 51-supporting leg, 6-chain, 7-rotating roller and 8-telescoping mechanism.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to effectively explain embodiments of the present invention, the embodiments of the present application will be described in detail below with reference to the accompanying drawings.

Compared with the prior art, as shown in fig. 1-3, the movable high-altitude tile pressing device and the method thereof provided by the invention comprise a moving mechanism, a lifting mechanism and a tile pressing mechanism, wherein the lifting mechanism is arranged between the moving mechanism and the tile pressing mechanism, so that the tile pressing mechanism and the lifting mechanism can be moved to a proper place and lifted to a proper high-altitude operation position to perform tile pressing operation under the action of the lifting mechanism and the moving mechanism.

Example one

As shown in FIG. 1, in the movable high-altitude tile pressing device provided by the present application, the lifting mechanism 2 comprises a base 21 and a main arm 22, one end of the main arm 22 is hinged to the base 21, and the other end is connected to one end of the tile pressing mechanism 3 through a rotating shaft, in the specific implementation process, the tile pressing mechanism 3 may be a tile press with the type of angle slack 760 and 820. Still articulate first pneumatic cylinder 23 on the base 21, the other end of first pneumatic cylinder 23 articulates the one end that base 21 was kept away from to main arm 22, and in the concrete implementation process, when elevating system 2 has not raised yet, first pneumatic cylinder 23 sets up for the slope, and is specific, and the one end that first pneumatic cylinder 23 articulated main arm 22 is higher than the one end of articulating base 21, guarantees that first pneumatic cylinder 23 can extend smoothly, promotes main arm 22 and rotates on base 21. In addition, in the specific implementation process, the rubber pad is arranged at the end, connected with the tile pressing mechanism 3, of the main arm 22, so that the main arm 22 is prevented from being lifted and then abutted against a plant to damage the plant and the main arm 22, and the rubber pad is also arranged at the corresponding end of the tile pressing mechanism 3, namely the end, close to the roof, of the tile pressing mechanism 3, so that the damage between the plant and the tile pressing mechanism 3 can be prevented.

In the specific implementation process, one end of the connecting arm 24 is hinged to the main arm 22, the other end of the connecting arm is hinged to one end of the supporting arm 25, the other end of the supporting arm 25 is hinged to the bottom of the tile pressing mechanism 3, specifically, the hinged position of the supporting arm 25 and the tile pressing mechanism 3 is far away from the connecting position of the main arm 22 and the tile pressing mechanism 3, and the balance of the tile pressing mechanism 3 on the lifting mechanism 2 is guaranteed. The second hydraulic cylinder 26 is hinged between the main arm 22 and the supporting arm 25, specifically, one end of the second hydraulic cylinder 26 is hinged to the middle position of the supporting arm 25, and the hinged position of the second hydraulic cylinder 26 and the main arm 22 is lower than the hinged position of the connecting arm 24 and the main arm 22, so that the second hydraulic cylinder 26 can smoothly support the supporting arm 25 to be far away from the connecting arm 24, and further support the tile pressing mechanism 3.

The base 21 is hinged with the blocking frame 4, one side of the blocking frame 4, facing the main arm 22, is hinged with the third hydraulic cylinder 41, the other end of the third hydraulic cylinder 41 is hinged with the base 21, and the third hydraulic cylinder 41 pushes the blocking frame 4 to rotate. In the specific implementation process, keep off the crooked setting of frame 4, keep off the one end rotation connection horizontal pole 42 that base 21 was kept away from to frame 4, horizontal pole 42 passes through 6 connections of chain and changes roller 7, cup joints the steel sheet book on changeing roller 7, and the both ends of changeing roller 7 are connected to 6 connections of chain, guarantee that the steel sheet book is rotatory smoothly on changeing roller 7. The steel sheet is kept away from the one end that the steel sheet was rolled up and is connected the one end at tile pressing mechanism 3, and third pneumatic cylinder 41 makes fender frame 4 rotate the position that horizontal pole 42 can contradict the steel sheet, and supplementary steel sheet can not twist wantonly at the removal in-process.

The moving mechanism 1 comprises a bearing plate 11 and power equipment, the power equipment provides power for the moving mechanism 1, and in the specific implementation process, the moving mechanism 1 can be preferably a tire type tractor or a crawler type tractor, so that the moving mechanism can adapt to a complex road environment, and the applicability of the high-altitude tile pressing device is improved. The base 21 of the lifting mechanism 2 is arranged on the bearing plate 11, specifically, a rotating table is further arranged between the base 21 and the bearing plate 11, specifically, one side of the rotating table is abutted to the bottom surface of the base 21, the two sides of the rotating table are fixed through bolts, the other side of the rotating table is abutted to the upper surface of the bearing plate 11, the two sides of the rotating table are fixed through bolts, and the two end surfaces of the rotating table can rotate relatively. From this, elevating system 2 passes through the revolving stage and rotates on loading board 11, is convenient for adjust suitable angle, is convenient for promote tile pressing mechanism 3 to suitable position. In addition, when the lifting mechanism 2 is lifted for tile pressing, the lifting mechanism 2 is generally vertical to the bearing plate 11, and the lifting mechanism 2 is long in length when being recovered on the bearing plate 11, so that the direction of the lifting mechanism 2 can be adjusted through the rotating table, and the balance of the whole tile pressing device is ensured.

In addition, in the specific implementation process, in order to provide the stability of the bearing plate 11, the support hydraulic cylinders 5 are further arranged around the bearing plate 11, one ends of the support hydraulic cylinders 5, which face the ground, are further connected with support legs 51, and when the high-altitude tile pressing work is performed, the support hydraulic cylinders 5 extend to the extent that the support legs 51 abut against the bottom surface.

In addition, in a specific implementation process, sometimes the height of the plant is too high, and the length of the main arm 22 cannot lift the tile pressing mechanism 3 to a proper working position, so as to show in fig. 2, the main arm 22 provided in this embodiment further includes an inner arm 221 and an outer arm 222 that are slidably connected, one end of the inner arm 221 is disposed outside the outer arm 222 and connected to one end of the tile pressing mechanism 3 through a rotating shaft, the other end of the inner arm 221 is slidably connected inside the outer arm 222 and connected to one end of the telescopic mechanism 8, the other end of the telescopic mechanism 8 is connected to one end of the outer arm 222 close to the base 21, the telescopic mechanism 8 controls the extension and retraction of the inner arm 221, and particularly, the telescopic mechanism 8 is preferably a jack. The first hydraulic cylinder 23 is hinged to the outer arm 222 and controls the lifting of the outer arm 222 and the inner arm 221.

Example two

The embodiment provides a movable high-altitude tile pressing method, which is applied to the movable high-altitude tile pressing device provided by the above embodiment, and as shown in fig. 3, the method includes the following steps:

step S001: and the moving mechanism moves to a corresponding operation position, and the supporting hydraulic cylinder is lowered, so that the support legs are stably supported on the ground.

Step S002: the rotating roller is sleeved with a steel plate coil, and one end of the steel plate coil is connected to one end of the tile pressing mechanism.

Step S003: the first hydraulic cylinder lifts the main arm to a preset position, and the second hydraulic cylinder pushes the supporting arm to the first position while the first hydraulic cylinder acts, so that the inclination degree of the tile pressing mechanism is close to that of the roof.

Step S004: the third hydraulic cylinder pushes the blocking frame to the second position, and the rotating roller is placed at the third position through the chain, so that when the steel plate coil is unfolded, the cross rod pushes against the steel plate.

Step S005: and starting the tile pressing mechanism to perform tile pressing work.

The preset position refers to a position corresponding to the roof, namely the position of the main arm corresponding to the roof when the tile pressing mechanism reaches the operation position.

In addition, when the height of the workshop is too high, the general length of the main arm can not lift the tile pressing mechanism to the corresponding position of the roof, the method further comprises the following steps: the hydraulic cylinder extends the inner arm of the main arm out of the outer arm, and one end of the inner arm is lifted to the corresponding position of the roof.

Therefore, the movable high-altitude tile pressing device and the method thereof provided by the invention can lift the tile pressing mechanism, realize tile pressing at the position where the color steel tiles need to be laid at the top of the factory building, do not need to hoist the color steel tiles after being pressed, and ensure the quality of the color steel tiles.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A movable high-altitude tile pressing device is characterized by comprising a moving mechanism (1), a lifting mechanism (2) and a tile pressing mechanism (3), wherein the lifting mechanism is arranged between the moving mechanism (1) and the tile pressing mechanism (3);

the lifting mechanism (2) comprises a base (21) and a main arm (22), one end of the main arm (22) is hinged to the base (21), the other end of the main arm is connected to one end of the tile pressing mechanism (3) through a rotating shaft, a first hydraulic cylinder (23) is hinged to the base (21), the other end of the first hydraulic cylinder (23) is hinged to the main arm (22), and the first hydraulic cylinder (23) is obliquely arranged;

the main arm (22) is hinged with one end of a connecting arm (24), the other end of the connecting arm (24) is hinged with one end of a supporting arm (25), the other end of the supporting arm (25) is hinged with the bottom of the tile pressing mechanism (3), a second hydraulic cylinder (26) is hinged between the main arm (22) and the supporting arm (25), and the second hydraulic cylinder (26) is hinged with the middle part of the supporting arm (25);

a blocking frame (4) is hinged to the base (21), a third hydraulic cylinder (41) is hinged to one side, facing the main arm (22), of the blocking frame (4), and the other end of the third hydraulic cylinder (41) is hinged to the base (21);

the moving mechanism (1) comprises a bearing plate (11) and power equipment, the lifting mechanism (2) is arranged on the bearing plate (11), and the power equipment provides power for the moving mechanism (1).

2. The movable high altitude tile pressing device according to claim 1, characterized in that a rotating table is further arranged between the lifting mechanism (2) and the bearing plate (11), and the lifting mechanism (2) rotates on the bearing plate (11) through the rotating table.

3. The movable high-altitude tile pressing device as claimed in claim 1, wherein the blocking frame (4) is arranged in a bent manner, and a cross rod (42) is rotatably connected to one end of the blocking frame (4) far away from the base.

4. The movable high-altitude tile pressing device as claimed in claim 3, wherein the cross bar (42) is connected with a rotating roller (7) through a chain (6), and the steel plate roll is sleeved on the rotating roller (7).

5. The movable high-altitude tile pressing device as claimed in claim 1, wherein the bearing plate (11) is further provided with a supporting hydraulic cylinder (5), one end of the supporting hydraulic cylinder (5) is further provided with a supporting leg (51), the supporting leg (51) abuts against the ground, and the other end of the supporting hydraulic cylinder (5) penetrates through the bearing plate (11) and extends to the upper part of the bearing plate (11).

6. Movable high altitude tile pressing device according to claim 5, characterized in that the length of the supporting hydraulic cylinder (5) on the upper part of the carrying plate (11) is longer than the length of the supporting hydraulic cylinder (5) on the lower part of the carrying plate (11).

7. The movable type high altitude tile pressing device according to claim 5, wherein the main arm (22) comprises an inner arm (221) and an outer arm (222) which are connected in a sliding mode, one end of the inner arm (221) is connected with the tile pressing mechanism (3), the other end of the inner arm is connected in the outer arm (222) in a sliding mode, the inner arm (221) is further connected with one end of a telescopic mechanism (8), the other end of the telescopic mechanism (8) is connected with one end, close to the base, of the outer arm (222), one end, connected with the tile pressing mechanism (3), of the inner arm (221) is arranged on the outer side of the outer arm (222), and the first hydraulic cylinder (23) is connected with one end of the outer arm (222).

8. The movable high altitude tile pressing device according to claim 1, wherein one end of the main arm (22) connected with the tile pressing mechanism (3) is provided with a rubber pad, and the corresponding end of the tile pressing mechanism (3) is also provided with a rubber pad.

9. A movable high-altitude tile pressing method applied to the movable high-altitude tile pressing device as claimed in any one of claims 1 to 8, wherein the method comprises the following steps:

the moving mechanism moves to a corresponding operation position, and the supporting hydraulic cylinder is lowered down, so that the support legs are stably supported on the ground;

a steel plate roll is sleeved on the rotating roller, and one end of the steel plate roll is connected to one end of the tile pressing mechanism;

the first hydraulic cylinder lifts the main arm to a preset position, and the second hydraulic cylinder pushes the supporting arm to a first position while the first hydraulic cylinder acts, so that the tile pressing mechanism is parallel to the roof;

the third hydraulic cylinder pushes the blocking frame to the second position, and the rotary roller is placed at the third position through the chain, so that the cross rod is abutted against the steel plate when the steel plate coil is unfolded;

and starting the tile pressing mechanism to perform tile pressing work.

10. The movable high altitude tile pressing method as claimed in claim 9, wherein said first hydraulic cylinder lifting said main arm to a corresponding position on the roof comprises:

the hydraulic cylinder extends the inner arm of the main arm out of the outer arm, and one end of the inner arm is lifted to the corresponding position of the roof.

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