CN115303929A - High-reliability hoisting piece for assembled building wallboard and hoisting method - Google Patents

Abstract

The invention discloses a high-reliability hoisting piece for an assembly type building wallboard and a hoisting method, wherein the hoisting piece comprises a hoisting plate and is characterized in that: the lifting device comprises a lifting plate fixedly connected with a lifting hook, wherein the lifting hook is used for hanging a lifting rope, two ends of the lifting rope are fixedly connected with a fixed plate, the fixed plate is fixedly connected with a transverse plate, the middle part of the transverse plate is fixedly connected with a vertical plate II, the vertical plate II is fixedly connected with a motor support, the motor support is fixedly connected with a motor I, an output shaft of the motor I penetrates through the vertical plate II, an output shaft of the motor I is fixedly connected with a gear II, and the gear II is meshed with the gear I. The invention relates to the field of hoisting equipment, in particular to a high-reliability hoisting piece for an assembled building wallboard and a hoisting method. The invention aims to provide a high-reliability hoisting piece for an assembled building wallboard and a hoisting method, which are convenient for hoisting a prefabricated part.

Description

High-reliability hoisting piece for assembled building wallboard and hoisting method

Technical Field

The invention relates to the field of hoisting equipment, in particular to a high-reliability hoisting piece for an assembled building wallboard and a hoisting method.

Background

The prefabricated building refers to that each part of buildings such as side fascia, interior wallboard, superimposed sheet, balcony, air conditioning board, stair, precast beam, prefabricated post prefabricate machine-shaping in the mill workshop, then transport to the building site and install. Because each part is prefabricated and molded in a unified way in a workshop, the size, the structure and the like of each part are more accurate, and only installation is carried out on the site, so that the on-site pouring work is greatly reduced, the on-site construction is simpler, the on-site pouring maintenance process is omitted, and the construction period can be greatly shortened.

When the prefabricated part is lifted, the gravity center can be changed under the action of wind power and the like. If an equipment can be provided, the center of gravity of the lifted prefabricated part can be kept, and the lifting and subsequent assembly of the prefabricated part can be realized.

Disclosure of Invention

The invention aims to provide a high-reliability hoisting piece for an assembly type building wallboard and a hoisting method, which are convenient for hoisting a prefabricated part.

The invention adopts the following technical scheme to realize the purpose of the invention:

a high-reliability hoisting piece for an assembly type building wallboard and a hoisting method comprise a hoisting plate and are characterized in that: the hanger plate fixed connection lifting hook, the lifting hook hangs the lifting rope, the both ends fixed connection fixed plate of lifting rope, fixed plate fixed connection diaphragm, the middle part fixed connection riser two of diaphragm, two fixed connection motor supports of riser, motor support fixed connection motor one, the output shaft of motor one passes riser two, the output shaft fixed connection gear two of motor one, two meshing gear ones of gear, a gear bearing is connected riser two, a gear fixed connection long slab, the both ends fixed connection circle piece of long slab, circle piece fixed connection dead lever, the ferryboat is crossed to the both ends fixed connection of dead lever, the lifting rope encircles the ferryboat is crossed.

As a further limitation of the technical solution, the transverse plate is fixedly connected with a transverse level and a longitudinal level, and the transverse level and the longitudinal level are vertically distributed.

As a further limitation of the technical scheme, the transverse plate is fixedly connected with the first circular ring, the two ends of the long plate are fixedly connected with the connecting rods, the two ends of the connecting rods are rotatably connected with the first circular shaft, and the first circular shaft is in contact with the first circular ring.

As a further limitation of the technical scheme, the two ends of the transverse plate are fixedly connected with mounting rods, and the mounting rods are fixedly connected with a lifting appliance through nuts.

As a further limitation of the technical scheme, the hanger is a hook, a steel wire rope or a steel wire rope with a hook.

As a further limitation of the technical scheme, the transverse plate is fixedly connected with the first vertical plate, the first vertical plate is fixedly connected with the second upper circular ring, the second vertical plate is fixedly connected with the second circular ring, the second circular ring is fixedly connected with the second circular shaft, the second circular shaft is rotatably connected with the chute rod, the chute rod is fixedly connected with a group of evenly distributed counterweight rods, and the second circular ring is fixedly connected with the second motor.

As a further limitation of the technical solution, the second ring is rotatably connected with a gear ring, the gear ring is fixedly connected with a third ring, the third ring is fixedly connected with a round rod, the round rod is arranged in a corresponding sliding groove of the sliding groove rod, an output shaft of the second motor is fixedly connected with a third gear, and the gear ring is engaged with the third gear.

A high-reliability hoisting piece hoisting method for an assembly type building wallboard is characterized by comprising the following steps:

the method comprises the following steps: mounting the hanger plate to equipment such as a crane;

step two: operating a crane to drive the device to move, so that the lifting appliance is lowered to a proper position, and the circular rings arranged on the prefabricated parts are hung on the lifting appliance;

step three: when the prefabricated part has a left-right inclination trend, taking the left high and the right low as an example, operating the motor to rotate in a positive direction to enable the transition wheel on the right side to swing downwards, so that the right side of the lifting rope is tensioned, the left side of the lifting rope is loosened, the transverse plate swings, the lifting appliance drives the prefabricated part to swing, the right side of the prefabricated part is heightened to offset the inclination trend, and when the prefabricated part returns to the horizontal level, the transition wheel returns to the initial position;

step four: when the prefabricated part swings forwards, backwards, leftwards and rightwards, the second motor is operated to realize the position adjustment of the seed distributing rod and the gravity center position adjustment, so that the prefabricated part is kept in a vertical state;

step five: and hoisting the prefabricated part in place, installing the prefabricated part, and disconnecting the prefabricated part from the lifting appliance.

As a further limitation of the technical solution, the transverse level meter monitors the position of the center of gravity of the prefabricated component in the left-right direction, when the motor rotates, the motor drives the gear two to rotate, the gear two drives the gear one to rotate, the gear one drives the long plate, the round block, the fixed rod, the transition wheel and the connecting rod to swing, the connecting rod drives the round shaft one to move along the round ring one, the transition wheel drives the lifting rope to swing, so that the lifting rope drives the fixed plate, the transverse plate, the mounting rod, the lifting appliance, the nut, the vertical plate one, the round ring two, the round shaft two, the chute rod, the seed preparation rod, the motor two, the gear three, the gear ring, the round ring three and the round rod to swing, and the lifting appliance drives the prefabricated component to swing, thereby realizing the adjustment of the center of gravity in the left-right direction.

As a further inject of this technical scheme, vertical spirit level monitoring prefabricated component focus is in front and back direction position, when two motors rotate, two motors drive three rotations of gear, three drives of gear ring rotation, the ring gear drives three rotations of ring, three drives of ring the round bar is followed the spout swing of spout pole, the round bar drives the spout pole swing, the spout pole drives the weight bar swing, the spout pole drives through the spout pole that three evenly set up the weight bar swing, two-layer every layer three sets up about, the balancing weight makes the inertia that produces during the balancing weight swing offsets each other, avoids because of the inertia of balancing weight is to the influence of focus position.

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

1. this device is through setting up horizontal spirit level monitoring prefabricated component focus in the left and right sides position, sets up vertical spirit level monitoring prefabricated component focus front and back direction position, makes the controller control motor one and motor two according to horizontal spirit level and vertical spirit level monitoring result, makes the hoist and mount process more stable.

2. This device is through setting up the lifting rope, and the lifting rope hangs on the lifting hook, encircles the ferryboat, and fixed connection fixed plate under the drive of motor one, realizes the ferryboat swing, realizes that the lifting rope form changes, and one side is taut, and the opposite side is relaxed, offsets prefabricated component slope trend, and when the prefabricated component resumes the level, crosses the ferryboat and resumes initial position.

3. This device is through the balancing weight that every layer three group set up about two-layer, and the inertia that produces when making the balancing weight swing offsets each other, and the inertia of two-layer balancing weight offsets each other from top to bottom, and the inertia that produces with the balancing weight swing of layer offsets each other, avoids the influence to the focus position because of the inertia of balancing weight.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic partial perspective view of the first embodiment of the present invention.

Fig. 3 is a partial perspective view illustrating a second embodiment of the present invention.

Fig. 4 is a schematic view of a partial three-dimensional structure of the present invention.

Fig. 5 is a schematic partial perspective view illustrating a fourth embodiment of the present invention.

Fig. 6 is a schematic partial perspective view of the present invention.

Fig. 7 is a schematic partial perspective view illustrating a sixth embodiment of the present invention.

Fig. 8 is a schematic perspective view of the second embodiment of the present invention.

In the figure: 1. the lifting device comprises a lifting plate, 2, a lifting hook, 3, a lifting rope, 4, a fixing plate, 5, a transverse plate, 6, a mounting rod, 7, a lifting appliance, 8, a first vertical plate, 9, a transverse level gauge, 10, a longitudinal level gauge, 11, a nut, 12, a first circular ring, 13, a second vertical plate, 14, a connecting rod, 15, a first circular shaft, 16, a long plate, 17, a first gear, 18, a circular block, 19, a first motor, 20, a motor support, 21, a second gear, 22, a transition wheel, 23, a fixing rod, 24, a second circular ring, 25, a counterweight rod, 26, a sliding groove rod, 27, a second circular shaft, 28, a third gear, 29, a gear ring, 30, a third circular ring, 31, a circular rod, 32 and a second motor.

Detailed Description

An embodiment of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the embodiment.

The lifting device comprises a lifting plate 1, wherein the lifting plate 1 is fixedly connected with a lifting hook 2, the lifting hook 2 is used for suspending a lifting rope 3, two ends of the lifting rope 3 are fixedly connected with fixing plates 4, the fixing plates 4 are fixedly connected with a transverse plate 5, the middle part of the transverse plate 5 is fixedly connected with a vertical plate two 13, the vertical plate two 13 is fixedly connected with a motor support 20, the motor support 20 is fixedly connected with a motor one 19, an output shaft of the motor one 19 penetrates through the vertical plate two 13, an output shaft of the motor one 19 is fixedly connected with a gear two 21, the gear two 21 is meshed with a gear one 17, the gear one 17 is in bearing connection with the vertical plate two 13, the gear one 17 is fixedly connected with a long plate 16, two ends of the long plate 16 are fixedly connected with round blocks 18, the round blocks 18 are fixedly connected with a fixing rod 23, two ends of the fixing rod 23 are fixedly connected with transition wheels 22, and the lifting rope 3 surrounds the transition wheels 22.

The transverse plate 5 is fixedly connected with a transverse level 9 and a longitudinal level 10, and the transverse level 9 and the longitudinal level 10 are vertically distributed.

Diaphragm 5 fixed connection ring one 12, the both ends fixed connection connecting rod 14 of long board 16, the both ends of connecting rod 14 are rotated and are connected circle axle one 15, circle axle one 15 contact ring one 12.

The two ends of the transverse plate 5 are fixedly connected with mounting rods 6, and the mounting rods 6 are fixedly connected with a lifting appliance 7 through nuts 11.

The hanger 7 is a hook, a steel wire rope or a steel wire rope with a hook.

5 fixed connection riser 8 of diaphragm, 8 fixed connection upside ring two 24 of riser, two 24 fixed connection of ring, two 24 three even respectively circle axle two 27 of ring fixed connection, circle axle two 27 rotate and connect spout pole 26, a set of evenly distributed's of spout pole 26 fixed connection counterweight rod 25, two 24 fixed connection motors 32 of ring.

The second ring 24 is rotatably connected with a gear ring 29, the gear ring 29 is fixedly connected with a third ring 30, the third ring 30 is fixedly connected with a round rod 31, the round rod 31 is arranged in a corresponding sliding groove of the sliding groove rod 26, an output shaft of the second motor 32 is fixedly connected with a third gear 28, and the gear ring 29 is meshed with the third gear 28.

A high-reliability hoisting piece hoisting method for an assembly type building wallboard comprises the following steps:

the method comprises the following steps: mounting the hanger plate 1 on equipment such as a crane;

step two: operating a crane to drive the device to move, so that the lifting appliance 7 descends to a proper position, and suspending the circular rings arranged on the prefabricated parts to the lifting appliance 7;

step three: when the prefabricated part has a left-right inclination trend, taking the left high and the right low as an example, operating the first motor 19 to rotate in a forward direction to enable the transition wheel 22 on the right side to swing downwards, so that the right side of the lifting rope 3 is tensioned and the left side is loosened to realize the swinging of the transverse plate 5, enabling the lifting appliance 7 to drive the prefabricated part to swing, enabling the right side of the prefabricated part to be heightened to offset the inclination trend, and when the prefabricated part returns to the horizontal level, enabling the transition wheel 22 to return to the initial position;

step four: when the prefabricated part swings forwards, backwards, leftwards and rightwards, the second motor 32 is operated to realize the position adjustment of the seed distributing rod 25 and the position adjustment of the center of gravity, so that the prefabricated part is kept in a vertical state;

step five: and hoisting the prefabricated part in place, installing the prefabricated part, and disconnecting the prefabricated part from the lifting appliance 7.

The transverse level meter 9 monitors the position of the gravity center of the prefabricated part in the left-right direction, when the motor I19 rotates, the motor I19 drives the gear II 21 to rotate, the gear II 21 drives the gear I17 to rotate, the gear I17 drives the long plate 16, the round block 18, the fixing rod 23, the transition wheel 22 and the connecting rod 14 to swing, the connecting rod 14 drives the round shaft I15 to move along the round ring I12, the transition wheel 22 drives the lifting rope 3 to swing, so that the lifting rope 3 drives the fixing plate 4, the transverse plate 5, the mounting rod 6, the lifting appliance 7, the nut 11, the vertical plate I8, the round ring II 24, the round shaft II 27, the chute rod 26, the seed distributing rod 25, the motor II 32, the gear III 28, the gear ring 29, the round ring III 30 and the round rod 31 to swing, and the lifting appliance 7 drives the prefabricated part to swing, so that the gravity center adjustment in the left-right direction is realized.

Vertical spirit level 10 monitoring prefabricated component focus front and back direction position, when motor two 32 rotates, motor two 32 drives gear three 28 rotates, gear three 28 drives ring gear 29 rotates, ring gear 29 drives ring three 30 rotates, ring three 30 drives round bar 31 follows the spout swing of spout pole 26, round bar 31 drives the spout pole 26 swing, spout pole 26 drives the weight lever 25 swing, through the three spout pole 26 that evenly sets up drive the weight lever 25 swing, the upper and lower two-layer every layer three group sets up the balancing weight 25, make the inertia that produces when balancing weight 25 swings offsets each other, avoids because of the inertia of balancing weight 25 is to the influence of centre of gravity position.

The transverse level gauge 9, the longitudinal level gauge 10, the first motor 19 and the second motor 32 are respectively electrically connected with a controller.

The working process of the invention is as follows: the controller is debugged to control the first motor 19 and the second motor 32 according to the detection results of the transverse level 9 and the longitudinal level 10.

The hanger plate 1 is mounted on a crane or the like.

In the initial state, as shown in fig. 1, the device is symmetrical in the front-back direction and the left-right direction, and the center line of the device at this time is the initial position center line.

The crane is operated to drive the device to move, so that the lifting appliance 7 descends to a proper position, and the circular rings arranged on the prefabricated parts are hung on the lifting appliance 7.

And operating the crane to hoist the prefabricated part.

The transverse level meter 9 monitors the position of the gravity center of the prefabricated part in the left-right direction, when the prefabricated part has a left-right inclination trend, the first motor 19 is operated to rotate in the forward direction, the controller controls the first motor 19 to rotate, the first motor 19 drives the second gear 21 to rotate, the second gear 21 drives the first gear 17 to rotate, the first gear 17 drives the long plate 16, the round block 18, the fixing rod 23, the transition wheel 22 and the connecting rod 14 to swing, the connecting rod 14 drives the first round shaft 15 to move along the first round ring 12, the transition wheel 22 drives the lifting rope 3 to swing, so that the lifting rope 3 drives the fixing plate 4, the transverse plate 5, the mounting rod 6, the lifting appliance 7, the nut 11, the first vertical plate 8, the second round ring 24, the second round shaft 27, the chute rod 26, the seed distributing rod 25, the second motor 32, the third gear 28, the gear ring 29, the third transition ring 30 and the round rod 31 to swing, and the prefabricated part is driven to swing at ordinary times, so that the right transition wheel 22 swings downwards, the right side of the lifting appliance is tensioned, the right side of the prefabricated part is loosened, the prefabricated part, the inclination is offset, and the initial inclination trend of the prefabricated part is recovered and the position of the lifting appliance 22.

The longitudinal level meter 10 monitors the position of the gravity center of the prefabricated part in the front-back direction, when the prefabricated part swings back and forth and left and right, the controller controls the motor two 32 to rotate, the motor two 32 drives the gear three 28 to rotate, the gear three 28 drives the gear ring 29 to rotate, the gear ring 29 drives the ring three 30 to rotate, the ring three 30 drives the round rod 31 to swing along the chute of the chute rod 26, the round rod 31 drives the chute rod 26 to swing, the chute rod 26 drives the counterweight rod 25 to swing, the three chute rods 26 uniformly arranged on the upper layer and the lower layer drive the counterweight rod 25 to swing, and the counterweight blocks 25 arranged on the upper layer and the lower layer in three groups are arranged in each layer, so that the rotational inertia generated when the counterweight blocks 25 swing is mutually offset, and the influence of the rotational inertia of the counterweight blocks 25 on the position of the gravity center is avoided. The position adjustment of the seed distributing rod 25 and the position adjustment of the center of gravity are realized, so that the prefabricated part is kept in a vertical state.

And hoisting the prefabricated part in place, installing the prefabricated part, and disconnecting the prefabricated part from the lifting appliance 7.

This device is through setting up horizontal spirit level 9 monitoring prefabricated component focus in the left and right sides position, sets up vertical spirit level 10 monitoring prefabricated component focus front and back direction position, makes the controller control motor 19 and motor two 32 according to horizontal spirit level 9 and vertical spirit level 10 monitoring result, makes the hoist and mount process more stable.

This device is through setting up lifting rope 3, and lifting rope 3 hangs on lifting hook 2, encircles the ferryboat 22, and fixed connection fixed plate 4 realizes crossing the ferryboat 22 swing under the drive of motor 19, realizes that the lifting rope 3 form changes, and one side is taut, and the opposite side is relaxed, offsets prefabricated component slope trend, and when the prefabricated component resumes the level, crosses ferryboat 22 and resumes initial position.

This device is through the balancing weight 25 that upper and lower two-layer every layer three group set up, and the inertia that produces when making the balancing weight 25 swing offsets each other, and the inertia of upper and lower two-layer balancing weight 25 offsets each other, and the inertia that produces with the swing of layer balancing weight 25 offsets each other, avoids because of the influence of the inertia of balancing weight 25 to the focus position.

The above disclosure is only for the specific embodiment of the present invention, but the present invention is not limited thereto, and any variations that can be made by those skilled in the art should fall within the scope of the present invention.

Claims (9)

1. The utility model provides an assembly type structure high reliability hoist and mount piece for wallboard, includes hanger plate (1), its characterized in that:

the hanging plate (1) is fixedly connected with a lifting hook (2);

the lifting rope (3) is hung on the lifting hook (2);

two ends of the lifting rope (3) are fixedly connected with fixing plates (4), and the fixing plates (4) are fixedly connected with transverse plates (5);

the middle part of the transverse plate (5) is fixedly connected with a second vertical plate (13), the second vertical plate (13) is fixedly connected with a motor support (20), and the motor support (20) is fixedly connected with a first motor (19);

an output shaft of the first motor (19) penetrates through the second vertical plate (13), and the output shaft of the first motor (19) is fixedly connected with a second gear (21);

the second gear (21) is meshed with the first gear (17), the first gear (17) is in bearing connection with the second vertical plate (13), and the first gear (17) is fixedly connected with the long plate (16);

round blocks (18) are fixedly connected to two ends of the long plate (16), the round blocks (18) are fixedly connected with fixing rods (23), and two ends of each fixing rod (23) are fixedly connected with transition wheels (22);

the lifting rope (3) surrounds the transition wheel (22).

2. The high reliability sling for the prefabricated building panels of claim 1, wherein: the transverse plate (5) is fixedly connected with a transverse level (9) and a longitudinal level (10), and the transverse level (9) and the longitudinal level (10) are vertically distributed.

3. The assembled building wallboard high reliability hoist and mount piece of claim 2, characterized in that: the two ends of the transverse plate (5) are fixedly connected with mounting rods (6), and the mounting rods (6) are fixedly connected with a lifting appliance (7) through nuts (11).

4. A high reliability sling according to claim 3 for prefabricated building wall panels, wherein: diaphragm (5) fixed connection riser one (8), riser one (8) fixed connection upside ring two (24), two ring two (24) fixed connection, ring two (24) three even respectively of fixed connection circle axle two (27), circle axle two (27) are rotated and are connected spout pole (26), a set of evenly distributed's of spout pole (26) fixed connection counterweight rod (25), ring two (24) fixed connection motor two (32).

5. A high reliability sling for a fabricated building wallboard according to claim 4, wherein: ring two (24) are rotated and are connected ring gear (29), ring gear (29) fixed connection ring three (30), ring three (30) fixed connection round bar (31), round bar (31) set up and are corresponding in the spout of spout pole (26), the output shaft fixed connection gear three (28) of motor two (32), ring gear (29) meshing gear three (28).

6. The method for hoisting the high-reliability hoisting piece for the fabricated building wallboard, disclosed by the claim 5, is characterized by comprising the following steps of:

the method comprises the following steps: mounting the hanger plate (1) on equipment such as a crane;

step two: operating a crane to drive the device to move, so that the lifting appliance (7) descends to a proper position, and suspending the circular rings arranged on the prefabricated parts on the lifting appliance (7);

step three: when the prefabricated part has a left-right inclination trend, taking the left high and the right low as an example, operating the motor I (19) to rotate in the positive direction to enable the transition wheel (22) on the right side to swing downwards, so that the right side of the lifting rope (3) is tensioned, the left side is loosened, the transverse plate (5) swings, the lifting appliance (7) drives the prefabricated part to swing, the right side of the prefabricated part is heightened to offset the inclination trend, and when the prefabricated part returns to the horizontal position, the transition wheel (22) returns to the initial position;

step four: when the prefabricated part swings forwards, backwards, leftwards and rightwards, the second motor (32) is operated to realize the position adjustment of the seed distributing rod (25), realize the position adjustment of the center of gravity and keep the prefabricated part in a vertical state;

step five: and hoisting the prefabricated part in place, installing the prefabricated part, and disconnecting the prefabricated part from the lifting appliance (7).

7. The method for hoisting the high-reliability hoisting piece for the fabricated building wallboard according to claim 8, characterized in that: vertical spirit level (10) monitoring prefabricated component focus is in front and back direction position, when motor two (32) rotate, motor two (32) drive three (28) rotations of gear, gear three (28) drive ring gear (29) rotate, ring gear (29) drive ring three (30) rotate, ring three (30) drive pole (31) are followed the spout swing of spout pole (26), pole (31) drive spout pole (26) swing, spout pole (26) drive the swing of weight lever (25), drive through three spout pole (26) that evenly set up weight lever (25) swing, two-layer upper and lower every layer three group sets up weight block (25), make the inertia that produces when balancing weight (25) swing offsets each other, avoids because of the inertia of weight block (25) is to the influence of focus position.

8. The assembled building wallboard high reliability hoist and mount piece of claim 4, characterized in that: the hanger (7) is a hook, a steel wire rope or a steel wire rope with a hook.

9. The assembled building high reliability hoist and mount piece for wallboard of claim 2, characterized in that: diaphragm (5) fixed connection ring one (12), both ends fixed connection connecting rod (14) of long board (16), the both ends of connecting rod (14) are rotated and are connected circle axle one (15), circle axle one (15) contact ring one (12).

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