CN111502295A - Mechanical auxiliary installation process for assembled wall - Google Patents

Abstract

The invention provides an assembly type wall mechanical auxiliary installation process, which adopts an assembly type wall mechanical auxiliary installation vehicle, wherein the auxiliary installation vehicle comprises an equipment body, a gripper module, a turnover module and a lifting module, and comprises the following steps: step a: the auxiliary mounting vehicle rotates the module to act, and rotates the gripper module by 90 degrees; step b: the auxiliary mounting vehicle drives the module to act, the gripper module tilts forward, and the sucker is attached to the wall body; step c: the pneumatic module of the auxiliary installation vehicle acts to vacuumize the space in the sucker; step d: the auxiliary mounting vehicle driving module acts again, and the gripper module retracts to enable the wall to be in the vertical direction; step e: the auxiliary mounting vehicle lifting module acts to lift the height of the gripper module upwards; step f: the auxiliary mounting vehicle rotating module acts again to rotate the gripper module by 90 degrees; step g: and moving the auxiliary mounting vehicle to a wall mounting position, and extending the gripper module forwards to mount the wall.

Description

Mechanical auxiliary installation process for assembled wall

Technical Field

The application relates to the field of building material construction, in particular to a mechanical auxiliary mounting process for an assembled wall body.

Background

In the prior art, the installation of building materials such as walls and the like is mostly carried out manually, the installation quality is uneven, the construction efficiency is low, the construction wastes time and labor, and the labor cost is high; for constructors, the wall is generally heavy, so that the working strength is high, and the construction period is long.

Disclosure of Invention

In order to solve the technical problems, the invention provides a mechanical auxiliary installation process for an assembled wall body, which greatly reduces the labor intensity of constructors, improves the installation efficiency of the constructors and greatly reduces the construction cost.

In order to achieve the purpose of the invention, the technical scheme adopted by the invention is as follows:

the invention provides an assembly type wall mechanical auxiliary installation process, which uses an assembly type wall mechanical auxiliary installation vehicle, wherein the assembly type wall mechanical auxiliary installation vehicle comprises an equipment body, a gripper module, a turnover module and a lifting module,

the overturning module is arranged at one end of the equipment body, one end of the lifting module is connected with the overturning module, the other end of the lifting module is connected with the gripper module through a rotating shaft, the gripper module can rotate around the rotating shaft, and the gripper module comprises a gripper and a sucker;

also comprises the following steps:

step a: moving the auxiliary installation vehicle to the wall, rotating the module by the auxiliary installation vehicle to act, and rotating the gripper module by 90 degrees;

step b: the auxiliary mounting vehicle drives the module to act, the gripper module tilts forward, and the sucker is attached to the wall body;

step c: the pneumatic module of the auxiliary installation vehicle acts to vacuumize the space in the sucker;

step d: the auxiliary mounting vehicle driving module acts again, and the gripper module retracts to enable the wall to be in the vertical direction;

step e: the auxiliary mounting vehicle lifting module acts to lift the height of the gripper module upwards;

step f: the auxiliary mounting vehicle rotating module acts again to rotate the gripper module by 90 degrees;

step g: and moving the auxiliary mounting vehicle to a wall mounting position, and extending the gripper module forwards to mount the wall.

Optionally, the number of the suction cups is 4, and the 4 suction cups are located on the same plane.

Optionally, the assembled wall mechanical-assisted installation vehicle further comprises casters, and the casters are installed at four corners of the device body.

Optionally, the assembled wall mechanical-assisted installation vehicle further comprises a locking device, the locking device being mounted on the caster wheel.

Optionally, the apparatus body is stepped.

Optionally, before the step b, the method further comprises the step of assisting the action of the vehicle mounting lifting module to adjust the height of the hand grip.

Optionally, the step g further includes assisting actions of a lifting module and a sliding module of the installation vehicle to adjust the installation position of the wall body.

Optionally, a nailing operation is further included after the step g.

Optionally, the locking means of the secondary installation vehicle is locked prior to the nailing operation.

Optionally, the auxiliary installation vehicle further comprises a manual operator, the manual operator is electrically connected with the rotating module, the driving module, the pneumatic module and the lifting module, and the manual operator controls the auxiliary installation vehicle to act.

Compared with the prior art, the invention has the following beneficial effects:

the assembly type wall mechanical auxiliary installation vehicle provided by the invention can assist constructors in installing a wall, greatly lightens the labor intensity of the constructors, improves the installation efficiency, ensures the installation quality well, shortens the whole construction period of wall installation, and reduces the whole construction cost. According to the mechanical auxiliary installation process for the assembled wall, the auxiliary installation vehicle is adopted, so that the efficiency of wall (wallboard) installation of constructors is greatly improved, the labor intensity of the constructors is reduced, the construction progress is accelerated, the construction quality is improved, and the whole construction cost is reduced.

Additional features and advantages of the application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the application. The objectives and other advantages of the application may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the example serve to explain the principles of the invention and not to limit the invention.

FIG. 1 is a schematic structural diagram of a mechanical auxiliary mounting vehicle for a fabricated wall according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of another angle of the mechanical auxiliary installation vehicle for the assembled wall according to the embodiment of the present invention;

fig. 3 is a schematic structural view (front view) of the mechanical auxiliary mounting vehicle for the assembled wall according to the embodiment of the present invention.

Illustration of the drawings:

1-gripper module, 11-gripper, 111-projection, 12-suction cup, 13-support module, 14-sliding module, 2-lifting module, 21-first electric cylinder, 22-bracket, 3-turning module, 31-second electric cylinder, 4-third electric cylinder, and 5-equipment body.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

The embodiment of the invention provides an assembled wall mechanical auxiliary mounting process, which uses an assembled wall mechanical auxiliary mounting vehicle, as shown in figures 1 to 3, the auxiliary mounting vehicle comprises an equipment body 5, a gripper module 1, a turning module 3 and a lifting module 2, wherein the turning module 3 is arranged at one end of the equipment body 5, one end of the lifting module 2 is connected with the turning module 3, the other end of the lifting module is connected with the gripper module 1, and the gripper module 1 can rotate on the plane where the gripper module is located.

In the assembled wall mechanical auxiliary mounting vehicle, a hand wheel assembly and a support module 13 are mainly used for adjusting the distance between two arms of a gripper 11, a sliding module 14 is mainly used for carrying out fine adjustment on the gripper 11, a sucker 12 and the like in the horizontal direction (Y-axis direction) (further carrying out fine adjustment on a gripped wall in the horizontal direction), a lifting module 2 is mainly used for adjusting the height of the gripper module 1 in the vertical direction, a turning module 3 is mainly used for controlling the gripper module 1 (and the lifting module 2) to move forwards, and a third electric cylinder 4 is mainly used for controlling the gripper module 1 to rotate on a plane where the gripper module is located.

By adopting the mechanical auxiliary installation process for the assembled wall provided by the embodiment of the invention, the labor intensity of constructors is greatly reduced, the installation efficiency is improved, the installation quality is well ensured, the integral construction period of wall installation is shortened, and the integral construction cost is reduced.

Alternatively, as shown in fig. 1 to 3, the gripper module 1 includes a gripper 11 and a suction cup 12, the gripper 11 is provided with a protrusion 111, and the suction cup 12 is mounted on the protrusion 111 of the gripper 11, wherein the number of the suction cups 12 is 4, and the 4 suction cups 12 are located on the same plane.

For ease of illustration, FIG. 1 shows an XYZ coordinate system.

Optionally, as shown in fig. 1 and fig. 3, the gripper module 1 further includes a support module 13, the support module 13 is connected to the gripper 11, a guide rail is disposed on the support module 13, a slider is disposed on the gripper 11, and the gripper 11 can slide on the support module 13 along the guide rail; or, the support module 13 is provided with a slide block, the gripper 11 is provided with a guide rail, and the gripper 11 can slide on the support module 13 along the direction of the guide rail.

Optionally, the gripper module 1 further comprises a hand wheel assembly (not shown in the figures) which is in geared connection with the gripper 11.

The hand wheel assembly comprises a hand wheel and a screw rod, wherein the screw rod is in gear engagement transmission with the hand grip 11 and is used for adjusting the distance between two arms of the hand grip 11, so that the hand wheel assembly is suitable for grabbing wall modules with different grabbing widths of 400-1200mm, and the hand wheel assembly in the hand grip module 1 is matched with the support module 13, so that the distance between the two hand grips 11 is adjustable. The lead screw is meshed with the hand grip 11 through a gear, the lead screw can be meshed with an arm gear of the hand grip 11, the lead screw is driven to rotate by rotating the hand wheel, so that one arm of the hand grip 11 is driven to slide on the supporting module 13, distance adjustment between the two arms is achieved, and the adjustment of the hand grip 11 is more reliable through the matching transmission of the lead screw, the guide rail and the sliding block.

In order to enable the hand grip 11 to conveniently slide on the support module 13, a guide rail can be arranged on the support module 13, and a sliding block is arranged on the hand grip 11; or, a sliding block is arranged on the support module 13, and a guide rail is arranged on the hand grip 11, so that the hand grip 11 can slide on the support module 13 along the direction of the guide rail.

It should be noted that, regarding the two arms of the gripper 11, each arm is a segment of a whole, i.e. the two suction cups 12 on one arm are fixed at intervals, but they can be modified according to the actual needs, for example: the distance between the two suckers 12 on one arm can be adjusted by arranging the arm into two sections connected through the slide rail and the slide block.

Optionally, as shown in fig. 1, the gripper module 1 further includes a sliding module 14, and the sliding module 14 is connected to the gripper 11 at one end and the lifting module 2 at the other end.

The sliding module 14 enables the hand grip 11 and the suction disc 12 to move +/-20 mm along the horizontal direction (i.e. the Y-axis direction) during working, and the lifting module 2 is matched to finely adjust the horizontal and vertical positions of the wall body, so that the wall body can be conveniently installed. Specifically, the sliding module 14 can be finely adjusted, which mainly depends on an air cylinder provided inside the device body 5 and having a throttle valve, and the air cylinder having the throttle valve is used for providing power for fine adjustment of the sliding module 14 from side to side, and normal air is introduced into the air cylinder without compressing air.

Alternatively, as shown in fig. 1 to 3, the lifting module 2 comprises a bracket 22, the bracket 22 being hinged on the apparatus body 5. The height of the top end of the support 22 from the ground is 2021 mm.

Optionally, as shown in fig. 2 and 3, the lifting module 2 further comprises a first electric cylinder 21, the first electric cylinder 21 being arranged for adjusting the height of the gripper module 1 on the support 22. I.e. the adjustment in the Z-axis direction, the tilting module 3 optionally comprises a second electric cylinder 31, the second electric cylinder 31 being arranged for controlling the rotation of the support 22. The support 22 rotates with the Y axis as a rotation axis, and further drives the gripper module 1 to rotate with the Y axis as a rotation axis.

Optionally, as shown in fig. 2 and 3, the gripper module 1 further comprises a third electric cylinder 4, the third electric cylinder 4 being arranged to control the rotation of the gripper module 1 in the plane in which it is located. I.e. the gripper module 1 can be turned in the YZ-plane.

Wherein, first electric jar 21 and third electric jar 4 can cooperate the action simultaneously, namely, auxiliary assembly can realize that tongs module 1 drives the wall body and carries out rotary motion when rising, and the operation in the especially adapted small space to, rise and rotatory going on simultaneously helps making auxiliary assembly keep balance.

The assembled wall mechanical auxiliary installation vehicle provided by the embodiment of the invention has the overall size of 1263.5 × 800 × 2021mm (the lengths in the X direction, the Y direction and the Z direction are respectively equal, the lower part is the same), the height of the top end of the assembled wall mechanical auxiliary installation vehicle when the gripper 11 is lifted to the highest position is 32230mm, the overall weight of the auxiliary equipment is 225kg, the weight of the gripper module 1 is 45 kg., the width of the auxiliary equipment after the hook is removed is 750mm (namely the length of the hook is 50mm), the assembled wall mechanical auxiliary installation vehicle provided by the embodiment of the invention has reasonable size, the width of the assembled wall mechanical auxiliary installation vehicle is smaller than the width of a currently universal single-door or elevator door and the like, the height is about 2m in a non-working state, the assembled wall mechanical auxiliary installation vehicle can pass through most elevator doors and the like, the length of the assembled wall mechanical auxiliary installation vehicle is about 1.3 m and can enter most of the elevator.

The embodiment of the invention provides an installation process, and the assembly type wall mechanical auxiliary installation vehicle comprises the following steps:

step a: moving the auxiliary mounting vehicle to the wallboard, rotating the module by the auxiliary mounting vehicle to act, and rotating the gripper module by 90 degrees;

step b: the auxiliary mounting vehicle drives the module to act, the gripper module tilts forward, and the sucker is attached to the wallboard;

step c: the pneumatic module of the auxiliary installation vehicle acts to vacuumize the space in the sucker;

step d: the auxiliary mounting vehicle driving module acts again, and the gripper module retracts to enable the wallboard to be in the vertical direction;

step e: the auxiliary mounting vehicle lifting module acts to lift the height of the gripper module upwards;

step f: the auxiliary mounting vehicle rotating module acts again to rotate the gripper module by 90 degrees;

step g: and moving the auxiliary mounting vehicle to the wallboard mounting position, and extending the gripper module forwards to mount the wallboard.

When the auxiliary equipment is used, the auxiliary equipment is pushed to the front of a wall body, the manual operator controls the first electric cylinder 21 to extend out, the overturning support 22 and the whole gripper module 1 are pushed to overturn around the pin shaft, and the first electric cylinder 21 stops acting after the gripper 11 is parallel to the wall body through visual inspection; pushing the auxiliary device until the sucker 12 is attached to the wall body, manually operating the manual operator, pressing a corresponding button, correspondingly connecting the electromagnetic valve with compressed air to vacuumize the sucker 12, and controlling the first electric cylinder 21 to retract to the initial position through the manual operator when the target vacuum degree is reached; and then pushing the auxiliary equipment to a target position, controlling the second electric cylinder 31 to extend through a manual operator, so as to lift the wall body and the gripper module 1, and controlling an electromagnetic valve of a rotary cylinder through the manual operator when the wall body and the gripper module are lifted to a proper height position, so that the rotary cylinder acts to realize 90-degree rotation of the gripper 11 and the wall body. After the rotation is finished, the trolley is pushed to the mounting position to move forward for further position correction, the height of the wall body can be adjusted by controlling the second electric cylinder 31, the angle of the wall body can be adjusted by the first electric cylinder 21 and the horizontal transverse position of the wall body can be adjusted by manually pushing the hand grab 11 or the wall body for adjustment (the sliding module 14), and the trolley can be pushed to mount and fix the wall body after the position is adjusted.

The step of rotating the whole gripper module 1 about the auxiliary equipment line is determined according to the placement mode of the wall board, for example, the size of a conventional wall body is 1.2m × 3m, when the edge of 3m of the wall body is placed close to the ground, the auxiliary equipment needs to rotate the gripper module 1 for 90 degrees before grabbing, when the edge of 1.2m of the wall body is placed close to the ground, the auxiliary equipment can grab directly without rotating the gripper module 1, generally, the initial posture of the wall body is that the long edge is downward (the long edge is close to the ground), the height of the long edge at the bottom is more than or equal to 200mm from the ground, the included angle between the long edge at the bottom and the ground is more than or equal to 80 degrees, and the gripper 11 can grab.

In addition, the inside of the equipment body 5 also comprises an air compressor, an air storage tank, a vacuum pump, a storage battery and the like, wherein the size of the vacuum pump is 400 × 200 × 300mm, the size of the air storage tank is 660 × 300 × 340mm, the whole structure is more compact and reasonable, the number of the storage battery is 8, the storage battery is divided into 2 groups, the weight is 56kg, the whole practicability of the equipment is improved by two groups of batteries, when one group of batteries works, the other group of batteries can be taken out for charging, the batteries can be alternately used for adapting to a long-time working state, and the storage battery can be taken out in a mode of opening a door at the back side.

The auxiliary equipment also comprises a manual operator, and the manual operator is used for controlling the equipment to rotate, grab the hand 11 and the like. This auxiliary assembly still includes the truckle, and the truckle is installed on four angles of equipment body 5, still install locking device on the truckle for pin the truckle when the circumstances such as nailing, prevent that equipment from removing.

Still be equipped with the tool holder on equipment body 5, can be used to place tools commonly used etc. convenient and practical, the both sides of equipment body 5 still are provided with the couple for supplementary storage tool etc..

As a further supplement, the mechanical auxiliary installation vehicle for an assembled wall according to the embodiment of the present invention may further include a glue module (not shown in the figure), and the glue module may be replaced to perform a glue operation after the handle assembly is removed. Specifically, the rubber coating module includes two running rollers to and set up the band of preventing ftractureing in the middle of two running rollers, and deposit gluey box, deposit gluey box and can set up on the highest step of equipment body 5, and one running roller in two running rollers mainly plays the effect that the tensioning supported, and another running roller is used for scribbling to the band of preventing ftractureing and glues. The glue coating module can stand the anti-cracking belt with glue at the joint gap of the two wallboards from top to bottom (or from bottom to top), so that the mounting attractiveness is improved.

In the description of the present invention, it should be noted that the term "plurality" means two or more, and the directions or positional relationships indicated by the terms "upper", "lower", "one end", "the other end", and the like are based on the directions or positional relationships shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the structures referred to have a specific direction, are configured and operated in a specific direction, and thus, cannot be construed as limiting the present invention.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "connected," "connected," and "mounted" are to be construed broadly, e.g., the term "connected" may be a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Although the embodiments disclosed in the present application are described above, the descriptions are only for the convenience of understanding the present application, and are not intended to limit the present application. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims.

Claims (10)

1. The utility model provides an installation technology is assisted to assembled wall machinery which characterized in that: an assembly type wall mechanical auxiliary installation vehicle is used, the assembly type wall mechanical auxiliary installation vehicle comprises an equipment body, a gripper module, a turnover module and a lifting module,

the overturning module is arranged at one end of the equipment body, one end of the lifting module is connected with the overturning module, the other end of the lifting module is connected with the gripper module through a rotating shaft, the gripper module can rotate around the rotating shaft, and the gripper module comprises a gripper and a sucker;

also comprises the following steps:

step a: moving the auxiliary installation vehicle to the wall, rotating the module by the auxiliary installation vehicle to act, and rotating the gripper module by 90 degrees;

step b: the auxiliary mounting vehicle drives the module to act, the gripper module tilts forward, and the sucker is attached to the wall body;

step c: the pneumatic module of the auxiliary installation vehicle acts to vacuumize the space in the sucker;

step d: the auxiliary mounting vehicle driving module acts again, and the gripper module retracts to enable the wall to be in the vertical direction;

step e: the auxiliary mounting vehicle lifting module acts to lift the height of the gripper module upwards;

step f: the auxiliary mounting vehicle rotating module acts again to rotate the gripper module by 90 degrees;

step g: and moving the auxiliary mounting vehicle to a wall mounting position, and extending the gripper module forwards to mount the wall.

2. The mechanical-assisted installation process of an assembled wall according to claim 1, characterized in that: the quantity of sucking disc is 4, 4 the sucking disc is located the coplanar.

3. The mechanical-assisted installation process of an assembled wall according to claim 1, characterized in that: the mechanical auxiliary mounting vehicle for the assembly-type wall body further comprises trundles, and the trundles are mounted on four corners of the equipment body.

4. The mechanical auxiliary installation process of the assembled wall body according to claim 3, characterized in that: the mechanical auxiliary mounting vehicle for the assembled wall further comprises a locking device, and the locking device is mounted on the caster.

5. The mechanical-assisted installation process of an assembled wall according to claim 1, characterized in that: the equipment body is in a step shape.

6. The mechanical-assisted installation process of an assembled wall according to claim 1, characterized in that: and c, assisting the mounting vehicle lifting module to act and adjusting the height of the hand grip before the step b.

7. The mechanical-assisted installation process of an assembled wall according to claim 1, characterized in that: and g, assisting actions of a lifting module and a sliding module of the mounting vehicle to adjust the mounting position of the wall body.

8. The mechanical-assisted installation process of an assembled wall according to claim 1, characterized in that: and g, also comprising nailing operation after the step g.

9. The mechanical-assisted installation process of an assembled wall according to claim 8, characterized in that: before the nailing operation, the locking device of the auxiliary installation vehicle is locked.

10. A mechanical-assisted mounting process for an assembled wall according to any one of claims 1 to 9, characterized in that: the auxiliary installation vehicle further comprises a manual operator, the manual operator is electrically connected with the rotating module, the driving module, the pneumatic module and the lifting module, and the manual operator controls the auxiliary installation vehicle to act.

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