CN210559166U - Air cushion type overhead workshop carrying platform - Google Patents

Abstract

The utility model discloses an air cushion type overhead workshop carrying platform, which comprises a lifting platform supported by a lifting column, a bottom air cushion arranged at the bottom of the lifting column and a top air cushion arranged on the lifting platform; and a bearing skid corresponding to the stress position of the equipment is arranged on the top air cushion. The utility model discloses a but have bottom air cushion and top air cushion and the lift platform of synchronous lift through the setting, can utilize shock attenuation, the steady transport function of bottom air cushion and top air cushion will lay quick, steady, laborsaving transport to the overhead workshop on the lift platform of equipment to the equipment high efficiency transport installation to the overhead workshop of co-altitude has not been realized.

Description

Air cushion type overhead workshop carrying platform

Technical Field

The utility model relates to an equipment transport installation technical field, in particular to air cushion type overhead workshop transport platform to be used for carrying equipment smoothly and get into the workshop that has overhead platform.

Background

When carrying out equipment transportation and installation, if an elevated workshop (the floor of the workshop is higher than the horizontal plane where the equipment is located) is encountered, and a conventional forklift and the like can not smoothly enter the elevated workshop, how to smoothly transport the equipment into the elevated workshop for installation is a great problem.

In addition, high precision equipment such as semiconductor production equipment and liquid crystal panel production equipment has high requirements on vibration and stability in the carrying process, so that the conventional mounting and hoisting equipment is not suitable for carrying.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an air cushion type overhead workshop carrying platform, which comprises a lifting platform supported by a lifting column, a bottom air cushion arranged at the bottom of the lifting column and a top air cushion arranged on the lifting platform; a bearing skid corresponding to the stress position of the equipment is arranged on the top air cushion; here, the lifting column may be a lifting column that is lifted by oil pressure, air pressure, or mechanical driving, and is not limited thereto.

The side edge of the lifting platform is provided with a circle of buffer gaskets so as to avoid equipment deviation caused by collision between the lifting platform and a horizontal step of an elevated workshop.

And a horizontal sensor is further arranged on the lifting platform to monitor whether the lifting platform is in a horizontal state in real time so as to ensure that the equipment is in the horizontal state.

Optionally, a clamping groove corresponding to the lifting column is formed in the bottom air cushion to prevent the lifting column and the bottom air cushion from generating horizontal displacement during carrying.

And the top air cushion is provided with a lock catch corresponding to the bearing skid so as to be used for locking and positioning the bearing skid on the top air cushion.

Through the technical scheme, the utility model discloses a but the setting has bottom air cushion and top air cushion and lift in step lift platform, can utilize the shock attenuation of bottom air cushion, steady handling function will lay fast on the lift platform of equipment, it is steady, laborsaving transport to the horizontal step position department in overhead workshop, then utilize the synchronous lift drive lift platform of lift post to go up and down to bottom and horizontal step surface parallel and level, then can utilize the shock attenuation of top air cushion, steady handling function will set up equipment on lift platform fast, it is steady, laborsaving transport to the overhead workshop in, thereby realized carrying the installation to the equipment high efficiency between the overhead workshop of not co-altitude.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

Fig. 1 is a schematic structural view of a carrying platform disclosed in the embodiment of the present invention.

The figures in the drawings represent:

10. elevated workshop 11, horizontal step 20, lifting platform

21. Lifting column 22, bottom air cushion 23, top air cushion

24. Bearing skid 25, buffer pad 30 and equipment

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1, the present invention provides an air-cushion type overhead compartment carrying platform, which comprises a lifting platform 20 supported by a lifting column 21, a bottom air cushion 22 disposed at the bottom of the lifting column 21, and a top air cushion 23 disposed on the lifting platform 20; the top air cushion 23 is provided with a bearing skid 24 corresponding to the stress position of the equipment 30; here, the lifting column 21 may be a lifting column 21 that is lifted by oil pressure, air pressure, or mechanical driving, and is not limited thereto.

Wherein, a circle of buffer gaskets 25 are arranged on the side edge of the lifting platform 20 to avoid the lifting platform 20 colliding with the horizontal step 11 of the elevated workshop 10 to cause the deviation of the equipment 30; a level sensor (not shown) is further disposed on the lifting platform 20 to monitor whether the lifting platform 20 is in a level state in real time to ensure that the device 30 is in the level state; the bottom air cushion 22 is provided with a slot (not shown) corresponding to the lifting column 21 to prevent the lifting column 21 and the bottom air cushion 22 from generating horizontal displacement during transportation; the top cushion 23 is provided with a lock catch (not shown) corresponding to the load-bearing skid 24 for locking and positioning the load-bearing skid 24 on the top cushion 23.

When the utility model works, firstly, the bearing skid 24 is arranged at the corresponding position on the top air cushion 23 according to the bearing position of the equipment 30, then the lifting platform 20 is adjusted to be horizontal through the linkage of a plurality of lifting columns 21 based on the horizontal sensor, and then the bearing position of the equipment 30 corresponding to the bearing skid 24 is placed on the top air cushion 23 by using carrying tools such as a forklift;

after the equipment 30 is placed, the bottom air cushion 22 is inflated to enable the whole carrying platform to float to a certain height under the action of high-pressure gas, then the whole platform can be pushed to move towards the elevated workshop 10 manually or by adopting auxiliary facilities, the carrying platform falls to the ground after the bottom air cushion 22 is inflated by withdrawing pins at the position of the horizontal step 11 of the elevated workshop 10, the lifting platform 20 is driven to lift through the lifting columns 21 which are lifted synchronously to enable the upper surface of the lifting platform 20 to be flush with the upper surface of the horizontal step 11 (namely the mounting ground of the elevated workshop 10), the top air cushion 23 is inflated to enable the top air cushion 23 bearing the equipment 30 to float to a certain height, then the top air cushion 23 of the equipment 30 can be pushed to move to the mounting position of the elevated workshop 10 manually or by adopting auxiliary facilities, the top air cushion 23 is inflated by withdrawing pins after the equipment 30 is carried to the mounting position in the elevated workshop 10 to enable the top air cushion 23 to fall to the surface of the horizontal step 11, the equipment 30 may then be transported from the top air cushion 23 to the surface of the horizontal step 11 for installation by a forklift or other auxiliary facility within the elevated cab 10; the level sensor needs to be monitored in real time during the whole transportation and lifting process to ensure that the equipment 30 is in a horizontal state.

The utility model discloses a setting has bottom air cushion 22 and top air cushion 23 and lift in step's lift platform 20, can utilize bottom air cushion 22's shock attenuation, steady handling function will be laid on equipment 30's lift platform 20 fast, it is steady, laborsaving transport to the 11 position departments of horizontal step of overhead workshop 10, then utilize lift post 21's synchronous lift drive lift platform 20 to go up and down to bottom and 11 surface parallel and levels of horizontal step, then can utilize top air cushion 23's shock attenuation, steady handling function will set up equipment 30 on lift platform 20 fast, it is steady, laborsaving transport to the overhead workshop 10 in, thereby realized the high-efficient transport installation of equipment 30 to the overhead workshop 10 of different heights.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to the above-described embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. An air-cushion type elevated workshop transfer platform, comprising a lifting platform (20) supported by lifting columns (21), a bottom air cushion (22) disposed at the bottom of the lifting columns (21), and a top air cushion (23) disposed on the lifting platform (20); and a bearing skid (24) corresponding to the stress position of the equipment (30) is arranged on the top air cushion (23).

2. Air-cushion overhead vehicle transfer platform according to claim 1, characterized in that the lifting platform (20) is provided with a ring of cushion washers (25) on its sides to avoid the lifting platform (20) colliding with the horizontal step (11) of the overhead vehicle (10) and causing the equipment (30) to shift.

3. The air cushion overhead cab transfer platform of claim 1 wherein the lift platform (20) is further provided with a level sensor to monitor in real time whether the lift platform (20) is level to ensure that the equipment (30) is level.

4. Air cushion overhead vehicle transfer platform according to any of claims 1-3, wherein the bottom air cushion (22) is provided with a snap groove corresponding to the lifting column (21) to prevent horizontal displacement of the lifting column (21) and the bottom air cushion (22) during transfer.

5. Air-cushion elevated vehicle transfer platform according to claim 4, wherein a lock catch corresponding to the load-bearing skid (24) is provided on the top air cushion (23) for locking positioning of the load-bearing skid (24) on the top air cushion (23).

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