CN217147767U - Arc glass adsorption equipment - Google Patents

Abstract

The utility model discloses an arc glass adsorption equipment, include: the framework is in an arc shape matched with the radian of the arc-shaped glass and comprises a main framework and auxiliary frameworks which are detachably connected to two sides of the main framework; the tray frames are vertically and uniformly distributed on the main framework and the auxiliary framework; the sucking disc is arranged on the disc frame; and the vacuum pump control system is communicated with the sucker through a pipeline. The utility model discloses can conveniently transport to and can improve arc glass's adsorption efficiency, adsorption affinity and leakproofness, can avoid hoist and mount in-process arc glass curtain wall to break away from the skeleton and produce the risk that the high altitude falls.

Description

Arc glass adsorption equipment

Technical Field

The utility model relates to a building engineering technical field, in particular to arc glass adsorption equipment.

Background

More and more the bold glass curtain wall of appearance in the building engineering, because monolithic glass's volume and weight are big on the contrary, the engineering project generally adopts electronic sucking disc device to hoist the construction to glass curtain wall, and electronic sucking disc device passes through the pipe and extracts the interior air of sucking disc, makes to reach more than 80% vacuum rate in the sucking disc, utilizes the vacuum pressure absorption glass curtain wall that atmospheric pressure produced to hoist the construction. This electric sucker device's defect lies in, and electric sucker device's skeleton is planar structure, when meetting the shape glass curtain wall of great circular arc, carries out angle modulation through the rotatory system between single sucking disc and skeleton and makes required vacuum in the sucking disc during sucking disc central symmetry axle and the unable perpendicular assurance hoist and mount of arc glass contact point out of plumb, then the sucking disc adsorbs insecure easy break away from, easily produces the risk that the high altitude falls with arc glass. And the adjustment space for the angle adjustment of the rotating system is limited, thereby causing the vacuum suction force in the sucker to be reduced. In addition, the vacuum energy storage system of the conventional electric sucker device is a vacuum emitter, the maximum vacuum of the vacuum energy storage system is 88kpa, the vacuum suction flow of the vacuum energy storage system is small, and the adsorption hoisting construction of the arc-shaped glass curtain wall with large volume and weight cannot be met. And the skeleton of conventional electric sucker device is structure as an organic whole, and its weight and volume are all great, inconvenient transportation to job site.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an arc glass adsorption equipment is provided to there is the adsorption efficiency poor, adsorb insecure easily to produce the problem of high altitude risk of falling when solving the inconvenient transportation of traditional electric suction cup device and advancing to the field and hoist and mount construction arc glass curtain wall.

In order to solve the technical problem, the utility model provides a technical scheme is: an arcuate glass adsorbing device comprising:

the framework is matched with the radian of the arc-shaped glass and comprises a main framework and auxiliary frameworks which are detachably connected to two sides of the main framework;

the tray frames are vertically and uniformly distributed on the main framework and the auxiliary framework;

the sucking disc is arranged on the disc frame;

and the vacuum pump control system is communicated with the sucker through a pipeline.

Further, the utility model provides an arc glass adsorption equipment, the skeleton is syllogic detachable construction, include a main frame and can dismantle through the bolt and connect in the vice skeleton of main frame both sides.

Further, the utility model provides an arc glass adsorption equipment, the sucking disc is 24, 12 that set up for the longitudinal symmetry on the main skeleton, every the vice skeleton is 6 of longitudinal symmetry, is located sucking disc on the main skeleton becomes upper and lower two sets of distributions with the sucking disc that is located on the vice skeleton, and every group sucking disc becomes a straight line setting.

Further, the utility model provides an arc glass adsorption equipment, vacuum pump control system is two sets of, and every group vacuum pump control system corresponds a set of sucking disc.

Further, the utility model provides an arc glass adsorption equipment still includes:

and the valve is arranged on a pipeline between each sucker and the vacuum pump control system.

Further, the utility model provides an arc glass adsorption equipment, the sucking disc is the silica gel sucking disc.

Further, the utility model provides an arc glass adsorption equipment, vacuum pump control system still includes:

and the remote control handle is used for controlling vacuum conveying and releasing so as to control whether the sucker adsorbs the arc-shaped glass.

Further, the utility model provides an arc glass adsorption equipment, remote control handle is wired remote control handle or wireless remote control handle.

Further, the utility model provides an arc glass adsorption equipment, the plate rail is adjustable frame.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model provides an arc glass adsorption device, which is an improvement on the basis of the traditional electric sucker device, modifies a plane framework into an arc framework, is suitable for hoisting construction of a single arc glass curtain wall with larger volume and weight, ensures that a sucker central shaft, a vertical line of a contact point of the framework and the sucker and a vertical line of a central point of a contact surface of the arc glass curtain wall are on the same straight line through the framework matched with the arc glass radian, improves the adsorption efficiency, ensures that the sucker central shaft can be perpendicular to a tangent plane of the contact point of the arc glass curtain wall without a rotating angle adjusting frame between the sucker and the framework in the hoisting process of the arc glass curtain wall, thereby improving the contact area and the sealing property of the sucker and the arc glass curtain wall, preventing air leakage, improving the reliable adsorption force of the sucker to the arc glass curtain wall, and ensuring that the arc glass adsorption device can firmly adsorb the arc glass curtain wall, the risk that the arc-shaped glass curtain wall breaks away from the framework to cause high-altitude falling in the hoisting process is avoided.

The utility model provides an arc glass adsorption equipment improves the vacuum generator of traditional electric suction cup device into the vacuum pump, can improve the conveying efficiency of vacuum through vacuum pump control system to make the sucking disc reach required vacuum rapidly in the short time, compare with vacuum generator and improved the conveying efficiency to the vacuum of sucking disc, can also prevent that natural air from getting into the sucking disc.

The utility model provides an arc glass adsorption equipment sets up the skeleton into the sectional type structure that can dismantle the main skeleton and the vice skeleton of connection to made things convenient for transportation main skeleton and vice skeleton to job site, used through the field assembly skeleton after, avoided the inconvenient defect of transporting on the road of the integration skeleton of great volume and weight. The skeleton of sectional type structure can also form the arc glass of different weight of multiple integrated configuration hoist and mount, has the advantage of transportation convenience and multipurpose.

Drawings

FIG. 1 is a schematic plan view of an arc-shaped glass adsorption device;

FIG. 2 is a schematic side view showing a state of use of the arc-shaped glass adsorption device;

FIG. 3 is a schematic structural view of a detachable connection node of a main framework and an auxiliary framework of the arc-shaped glass adsorption device;

FIG. 4 is a schematic diagram of the vacuum pump control system and the suction cup;

shown in the figure:

100. an arc-shaped glass adsorption device;

110. framework 111, main framework 112, auxiliary framework 113 and bolt;

120. a tray frame;

130. a suction cup;

140. a vacuum pump control system 141, a vacuum pump 142, a pipeline 143, a valve 144 and a remote control handle;

200. arc-shaped glass.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings: the advantages and features of the present invention will become more apparent from the following description. It should be noted that the drawings are in simplified form and are not to precise scale, and are provided for convenience and clarity in order to facilitate the description of the embodiments of the present invention.

Referring to fig. 1 to 4, an embodiment of the present invention provides an arc glass adsorption device 100, including a frame 110, a tray frame 120, a suction cup 130 and a vacuum pump control system 140, wherein:

the frame 110, which is an arc shape matching with the arc glass 200, includes a main frame 111 and sub-frames 112 detachably connected to both sides of the main frame 111. The radian of the framework 110 is matched with that of the arc-shaped glass 200, which means that the radian of the framework 110 is the same as that of the arc-shaped colored glaze 200.

And the tray frames 120 are vertically and uniformly distributed on the main framework 111 and the auxiliary framework 112. The tray frame 120 may be a fixed frame to ensure the consistency of the suction cups 130 disposed on the frame 110, so as to maintain the suction cups 130 to be in effective contact with the frame 110, and prevent the separation of more than one suction cups 130 from the arc-shaped glass 200.

And a suction cup 130 provided on the tray frame 120. Wherein the suction cup 130 may be a silicone suction cup 130. The chuck 130 parameters may be selected to be 100KG weight bearing with a diameter of 300 mm.

And a vacuum pump control system 140 communicated with the sucker 130 through a pipeline. Wherein the vacuum pump control system 140 includes a vacuum pump 141 and a conduit 142.

Referring to fig. 1 to 4, an arc glass adsorption device 100 according to an embodiment of the present invention is an improvement of a conventional electric suction cup device, in which a planar frame is modified into an arc frame, and is suitable for hoisting construction of a single arc glass curtain wall with a large volume and a heavy weight, and the frame 110 matched with an arc glass 200 is used to ensure that a central axis of a suction cup 130, a vertical line of a contact point between the frame 110 and the suction cup 130, and a vertical line of a central point of a contact surface between the suction cup 130 and the arc glass curtain wall are aligned with each other, so as to improve adsorption efficiency, so that the central axis of the suction cup 130 can be perpendicular to a tangent plane of the contact point of the arc glass curtain wall without using a rotation angle adjusting bracket between the suction cup 130 and the frame 110 during hoisting of the arc glass curtain wall, thereby improving a contact area and sealing performance of the suction cup 130 and the arc glass curtain wall, preventing air leakage, and improving a reliable adsorption force of the suction cup 130 to the arc glass curtain wall, therefore, the arc-shaped glass curtain wall can be firmly adsorbed by the arc-shaped glass adsorption device 100, and the risk of falling from the high altitude caused by the fact that the arc-shaped glass curtain wall is separated from the framework 110 in the hoisting process is avoided.

Referring to fig. 1 to 4, the present invention provides an arc glass adsorption device 100, which improves a vacuum generator of a conventional electric suction cup device into a vacuum pump 141, and can improve the conveying efficiency of the vacuum degree through a vacuum pump control system 140, so that the suction cup 130 rapidly reaches the required vacuum degree in a short time, and compared with the vacuum generator, the conveying efficiency of the vacuum degree of the suction cup 130 is improved, and natural air can be prevented from entering the suction cup 130.

Referring to fig. 1 to 3, an embodiment of the present invention provides an arc glass adsorption device 100, in which a frame 110 is configured as a sectional structure that can be detachably connected to a main frame 111 and an auxiliary frame 112, so as to facilitate transportation of the main frame 111 and the auxiliary frame 112 to a construction site, and the frame 110 is assembled on the site and then used, thereby avoiding the defect that the integrated frame 110 with a large volume and a heavy weight is inconvenient to transport on a road. The skeleton of sectional type structure can also form the arc glass of different weight of multiple integrated configuration hoist and mount, has the advantage of transportation convenience and multipurpose.

Referring to fig. 1 and 3, in order to facilitate transportation, in the arc glass adsorption device 100 according to an embodiment of the present invention, the frame 110 is a three-section detachable structure, and includes a main frame 111 and sub frames 112 detachably connected to two sides of the main frame 111 by bolts 113. The framework 110 with the three-section detachable structure, the plate rack 120 and the suction cup 130 are transported separately, so that the transportation is convenient.

Referring to fig. 1, in order to improve the carrying capacity, in the arc glass adsorption device 100 according to the embodiment of the present invention, the number of the suction cups 130 is 24, 12 suction cups are symmetrically arranged on the main frame 111, 6 suction cups are symmetrically arranged on the sub-frame 112, the suction cups 130 on the main frame 111 and the suction cups 130 on the sub-frame 112 are distributed in two groups, and each suction cup 130 is arranged in a straight line. That is, the entire arc glass adsorption device 100 can bear the vacuum adsorption force of 2400KG, and can adsorb a single piece of arc glass 200 with the load bearing force of 2400KG or less, that is, the rated load bearing force is 2400 KG.

Referring to fig. 1, in order to facilitate the vacuum delivery to the suction cups 130, in the arc glass adsorption device 100 according to an embodiment of the present invention, the vacuum pump control systems 140 are two groups, and each group of the vacuum pump control systems 140 corresponds to one group of the suction cups 130.

Referring to fig. 4, in the arc glass adsorption device 100 according to the embodiment of the present invention, the vacuum pump system 140 may further include:

a valve 143 is provided in the conduit 142 between each suction cup 130 and the vacuum pump control system 140. Whether each sucker 130 is sucked or not can be independently controlled through the valve 143 so as to be suitable for arc glass 200 compatible with various specifications and sizes.

Referring to fig. 4, in order to facilitate the suction or release control of the suction cup 130, the vacuum pump control system 140 of the arc glass suction device 100 according to an embodiment of the present invention may further include:

and a remote control handle 144 for controlling vacuum delivery and release to control whether the suction cup 130 sucks the arc glass 200. Wherein the remote control handle 144 is a wired remote control handle 144 or a wireless remote control handle 144.

Through vacuum pump 141, improve the flow of breathing in of vacuum pump control system 140 for the process of bleeding is accelerated, can accomplish the exhaust in 1s, avoids too long because of the process of breathing in, not yet closely laminating with arc glass 200 at sucking disc 130, and the natural air escapes, leads to whole process of breathing in to fail. Meanwhile, the maximum vacuum rate of the vacuum pump control system is improved, and the suction force is enhanced.

In order to finely adjust the position of the suction member 130, the arc glass suction device 100 according to an embodiment of the present invention, the tray frame 120 is an adjustable frame.

The present invention is not limited to the above specific embodiments, and obviously, the above described embodiments are a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived from the description of the embodiments of the present invention by a person skilled in the art, are within the scope of the present invention. Other levels of modification and variations of the present invention will occur to those skilled in the art. Thus, if such modifications and variations of the present invention fall within the scope of the claims, then it is intended that the present invention also include such modifications and variations.

Claims (9)

1. The utility model provides an arc glass adsorption equipment which characterized in that includes:

the framework is in an arc shape matched with the radian of the arc-shaped glass and comprises a main framework and auxiliary frameworks which are detachably connected to two sides of the main framework;

the tray frames are vertically and uniformly distributed on the main framework and the auxiliary framework;

the sucking disc is arranged on the disc frame;

and the vacuum pump control system is communicated with the sucker through a pipeline.

2. The arc-shaped glass adsorption device according to claim 1, wherein the frame is a three-section detachable structure comprising a main frame and auxiliary frames detachably connected to both sides of the main frame by bolts.

3. The arc-shaped glass adsorption device according to claim 2, wherein the number of the suckers is 24, the number of the suckers on the main framework is 12, the number of the suckers on the main framework is 6, the number of the suckers on the auxiliary framework is 6, the suckers on the main framework and the suckers on the auxiliary framework are distributed in two groups, and each group of the suckers are arranged in a straight line.

4. The curved glass attraction device of claim 3, wherein the vacuum pump control systems are in two sets, one set for each set of suction cups.

5. The curved glass suction device according to claim 1, further comprising:

and the valve is arranged on a pipeline between each sucker and the vacuum pump control system.

6. The arc-shaped glass suction device according to claim 1, wherein the suction cup is a silica gel suction cup.

7. The curved glass suction device according to claim 1, wherein the vacuum pump control system further comprises:

and the remote control handle is used for controlling vacuum conveying and releasing so as to control whether the sucker adsorbs the arc-shaped glass.

8. The curved glass adsorption device of claim 7, wherein the remote control handle is a wired remote control handle or a wireless remote control handle.

9. The curved glass suction device according to claim 1, wherein the dish holder is an adjustable holder.

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