CN216549192U

CN216549192U - Stable high altitude glass overhead hoist

Info

Publication number: CN216549192U
Application number: CN202123122145.3U
Authority: CN
Inventors: 石景峰; 李恒; 胥瑞玲
Original assignee: Sichuan Fuqiang Decoration Engineering Co ltd
Current assignee: Sichuan Fuqiang Decoration Engineering Co ltd
Priority date: 2021-12-14
Filing date: 2021-12-14
Publication date: 2022-05-17
Anticipated expiration: 2031-12-14

Abstract

The utility model belongs to the technical field of glass transportation, and a stable high altitude glass overhead hoist is disclosed, including the portal frame, the top sliding connection of portal frame has the slider, the bottom fixed mounting of slider has the vertical pole, the bottom fixed mounting of vertical pole has the position box, one side fixed mounting that the portal frame was kept away from to the position box has first sucking disc, the top of portal frame is provided with the adjustment mechanism who changes first sucking disc position, the inside of position box is provided with the positioning mechanism who further stabilizes glass. This stable high altitude glass overhead hoist through the cylinder operation, and the slider drives the vertical pole and removes, and the location case drives first sucking disc and limiting plate and removes to suitable position after, rethread electric telescopic handle operation, and the cooperation of slide and gasbag is used, and the flow pipe will be located the inside air of second sucking disc and take out, and first sucking disc and second sucking disc are fixed to glass's different regions, thereby has reached through above-mentioned structure and has been convenient for to the stable effect that removes of glass.

Description

Stable high altitude glass overhead hoist

Technical Field

The application belongs to the technical field of glass transportation, and particularly relates to a stable overhead glass lifting device.

Background

The glass is an amorphous inorganic non-metallic material, is generally prepared by taking various inorganic minerals as main raw materials and adding a small amount of auxiliary raw materials, is widely applied to buildings, is used for wind insulation and light transmission, and belongs to a mixture.

In the prior art, the existing high-altitude glass lifting device can effectively move glass to a proper position for installation and fixation in the building construction process, but some high-altitude glass lifting devices can cause the situation that the glass positioned in the high altitude is influenced by wind power and can move, so that the stability of glass installation is possibly reduced, and the working danger is greatly increased.

Disclosure of Invention

The application aims to solve the problem that in the prior art, the glass located at high altitude is influenced by wind power, and the movement of the glass possibly occurs, so that the stability of glass installation is reduced, and the danger of work is greatly increased.

In order to achieve the above purpose, the present application provides the following technical solutions: the utility model provides a stable high altitude glass overhead hoist, includes the portal frame, the bottom fixedly connected with base of portal frame, the top fixed mounting of portal frame has the connecting plate, the top welding of connecting plate has the lantern ring, first spout has been seted up at the top of portal frame, the top sliding connection of portal frame has the slider, the surface of slider and the laminating of the internal surface of first spout, the bottom fixed mounting of slider has the vertical pole, the bottom fixed mounting of vertical pole has the locating box, one side fixed mounting that the portal frame was kept away from to the locating box has first sucking disc, the top of portal frame is provided with the adjustment mechanism who changes first sucking disc position, the inside of locating box is provided with the positioning mechanism who further stabilizes glass.

Furthermore, the adjusting mechanism comprises an air cylinder, the outer surface of the air cylinder is fixedly connected with the top of the portal frame, and the telescopic end of the air cylinder is fixedly connected with the outer surface of the sliding block.

Further, positioning mechanism includes the limiting plate, the surface fixed connection of one side that the limiting plate is close to first sucking disc and location case, one side fixed mounting that the perpendicular pole was kept away from to the limiting plate has the second sucking disc, the inside of limiting plate is provided with the inside gaseous transfer mechanism of transmission second sucking disc.

Further, it includes the flow pipe to shift the mechanism, the one end that the location case was kept away from to the flow pipe is close to one side fixed connection of limiting plate with the second sucking disc, the one end fixed mounting that the second sucking disc was kept away from to the flow pipe has the gasbag, the inside of flow pipe is provided with the check valve, the surface of gasbag and the internal surface swing joint of location case, the inside of location case is provided with the moving mechanism who extrudes the gasbag.

Furthermore, the moving mechanism comprises a sliding plate, the outer surface of the sliding plate is connected with the inner surface of the positioning box in a sliding mode, an electric telescopic rod is fixedly installed on the inner surface of the portal frame, and the telescopic end of the electric telescopic rod is fixedly connected with one side, far away from the air bag, of the sliding plate.

Furthermore, a second sliding groove is formed in the inner surface of the positioning box, and the inner surface of the second sliding groove is attached to the outer surface of the sliding plate.

Furthermore, the bottom of the base is fixedly provided with a universal wheel, the inner part of the base is in threaded connection with a bolt, and the bottom of the bolt is fixedly provided with a supporting block.

The technical effects and advantages of this application: according to the stable high-altitude glass lifting device, the air cylinder operates, the sliding block drives the vertical rod to move, the positioning box drives the first sucker and the limiting plate to move to proper positions, then the electric telescopic rod operates, the sliding plate and the air bag are matched for use, the flow pipe pumps air in the second sucker out, the first sucker and the second sucker fix different areas of glass, and the effect of facilitating stable movement of the glass is achieved through the structure; through the effect of universal wheel, the portal frame can move to suitable position, and the cooperation of rethread bolt and supporting shoe is used, and is firm to the position after the portal frame removes, thereby has reached the effect that increases device operating stability through above-mentioned structure.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a schematic view of a cylinder configuration of the present application;

FIG. 3 is a schematic cross-sectional view of a positioning box of the present application;

fig. 4 is a schematic view of the flow tube structure of the present application.

In the figure: 1. a gantry; 2. a base; 3. a universal wheel; 4. a connecting plate; 5. a collar; 6. a first chute; 7. a slider; 8. a vertical rod; 9. a positioning box; 10. a first suction cup; 11. a cylinder; 12. a limiting plate; 13. a second suction cup; 14. an electric telescopic rod; 15. a slide plate; 16. a second chute; 17. an air bag; 18. a flow tube; 19. a bolt; 20. and (7) a supporting block.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1-3, a stable high-altitude glass lifting device comprises a portal frame 1, wherein two bases 2 are fixedly connected to the bottom of the portal frame 1, the bases 2 are symmetrically distributed by taking the central axis of the portal frame 1 as the center, the cross section of each base 2 is cross-shaped, a connecting plate 4 is fixedly mounted at the top of the portal frame 1, the connecting plate 4 is fixed at the center of the top of the portal frame 1, lantern rings 5 are welded at the top of the connecting plate 4, the lantern rings 5 are four, the four lantern rings 5 are positioned at four corners of the top of the connecting plate 4, a first chute 6 is formed in the top of the portal frame 1, the first chutes 6 are provided with two, the two first chutes 6 are symmetrically distributed by taking the central axis of the portal frame 1 as the center, sliding blocks 7 are slidably connected to the top of the portal frame 1, the number of the sliding blocks 7 is the same as that of the first chutes 6, and the outer surfaces of the sliding blocks 7 are attached to the inner surfaces of the first chutes 6, after slider 7 received the effort, slider 7's surface is along with the internal surface removal of first spout 6, slider 7's bottom fixed mounting has vertical pole 8, vertical pole 8 is provided with two, two vertical poles 8 use portal frame 1's axis as central symmetric distribution, vertical pole 8's bottom fixed mounting has locating box 9, the number of locating box 9 is the same with vertical pole 8's number, one side fixed mounting that portal frame 1 was kept away from to locating box 9 has first sucking disc 10, first sucking disc 10 is the vacuum glass sucking disc, the number of first sucking disc 10 corresponds with the number of locating box 9, effectual glass's both sides are fixed, portal frame 1's top is provided with the adjustment mechanism who changes first sucking disc 10 position, the inside of locating box 9 is provided with the positioning mechanism who further stabilizes glass.

Referring to fig. 1-2, the adjusting mechanism includes two cylinders 11, the two cylinders 11 are arranged, the two cylinders 11 are symmetrically distributed with the central axis of the gantry 1 as the center, the outer surface of the cylinder 11 is fixedly connected with the top of the gantry 1, the telescopic end of the cylinder 11 is fixedly connected with the outer surface of the slider 7, and after the cylinder 11 operates, the slider 7 is moved and adjusted under the influence of an acting force.

Referring to fig. 1, positioning mechanism includes limiting plate 12, limiting plate 12 is provided with four, four two liang of limiting plates 12 are a set of, two sets of limiting plates 12 use the axis of portal frame 1 as central symmetry distribution, limiting plate 12 is close to one side of first sucking disc 10 and the outer fixed surface of locating box 9 and is connected, one side fixed mounting that perpendicular pole 8 was kept away from to limiting plate 12 has second sucking disc 13, the diameter of second sucking disc 13 is greater than the diameter of first sucking disc 10, second sucking disc 13 is the great sucking disc of diameter, second sucking disc 13 can stabilize glass's different regions effectively, the inside of limiting plate 12 is provided with the inside gaseous transfer mechanism of transmission second sucking disc 13.

Referring to fig. 1, 3 and 4, the transfer mechanism includes four flow tubes 18, the four flow tubes 18 are arranged in four pairs, each two of the four flow tubes 18 form a group, one end of each flow tube 18, which is far away from the positioning box 9, is fixedly connected with one side, which is close to the limiting plate 12, of the second suction cup 13, the outer covering surface of each flow tube 18 penetrates through the inside of the positioning box 9, one end, which is far away from the second suction cup 13, of each flow tube 18 is fixedly provided with an air bag 17, the initial state of each air bag 17 is a compressed state, a one-way valve is arranged inside each flow tube 18, the one-way valve enables air inside each flow tube 18 not to flow back, the outer surface of each air bag 17 is movably connected with the inner surface of the positioning box 9, after the air bags 17 expand, the flow tubes 18 absorb air between the second suction cups 13 and glass, tightness between the second suction cups 13 and the glass is improved, and a movable mechanism for extruding the air bags 17 is arranged inside the positioning box 9.

Referring to fig. 3, the movable mechanism includes two sliding plates 15, the two sliding plates 15 are arranged, the two sliding plates 15 are symmetrically distributed by taking the central axis of the gantry 1 as the center, the outer surface of each sliding plate 15 is slidably connected with the inner surface of the positioning box 9, the electric telescopic rods 14 are fixedly arranged on the inner surface of the gantry 1, the number of the electric telescopic rods 14 corresponds to that of the sliding plates 15, the telescopic ends of the electric telescopic rods 14 are fixedly connected with one sides of the sliding plates 15, which are far away from the airbag 17, and after the electric telescopic rods 14 are operated, the positions of the sliding plates 15 are adjusted, so that the state of the airbag 17 can be changed.

Referring to fig. 3, a second chute 16 is provided on the inner surface of the positioning box 9, the number of the second chutes 16 is four, two of the four second chutes 16 are in a group, the two groups of the second chutes 16 are symmetrically distributed by taking the central axis of the portal frame 1 as the center, the inner surface of the second chute 16 is attached to the outer surface of the sliding plate 15, and after the sliding plate 15 receives an acting force, the outer surface of the sliding plate 15 stably slides along with the inside of the second chute 16.

Referring to fig. 1, the bottom fixed mounting of base 2 has universal wheel 3, and universal wheel 3 is provided with two, and two universal wheels 3 use the axis of portal frame 1 as central symmetry distribution, and the inside threaded connection of base 2 has bolt 19, and bolt 19 is provided with four, and four bolts 19 are two liang and are a set of even inside of sealing at base 2, and the bottom fixed mounting of bolt 19 has supporting shoe 20, and bolt 19 runs through the inside of base 2, to the position adjustment of supporting shoe 20.

Specifically, this stable high altitude glass overhead hoist, at first with glass's position fixation back, with portal frame 1 removal to glass's periphery, cylinder 11 operation, the surface of slider 7 is along with the internal surface of first spout 6 removes, vertical pole 8 drives locating box 9 and removes, the staff fixes first sucking disc 10 at glass's surface afterwards, second sucking disc 13 keeps away from one side of limiting plate 12 and glass's surface laminating simultaneously, electric telescopic handle 14 operation, slide 15's surface is along with the inside removal of second spout 16, gasbag 17 is by the compression state inflation, the inside air absorption of second sucking disc 13 is managed 18 to flow, make second sucking disc 13 hug closely at glass's surface, be connected loop 5 with the loop crane with the rope, the pulling lantern ring 5 can drive glass and remove, thereby reached through above-mentioned structure and be convenient for the fixed effect to glass.

Portal frame 1 removes to suitable position back through universal wheel 3, exerts the revolving force to the top of bolt 19 for bolt 19 is rotatory to be removed downwards, and supporting shoe 20 bottom slowly moves to ground contact, and when needing portal frame 1 to remove, the opposite direction rotates bolt 19, and ground is kept away from to supporting shoe 20, thereby has reached the effect that increases device operating stability through above-mentioned structure.

Finally, it should be noted that: although the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or some features may be replaced with equivalents, and any modifications, equivalents, improvements, etc. that fall within the spirit and scope of the present application are intended to be covered by the present application.

Claims

1. The utility model provides a stable high altitude glass overhead hoist, includes portal frame (1), its characterized in that: the bottom of the portal frame (1) is fixedly connected with a base (2), the top of the portal frame (1) is fixedly provided with a connecting plate (4), a lantern ring (5) is welded at the top of the connecting plate (4), a first sliding chute (6) is arranged at the top of the portal frame (1), the top of the portal frame (1) is connected with a sliding block (7) in a sliding way, the outer surface of the sliding block (7) is attached to the inner surface of the first sliding chute (6), a vertical rod (8) is fixedly arranged at the bottom of the sliding block (7), a positioning box (9) is fixedly arranged at the bottom of the vertical rod (8), a first sucker (10) is fixedly arranged on one side of the positioning box (9) far away from the portal frame (1), the top of the portal frame (1) is provided with an adjusting mechanism for changing the position of the first sucker (10), and a positioning mechanism for further stabilizing the glass is arranged in the positioning box (9).

2. The stable overhead glass overhead hoist of claim 1, characterized in that: the adjusting mechanism comprises an air cylinder (11), the outer surface of the air cylinder (11) is fixedly connected with the top of the portal frame (1), and the telescopic end of the air cylinder (11) is fixedly connected with the outer surface of the sliding block (7).

3. The stable overhead glass overhead hoist of claim 1, characterized in that: the positioning mechanism comprises a limiting plate (12), one side of the limiting plate (12) close to the first sucker (10) is fixedly connected with the outer surface of the positioning box (9), one side of the limiting plate (12) far away from the vertical rod (8) is fixedly provided with a second sucker (13), and a transfer mechanism for transmitting gas inside the second sucker (13) is arranged inside the limiting plate (12).

4. The stable overhead glass handling device of claim 3, characterized in that: transfer mechanism including flow tube (18), one side fixed connection that one end and second sucking disc (13) that location case (9) were kept away from to flow tube (18) are close to limiting plate (12), the one end fixed mounting that second sucking disc (13) were kept away from in flow tube (18) has gasbag (17), the inside of flow tube (18) is provided with the check valve, the surface of gasbag (17) and the internal surface swing joint of location case (9), the inside of location case (9) is provided with the moving mechanism who extrudes gasbag (17).

5. The stable overhead glass handling device of claim 4, characterized in that: the movable mechanism comprises a sliding plate (15), the outer surface of the sliding plate (15) is connected with the inner surface of the positioning box (9) in a sliding mode, an electric telescopic rod (14) is fixedly mounted on the inner surface of the portal frame (1), and the telescopic end of the electric telescopic rod (14) is fixedly connected with one side, far away from the air bag (17), of the sliding plate (15).

6. The stable overhead glass handling device of claim 5, characterized in that: and a second sliding chute (16) is formed in the inner surface of the positioning box (9), and the inner surface of the second sliding chute (16) is attached to the outer surface of the sliding plate (15).

7. The stable overhead glass overhead hoist of claim 1, characterized in that: the universal wheel (3) is fixedly mounted at the bottom of the base (2), a bolt (19) is connected to the inner thread of the base (2), and a supporting block (20) is fixedly mounted at the bottom of the bolt (19).