CN111377143A

CN111377143A - Packaging equipment for transporting ultra-thin glass

Info

Publication number: CN111377143A
Application number: CN202010213710.8A
Authority: CN
Inventors: 邱子帅
Original assignee: Hangzhou Brewed Honey Technology Co Ltd
Current assignee: Hangzhou Brewed Honey Technology Co Ltd
Priority date: 2020-03-24
Filing date: 2020-03-24
Publication date: 2020-07-07

Abstract

The invention discloses packaging equipment for ultra-thin glass specific transportation, which comprises a hollow box, wherein a floating rod is inserted into the top of the hollow box, the top of the floating rod is fixedly connected with an air pushing block, one opposite side of two transition cylinders is fixedly connected with a communicating pipe, one opposite side of two hollow air baffles is rotatably connected with a threaded rod, a centrifugal wheel is fixedly connected to the side surface of the threaded rod and positioned in the hollow air baffles, a centrifugal rod is inserted into the side surface of the centrifugal wheel, an air extracting wheel is fixedly connected to the side surface of the threaded rod and positioned on the right side of the centrifugal wheel, a bearing wheel is engaged and connected to the right side surface of the threaded rod, and the top of the bearing wheel is engaged and connected with a one-way toothed bar. The effect of maintaining the level of the glass.

Description

Packaging equipment for transporting ultra-thin glass

Technical Field

The invention relates to the technical field of new materials, in particular to packaging equipment for ultra-thin glass aiming at transportation.

Background

The new material is a structural material with excellent performance and a functional material with special properties which are newly developed or are being developed, the structural material mainly utilizes the mechanical properties of the structural material, such as strength, toughness, hardness, elasticity and the like, such as a novel ceramic material, amorphous alloy and the like, and the functional material mainly utilizes the functions and physical effects of the functional material, such as electricity, light, sound, magnetism, heat and the like.

At present, an ultra-thin glass is developed, the glass has special functions and meets some special use environments, but the glass is only padded at the bottom of the glass through foam when being packaged, when a transport vehicle runs on a horizontal route, the bottom of the glass is stressed uniformly and is not easy to break when bumping, but when bumping when the transport vehicle is on a slope, the glass is inclined, the stress at the bottom of the glass is unbalanced, and the glass is easy to break, so that a special packaging device needs to be designed.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the packaging equipment for the transportation of the ultrathin glass, which has the advantages of bumping when a transport vehicle is on a slope, keeping the level of the glass and the like, and solves the problem that the existing packaging equipment cannot ensure the level of the bumpy glass when the transport vehicle is on the slope.

(II) technical scheme

In order to achieve the above-mentioned purpose that when the transport vehicle is on a slope, the bump occurs and the glass is kept horizontal, the invention provides the following technical scheme: a packaging device for ultra-thin glass aiming at transportation comprises a hollow box, wherein a floating rod is arranged at the top of the hollow box in an inserting mode, an air pushing block is fixedly connected to the top of the floating rod, transition cylinders are slidably connected to the side faces of the air pushing block, a communicating pipe is fixedly connected to one side, opposite to the two transition cylinders, of the communicating pipe, an air spring is fixedly connected to the bottom of the communicating pipe, a supporting rod is fixedly connected to the top of the air spring, a sucking disc is rotatably connected to the top of the supporting rod, glass is slidably connected to the top of the sucking disc, a cross rod is fixedly connected to the inside of the supporting rod, an inertia block is slidably connected to the side face of the cross rod, a push rod is fixedly connected to the left side of the inertia block, a stop block is arranged on the left side of the push rod, an air, two one side that hollow fender gas board is relative is rotated and is connected with the threaded rod, the side of threaded rod and the inside fixedly connected with centrifugal wheel that is located hollow fender gas board, the side interlude of centrifugal wheel is provided with the centrifugal pole, the side of threaded rod and the right side fixedly connected with extraction wheel that is located the centrifugal wheel, the right side surface meshing of threaded rod is connected with the bearing wheel, the top meshing of bearing wheel is connected with one-way ratch.

Preferably, the hollow box is filled with water, and the floating rods on two sides are lifted up by buoyancy.

Preferably, buffer springs are arranged on two sides of the stop block.

Preferably, a limiting spring is arranged on the right side of the inertia block.

Preferably, the one-way toothed bar is not in meshed transmission with the adapting wheel when moving leftwards and is in meshed transmission with the adapting wheel when moving rightwards.

Preferably, when the centrifugal rod is at rest, one side of the centrifugal rod, which is far away from the wheel center, is in non-pressing contact with the hollow air baffle plate.

Preferably, an extension spring is arranged inside the suction cup.

Preferably, the two sides of the hollow air baffle are provided with sliding pipes, the sliding pipes are attached to the two sides of the hollow air baffle without extrusion, a moving space is reserved for the hollow air baffle, and air leakage is prevented.

(III) advantageous effects

Compared with the prior art, the invention provides the packaging equipment for the transportation of the ultrathin glass, which has the following beneficial effects:

1. this a equipment for packing for ultra-thin glass is to transportation uses through the cooperation of floating bar with the air push block, places glass in the sucking disc top when the installation, and the air discharge in with the sucking disc is properly extruded, and the sucking disc produces suction to the glass bottom.

In the transportation process, when the transport vechicle appeared inclining, hollow case slope thereupon and the difference in height of both sides top appears, because fill water in hollow case, and lift up the floating rod of both sides, and because the buoyancy that the floating rod receives is the same, so the floating rod height is the same, because hollow case no matter how the slope, its inside water level height does not change, so the floating rod can be along with hollow case slope and for hollow case removal, make both sides floating rod height the same.

When the hollow box inclines to the left, the water level on the left side of the hollow box rises, the water level on the right side drops, and therefore the floating rod on the left side moves upwards relative to the hollow box, the transition cylinder is extruded through the air pushing block, and then the air is pushed into the air spring on the left side through the communicating pipe, the air spring on the left side extends, the floating rod on the right side moves downwards relative to the hollow box, so the air spring on the right side is pumped, and the air spring on the right side shortens.

Therefore, the left glass is lifted, the right glass is lowered to reach the level, the bottom of the glass is stressed uniformly again, but the glass is not easy to break when jolting, and the effect of jolting when the transport vehicle is on a slope and keeping the glass level is achieved.

2. This a packaging equipment for ultra-thin glass is to transportation uses through the cooperation of inertia piece and push rod, and at the in-process of transportation, if take place emergency braking, will produce huge inertial force, consequently need set up protection machanism.

When taking place emergency braking, inertia piece pulling restriction spring slides on the horizontal pole surface, drives the push rod and promotes the dog and reciprocate, and consequently jet-propelled case is opened, because the internal gas body of sucking disc is discharged, so the internal air of jet-propelled case enters into the sucking disc under the effect of atmospheric pressure in, makes the internal gas pressure of sucking disc rise, and then weakens the adsorption affinity of glass bottom, and under the effect of inertial force, glass slides on the sucking disc, has alleviated the effort that glass received.

After braking, under limiting spring's effect, inertia piece removes to the right side, the one-way ratch of its bottom drives and holds the take-up pulley and rotate, and then drives the threaded rod, the threaded rod rotates and drives the centrifugal wheel and rotate, under the effect of centrifugal force, the centrifugal rod removes to keeping away from the wheel center direction, push open hollow fender gas board, it is unobstructed to lead to the pipe, and the extraction wheel also rotates along with the threaded rod, in the pipe is taken into with the air of sucking disc inside part, and then make the sucking disc increase once more to the suction of glass bottom, resume original size.

In the process, the sucker releases the glass for a short time, and the glass is prevented from being damaged due to the fact that the glass is difficult to bear huge inertia force, so that the effect of protecting the glass from being damaged when the transport vehicle is braked emergently is achieved.

Drawings

FIG. 1 is a schematic cross-sectional view of the entire structure of the present invention;

FIG. 2 is a schematic view of the connection between the air spring and the support rod according to the present invention;

FIG. 3 is a schematic cross-sectional view of the connection between the structural support bar and the suction cup of the present invention;

FIG. 4 is a schematic view of the inertia block transmission of the present invention;

FIG. 5 is a schematic cross-sectional view of the hollow gas baffle of the present invention.

In the figure: 1. the device comprises a hollow box, 2, a floating rod, 3, an air pushing block, 4, a transition cylinder, 5, a communicating pipe, 6, a supporting rod, 7, an air spring, 8, glass, 9, an air spraying box, 10, a guide pipe, 11, a stop block, 12, a push rod, 13, an inertia block, 14, a cross rod, 15, a one-way toothed rod, 16, a bearing wheel, 17, a threaded rod, 18, an air pumping wheel, 19, a centrifugal wheel, 20, a centrifugal rod, 21, a suction cup, 22 and a hollow air baffle plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

Referring to fig. 1-5, a packaging equipment for ultra-thin glass to transportation, includes hollow case 1, and the material of hollow case 1 is stainless steel, can prevent effectively that equipment from being corroded, very big extension the life of equipment, reduced manufacturing cost, have indispensable effect to the enterprise, and hollow case 1 is filled with water, and lifts up the buoy 2 of both sides through buoyancy, its characterized in that: the top of the hollow box 1 is inserted with a floating rod 2, the top of the floating rod 2 is fixedly connected with an air pushing block 3, the side surface of the air pushing block 3 is slidably connected with a transition cylinder 4, one side opposite to the two transition cylinders 4 is fixedly connected with a communicating pipe 5, the bottom of the communicating pipe 5 is fixedly connected with an air spring 7, the top of the air spring 7 is fixedly connected with a supporting rod 6, the top of the supporting rod 6 is rotatably connected with a sucking disc 21, an extension spring is arranged inside the sucking disc 21, the top of the sucking disc 21 is slidably connected with glass 8, the inside of the supporting rod 6 is fixedly connected with a cross rod 14, the side surface of the cross rod 14 is slidably connected with an inertia block 13, the right side of the inertia block 13 is provided with a limit spring, the left side of the inertia block 13 is fixedly connected with a push rod 12, the left side of the jet box 9 is fixedly connected with a guide pipe 10, the guide pipe 10 is provided with a hollow air baffle plate 22, two sides of the hollow air baffle plate 22 are provided with sliding pipes which are attached to the two sides of the hollow air baffle plate without extrusion, a moving space is reserved for the hollow air baffle plate 22 and air leakage is prevented, one side of the two opposite hollow air baffle plates 22 is rotatably connected with a threaded rod 17, the threaded rod 17 is made of stainless steel, equipment can be effectively prevented from being corroded, the service life of the equipment is greatly prolonged, the production cost is reduced, and an indispensable effect is provided for enterprises, a centrifugal wheel 19 is fixedly connected to the side surface of the threaded rod 17 and positioned inside the hollow air baffle plate 22, a centrifugal rod 20 is arranged on the side surface of the centrifugal wheel 19 in an inserting mode, one side of the centrifugal rod 20, which is far away from the wheel center when the centrifugal rod 20 is static, is not in contact with the hollow air baffle plate 22, and, the right side surface of the threaded rod 17 is engaged with a receiving wheel 16, the top of the receiving wheel 16 is engaged with a one-way toothed rod 15, and the one-way toothed rod 15 is not engaged with the receiving wheel 16 for transmission when moving leftwards and is engaged with the receiving wheel 16 for transmission when moving rightwards.

When the glass 8 is placed above the suction cup 21 during installation, air in the suction cup 21 is exhausted by appropriate pressing, and the suction cup 21 generates suction on the bottom of the glass 8.

In the transportation process, when the transportation vehicle inclines, the hollow box 1 inclines along with the transportation vehicle, the height difference of the tops of the two sides occurs, the hollow box 1 is filled with water and lifts the floating rods 2 on the two sides, and the floating rods 2 are the same in height because the floating rods 2 bear the same buoyancy, and the floating rods 2 on the two sides are the same in height because the hollow box 1 does not incline, the height of the water level in the hollow box is unchanged, so the floating rods 2 can move relative to the hollow box 1 along with the inclination of the hollow box 1, and the heights of the floating rods 2 on the two sides are the same.

When the hollow box 1 inclines to the left, the left water level of the hollow box 1 rises, and then the right water level falls, so the left floating rod 2 moves upwards relative to the hollow box 1, the transition cylinder 4 is extruded through the air pushing block 3, and then the air is pushed into the left air spring 7 through the communicating pipe 5, the left air spring 7 extends, the right floating rod 2 moves downwards relative to the hollow box 1, so the right air spring 7 is pumped, and the right air spring 7 is shortened.

Therefore, the left glass 8 is lifted, the right glass 8 is lowered to reach the level, the bottom of the glass 8 is stressed uniformly again, but the glass is not easy to break when bumpy, and the effect of bumping when the transport vehicle is on a slope and keeping the glass 8 level is achieved.

During transportation, if emergency braking occurs, a huge inertia force is generated, so that a protection mechanism needs to be arranged.

When taking place emergency braking, inertia piece 13 pulling restriction spring slides on horizontal pole 14 surface, drives push rod 12 and promotes dog 11 and reciprocate, and consequently jet-propelled case 9 is opened, because the gaseous quilt of sucking disc 21 is discharged, so air enters into sucking disc 21 under the effect of atmospheric pressure in jet-propelled case 9, makes the interior atmospheric pressure of sucking disc 21 rise, and then weakens the adsorption affinity of glass 8 bottom, and under the effect of inertial force, glass 8 slides on sucking disc 21, has alleviated the effort that glass 8 received.

After braking, under the effect of limiting spring, inertia piece 13 moves to the right side, the one-way rack bar 15 of its bottom drives and holds the take-up pulley 16 and rotate, and then drive threaded rod 17, threaded rod 17 rotates and drives centrifugal wheel 19 and rotate, under the effect of centrifugal force, centrifugal rod 20 moves to keeping away from the wheel center direction, push open hollow fender gas board 22, lead to pipe 10 unobstructed, and aspiration wheel 18 also rotates along with threaded rod 17, in pumping pipe 10 with the inside partial air of sucking disc 21, and then make sucking disc 21 increase once more to the suction of glass 8 bottom, resume original size.

In this process, the suction cup 21 releases the glass 8 for a short time, preventing the glass 8 from being damaged due to the difficulty of bearing a large inertia force, thereby achieving the effect of protecting the glass 8 from being damaged when the transport vehicle is braked suddenly.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A packaging apparatus for ultra-thin glass for transportation, comprising a hollow box (1), characterized in that: the top of the hollow box (1) is provided with floating rods (2) in an inserting mode, the top of each floating rod (2) is fixedly connected with an air pushing block (3), the side face of each air pushing block (3) is connected with a transition cylinder (4) in a sliding mode, one side, opposite to the two transition cylinders (4), of each communication pipe (5) is fixedly connected with a communication pipe (5), the bottom of each communication pipe (5) is fixedly connected with an air spring (7), the top of each air spring (7) is fixedly connected with a supporting rod (6), the top of each supporting rod (6) is rotatably connected with a sucking disc (21), the top of each sucking disc (21) is connected with glass (8), a cross rod (14) is fixedly connected inside each supporting rod (6), the side face of each cross rod (14) is connected with an inertia block (13) in a sliding mode, the left side of each inertia block (13), the left side of dog (11) is provided with jet-propelled case (9), left side fixedly connected with pipe (10) of jet-propelled case (9), be provided with hollow air baffle (22) of pipe (10), two one side that hollow air baffle (22) is relative is rotated and is connected with threaded rod (17), the side of threaded rod (17) and inside fixedly connected with centrifugal wheel (19) that are located hollow air baffle (22), the side interlude of centrifugal wheel (19) is provided with centrifugal rod (20), the side of threaded rod (17) and right side fixedly connected with extraction wheel (18) that are located centrifugal wheel (19), the right side surface mesh of threaded rod (17) is connected with and holds and connect wheel (16), the top mesh that holds and connect wheel (16) is connected with one-way rack bar (15).

2. A packaging apparatus for ultra-thin glass for transportation according to claim 1, characterized in that: the hollow box (1) is filled with water, and the floating rods (2) on two sides are lifted up through buoyancy.

3. A packaging apparatus for ultra-thin glass for transportation according to claim 1, characterized in that: buffer springs are arranged on two sides of the stop block (11).

4. A packaging apparatus for ultra-thin glass for transportation according to claim 1, characterized in that: and a limiting spring is arranged on the right side of the inertia block (13).

5. A packaging apparatus for ultra-thin glass for transportation according to claim 1, characterized in that: the one-way toothed bar (15) is not in meshed transmission with the receiving wheel (16) when moving leftwards and is in meshed transmission with the receiving wheel (16) when moving rightwards.

6. A packaging apparatus for ultra-thin glass for transportation according to claim 1, characterized in that: when the centrifugal rod (20) is static, one side far away from the wheel center is in non-extrusion contact with the hollow air baffle plate (22).

7. A packaging apparatus for ultra-thin glass for transportation according to claim 1, characterized in that: an extension spring is arranged inside the sucker (21).

8. A packaging apparatus for ultra-thin glass for transportation according to claim 1, characterized in that: and sliding pipes are arranged on two sides of the hollow air baffle plate (22) and are attached to the two sides of the hollow air baffle plate without extrusion.