CN117383078A - Glass transportation protection frame - Google Patents

Abstract

The invention relates to the technical field of glass transportation, in particular to a glass transportation protection frame. The invention provides a glass transportation protection frame which can automatically lean against glass and limit the glass through simple operation. The glass transportation protection frame comprises a transportation frame and a first support frame, wherein the top of the transportation frame is fixedly connected with the first support frame; the transport frame is provided with a rotating mechanism; the clamping mechanism is arranged on the rotating mechanism. According to the invention, the rack is rotated into the inclined state to drive the glass to be inclined and leaned, so that the glass is not required to be manually controlled to be inclined and leaned, the labor intensity is reduced, and the rack can be driven to move outwards by pulling the second connecting rod, so that the glass is clamped by the limiting clamp block, and the glass is not required to be fixed by the fastening bolt.

Description

Glass transportation protection frame

Technical Field

The invention relates to the technical field of glass transportation, in particular to a glass transportation protection frame.

Background

Glass is fragile, and when transporting glass, various protection needs to be carried out on the glass, so that breakage in glass transportation is avoided, and economic loss is caused.

The patent publication number is CN109132549A, disclose a glass transportation and use placer, including rack, support frame, stop device and fastening screw, the rack includes base and protection frame, the support frame is the triangle form, fixedly set up in the upper surface of base, be provided with anti-skidding soft block between protection frame and the support frame, the both sides of protection frame all are provided with the slide bar, the centre of slide bar internal surface is provided with the spout; the limiting device is two, set up in the inboard of two protection frames respectively, and the limiting device includes connecting rod and limiting plate, and the both ends of connecting rod are provided with the slider, and the upper surface is provided with the bar groove, and the inboard of connecting rod is connected with the baffle of slope form, and the lower extreme and the bar groove rotation of limiting plate are connected, and the upper end is fixed to be provided with the fastener, and the fastener is "L" type, and its one end is connected with the upper end of limiting plate, and the other end is provided with the screw with fastening screw structure matched with, and the intermediate position of limiting plate internal surface is fixed and is provided with a plurality of sucking discs. When this manual material loading of patent, glass need lean on the support frame, so, when placing glass, need control dynamics to make glass lean on the support frame to need the spirit to concentrate, the tired increase that makes the staff easily of long-time tight, and after the manual glass material loading, need manual control limiting plate be close to in opposite directions and hugs closely with glass, and then utilize the fastening screw to fasten the limiting plate, reach the spacing effect to glass, but manual fastening's operation is comparatively troublesome.

In summary, a glass transportation protection frame is needed to be developed, wherein the glass is automatically leaned, and the glass can be limited by simple operation.

Disclosure of Invention

Aiming at overcoming the defects of the prior art that the operation is troublesome because the limiting plate is fastened by the fastening screw, the invention provides the glass transportation protection frame which is capable of automatically leaning against glass and limiting the glass by simple operation.

In order to achieve the above object, the present invention is realized by the following scheme: a glass transportation protective frame, comprising:

the top of the transportation frame is fixedly connected with the first support frame;

the rotating mechanism is arranged on the transportation frame and used for obliquely supporting the glass;

the clamping mechanism is arranged on the rotating mechanism and used for clamping glass.

Further, the rotary mechanism comprises:

the front side and the rear side of the transport frame are connected with the fixed blocks;

the placing frames are rotatably connected between the front side fixing blocks and the rear side fixing blocks and used for supporting glass;

the middle part of the transportation frame is rotatably connected with a bidirectional screw rod;

the front side and the rear side of the bidirectional screw rod are respectively connected with the first sliding block in a threaded manner;

the first connecting rods are rotatably connected between each first sliding block and the similar placing rack;

the front side of the bidirectional screw rod is connected with a rotary handle.

Further, the clamping mechanism comprises:

the left side and the right side of each placing frame are rotationally connected with limiting clamping blocks for clamping and limiting the two sides of the glass;

the lower part of each limiting clamp block is connected with a gear;

the left side and the right side of the lower part of the placing frame are connected with the fixing frame;

racks are slidably connected in each fixing frame, and each rack is meshed with a similar gear;

the second connecting rods are fixedly connected between the front sides of the racks on the front sides and between the rear sides of the racks on the rear sides;

the top of each fixing frame is connected with a limiting frame;

the clamping blocks are connected to each limiting frame in a sliding mode and used for clamping the racks;

the outer side of each rack is connected with a limiting block;

and the upper part of each clamping block is sleeved with a telescopic spring, and two ends of the telescopic spring are respectively connected with the limiting frame and the clamping blocks.

Furthermore, the lower part of each clamping block is an inclined plane.

Further, the automatic rack moving device also comprises a synchronous mechanism for pushing the racks to automatically move, and the synchronous mechanism comprises:

the left side and the right side of the transportation frame are both connected with the extrusion blocks in a sliding manner;

the outer side of each extrusion block is connected with a second sliding block, and each second sliding block is connected with the transport frame in a sliding manner;

a reset spring is connected between each second sliding block and the transport frame;

the inner side of each rack is connected with a contact block, and each extrusion block moves outwards and contacts with the contact block;

and the extrusion plates are connected with the lower side of the inner part of each placing frame, and each extrusion plate is contacted with a similar extrusion block.

Further, still include the fixed establishment that is used for fixed glass upper portion, fixed establishment is including:

the left side and the right side of the top of each rack are rotatably connected with rotating shafts;

the top of each rotating shaft is connected with a rotating frame for clamping and fixing the upper part of the glass;

torsion springs are sleeved on each rotating shaft, and two ends of each torsion spring are respectively connected with the rotating frame and the placing frame;

the compression bar is connected with the compression bar on both sides around the upper portion of the first support frame.

Further, still including being used for carrying out the shock attenuation mechanism of shock attenuation to glass, shock attenuation mechanism is including:

the front side and the rear side of the upper part of the first support frame are connected with the fixing rods;

the telescopic components are uniformly and alternately connected with each fixing rod and used for damping glass;

and the shock absorption plates are connected between the telescopic components on the same fixed rod, and the placing frames are contacted with the shock absorption plates after rotating.

Further, still including being used for protecting glass's protection machanism, protection machanism is including:

the bottom of each fixing rod is connected with an electric inflator;

the button is connected with each electric inflator;

the front side and the rear side of the first support frame are connected with the second support frame;

and the air bags are connected with air bags for protecting glass, and the upper parts of the air bags are connected with similar electric inflators through air pipes.

The invention has at least one of the following advantages: according to the invention, the rack is rotated into an inclined state to drive the glass to be inclined and leaned, so that the glass is not required to be manually controlled to be inclined and leaned, the labor intensity is reduced, and the rack can be driven to move outwards by pulling the second connecting rod, so that the glass is clamped by the limiting clamp block, and the glass is not required to be fixed by the fastening bolt; the extrusion plate is used for pushing the extrusion block to move, so that the rack can be pushed to move outwards by itself, and the limiting clamping block can automatically clamp glass in the process of leaning on the glass in an inclined manner, so that the second connecting rod is not required to be controlled manually to drive the rack to move outwards, and the operation trouble is reduced; the rotating frame rotates to be in contact with the pressure bar, so that the rotating frame can automatically rotate to clamp glass, and the stability of the glass during transportation can be improved; under the action of the telescopic component, the glass can be buffered and damped, so that the glass is prevented from vibrating due to road jolting, and then is crushed; through the gasbag inflation, can support glass, and then can cushion, shock attenuation and protection to glass, the security when improving glass transportation.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a transportation frame according to the present invention.

Fig. 3 is a schematic view of a first perspective structure of a rotary mechanism according to the present invention.

Fig. 4 is a schematic view of a second perspective structure of the rotating mechanism of the present invention.

Fig. 5 is a schematic view showing a first perspective structure of the clamping mechanism of the present invention.

Fig. 6 is a schematic view of a second perspective structure of the clamping mechanism of the present invention.

Fig. 7 is a schematic diagram of a first perspective structure of a synchronization mechanism according to the present invention.

Fig. 8 is a schematic diagram of a second perspective structure of the synchronization mechanism of the present invention.

Fig. 9 is a schematic perspective view of a fixing mechanism according to the present invention.

Fig. 10 is a schematic view showing a first perspective structure of the damping mechanism according to the present invention.

FIG. 11 is a schematic view of a second partial perspective view of a shock absorbing mechanism according to the present invention.

Fig. 12 is a schematic view of a first perspective structure of the protection mechanism of the present invention.

Fig. 13 is a schematic view of a second perspective structure of the protection mechanism of the present invention.

Fig. 14 is a schematic view of a third perspective structure of the protection mechanism of the present invention.

In the above figures: 1: transport rack, 11: first support frame, 2: rotation mechanism, 21: rack, 22: fixed block, 23: bidirectional screw, 24: first link, 25: rotating the handle, 26: first slider, 3: clamping mechanism, 31: spacing clamp splice, 32: gear, 33: rack, 34: fixing frame, 35: second link, 36: limit frame, 37: fixture block, 38: extension spring, 39: limiting block, 4: synchronization mechanism, 41: extrusion block, 42: second slider, 43: contact block, 44: extrusion plate, 45: reset spring, 5: fixing mechanism, 51: swivel mount, 52: rotating shaft, 53: torsion spring, 54: compression bar, 6: damping mechanism, 61: shock absorbing plate, 62: fixing rod, 63: telescoping assembly, 7: protection mechanism, 71: electric inflator, 72: button, 73: an airbag, 74: and a second supporting frame.

Detailed Description

The invention will be further described with reference to the accompanying drawings and detailed description below:

example 1

1-6, a glass transportation protection frame comprises a transportation frame 1, a first supporting frame 11, a rotating mechanism 2 and a clamping mechanism 3, wherein the first supporting frame 11 is fixedly connected to the top of the transportation frame 1, the rotating mechanism 2 is arranged on the transportation frame 1, the rotating mechanism 2 is used for obliquely supporting glass, the clamping mechanism 3 is arranged on the rotating mechanism 2, the clamping mechanism 3 is used for clamping the glass, the rotating mechanism 2 comprises a placing frame 21, a fixed block 22, a bidirectional screw rod 23, a first connecting rod 24, a rotating handle 25 and a first sliding block 26, two fixed blocks 22 are welded on the front side and the rear side of the transportation frame 1, a placing frame 21 is rotatably connected between the two fixed blocks 22 on the front side and between the two fixed blocks 22 on the rear side, the placing frame 21 is used for supporting the glass, the middle part of the transportation frame 1 is rotatably connected with the bidirectional screw rod 23, the front side and the rear side of the bidirectional screw rod 23 are in threaded connection with the first sliding block 26, the first connecting rod 24 is rotationally connected between each first sliding block 26 and the adjacent placing rack 21, the front side of the two-way screw rod 23 is fixedly connected with the rotary handle 25, the clamping mechanism 3 comprises a limiting clamping block 31, a gear 32, racks 33, a fixing frame 34, a second connecting rod 35, a limiting frame 36, a clamping block 37, a telescopic spring 38 and a limiting block 39, the left side and the right side of each placing rack 21 are rotationally connected with the limiting clamping block 31, the limiting clamping block 31 is used for clamping and limiting two sides of glass, the lower part of each limiting clamping block 31 is connected with the gear 32, the left side and the right side of the lower part of the placing rack 21 are welded with the fixing frames 34, racks 33 are slidingly connected inside each fixing frame 34, each rack 33 is meshed with the adjacent gear 32, the second connecting rod 35 is fixedly connected between the front sides of the two racks 33 on the front side and between the rear sides of the two racks 33 on the rear side, the top of each fixing frame 34 is welded with a limiting frame 36, each limiting frame 36 is connected with a clamping block 37 in a sliding mode, each clamping block 37 is used for clamping the rack 33, the lower portion of each clamping block 37 is an inclined plane, limiting blocks 39 are fixedly connected to the outer side of each rack 33, telescopic springs 38 are sleeved on the upper portion of each clamping block 37, and two ends of each telescopic spring 38 are connected with the corresponding limiting frame 36 and each clamping block 37 respectively.

When in use, a worker places glass to be transported on the placing frame 21, then rotates the rotary handle 25 to drive the bidirectional screw rod 23 to rotate, so that the bidirectional screw rod 23 drives the first sliding block 26 to move in opposite directions, and then pulls the placing frame 21 to rotate in opposite directions to be close by the first connecting rod 24, so that the placing frame 21 is rotated and leaned on the first supporting frame 11, and the glass can lean on the placing frame 21, thus, the stability of the glass during transportation can be improved, then the second connecting rod 35 is manually pulled to move outwards, the rack 33 is driven to move outwards, the rack 33 drives the gear 32 to rotate, the gear 32 drives the limiting clamp block 31 to rotate outwards to contact with the glass, thereby clamping and limiting the glass, when the rack 33 moves outwards, the limiting block 39 is driven to move outwards, and when the limiting block 39 moves outwards to contact with the clamping block 37, because the lower part of the clamping block 37 is an inclined plane, the limiting block 39 can extrude the clamping block 37 to move upwards, the telescopic spring 38 is stretched, when the limiting block 39 moves outwards to exceed the clamping block 37, the telescopic spring 38 is reset to drive the clamping block 37 to move downwards to reset, the limiting block 37 limits the limiting block 39, so that the rack 33 can be limited, the limiting clamping block 31 can be prevented from loosening due to jolt in the transportation process, the stability of the limiting clamping block 31 on the glass clamping is affected, after the transportation is finished, the clamping block 37 is manually pulled upwards, the telescopic spring 38 is stretched, the limiting block 39 is not blocked by the clamping block 37, then a worker manually pushes the second connecting rod 35 to move towards each other, the second connecting rod 35 drives the rack 33 and the limiting block 39 to move inwards, further drives the gear 32 and the limiting clamping block 31 to rotate reversely, the limiting clamping block 31 releases the glass, then the clamping block 37 is released, the telescopic spring 38 resets, drives the fixture block 37 to move downwards for resetting, then the worker takes down glass, and then reverses the rotary handle 25, drives the bidirectional screw rod 23 to reverse, so that the first sliding block 26 moves outwards for resetting, and then the first connecting rod 24 pushes the placing frame 21 to reverse for resetting, thereby facilitating feeding of the next glass.

Example 2

On the basis of embodiment 1, please refer to fig. 1, 7 and 8, further include a synchronizing mechanism 4, the synchronizing mechanism 4 is used for pushing the racks 33 to move automatically, the synchronizing mechanism 4 includes extrusion blocks 41, second sliding blocks 42, contact blocks 43, extrusion plates 44 and return springs 45, two extrusion blocks 41 are slidingly connected to the left and right sides of the transport frame 1, the second sliding blocks 42 are welded to the outer side of each extrusion block 41, each second sliding block 42 is slidingly connected to the transport frame 1, return springs 45 are connected between each second sliding block 42 and the transport frame 1, contact blocks 43 are welded to the inner side of each rack 33, each extrusion block 41 moves outwards and contacts with each contact block 43, two extrusion plates 44 are welded to the lower side of the inner side of each placement frame 21, and each extrusion plate 44 contacts with a similar extrusion block 41. When the rack 21 rotates in opposite directions, the extrusion plate 44 is driven to rotate downwards, so that the extrusion plate 44 pushes the extrusion block 41 and the second sliding block 42 to move outwards, the reset spring 45 is compressed, when the extrusion block 41 moves outwards to be in contact with the contact block 43, the contact block 43 and the rack 33 are driven to move outwards, and then the limiting clamping block 31 is used for automatically clamping glass, so that the second connecting rod 35 is not required to be manually controlled to drive the rack 33 to move outwards, the operation trouble is reduced, when the rack 21 rotates to reset, the extrusion plate 44 is driven to reset, the extrusion plate 44 is not propped against the extrusion block 41 any more, the reset spring 45 resets, the extrusion block 41 and the second sliding block 42 are driven to reset, and then the rack 33 moves in opposite directions to reset, so that the contact block 43 is driven to reset.

Please refer to fig. 1 and 9, which further include a fixing mechanism 5, the fixing mechanism 5 is used for fixing the upper portion of the glass, the fixing mechanism 5 includes a rotating frame 51, a rotating shaft 52, torsion springs 53 and compression rods 54, the left side and the right side of the top of each of the placement frames 21 are all rotationally connected with the rotating shaft 52, the top of each of the rotating shafts 52 is fixedly connected with the rotating frame 51, the rotating frame 51 is used for clamping and fixing the upper portion of the glass, torsion springs 53 are sleeved on each of the rotating shafts 52, two ends of the torsion springs 53 are respectively connected with the rotating frame 51 and the placement frames 21, and two compression rods 54 are welded on the front side and the rear side of the upper portion of the first support frame 11. When rack 21 rotates in opposite directions, drive swivel mount 51, pivot 52 and torsion spring 53 and remove, when swivel mount 51 rotates to when contacting with depression bar 54, under the spacing effect of depression bar 54, make swivel mount 51 drive pivot 52 and rotate, and then carry out the centre gripping to the upper portion of glass, torsion spring 53 deformation, so, can improve the stability when glass transports, when avoiding transporting, glass can fall rack 21 because of jolting, cause economic loss, when rack 21 reversal resets, torsion spring 53 resets, drive swivel mount 51 and pivot 52 reversal resets, make swivel mount 51 loosen glass, the convenience staff is unloaded glass.

Referring to fig. 1, 10 and 11, the glass vibration absorber further comprises a vibration absorber 6, the vibration absorber 6 comprises a vibration absorber 61, a fixing rod 62 and a telescopic component 63, the fixing rods 62 are welded on the front side and the rear side of the upper portion of the first support frame 11, five telescopic components 63 are uniformly and alternately connected to each fixing rod 62, the telescopic component 63 is used for vibration absorption of the glass, each telescopic component 63 comprises a telescopic rod and a spring, the telescopic rods are connected to the fixing rods 62, the springs are sleeved on the telescopic rods, the vibration absorber 61 is fixedly connected between the five telescopic components 63 on the same fixing rod 62, and the placing frames 21 are contacted with the vibration absorber 61 after rotating. When the rack 21 rotates to contact with the damping plate 61, the telescopic component 63 is stressed and compressed and plays a role in buffering in the transportation process, so that vibration generated by jolting can be damped in the transportation process, and glass is prevented from being crushed.

Referring to fig. 1, 12, 13 and 14, the glass protection device further comprises a protection mechanism 7, the protection mechanism 7 is used for protecting glass, the protection mechanism 7 comprises an electric inflator 71, a button 72, an air bag 73 and a second support frame 74, the bottom of each fixing rod 62 is connected with the electric inflator 71, each electric inflator 71 is connected with the button 72, the front side and the rear side of each first support frame 11 are welded with the second support frame 74, each second support frame 74 is connected with four air bags 73, the air bags 73 are used for protecting glass, and the upper parts of the air bags 73 are connected with the similar electric inflators 71 through air pipes. After the glass is placed, the worker manually presses the button 72, then the electric inflator 71 is started, and the electric inflator 71 inflates the air bag 73, so that the air bag 73 is inflated, the glass can be supported, the glass can be buffered, damped and protected, the safety of the glass during transportation is improved, and then the button 72 is pressed again, so that the electric inflator 71 discharges air in the air bag 73, and the air bag 73 is prevented from being in an inflated state all the time and being easily damaged.

While the invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims (8)

1. The utility model provides a glass transportation protection frame which characterized in that includes:

the conveying device comprises a conveying frame (1) and a first supporting frame (11), wherein the top of the conveying frame (1) is connected with the first supporting frame (11);

the rotating mechanism (2) is arranged on the conveying frame (1), and the rotating mechanism (2) is used for obliquely supporting the glass;

the clamping mechanism (3) is arranged on the rotating mechanism (2), and the clamping mechanism (3) is used for clamping glass.

2. A glass transportation protection frame according to claim 1, characterized in that the rotation mechanism (2) comprises:

the fixed blocks (22) are connected with the fixed blocks (22) at the front side and the rear side of the transport frame (1);

the rack (21) is rotatably connected between the front side fixed blocks (22) and the rear side fixed blocks (22), and the rack (21) is used for supporting glass;

the middle part of the transportation frame (1) is rotatably connected with the bidirectional screw rod (23);

the two-way screw rod (23) is connected with the first sliding block (26) in a threaded manner on the front side and the rear side of the first sliding block (26);

the first connecting rods (24) are rotatably connected between each first sliding block (26) and the adjacent placing frame (21);

the rotary handle (25) is connected with the front side of the bidirectional screw rod (23).

3. A glass transportation protection frame according to claim 2, characterized in that the clamping mechanism (3) comprises:

the left side and the right side of each placing frame (21) are rotatably connected with limiting clamping blocks (31) for clamping and limiting two sides of glass;

the lower part of each limiting clamp block (31) is connected with a gear (32);

the left side and the right side of the lower part of the placement frame (21) are connected with the fixing frame (34);

the inside of each fixing frame (34) is connected with a rack (33) in a sliding manner, and each rack (33) is meshed with a similar gear (32);

the second connecting rods (35) are fixedly connected between the front sides of the racks (33) on the front sides and between the rear sides of the racks (33) on the rear sides;

the top of each fixing frame (34) is connected with a limiting frame (36);

the clamping blocks (37) are slidably connected with the clamping blocks (37) for clamping the racks (33) on each limiting frame (36);

the outer side of each rack (33) is connected with a limiting block (39);

and the upper part of each clamping block (37) is sleeved with a telescopic spring (38), and two ends of the telescopic spring (38) are respectively connected with the limiting frame (36) and the clamping blocks (37).

4. A glass transportation protection frame according to claim 3, characterized in that the lower part of each clamping block (37) is inclined.

5. A glass transportation protecting frame according to claim 4, further comprising a synchronizing mechanism (4) for pushing the rack (33) to move automatically, the synchronizing mechanism (4) comprising:

the left side and the right side of the transportation frame (1) are both connected with the extrusion blocks (41) in a sliding manner;

the outer side of each extrusion block (41) is connected with a second sliding block (42), and each second sliding block (42) is connected with the transport frame (1) in a sliding mode;

a return spring (45), wherein a return spring (45) is connected between each second sliding block (42) and the transport frame (1);

the inner side of each rack (33) is connected with a contact block (43), and each extrusion block (41) moves outwards and contacts with the contact block (43);

and the extrusion plates (44) are connected to the lower side of the inner part of each placing frame (21), and each extrusion plate (44) is contacted with a similar extrusion block (41).

6. A glass transportation protecting frame according to claim 5, further comprising a fixing mechanism (5) for fixing the upper part of the glass, wherein the fixing mechanism (5) comprises:

the rotating shafts (52) are rotatably connected to the left side and the right side of the top of each placing rack (21);

the top of each rotating shaft (52) is connected with a rotating frame (51) for clamping and fixing the upper part of the glass;

the torsion springs (53) are sleeved on each rotating shaft (52), and two ends of each torsion spring (53) are respectively connected with the rotating frame (51) and the placing frame (21);

the compression bar (54) is connected with the compression bar (54) on both sides around the upper portion of the first support frame (11).

7. A glass transportation protecting frame according to claim 6, further comprising a damper mechanism (6) for damping glass, the damper mechanism (6) comprising:

the front side and the rear side of the upper part of the first support frame (11) are connected with the fixing rods (62);

the telescopic assemblies (63) are uniformly and alternately connected with each fixing rod (62) and are used for damping the glass;

the shock-absorbing plates (61) are connected between the telescopic assemblies (63) on the same fixed rod (62), and the placing frame (21) contacts with the shock-absorbing plates (61) after rotating.

8. A glass transportation protecting frame according to claim 7, further comprising a protecting mechanism (7) for protecting glass, wherein the protecting mechanism (7) comprises:

the bottom of each fixed rod (62) is connected with an electric inflator (71);

the buttons (72) are connected with the buttons (72) on each electric inflator (71);

the first support frame (11) is connected with the first support frame (74);

the air bags (73), each second support frame (74) is connected with an air bag (73) for protecting glass, and the upper part of each air bag (73) is connected with a similar electric inflator (71) through an air pipe.