CN111071909A - Toughened glass carrying and hoisting device - Google Patents

Abstract

The invention discloses a toughened glass carrying and hoisting device, and belongs to the technical field of glass production and processing equipment. In the device, a plurality of pairs of movable supporting plates are horizontally arranged at the inner sides of the two symmetrically arranged supporting plates, the movable supporting plates can be lifted by the lifting platform and moved on the toughened glass positioned below, so that the movable supporting plates passing through are upwards rotated to be vertical, the toughened glass is continuously upwards moved to the position above the supporting plate needing to be placed, at the moment, the movable supporting plates at the corresponding positions are backwards rotated to ensure that one ends of the movable supporting plates positioned in the guide grooves on the side supporting plates are attached to the tops of the guide grooves, because the placed toughened glass has a downward gravity action on one end of the movable supporting plate positioned outside the guide groove, the other end of the guide groove is blocked by the top of the guide groove so that the guide groove can not rotate continuously and is in a horizontal static state, the left side and the right side of the bottom end of the toughened glass can be lifted, and compared with the traditional mode, the invention can hoist a plurality of toughened glass at one time by a plurality of pairs of movable supporting plates.

Description

Toughened glass carrying and hoisting device

Technical Field

The invention belongs to the technical field of glass production and processing equipment, and particularly relates to a toughened glass carrying and hoisting device.

Background

Tempered glass is also called tempered glass. The glass is reinforced by a toughening method, and belongs to safety glass. The tempered glass is actually prestressed glass, and in order to improve the strength of the glass, a chemical or physical method is usually used to form compressive stress on the surface of the glass, and the glass firstly counteracts surface stress when bearing external force, so that the bearing capacity is improved, and the wind pressure resistance, the cold and hot property, the impact property and the like of the glass are enhanced. Note the distinction from glass reinforced plastic.

Compared with common glass, the toughened glass has several times higher strength, bending resistance, high safety, raised bearing capacity, improved fragility, no acute angle and less damage to human body. Compared with common glass, the rapid cooling and heating resistance of the toughened glass is improved by 3-5 times, the toughened glass can bear temperature difference change of more than 250 degrees generally, and has obvious effect on preventing thermal explosion. Is one of safety glass. The safety of qualified materials is guaranteed for high-rise buildings.

The toughened glass is obtained by cutting common annealed glass into required sizes, heating to about 700 ℃ close to a softening point, and then rapidly and uniformly cooling (generally, 5-6 mm glass is heated at 700 ℃ for about 240 seconds, cooled for about 150 seconds, 8-10 mm glass is heated at 700 ℃ for about 500 seconds, and cooled for about 300 seconds. After tempering treatment, uniform compressive stress is formed on the surface of the glass, and tensile stress is formed inside the glass, so that the bending strength and the impact strength of the glass are improved, and the strength of the glass is about four times that of common annealed glass. The toughened glass which is well toughened can not be cut, ground and the like or damaged, otherwise the toughened glass can be crushed into bone due to the damage of the uniform pressure stress balance.

The tempered glass is classified into planar tempered glass and curved tempered glass according to the shape. The thickness of the general plane toughened glass is 11, 12, 15, 19mm and the like; the thickness of the curved surface toughened glass is 11 mm, 15 mm, 19mm and the like, and the specific thickness after processing still needs to be determined by equipment and technology of various manufacturers. Curved (i.e., bent tempered) tempered glass has a maximum curvature limit for each thickness. I.e. what is known as RR, is the radius. The toughened glass is divided into flat toughened glass and bent toughened glass according to the appearance of the toughened glass.

In order to improve the strength of the glass, a chemical or physical method is generally used to form compressive stress on the surface of the glass, when the glass bears external force, the surface stress is firstly counteracted, so that the bearing capacity is improved, the wind pressure resistance, the cold and heat resistance, the impact resistance and the like of the glass are enhanced, when the toughened glass is placed on the ground, a plurality of pressing blocks are generally placed at intervals of one layer to facilitate carrying, and for a small amount of toughened glass, manual carrying is generally selected, so that the carrying mode is relatively laborious, the hand is easy to scratch or the muscle is easy to be pulled, and if the toughened glass falls off due to carelessness, the toughened glass is easy to break, so that the loss is caused.

In toughened glass production and processing process, often need carry it and lift by crane, the sucking disc is generally used to traditional mode and the rope is binded, but its factor of safety is lower, patent number: CN201710254870.5 discloses a hoisting device for transporting toughened glass, which is provided with a U-shaped protection plate and a U-shaped supporting plate, so as to protect four sides of a toughened glass block, and then the U-shaped protection plate and the U-shaped supporting plate are fixed together, during transportation, the arc-shaped ring is hooked by a small crane, so that the toughened glass block can be hoisted integrally, and the toughened glass block can be transported very stably; however, there are some drawbacks, such as: the efficiency of only hoisting one piece of toughened glass at a time is low.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: aiming at the problem that the existing toughened glass carrying and lifting device can only be used for lifting one toughened glass at a time, the toughened glass carrying and lifting device is provided.

In order to solve the technical problems, the invention adopts the following technical scheme:

a toughened glass carrying and hoisting device comprises an upper supporting plate, a bottom plate, a hydraulic lifting platform and toughened glass; the front end and the rear end above the upper supporting plate are respectively provided with an internal thread sleeve, the corresponding positions at the two ends of the internal thread sleeve on the upper supporting plate are fixedly connected with two pairs of bearing seats, the two ends of the internal thread sleeve are respectively sleeved in the inner rings of the corresponding bearing seats and are rotatably connected with the upper supporting plate through the bearing seats, the left side and the right side of the upper supporting plate are provided with symmetrically distributed side supporting plates, the front end and the rear end of the side supporting plate on the left side of the upper supporting plate are respectively fixedly connected with a first threaded rod, the two first threaded rods are parallel to each other, the rightmost ends of the two first threaded rods are respectively matched and screwed in from the left end of the internal thread sleeve at the corresponding position on the upper supporting plate, similarly, the front end and the rear end of the left side of the side supporting plate on the right side of the upper supporting plate are respectively fixedly, the screw thread spiral directions on the first screw rod and the second screw rod are opposite, the corresponding internal thread spiral directions of the two internal thread sleeves at the left end and the right end are opposite from the middle as a boundary, the two side supporting plates are vertically downward and are respectively provided with three rows of movable supporting plates on the side walls positioned at the inner sides, each movable supporting plate is movably connected on the corresponding side supporting plate through hinges arranged at the two ends, the movable supporting plates on the two side supporting plates are in one-to-one correspondence from left to right, one end of each movable supporting plate close to the side supporting plate is corresponding to a guide groove arranged on the side supporting plate, the guide groove is in a quarter cylinder shape, a row of rollers are respectively arranged at the positions close to the bottommost bottom ends of the inner sides of the two side supporting plates, the contact surface is upward after the rollers are installed, a telescopic bottom plate is arranged under the, and a hydraulic lifting platform is fixedly connected right above the telescopic bottom plate.

Preferably, the middle of each of the two internal thread sleeves is sleeved with a fixedly connected chain wheel, and the two chain wheels are connected through a transmission chain.

Preferably, the upper ends and the lower ends of the two side supporting plates are respectively and fixedly connected with a bearing snap ring, and two bearing snap rings at diagonal positions of the four bearing snap rings are respectively and fixedly connected with a steel cable.

Preferably, the intersection between the two steel cables can be sleeved on a lifting hook on the travelling crane.

Preferably, four wire winders are fixedly connected to the front end and the rear end of two sides of the upper supporting plate, a fixing rope is wound on each wire winder, and one end of each fixing rope is fixedly connected with a fixing hook.

Preferably, four fixing snap rings are fixedly connected to the telescopic bottom plate at positions right below the four wire collectors.

Preferably, the guide grooves on the side supporting plates are not connected, the tops of the guide grooves are horizontal, the diameter of each guide groove is slightly larger than half of the length of the movable supporting plate, so that the guide grooves cannot hinder the rotation of the movable supporting plate, but the movable supporting plate can only rotate by 0-90 degrees due to position limitation.

Preferably, the collateral branch fagging can set up length according to actual need, and then the logarithm of activity layer board is according to the length adjustment of collateral branch fagging, and the rotation that only needs the activity layer board can not receive the hindrance of other activity layer boards to the activity layer board distance of upper end one section distance of threaded rod can not receive its influence when making the anticlockwise upwards rotation of activity layer board, is located the activity layer board of lower extreme moreover and can not take place the mutual contact apart from one section distance of gyro wheel when making its rotation.

Preferably, the tempered glass is placed on each pair of movable supporting plates.

Compared with other methods, the method has the beneficial technical effects that:

in the device, two rows of rollers are arranged at the bottom ends of the inner sides of the two side supporting plates, toughened glass can slide into the upper part of the telescopic bottom plate from the rollers, the toughened glass can be pushed to move upwards by a hydraulic lifting platform on the bottom plate, a plurality of pairs of movable supporting plates are horizontally arranged on the inner side walls of the left and right side supporting plates, the movable supporting plates can be lifted by the lifting platform, the toughened glass positioned below the movable supporting plates moves from bottom to top, so that the passing movable supporting plates rotate upwards to be vertical, the toughened glass can continuously move upwards to the upper part of the supporting plates at the required placing position, at the moment, the movable supporting plates at the corresponding positions rotate backwards, one ends of the movable supporting plates positioned in the guide grooves on the side supporting plates are attached to the tops of the guide grooves, as the placed toughened glass has downward gravity effect on one ends of the movable supporting plates positioned outside the guide grooves, and, the left side and the right side of the bottom end of the toughened glass can be lifted, the two sides of the upper supporting plate are provided with four wire collectors, the wire collectors can be buckled into the fixing buckle rings on the two sides of the bottom plate through the fixing hooks at one end of the fixing ropes wound in the wire collectors, so that the front end and the rear end of the toughened glass are limited and fixed through the fixing ropes, and the glass is prevented from shaking forwards and backwards during lifting.

Drawings

FIG. 1 is a schematic diagram of the apparatus of the present invention;

FIG. 2 is a schematic top view of the present invention shown in FIG. 1;

FIG. 3 is a schematic diagram of the right side structure of the upper support plate 1 in FIG. 1;

FIG. 4 is a partial sectional view taken along the longitudinal direction of FIG. 2A-A;

FIG. 5 is a partial sectional view taken along the longitudinal direction of FIG. 2B-B;

1. an upper support plate; 2. a bearing seat; 3. an internally threaded sleeve; 301. a sprocket; 4. a conveyor chain; 5. a first threaded rod; 6. a second threaded rod; 7. side supporting plates; 701. a guide groove; 8. a movable supporting plate; 801. a hinge; 9. a wire rewinding device; 901. fixing a rope; 902; fixing a hook; 10. a roller; 11. a telescopic bottom plate; 12. a fixed retaining ring; 13. a hydraulic lifting platform; 14. a load-bearing retaining ring; 15. a steel cord; 16. and (4) tempering the glass.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in 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. The words "upper", "lower", "left" and "right" when used herein are merely intended to designate corresponding upper, lower, left and right directions in the drawings, and do not limit the structure thereof.

The toughened glass carrying and hoisting device shown in fig. 1-5 comprises an upper supporting plate 1, a bottom plate 11, a hydraulic lifting platform 13 and toughened glass 16; as shown in fig. 1 and 2, an internal thread sleeve 3 is respectively arranged at the front end and the rear end above an upper support plate 1, two pairs of bearing seats 2 are fixedly connected to corresponding positions at the two ends of the internal thread sleeve 3 on the upper support plate 1, the two ends of the internal thread sleeve 3 are respectively sleeved in the inner rings of the corresponding bearing seats 2 and are rotatably connected with the upper support plate 1 through the bearing seats 2, symmetrically distributed lateral support plates 7 are arranged at the left and the right sides of the upper support plate 1, first threaded rods 5 are respectively fixedly connected at the front and the rear ends at the upper right of the lateral support plate 7 at the left side of the upper support plate 1, as shown in fig. 2, the two first threaded rods 5 are parallel to each other, and the rightmost ends are respectively screwed in a matching manner from the left end of the internal thread sleeve 3 at the corresponding position on the upper support plate 1, such a, similarly, the front end and the rear end of the upper left side of the side supporting plate 7 positioned on the right side of the upper supporting plate 1 are respectively fixedly connected with a second threaded rod 6, the two second threaded rods 6 are parallel to each other, and the leftmost ends of the two second threaded rods are respectively matched and screwed in from the right end of the internal thread sleeve 3 at the corresponding position on the upper supporting plate 1, so that the second threaded rods 6 can also be driven to move left and right by the rotation of the internal thread sleeve 3; the screw thread directions of the first screw rod 5 and the second screw rod 6 are opposite, and the screw thread directions of the corresponding two internal thread sleeves 3 at the left end and the right end from the right middle to the boundary are opposite, so that the first screw rod 5 and the second screw rod 6 at the two ends can be driven to move simultaneously in opposite directions by rotating the internal thread sleeves 3, the distance between the support plates 7 at the two sides is adjusted, and the movable support plate 8 above the support plates can be adjusted and lifted according to toughened glass 16 with different lengths; as shown in fig. 1, three rows of movable supporting plates 8 are respectively arranged on the side walls of the two side supporting plates 7 which are vertically downward and positioned at the inner side, each movable supporting plate 8 is movably connected to the corresponding side supporting plate 7 through hinges 801 arranged at two ends, and the movable supporting plates 8 on the two side supporting plates 7 are in one-to-one correspondence with each other in the left-to-right direction, so that the tempered glass 16 can be lifted through the movable supporting plates 8 on the same horizontal line at the left and right sides, as shown in fig. 4, one end of each movable supporting plate 8 close to the side supporting plate 7 corresponds to a guide groove 701 arranged on the side supporting plate 7, and the guide groove 701 is in a quarter-cylinder shape, wherein the guide grooves 701 on the side supporting plates 7 are not connected, the top of the guide groove 701 is in a horizontal shape, the diameter of the guide groove 701 is slightly larger than half, but the movable supporting plate 8 can only rotate 0-90 degrees due to the limited position, so that the structure, when the toughened glass 16 is lifted upwards from the telescopic bottom plate 11 through the hydraulic lifting platform 13 at the lower end, the toughened glass can be pushed to rotate upwards to a vertical state when passing below the movable supporting plate 8, so that the toughened glass 16 can move upwards continuously, when the toughened glass 16 passes over the uppermost end of the movable supporting plate 8, a pair of movable supporting plates 8 which horizontally correspond to each other from left to right can be rotated back, so that one end of the guide groove 701 on the side supporting plate 7 is attached to the horizontal top of the guide groove 701, because the placed toughened glass 16 has a downward gravity action on one end of the movable supporting plate 8 which is positioned outside the guide groove 701, the other end of the guide groove 701 is blocked by the horizontal top of the guide groove 701, so that the other end of the guide groove cannot rotate continuously and is in a horizontal static state, and the left side and the right side of the bottom end of the toughened glass 16 can be lifted; as shown in fig. 1, a row of rollers 10 are respectively arranged at the inner sides of the two side supporting plates 7 near the bottommost position, and the contact surface of the rollers 10 faces upwards after installation, so that the tempered glass 16 can slide into the position above the telescopic bottom plate 11 from the rollers 10, and the next operation on the tempered glass can be conveniently carried out through a hydraulic lifting platform 13; go up and be equipped with a flexible bottom plate 11 under the backup pad 1, both ends are connected with 7 inboards of both sides backup pad respectively about flexible bottom plate 11, make it can adjust and can bear fixed buckle 12 and hydraulic lifting platform 13 when nimble removal along with the collateral branch backup pad 7 of both sides, fixedly connected with hydraulic lifting platform 13 directly over flexible bottom plate 11 for to the toughened glass 16 on gyro wheel 10 lift and shift up and make it place on the movable supporting plate 8 of top, also can continue when unloading to slowly lift and shift down the gyro wheel 10 of bottom with placing toughened glass 16 on movable supporting plate 8, the operating personnel of being convenient for drags it out.

As shown in fig. 5, the two inner threaded sleeves 3 are respectively sleeved with a fixedly connected chain wheel 301 therebetween, and the two chain wheels 301 are in transmission connection via a transmission chain 4, so that the two inner threaded sleeves 3 can synchronously rotate, the first and second threaded rods on the two sides can simultaneously move towards the two sides, and the distance between the side supporting plates 7 can be symmetrically adjusted.

As shown in fig. 2, the two uppermost ends and the two uppermost ends of the two side support plates 7 are respectively and fixedly connected with a bearing snap ring 14, and two bearing snap rings 14 at diagonal positions of the four bearing snap rings 14 are respectively and fixedly connected with a steel cable 15, so that the intersection between the two steel cables 15 can be sleeved on a hook on a traveling crane, and further the device of the present invention can be lifted by the traveling crane or a crane, that is, the tempered glass 16 on the device can be lifted.

As shown in fig. 1 and 3, four wire collectors 9 are fixedly connected to front and rear ends of two sides of the upper support plate 1, a fixing rope 901 is wound on each wire collector 9, one end of each fixing rope 901 is fixedly connected with a fixing hook 902, and as shown in fig. 1, four fixing buckles 12 are fixedly connected to positions right below the four wire collectors 9 on the telescopic bottom plate 11, so that after the tempered glass 16 is placed on the corresponding movable supporting plate 8, the fixing ropes 901 can be downwards sleeved in the fixing buckles 12 on the corresponding positions on the telescopic bottom plate 11 through the fixing hooks 902, so that the front and rear sides of the four fixing ropes 901 limit the front and rear movement of the tempered glass 16, and the tempered glass 16 is prevented from slipping.

As shown in fig. 1, wherein, the side supporting plate 7 can set up length according to actual need, and then the logarithm of the movable supporting plate 8 is adjusted according to the length of the side supporting plate 7, only the rotation of the movable supporting plate 8 is required to be not obstructed by other movable supporting plates, and the movable supporting plate 8 at the top is away from the threaded rod by a distance so that the movable supporting plate 8 is not influenced when rotating upwards, and the movable supporting plate 8 at the bottom is away from the roller 10 by a distance so that the movable supporting plate can not contact with the roller.

Wherein the tempered glass 16 is placed on each pair of movable pallets 8.

The present invention has been further described with reference to specific embodiments, but it should be understood that the detailed description should not be construed as limiting the spirit and scope of the present invention, and various modifications made to the above-described embodiments by those of ordinary skill in the art after reading this specification are within the scope of the present invention.

Claims (9)

1. The utility model provides a toughened glass carries hoisting accessory, includes backup pad (1), bottom plate (11), hydraulic lifting platform (13) and toughened glass (16), a serial communication port, both ends are equipped with an internal thread sleeve (3) respectively around going up backup pad (1) top, go up backup pad (1) and be located two pairs of bearing frame (2) of the corresponding position department fixedly connected with at internal thread sleeve (3) both ends, internal thread sleeve (3) both ends are overlapped respectively in the inner ring of corresponding bearing frame (2) and are rotated with last backup pad (1) through bearing frame (2) and be connected, it is equipped with symmetric distribution's collateral branch backup pad (7) to go up backup pad (1) left collateral branch backup pad (7) upper right side front and back both ends respectively fixedly connected with first threaded rod (5) to be located, two first threaded rod (5) are parallel to each other and the right-hand member is followed the internal thread that corresponds position department on backup pad (1) respectively The left end cooperation screw in of sleeve (3), it is same, both ends are fixedly connected with second threaded rod (6) respectively around being located the collateral branch backup pad (7) the upper left side on backup pad (1) right side, two second threaded rods (6) are parallel to each other and the left end is followed the internal thread sleeve (3) right-hand member cooperation screw in of corresponding position department on last backup pad (1) respectively, screw thread spiral opposite direction on first threaded rod (5) and second threaded rod (6), it is opposite that two internal thread sleeves (3) are the internal thread spiral opposite direction at both ends about the limit from the positive middle correspondingly, both sides backup pad (7) are vertical downwards and are located the inboard lateral wall and are equipped with three rows movable supporting plate (8) respectively, every movable supporting plate (8) are through hinge (801) swing joint that both ends set up on corresponding collateral branch backup pad (7), and activity layer board (8) on two collateral branch faggings (7) control the one-to-one, every activity layer board (8) are close to one end and collateral branch fagging (7) of collateral branch fagging (7) and are gone up guide groove (701) that are equipped with and corresponding, and guide groove (701) are the fourth cylindric, two collateral branch fagging (7) inboards are close to bottommost position department and are equipped with respectively and are listed as gyro wheel (10), contact surface is up after gyro wheel (10) installation, be equipped with a flexible bottom plate (11) under going up backup pad (1), both ends are connected with both sides backup pad (7) inboard respectively about flexible bottom plate (11), fixedly connected with hydraulic lifting platform (13) directly over flexible bottom plate (11).

2. The toughened glass carrying and hoisting device according to claim 1, wherein the two chain wheels (301) fixedly connected are respectively sleeved between the two internal thread sleeves (3), and the two chain wheels (301) are in transmission connection through the transmission chain (4).

3. A lifting device for transporting tempered glass as claimed in claim 1, wherein the two side supporting plates (7) are fixedly connected with a retaining ring (14) at the front and rear ends thereof, respectively, and the two retaining rings (14) at diagonal positions of the four retaining rings (14) are fixedly connected with a steel cable (15), respectively.

4. A toughened glass carrying and lifting device as claimed in claim 3, wherein the intersection between the two steel cables (15) can be fitted over the hook of the travelling crane.

5. A toughened glass carrying and hoisting apparatus according to claim 1, wherein four wire winders (9) are fixedly connected to the front and rear ends of both sides of the upper supporting plate (1), a fixing rope (901) is wound on the wire winders (9), and one end of the fixing rope (901) is fixedly connected with a fixing hook (902).

6. A lifting device for carrying tempered glass as in claim 1 or 5, wherein four fixing buckles (12) are fixedly connected to the telescopic base plate (11) at positions right below the four wire retractors (9).

7. The toughened glass carrying and lifting device according to claim 1, wherein the guide grooves (701) on the side support plates (7) are not connected, the tops of the guide grooves (701) are horizontal, the diameter of each guide groove (701) is slightly larger than half of the length of the movable supporting plate (8), so that the guide grooves (701) do not obstruct the rotation of the movable supporting plate (8), but the movable supporting plate (8) can only rotate 0-90 degrees due to position limitation.

8. A lifting device for conveying tempered glass according to claim 1, wherein the side supporting plates (7) can be set to have a length according to actual needs, and the number of pairs of the movable supporting plates (8) is adjusted according to the length of the side supporting plates (7), so that the movable supporting plates (8) can rotate without being blocked by other movable supporting plates, the movable supporting plate (8) at the uppermost end is away from the threaded rod by a certain distance, so that the movable supporting plate (8) can not be affected when rotating upwards, and the movable supporting plate (8) at the lowermost end is away from the roller (10) by a certain distance, so that the movable supporting plates can not contact with each other when rotating.

9. A toughened glass handling crane according to claim 1 wherein the toughened glass (16) is placed on each pair of movable pallets (8).

Images