CN111453422A

CN111453422A - Tool for carrying large-size rectangular glass

Info

Publication number: CN111453422A
Application number: CN202010257096.5A
Authority: CN
Inventors: 张勇
Original assignee: Individual
Current assignee: Xiangxiang Yamei Glass Building Materials Co ltd
Priority date: 2020-04-03
Filing date: 2020-04-03
Publication date: 2020-07-28
Anticipated expiration: 2040-04-03
Also published as: CN111453422B

Abstract

The invention provides a tool for carrying large-size rectangular glass, which comprises an angle plate, a first sliding rod, a second sliding rod and a sliding block, wherein the sliding block comprises a first sliding block and a second sliding block. The angle plates are respectively arranged at the top corners of the rectangular glass, and the number of the first sliding rods is two, and the first sliding rods are respectively arranged along two opposite edges of one group of the rectangular glass; the number of the second sliding rods is two, and the second sliding rods are respectively arranged along the other two opposite edges of the rectangular glass; the first sliding rod and the second sliding rod clamp and press the angle plates through the sliding blocks respectively; the second sliding rod is fixedly connected with the first sliding rod through the clamping hoop. The tool and the glass can be quickly assembled and disassembled through the specific structure of the tool; the installation clearance can be avoided after the installation, and the glass atress is even, reduces the glass drunkenness, and then cracked when can preventing glass transport.

Description

Tool for carrying large-size rectangular glass

Technical Field

The invention relates to the field of transportation, in particular to a tool for carrying large-size rectangular glass.

Background

As glass is an indispensable material in modern buildings, the size of glass used therein is also increasing. The transportation and the transport of big size glass are comparatively hard in the work progress, especially need the manual work to carry the monolithic glass when being under construction in the building. The glass thickness is small, and glass is very easy to be stressed unevenly and cracked when a single glass is conveyed, so that the glass is usually fixed in a manner of binding a support with a specific specification and a rope after being erected in order to avoid the defect of the glass, but the problems that the binding force of the rope is difficult to adjust and the binding efficiency is low exist, and therefore, the tool for conveying the rectangular large-size glass is designed in view of the above.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: 1. the problem that large-size rectangular glass is easy to crack during transportation is solved; 2. the problem of when glass transport bind installation and frock dismantlement inefficiency to glass is solved.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides a frock for jumbo size rectangle glass transport, including scute, first slide bar, second slide bar and slider, the slider includes first slider and second slider.

The corner plates are respectively arranged at the top corners of the rectangular glass, the corner plates are provided with through notches, and the top corners of the rectangular glass are arranged in the notches;

the number of the first sliding rods is two, and the first sliding rods are respectively arranged along two opposite edges of one group of rectangular glass; two first sliding blocks are respectively arranged on each first sliding rod, and the installation position of each first sliding block can be axially adjusted along the first sliding rod;

the number of the second sliding rods is two, the second sliding rods are respectively arranged along the other group of opposite two edges of the rectangular glass, two second sliding blocks are respectively arranged on each second sliding rod, and the installation position of each second sliding block can be axially adjusted along the second sliding rod;

positioning parts are respectively arranged at two ends of each angle plate, wherein the positioning part at one end of each angle plate is connected with the first sliding block, and the positioning part at the other end of each angle plate is connected with the second sliding block;

and clamping hoops are respectively installed at two end parts of the second sliding rod, and the second sliding rod is fixedly connected with the first sliding rod through the clamping hoops.

Preferably, two ends of the inner side of the notch are respectively provided with a rubber pressing block, and the pressing blocks are in contact connection with the edge of the end part of the rectangular glass.

Preferably, the two pressing blocks are semicircular, the arc surfaces of the two pressing blocks are oppositely arranged, and the arc surfaces are in contact connection with the edge of the end part of the rectangular glass.

Preferably, the two pressing blocks are isosceles right triangles, the vertex angles of the two pressing blocks are opposite, and the side waist is in contact connection with the edge of the end part of the rectangular glass.

Preferably, the first sliding rod is in threaded connection with the first sliding block; the second sliding rod is in threaded connection with the second sliding block.

Preferably, two ends of the second sliding rod are respectively connected with the clamping hoop through adjusting blocks, one end of each adjusting block is in threaded connection with the second sliding rod, and the other end of each adjusting block is in threaded connection with the clamping hoop. The length of first slide bar can be adjusted.

Preferably, two sides of the notch are respectively provided with a guard bar, and one end of each guard bar is hinged to the corner plate; and a clamping block is arranged at the swinging end of the guard rod in a threaded manner, and the clamping block is clamped on the side surface of the rectangular glass. The angle plate is provided with a groove, and the clamping block can be arranged in the groove after the protection rod swings. The guard bar is of a telescopic structure with adjustable length.

The tool has the advantages that the tool and the glass can be quickly assembled and disassembled through the specific structure of the tool; the installation clearance can be avoided after the installation, and the glass atress is even, reduces the glass drunkenness, and then cracked when can preventing glass transport.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of an overall assembly structure provided by an embodiment of the present invention;

FIG. 2 is a schematic diagram of an overall exploded structure provided by an embodiment of the present invention;

in the figure: 100-a first sliding rod, 110-a first sliding block, 200-a second sliding rod, 210-a second sliding block, 220-an adjusting block, 230-a clamping hoop, 300-a corner plate, 301-a notch, 302-a pressing block, 303-a positioning part, 304-a groove, 310-a guard bar, 311-a clamping block and 400-glass.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It is to be understood that these examples are for the purpose of illustrating the invention and are not to be construed as limiting the scope of the invention. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

In one embodiment, a tool for carrying large-sized rectangular glass (as shown in fig. 1-2) is provided, which comprises a corner plate 300 installed at each top corner of the rectangular glass, wherein a through notch 301 is formed on the corner plate 300. During installation, the four corner plates 300 are respectively sleeved on each vertex angle of the rectangular glass through the notches 301, the vertex angles of the glass are arranged in the notches 301 after the sleeves are arranged, the vertex angles of the glass can pass through the notches 301, and two ends of each notch 301 are clamped on the edges of the glass. In order to avoid the glass edge from being cracked, rubber pressing blocks 302 are respectively arranged at two ends of the inner side of the notch 301, and the glass is placed into the notch 301 so that the pressing blocks 302 are in contact connection with the edge of the rectangular glass end. In practice, to increase the contact area between the glass edge and the compact 302 and facilitate positioning therebetween, the compact 302 may be shaped in two forms: firstly, the two pressing blocks 302 are both arranged in a semicircular shape, the arc surfaces of the two pressing blocks 302 are arranged oppositely, and the arc surfaces are in contact connection with the edge of the end part of the rectangular glass. The arc surface is pressed by squeezing the rubber pressing block 302, so that the pressing block 302 is in contact with the edge surface of the glass; secondly, the two pressing blocks 302 are both set to be isosceles right triangles, the vertex angles of the two pressing blocks 302 are oppositely arranged, and the side waists are in contact connection with the end edges of the rectangular glass. Therefore, by connecting the two types of pressing pieces 302, the edge of the glass can be prevented from being fractured, and the stability of the glass in placement can be improved.

After the press block 302 is installed on the glass, in order to connect the four corner plates 300 into a whole and facilitate the installation and removal of the four corner plates, the four corner plates further comprise two first slide bars 100 and two second slide bars 200, wherein two first sliders 110 are respectively installed on each first slide bar 100 and two second sliders 210 are respectively installed on each second slide bar 200. The first slider 110 and the second slider 210 are both cylindrical. The first slider 110 is able to adjust its mounting position along the axial movement of the first slide bar 100, as is the second slider 210 along the axial movement of the second slide bar 200; in fact, the first slide bar 100 and the first slider 110 and the second slide bar 200 and the second slider 210 are the same structure and function the same, and are convenient for connecting with the angle plate 300. After the position is determined, in order to fix the slide blocks and the corresponding slide rods, a set screw can be arranged on the side wall of each slide block, and the set screws are screwed to enable the slide blocks to be pressed against the slide rods. The first sliding rod 100 can be connected with the first sliding block 110 by screw threads, and the second sliding rod 200 can be connected with the second sliding block 210 by screw threads, i.e. the sliding rod is a screw rod sliding block which is a nut, so that the installation position of the sliding rod can be adjusted by screwing the sliding block. In addition, the sliding block can slide along the sliding rod and can be fixed through nuts arranged at two ends of the sliding block in an opposite mode.

In order to facilitate the connection between the angle plate 300 and the slider, positioning portions 303 are respectively arranged at two end portions of the angle plate 300, the positioning portions 303 are arc-shaped with equal radius, and the axis of the positioning portions and the axis of the notch 301 form an included angle of 45 degrees. When the corner plate 300 is installed, the positioning portion 303 of one end is connected to the first slider 110, and the positioning portion 303 of the other end is connected to the second slider 210. For the convenience of installation, the two positioning portions 303 at the two ends of the corner plate 300 are symmetrically arranged.

In order to realize that the whole tool and the glass are connected into a whole body for convenient carrying, the two first sliding rods 100 and the two first sliding rods 200 are connected in a surrounding manner, namely, the two first sliding rods are fixedly connected end to end. Clips 230 are respectively installed at both ends of the second slider 200, and the second slider 200 is fixedly connected to the first slider 100 by the clips 230. When in use, in order to facilitate the connection adjustment of the second slide bar 200 and the first slide bar 100, the clips 230 at two ends of the second slide bar 200 are respectively connected with the second slide bar 200 through the adjusting block 220, wherein one end of the adjusting block 220 is connected with the second slide bar 200 in a threaded manner, and the other end of the adjusting block 220 is connected with the clips 230 in a threaded manner, so that the length of the second slide bar 200 can be adjusted, and the orientation of the opening or the axis of the clips 230 can be adjusted to facilitate the use of the slide bar. In addition, the length of the first sliding rod 100 can be adjusted, the first sliding rod 100 can be arranged into two parts which are connected through threads, namely, the first sliding rod 100 is divided into two threaded sleeves, the middle parts of the two threaded sleeves are connected through a screw rod, the two first sliding blocks 110 are respectively installed on the two threaded sleeves, and the applicability of the tool to glass with different sizes can be adjusted through the lengths of the second sliding rod 200 and the first sliding rod 100.

Therefore, according to the above structure, the corner plate 300 installed at each corner of the glass can be clamped and pressed by the two sets of the second slide bars 200 and the two sets of the first slide bars 100 after being connected. The notch 301 on the angle plate 300 is in wedged connection with the glass vertex angle, and the second slide bar 200 and the first slide bar 100 are clamped and pressed in the positioning part 303 of the angle plate 300 through the slide block, so that the angle plate 300 is connected with the glass and the angle plate 300 is connected with the slide bars without using a locking part, and only the connection between the second slide bar 200 and the first slide bar 100 needs to be adjusted during installation, so that the tool can be integrally installed with the glass to facilitate transportation, and the tool and the glass can be conveniently assembled and disassembled.

When the glass corner plate is used, the glass is too large in size, the corner plate 300 is arranged on the top corner of the glass, stress of the glass is concentrated, and installation stability of the glass is affected. Therefore, the two sides of the notch 301 are respectively provided with a guard bar 310, one end of the guard bar 310 is hinged to the angle plate 300, and a clamping block 311 is arranged at the swinging end of the guard bar 310 in a threaded mode, and the clamping block 311 is clamped on the side face of the rectangular glass. The clamping block 311 can move towards the center of the glass by swinging the guard bar 310, and the clamping block 311 is screwed to be clamped at the side end of the glass, so that the clamping area of the glass is increased. When the protection rod 310 is not needed, the protection rod 310 is swung back to be attached to the side end of the angle plate 300, a groove 304 is formed in the side end of the angle plate 300 for facilitating the fixing of the protection rod, and after the protection rod 310 is swung to a designated position, the clamping block 311 is screwed to be placed in the groove 304.

In order to adjust the clamping position of the guard bar 310 on the glass and adapt to the clamping on the glass with different sizes, the guard bar 310 is arranged into a telescopic structure with adjustable length. Therefore, the guard bar 310 can perform better clamping on the glass.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a frock for jumbo size rectangle glass transport which characterized in that includes:

the corner plates (300) are respectively installed at the top corners of the rectangular glass, wherein the corner plates (300) are provided with through notches (301), and the top corners of the rectangular glass are placed in the notches (301);

the two first sliding rods (100) are respectively arranged along two opposite edges of one group of the rectangular glass; two first sliding blocks (110) are respectively arranged on each first sliding rod (100), and the installation position of each first sliding block (110) can be axially adjusted along the first sliding rod (100);

the number of the second sliding rods (200) is two, the second sliding rods are respectively arranged along the other group of opposite two sides of the rectangular glass, two second sliding blocks (210) are respectively installed on each second sliding rod (200), and the installation position of each second sliding block (210) can be axially adjusted along the second sliding rod (200);

positioning parts (303) are respectively arranged at two ends of each angle plate (300), wherein the positioning part (303) at one end of each angle plate (300) is connected with the first sliding block (110), and the positioning part (303) at the other end of each angle plate is connected with the second sliding block (210);

and clamping hoops (230) are respectively installed at two end parts of the second sliding rod (200), and the second sliding rod (200) is fixedly connected with the first sliding rod (100) through the clamping hoops (230).

2. The tooling for conveying the large-size rectangular glass according to claim 1, wherein rubber pressing blocks (302) are respectively arranged at two inner ends of the notch (301), and the pressing blocks (302) are in contact connection with the edges of the ends of the rectangular glass.

3. The tooling for handling the large-size rectangular glass according to claim 2, wherein the two pressing blocks (302) are semicircular, the arc surfaces of the two pressing blocks (302) are oppositely arranged and are in contact connection with the end edges of the rectangular glass.

4. The tooling for handling large-size rectangular glass according to claim 2, wherein the two pressing blocks (302) are all isosceles right triangles, the top corners of the two pressing blocks (302) are oppositely arranged, and the side waist is in contact connection with the end edge of the rectangular glass.

5. The tooling for handling large-size rectangular glass according to claim 1, wherein the first slide bar (100) is in threaded connection with the first slider (110); the second sliding rod (200) is in threaded connection with the second sliding block (210).

6. The tooling for conveying the large-size rectangular glass according to claim 1 or 5, wherein two ends of the second sliding rod (200) are respectively connected with the clamping hoop (230) through an adjusting block (220), one end of the adjusting block (220) is connected with the second sliding rod (200) in a threaded mode, and the other end of the adjusting block (220) is connected with the clamping hoop (230) in a threaded mode.

7. The tooling for the handling of large size rectangular glass according to claim 6, wherein the length of the first slide bar (100) is adjustable.

8. The tooling for carrying the large-size rectangular glass according to claim 1, wherein two sides of the notch (301) are respectively provided with a guard bar (310), and one end of the guard bar (310) is hinged to the angle plate (300); and a clamping block (311) is arranged at the swinging end of the guard bar (310) in a threaded manner, and the clamping block (311) is clamped on the side surface of the rectangular glass.

9. The tooling for carrying the large-size rectangular glass according to claim 8, wherein the angle plate (300) is provided with a groove (304), and the guard bar (310) can enable the clamping block (311) to be placed in the groove (304) after being swung.

10. The tooling for the handling of large size rectangular glass according to claim 8 or 9, wherein the guard bar (310) is a telescopic structure with adjustable length.