CN216463616U

CN216463616U - Glass polishing device

Info

Publication number: CN216463616U
Application number: CN202122269414.2U
Authority: CN
Inventors: 陈丽全
Original assignee: Linfen Changxing Glass Co ltd
Current assignee: Linfen Changxing Glass Co ltd
Priority date: 2021-09-18
Filing date: 2021-09-18
Publication date: 2022-05-10
Anticipated expiration: 2031-09-18

Abstract

The utility model relates to the technical field of glass processing, and discloses a glass polishing device which comprises a base, wherein L-shaped processing supports are arranged on two sides of the top of the base, a first hydraulic telescopic rod is arranged on one side of the bottom of each L-shaped processing support, a polishing mechanism is fixed at the bottom of each first hydraulic telescopic rod, an L-shaped fixing support is fixed on the rear side of the base, a second hydraulic telescopic rod is arranged on one side of the bottom of each L-shaped fixing support, a clamping plate is fixed at the bottom of each second hydraulic telescopic rod, and a placing table is arranged in the center of the base. In the process of polishing glass, the two second motors can be started simultaneously, the second motors drive the first hydraulic telescopic rod to move through the second screw rod, the height of the polishing mechanism is adjusted through the first hydraulic telescopic rod again, and two sides of the glass are polished simultaneously through the polishing mechanism, so that the working efficiency is improved, and meanwhile, convenience is brought to workers.

Description

Glass polishing device

Technical Field

The utility model relates to the technical field of glass processing, in particular to a glass polishing device.

Background

In the process of polishing glass, since only one side of the glass can be polished, the working efficiency is low, so that a device capable of polishing two sides of the glass simultaneously is needed.

Some glass polishing devices currently on the market:

in the process of polishing glass, because the edges of the glass are more and the polishing effect is slower, the existing glass polishing device can not simultaneously polish the two sides of the glass.

We have proposed a glass polishing apparatus so as to solve the problems set forth above.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In view of the above-mentioned shortcomings in the prior art, the present invention provides a glass polishing device to solve the problem that some glass polishing devices in the market proposed in the above-mentioned prior art cannot polish both sides of glass simultaneously.

(II) technical scheme

In order to achieve the purpose, the utility model is realized by the following technical scheme:

a glass polishing device comprises a base, wherein L-shaped processing supports are mounted on two sides of the top of the base, a first hydraulic telescopic rod is mounted on one side of the bottom of each L-shaped processing support, a polishing mechanism is fixed to the bottom of each first hydraulic telescopic rod, an L-shaped fixing support is fixed to the rear side of the base, a second hydraulic telescopic rod is mounted on one side of the bottom of each L-shaped fixing support, a clamping plate is fixed to the bottom of each second hydraulic telescopic rod, and a placing table is mounted in the center of the base;

the bottom of the base is provided with a first cavity, a first Y-axis sliding mechanism is installed inside the first cavity and comprises a first motor and a first screw rod, one end of the first screw rod rotates on the side wall of the first cavity, the other end of the first screw rod penetrates through the side wall of the first cavity and is fixed with the output end of the first motor, the bottom of the L-shaped processing support is provided with a threaded hole, and the L-shaped processing support is installed on the outer surface of the first screw rod in a threaded mode;

a second cavity is formed in each L-shaped processing support, an X-axis sliding mechanism is installed in each second cavity and comprises a second motor and a second screw, the second screw is installed on the inner side wall of each second cavity in a threaded mode, the other end of each second screw penetrates through the inner wall side of each second cavity and is fixed with the output end of each second motor, and the upper portion of each first hydraulic telescopic rod is installed on the outer surface of each second screw in a threaded mode;

a third cavity is formed in the L-shaped fixed support, a second Y-axis sliding mechanism is installed in the third cavity and comprises a third motor and a third screw rod, one end of the third screw rod is installed on the inner side wall of the third cavity in a threaded mode, the other end of the third screw rod penetrates through the inner side wall of the third cavity and is fixed with the output end of the third motor, and a second hydraulic telescopic rod is installed on the outer surface of the third screw rod in a threaded mode;

the center of the base is provided with a circular cavity, a rotating shaft is rotated inside the circular cavity, and the output end of the rotating shaft penetrates through the top of the base and is fixed with the bottom of the placing table.

Furthermore, every the first cavity inside wall still is fixed with same slide bar, the spout has still been seted up to the bottom of L shape processing support, L shape processing support carries out sliding connection through the surface of spout and slide bar.

Furthermore, the side walls of the base, the L-shaped processing support and the L-shaped fixing support are respectively fixed with a placing frame, and the first motor, the second motor and the third motor are respectively fixed at the tops of the placing frames which are matched with each other.

(III) advantageous effects

Compared with the prior art, the utility model has the beneficial effects that:

in the process of polishing glass, the two second motors can be started simultaneously, the second motors drive the first hydraulic telescopic rod to move through the second screw rod, the height of the polishing mechanism is adjusted through the first hydraulic telescopic rod again, and two sides of the glass are polished simultaneously through the polishing mechanism, so that the working efficiency is improved, and meanwhile, convenience is brought to workers.

Drawings

FIG. 1 is a schematic front view of a glass polishing apparatus according to the present invention;

FIG. 2 is a schematic view showing the internal structure of a base of the glass polishing apparatus according to the present invention;

FIG. 3 is a schematic top view of the glass polishing apparatus of the present invention;

FIG. 4 is a schematic view showing the internal structure of an L-shaped processing holder of the glass polishing apparatus according to the present invention;

FIG. 5 is a schematic view showing the internal structure of an L-shaped fixing bracket of the glass polishing apparatus according to the present invention.

In the figure: the polishing machine comprises a base 1, an L-shaped processing support 2, an L-shaped fixing support 3, a first hydraulic telescopic rod 4, a polishing mechanism 5, a second hydraulic telescopic rod 6, a placing table 7, a clamping plate 8, a first motor 9, a second motor 10, a third motor 11, a rotating shaft 12, a second screw rod 15 and a third screw rod 16.

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, the utility model provides a glass polishing device, which comprises a base 1, wherein L-shaped processing brackets 2 are mounted on two sides of the top of the base 1, a first hydraulic telescopic rod 4 is mounted on one side of the bottom of each L-shaped processing bracket 2, a polishing mechanism 5 is fixed at the bottom of each first hydraulic telescopic rod 4, an L-shaped fixing bracket 3 is fixed on the rear side of the base 1, a second hydraulic telescopic rod 6 is mounted on one side of the bottom of each L-shaped fixing bracket 3, a clamping plate 8 is fixed at the bottom of each second hydraulic telescopic rod 6, and a placing table 7 is mounted at the center of the base 1;

the bottom of the base 1 is provided with a first cavity, a first Y-axis sliding mechanism is installed inside the first cavity, the first Y-axis sliding mechanism comprises a first motor 9 and a first screw 13, one end of the first screw 13 rotates on the side wall of the first cavity, the other end of the first screw 13 penetrates through the side wall of the first cavity and is fixed with the output end of the first motor 9, the bottom of the L-shaped processing support 2 is provided with a threaded hole, and the L-shaped processing support 2 is installed on the outer surface of the first screw 13 in a threaded mode;

a second cavity is formed in each L-shaped processing support 2, an X-axis sliding mechanism is installed in each second cavity and comprises a second motor 10 and a second screw rod 15, the second screw rods 15 are installed on the inner side wall of each second cavity in a threaded mode, the other ends of the second screw rods 15 penetrate through the inner wall side of each second cavity and are fixed with the output end of the second motor 10, and the upper portion of each first hydraulic telescopic rod 4 is installed on the outer surface of each second screw rod 15 in a threaded mode;

a third cavity is formed in the L-shaped fixed support 3, a second Y-axis sliding mechanism is installed in the third cavity and comprises a third motor 11 and a third screw 16, one end of the third screw 16 is installed on the inner side wall of the third cavity in a threaded mode, the other end of the third screw 16 penetrates through the inner side wall of the third cavity and is fixed with the output end of the third motor 11, and a second hydraulic telescopic rod 6 is installed on the outer surface of the third screw 16 in a threaded mode;

a circular cavity is formed in the center of the base 1, a rotating shaft 12 rotates inside the circular cavity, and the output end of the rotating shaft 12 penetrates through the top of the base 1 and is fixed with the bottom of the placing table 7;

according to the illustration of fig. 2, as a preferred embodiment of the present invention: every first cavity inside wall still is fixed with same slide bar 14, and the spout has still been seted up to the bottom of L shape processing support 2, and L shape processing support 2 carries out sliding connection through the surface of spout and slide bar 14, avoids L shape processing support 2 the possibility of rocking to appear.

According to the illustration in fig. 4, as a preferred embodiment of the present invention: the side walls of the base 1, the L-shaped processing support 2 and the L-shaped fixing support 3 are respectively fixed with a placing rack, and the first motor 9, the second motor 10 and the third motor 11 are respectively fixed at the top of the placing rack in a matched mode, so that the effect of fixing the motors is achieved.

The working principle of the embodiment is as follows: in using the glass polishing apparatus, as shown in fig. 1 and 2-5,

firstly, glass to be polished is placed on the upper portion of a placing table 7, then a third motor 11 drives a second hydraulic telescopic rod 6 to move along the Y axis through a third screw 16, when the glass moves to the center of the glass, the second hydraulic telescopic rod 6 drives a clamping plate 8 to clamp the glass to the upper portion of the placing table 7, then a second motor 10 is started again, the second motor 10 drives a first hydraulic telescopic rod 4 to move along the X axis through a second screw 15, when the first hydraulic telescopic rod 4 moves to the edge of the glass, the height of a polishing mechanism 5 is adjusted through the first hydraulic telescopic rod 4 again, finally, the first motor 9 drives an L-shaped processing support 2 to move along the Y axis through a first screw 13, so that the L-shaped processing support 2 drives the polishing mechanism 5 through the first hydraulic telescopic rod 4 to polish the edge of the glass, and if a two-side polishing technology is adopted, the polishing mechanism 5 and the clamping plate 8 are restored to their original positions, and then the glass is rotated again by the rotating shaft 12, and then the polishing work is performed on the other edges of the glass.

The above is the operation of the whole device, and the details which are not described in detail in this specification are well known to those skilled in the art.

The electrical components presented therein may be electrically connected to an external controller, and the controller may be electrically connected to an external 220V commercial power, and the controller may be a conventional known device for controlling a computer or the like.

In this document, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Although the present invention has been described in detail with reference to the foregoing embodiments, it should be noted that, in the present invention, in the description of the present invention, the meaning of "a plurality" is two or more, and unless otherwise specifically limited, the terms "disposed", "mounted", "connected", "fixed", and the like are to be understood broadly, and for example, may be a fixed connection or a detachable connection; or indirectly through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations; it will be apparent to those skilled in the art that modifications and equivalents may be made in the embodiments and/or portions thereof without departing from the spirit and scope of the present invention.

Claims

1. The glass polishing device comprises a base (1) and is characterized in that L-shaped processing supports (2) are mounted on two sides of the top of the base (1), a first hydraulic telescopic rod (4) is mounted on one side of the bottom of each L-shaped processing support (2), a polishing mechanism (5) is fixed to the bottom of each first hydraulic telescopic rod (4), an L-shaped fixing support (3) is fixed to the rear side of the base (1), a second hydraulic telescopic rod (6) is mounted on one side of the bottom of each L-shaped fixing support (3), a clamping plate (8) is fixed to the bottom of each second hydraulic telescopic rod (6), and a placing table (7) is mounted in the center of the base (1);

the bottom of the base (1) is provided with a first cavity, a first Y-axis sliding mechanism is installed inside the first cavity, the first Y-axis sliding mechanism comprises a first motor (9) and a first screw (13), one end of the first screw (13) rotates on the side wall of the first cavity, the other end of the first screw (13) penetrates through the side wall of the first cavity and is fixed with the output end of the first motor (9), the bottom of the L-shaped processing support (2) is provided with a threaded hole, and the L-shaped processing support (2) is installed on the outer surface of the first screw (13) in a threaded mode;

a second cavity is formed in each L-shaped processing support (2), an X-axis sliding mechanism is installed in each second cavity and comprises a second motor (10) and a second screw (15), the second screw (15) is installed on the inner side wall of each second cavity in a threaded mode, the other end of each second screw (15) penetrates through the inner wall side of each second cavity and is fixed to the output end of the corresponding second motor (10), and the upper portion of each first hydraulic telescopic rod (4) is installed on the outer surface of each second screw (15) in a threaded mode;

a third cavity is formed in the L-shaped fixed support (3), a second Y-axis sliding mechanism is installed in the third cavity and comprises a third motor (11) and a third screw (16), one end of the third screw (16) is installed on the inner side wall of the third cavity in a threaded mode, the other end of the third screw (16) penetrates through the inner side wall of the third cavity and is fixed with the output end of the third motor (11), and a second hydraulic telescopic rod (6) is installed on the outer surface of the third screw (16) in a threaded mode;

a circular cavity is formed in the center of the base (1), a rotating shaft (12) is rotated inside the circular cavity, and the output end of the rotating shaft (12) penetrates through the top of the base (1) and is fixed with the bottom of the placing table (7).

2. The glass polishing device according to claim 1, wherein the same sliding rod (14) is further fixed on the inner side wall of each first cavity, a sliding groove is further formed in the bottom of the L-shaped processing support (2), and the L-shaped processing support (2) is in sliding connection with the outer surface of the sliding rod (14) through the sliding groove.

3. The glass polishing device according to claim 1, wherein the side walls of the base (1), the L-shaped processing bracket (2) and the L-shaped fixing bracket (3) are respectively fixed with a placing rack, and the first motor (9), the second motor (10) and the third motor (11) are respectively fixed at the tops of the placing racks which are matched with each other.