CN106746754B - High-efficiency hollow glass aluminum frame positioning device and use method - Google Patents

Abstract

The utility model provides a high-efficient cavity glass aluminum frame positioner and application method, includes displacement system, conveying system and aluminum frame positioning system, displacement system includes the base, is equipped with the movable frame above the base, is equipped with drive arrangement between movable frame and the base, is equipped with conveying system and aluminum frame positioning system on the movable frame in proper order. By designing the displacement system, the conveying system and the aluminum frame positioning system, the effect that two aluminum frame positioning devices can alternately mount aluminum frames on one production line is realized, and the production efficiency of hollow glass is improved; by designing the base, the movable frame and the servo cylinder, the conveying system and the aluminum frame positioning system can alternately enter the production line, so that the whole production line can continue to carry out transportation work when the aluminum frame is installed; by designing a conveying system, glass is accurately conveyed; through design aluminium frame positioning system, realize the accurate positioning to glass and install the aluminium frame fast.

Description

High-efficiency hollow glass aluminum frame positioning device and use method

Technical field:

the invention relates to the technical field of hollow glass processing, in particular to a high-efficiency hollow glass aluminum frame positioning device and a using method thereof.

The background technology is as follows:

at present, in the glass processing field, traditional cavity glass production line generally divide into 7 sections (external fit) or 6 sections (internal fit), and this kind of production line has the bottleneck process that restricts production efficiency, and aluminium frame location section is the longer stage of consuming time on the cavity glass production line, and current aluminium frame positioner alone sets up on the production line, therefore when cavity glass installs the aluminium frame, aluminium frame place and inspection correction time is long, causes the equipment on other production lines to pause work, can not make full use of, has reduced the production speed of whole production line, is difficult to satisfy people's expectation to production efficiency.

The invention comprises the following steps:

the invention aims to make up the defects of the prior art, provides a high-efficiency hollow glass aluminum frame positioning device and a use method thereof, has the advantages of realizing conveying and aluminum frame positioning on the high-efficiency hollow glass aluminum frame positioning device, alternately working two devices on a production line, high production efficiency and the like, and solves the problems in the prior art.

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

the utility model provides a high-efficient cavity glass aluminum frame positioner, includes displacement system, conveying system and aluminum frame positioning system, displacement system includes the base, and the base top is equipped with the movable frame, is equipped with drive arrangement between movable frame and the base, is equipped with conveying system and aluminum frame positioning system on the movable frame in proper order.

The base is provided with a guide rail, and the guide rail is provided with a movable frame.

The driving device comprises a servo cylinder, a piston rod of the servo cylinder is connected with the movable frame, and a sleeve of the servo cylinder is connected with the base.

The conveying system comprises a first backrest, a plurality of first backrest wheels are arranged on the first backrest, a first conveying cross beam is arranged at the bottom of the first backrest, a plurality of first conveying rubber rollers are arranged on the first conveying cross beam, the first conveying rubber rollers are connected with a first sprocket through a first shaft, and the first sprocket is connected with a first servo motor through a first chain.

The first backrest is obliquely arranged on the movable frame through the supporting rod.

The aluminum frame positioning system comprises a second conveying system, an aluminum frame positioning mechanism and an aluminum frame lower positioning mechanism, wherein the aluminum frame positioning mechanism and the aluminum frame lower positioning mechanism are arranged on the same side of the second conveying system, and the aluminum frame lower positioning mechanism is arranged at the bottom of the second conveying system.

The second conveying system comprises a second backrest, a plurality of second backrest wheels are arranged on the second backrest, a second conveying cross beam is arranged at the bottom of the second backrest, a plurality of second conveying rubber rollers are arranged on the second conveying cross beam, the second conveying rubber rollers are connected with a second sprocket through a second shaft, and the second sprocket is connected with a second servo motor through a second chain.

The upper end of the second backrest is fixedly connected with the first backrest through a connecting rod.

The aluminum frame positioning mechanism comprises an aluminum frame positioning section bar, and the aluminum frame positioning section bar is connected with a positioning driving cylinder.

The lower aluminum frame positioning mechanism comprises a material blocking part, and the material blocking part is connected with a lower positioning driving cylinder.

The application method of the high-efficiency hollow glass aluminum frame positioning device comprises the following steps:

(1) At least two high-efficiency hollow glass aluminum frame positioning devices are arranged on a hollow glass production line side by side.

(2) The first glass aluminum frame is positioned and installed, first glass firstly enters an aluminum frame positioning system in the first efficient hollow glass aluminum frame positioning device through a production line, a second servo motor in the aluminum frame positioning system starts to work, a second conveying rubber roller is driven to rotate through chain sprocket transmission, so that the first glass is driven to move forwards, after the first glass reaches a set position in the first efficient hollow glass aluminum frame positioning device, a lower positioning cylinder drives a material blocking part to stretch out to position the first glass, then the positioning cylinder contracts to drive an aluminum frame positioning section bar to move, meanwhile, a servo cylinder stretches out to drive a movable frame to move forwards on a guide rail of a base, so that a conveying system of the first efficient hollow glass aluminum frame positioning device enters the production line, and then workers check and place the aluminum frame.

(3) And (3) locating and installing a second glass aluminum frame, when a worker detects and places the aluminum frame in the step (2), transporting the second glass to the aluminum frame locating system of the second high-efficiency hollow glass aluminum frame locating device through the conveying system of the first high-efficiency hollow glass aluminum frame locating device, starting to work by a second servo motor in the aluminum frame locating system, driving a second conveying rubber roller to rotate through chain sprocket transmission, driving the second glass to move forward, and after the second glass reaches a set position in the second high-efficiency hollow glass aluminum frame locating device, driving a material blocking part to stretch out to locate the second glass by a lower locating cylinder, then shrinking by the locating cylinder to drive an aluminum frame locating section bar to move, simultaneously stretching out by a servo cylinder, driving a movable frame to move forward on a guide rail of a base, enabling the conveying system of the second high-efficiency hollow glass aluminum frame locating device to enter a production line, and then checking and placing the aluminum frame by the worker.

(4) And transporting the third glass, wherein the third glass sequentially passes through the conveying system of the first high-efficiency hollow glass aluminum frame positioning device and the conveying system of the second high-efficiency hollow glass aluminum frame positioning device to enter a plate press on the production line for subsequent processing actions.

(5) After the aluminum frame is installed, the high-efficiency hollow glass aluminum frame positioning device corresponding to the glass which is preferably installed is contracted through the servo cylinder, so that a second conveying system of the high-efficiency hollow glass aluminum frame positioning device enters a production line, the glass with the aluminum frame installed is conveyed into a plate press to be inflated and pressed with a third glass, and at the moment, the conveying system of the other high-efficiency hollow glass aluminum frame positioning device corresponds to the production line, and the two high-efficiency hollow glass aluminum frame positioning devices alternately work on the same production line according to the working method.

According to the technical problems existing in the positioning of the existing hollow glass aluminum frame, the high-efficiency hollow glass aluminum frame positioning device and the use method are designed, and the effect that two high-efficiency hollow glass aluminum frame positioning devices can alternately install aluminum frames on one production line is achieved through designing the displacement system, the conveying system and the aluminum frame positioning system, so that the production efficiency of hollow glass is improved; by designing the base, the movable frame and the servo cylinder, the conveying system and the aluminum frame positioning system can alternately enter the production line, so that the whole production line can continue to carry out transportation work when the aluminum frame is installed; by designing a conveying system, glass is accurately conveyed; through design aluminium frame positioning system, realize the accurate positioning to glass and install the aluminium frame fast.

Description of the drawings:

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

FIG. 2 is a schematic diagram of a displacement system according to the present invention;

FIG. 3 is a schematic diagram of the transport system of the present invention;

FIG. 4 is a schematic diagram of an aluminum frame positioning system according to the present invention;

FIG. 5 is a schematic diagram of the operative installation of the present invention;

the device comprises a displacement system, 101, a base, 102, a movable frame, 103, a servo cylinder, 104, a guide rail, 2, a conveying system, 201, a first backrest, 202, a first backrest wheel, 203, a first conveying cross beam, 204, a first conveying rubber roller, 205, a first shaft, 206, a first sprocket, 207, a first chain, 208, a first servo motor, 209, a support rod, 3, an aluminum frame positioning system, 301, a second backrest, 302, a second backrest wheel, 303, a second conveying cross beam, 304, a second conveying rubber roller, 305, a second shaft, 306, a second sprocket, 307, a second chain, 308, a second servo motor, 309, a connecting rod, 4, a first high-efficiency hollow glass aluminum frame positioning device, 5, a second high-efficiency hollow glass aluminum frame positioning device, 6 and a hollow glass production line.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

as shown in figures 1-5, the high-efficiency hollow glass aluminum frame positioning device comprises a displacement system 1, a conveying system 2 and an aluminum frame positioning system 3, wherein the displacement system 1 comprises a base 101, a movable frame 102 is arranged above the base 101, a driving device is arranged between the movable frame 102 and the base, the conveying system 2 and the aluminum frame positioning system 3 are sequentially arranged on the movable frame 102, and the effect that two high-efficiency hollow glass aluminum frame positioning devices can alternately install aluminum frames on one production line is realized by designing the displacement system 1, the conveying system 2 and the aluminum frame positioning system 3, so that the production efficiency of hollow glass is improved.

The base 101 is provided with a guide rail 104, and the guide rail 104 is provided with a movable frame 102.

The driving device comprises a servo cylinder 103, a piston rod of the servo cylinder 103 is connected with a movable frame 102, a sleeve of the servo cylinder 103 is connected with a base 101, and the conveying system 2 and the aluminum frame positioning system 3 can alternately enter a production line through designing the base 101, the movable frame 102 and the servo cylinder 103, so that the whole production line can continue to carry out transportation work when the aluminum frame is installed.

The conveyor system 2 comprises a first backrest 201, on which first backrest 201 a number of first backrest wheels 202 are provided,

a first conveying cross beam 203 is arranged at the bottom of the first backrest 201, and a plurality of first conveying cross beams 203 are arranged on the first conveying cross beam 203

A rubber feeding roller 204, wherein the first rubber feeding roller 204 is connected with a first chain wheel 206 through a first shaft 205, and the first chain wheel

206 are connected to a first servo motor 208 by a first chain 207.

The first backrest 201 is obliquely arranged on the movable frame 102 through the supporting rod 209, so that the stability and safety of transportation are ensured.

The aluminum frame positioning system 3 comprises a second conveying system, an aluminum frame positioning mechanism and an aluminum frame lower positioning mechanism, wherein the aluminum frame positioning mechanism and the aluminum frame lower positioning mechanism are arranged on the same side of the second conveying system, and the aluminum frame lower positioning mechanism is arranged at the bottom of the second conveying system.

The second conveying system comprises a second backrest 301, a plurality of second backrest wheels 302 are arranged on the second backrest 301, a second conveying cross beam 303 is arranged at the bottom of the second backrest 301, a plurality of second conveying rubber rollers 304 are arranged on the second conveying cross beam 303, the second conveying rubber rollers 304 are connected with a second sprocket 306 through a second shaft 305, and the second sprocket 306 is connected with a second servo motor 308 through a second chain 307.

The upper end of the second backrest 301 is fixedly connected with the first backrest 201 through a connecting rod 309, so that the distance between the two backrests is ensured, and the accurate butt joint with the hollow glass production line is ensured.

The aluminum frame positioning mechanism comprises an aluminum frame positioning section bar 310, and the aluminum frame positioning section bar 310 is connected with a positioning driving cylinder 311.

The aluminum frame lower positioning mechanism comprises a material blocking part 312, and the material blocking part 312 is connected with a lower positioning driving cylinder 313.

The application method of the high-efficiency hollow glass aluminum frame positioning device comprises the following steps:

(1) At least two high-efficiency hollow glass aluminum frame positioning devices are arranged on the hollow glass production line 6 side by side.

(2) The first glass aluminum frame is positioned and installed, the first glass firstly enters an aluminum frame positioning system 3 in a first high-efficiency hollow glass aluminum frame positioning device 4 through a hollow glass production line 6, a second servo motor 308 in the aluminum frame positioning system 3 starts to work, a second conveying rubber roller 304 is driven to rotate through chain sprocket transmission, so that the first glass is driven to move forwards, after the first glass reaches a set position in the first high-efficiency hollow glass aluminum frame positioning device 4, a lower positioning driving cylinder 313 drives a material blocking part 312 to stretch out to position the first glass, then a positioning driving cylinder 311 contracts to drive an aluminum frame positioning section bar 310 to move, meanwhile, a servo cylinder 103 stretches out to drive a movable frame 102 to move forwards on a guide rail 104 of a base 101, so that a conveying system 2 of the first high-efficiency hollow glass aluminum frame positioning device 4 enters the hollow glass production line 6, and then workers check and place the aluminum frame.

(3) And (2) when a worker detects and places the aluminum frame, the second glass is transported to the aluminum frame positioning system 3 of the second high-efficiency hollow glass aluminum frame positioning device 5 through the conveying system 2 of the first high-efficiency hollow glass aluminum frame positioning device 4, a second servo motor 308 in the aluminum frame positioning system 3 starts to work, and drives a second conveying rubber roller 304 to rotate through chain and chain wheel transmission, so that the second glass is driven to move forwards, after the second glass reaches a set position in the second high-efficiency hollow glass aluminum frame positioning device 5, a lower positioning driving cylinder 313 drives a material blocking part 312 to stretch out for positioning the second glass, then a positioning driving cylinder 311 contracts to drive an aluminum frame positioning section bar 310 to move, and meanwhile, a servo cylinder 103 stretches out to drive a movable frame 102 to move forwards on a guide rail 104 of a base 101, so that the conveying system 2 of the second high-efficiency hollow glass aluminum frame positioning device 5 enters a hollow glass production line 6, and then the worker inspects and places the aluminum frame.

(4) And the third glass is transported, and the third glass sequentially enters a plate press on a hollow glass production line 6 through a conveying system 2 of a first high-efficiency hollow glass aluminum frame positioning device 4 and a second high-efficiency hollow glass aluminum frame positioning device 5 to carry out subsequent processing actions.

(5) After the aluminum frame is installed, the high-efficiency hollow glass aluminum frame positioning device corresponding to the glass which is preferably installed is contracted through the servo cylinder 103, so that the second conveying system of the high-efficiency hollow glass aluminum frame positioning device enters the hollow glass production line 6, the glass with the installed aluminum frame is conveyed into the plate press to be inflated and pressed with the third glass, and at the moment, the conveying system 2 of the other high-efficiency hollow glass aluminum frame positioning device corresponds to the hollow glass production line 6, and the two high-efficiency hollow glass aluminum frame positioning devices alternately work on the same production line according to the working method, so that the production efficiency is improved.

The above embodiments are not to be taken as limiting the scope of the invention, and any alternatives or modifications to the embodiments of the invention will be apparent to those skilled in the art and fall within the scope of the invention.

The present invention is not described in detail in the present application, and is well known to those skilled in the art.

Claims (2)

1. The utility model provides a high-efficient cavity glass aluminium frame positioner which characterized in that: the automatic feeding device comprises a displacement system, a conveying system and an aluminum frame positioning system, wherein the displacement system comprises a base, a movable frame is arranged above the base, a driving device is arranged between the movable frame and the base, and the conveying system and the aluminum frame positioning system are sequentially arranged on the movable frame;

the base is provided with a guide rail, and the guide rail is provided with a movable frame;

the driving device comprises a servo cylinder, a piston rod of the servo cylinder is connected with the movable frame, and a sleeve of the servo cylinder is connected with the base;

the conveying system comprises a first backrest, a plurality of first backrest wheels are arranged on the first backrest, a first conveying cross beam is arranged at the bottom of the first backrest, a plurality of first conveying rubber rollers are arranged on the first conveying cross beam, the first conveying rubber rollers are connected with a first sprocket through a first shaft, and the first sprocket is connected with a first servo motor through a first chain;

the first backrest is obliquely arranged on the movable frame through the support rod;

the aluminum frame positioning system comprises a second conveying system, an aluminum frame positioning mechanism and an aluminum frame lower positioning mechanism, wherein the aluminum frame positioning mechanism and the aluminum frame lower positioning mechanism are arranged on the same side of the second conveying system, and the aluminum frame lower positioning mechanism is arranged at the bottom of the second conveying system;

the second conveying system comprises a second backrest, a plurality of second backrest wheels are arranged on the second backrest, a second conveying cross beam is arranged at the bottom of the second backrest, a plurality of second conveying rubber rollers are arranged on the second conveying cross beam, the second conveying rubber rollers are connected with a second sprocket through a second shaft, the second sprocket is connected with a second servo motor through a second chain, and the upper end of the second backrest is fixedly connected with the first backrest through a connecting rod;

the aluminum frame positioning mechanism comprises an aluminum frame positioning section bar, and the aluminum frame positioning section bar is connected with a positioning driving cylinder;

the lower aluminum frame positioning mechanism comprises a material blocking part, and the material blocking part is connected with a lower positioning driving cylinder.

2. The method for using the high-efficiency hollow glass aluminum frame positioning device as claimed in claim 1, wherein the method comprises the following steps: the method comprises the following steps:

(1) Arranging at least two high-efficiency hollow glass aluminum frame positioning devices on a hollow glass production line side by side;

(2) The first glass aluminum frame is positioned and installed, the first glass firstly enters an aluminum frame positioning system in the first high-efficiency hollow glass aluminum frame positioning device through a production line, a second servo motor in the aluminum frame positioning system starts to work, a second conveying rubber roller is driven to rotate through chain sprocket transmission, so that the first glass is driven to move forwards, when the first glass reaches a set position in the first high-efficiency hollow glass aluminum frame positioning device, a lower positioning cylinder drives a material blocking part to stretch out to position the first glass, then the positioning cylinder contracts to drive an aluminum frame positioning section bar to move, and meanwhile, a servo cylinder stretches out to drive a movable frame to move forwards on a guide rail of a base, so that a conveying system of the first high-efficiency hollow glass aluminum frame positioning device enters the production line, and then workers check and place the aluminum frame;

(3) The second glass aluminum frame is positioned and installed, when a worker detects and places the aluminum frame in the step (2), the second glass is transported to the aluminum frame positioning system of the second high-efficiency hollow glass aluminum frame positioning device through the conveying system of the first high-efficiency hollow glass aluminum frame positioning device, a second servo motor in the aluminum frame positioning system starts to work, a chain sprocket drives a second conveying rubber roller to rotate, so that the second glass is driven to move forwards, after the second glass reaches a set position in the second high-efficiency hollow glass aluminum frame positioning device, a lower positioning cylinder drives a material blocking part to stretch out for positioning the second glass, then the positioning cylinder contracts to drive an aluminum frame positioning section bar to move, meanwhile, a servo cylinder stretches out to drive a movable frame to move forwards on a guide rail of a base, so that the conveying system of the second high-efficiency hollow glass aluminum frame positioning device enters a production line, and then the worker checks and places the aluminum frame;

(4) The third glass is transported, and enters a plate press on a production line to carry out subsequent processing actions through a conveying system of the first high-efficiency hollow glass aluminum frame positioning device and the second high-efficiency hollow glass aluminum frame positioning device in sequence;

(5) After the aluminum frame is installed, the high-efficiency hollow glass aluminum frame positioning device corresponding to the glass which is preferably installed is contracted through the servo cylinder, so that a second conveying system of the high-efficiency hollow glass aluminum frame positioning device enters a production line, the glass with the aluminum frame installed is conveyed into a plate press to be inflated and pressed with a third glass, and at the moment, the conveying system of the other high-efficiency hollow glass aluminum frame positioning device corresponds to the production line, and the two high-efficiency hollow glass aluminum frame positioning devices realize alternate work on the same production line according to the working method.