CN112623762A

CN112623762A - Glass line turning method on production line

Info

Publication number: CN112623762A
Application number: CN202011520496.7A
Authority: CN
Inventors: 曹胜; 余庆宇; 姜燕; 严海波
Original assignee: Wuhu Jinshan Numerical Control Technology Co ltd
Current assignee: Anhui Xinyi Intelligent Machinery Co Ltd
Priority date: 2020-12-21
Filing date: 2020-12-21
Publication date: 2021-04-09

Abstract

The invention relates to the field of automobile glass production equipment, in particular to a glass line transferring method on a production line, which comprises a conveyor, wherein the conveyor is connected with a lifting platform for glass line transferring; the conveyor comprises a supporting frame, and a conveying chain mechanism is arranged on the supporting frame; the conveying chain mechanism is connected with a chain driving mechanism; the lifting platform comprises a supporting base, and the supporting base is provided with a jacking mechanism; the jacking mechanism comprises a jacking frame, and the jacking frame is connected with the supporting base through a jacking driving part. The invention discloses a glass transferring method on a production line, which can realize the conveying of automobile glass by the arrangement of a conveyor, can realize the transferring of the automobile glass by the arrangement of a lifting platform, can reduce the occupied area of the production line by the matching use of the conveyor and the lifting platform, and can stack and arrange the production line in a small area to optimize the space arrangement of equipment in a factory area.

Description

Glass line turning method on production line

Technical Field

The invention relates to the field of automobile glass production equipment, in particular to a glass line transferring method on a production line.

Background

In the actual production of traditional glass or automobile glass, the transportation of the automobile glass and the assembly on a production line are generally carried out by using a conveying belt or a roller shaft, the production and the transportation of the automobile glass can be realized by the traditional conveying belt or the roller shaft, however, because of the structure of the traditional conveying belt and roller shaft, when the glass turns or rotates on the conveying belt or roller shaft, the mechanical arm or the manual assistance is needed, which causes great production difficulty, meanwhile, the traditional glass can only operate in one direction on the production line and does not have the steering capability, when the glass needs to be diverted, external appliances or manual transportation is also needed, which causes great production difficulty, meanwhile, when a plurality of production stations are arranged on the production line, the production line with a larger length is needed, and the production line transversely occupies a larger plant area space and is not beneficial to optimizing the internal space of the plant area.

Therefore, in order to solve the above-mentioned technical problems, a glass production line which is convenient to change the glass line and occupies less space is now required.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a glass production line with convenient line change.

In order to achieve the purpose, the invention adopts the technical scheme that:

the glass line transferring method on the production line comprises a conveyor, wherein the conveyor is connected with a lifting platform for glass line transferring; the conveyor comprises a supporting frame, and a conveying chain mechanism is arranged on the supporting frame; the conveying chain mechanism is connected with a chain driving mechanism; the lifting platform comprises a supporting base, and the supporting base is provided with a jacking mechanism; the jacking mechanism comprises a jacking frame, and the jacking frame is connected with the supporting base through a jacking driving part.

The conveying chain mechanism comprises two single chain mechanisms which are oppositely arranged; each conveying platform is arranged in the area between the two oppositely arranged single chain mechanisms.

The end parts of the two single chain mechanisms are connected through a linear driving shaft, and the linear driving shaft is connected with a chain driving mechanism; the end part of the linear driving shaft is meshed with a chain body in the single chain mechanism through a driving gear.

Each single chain mechanism comprises a chain body, and each chain body comprises a plurality of chain blocks which are connected in sequence; each chain block is connected through a pin shaft, each chain block comprises an inner chain block and an outer chain block, and the inner chain blocks are connected with the outer chain blocks through pin shafts; the inner chain block comprises two inner chain plates which are oppositely arranged, the outer chain block comprises two outer chain plates which are oppositely arranged, and the pin shaft is provided with a rolling sleeve; and the outer chain block is provided with a supporting component.

The supporting component comprises a base connected with the outer chain plate, and a supporting column is arranged on the base.

The jacking frame is connected with rotary mechanism, rotary mechanism includes the roating seat, the jacking frame is connected with jacking drive portion through the roating seat.

The rotary seat is connected with the jacking driving part through a linkage mechanism, and the linkage mechanism comprises a pushing plate; the rotating seat is connected to the pushing plate; the pushing plate is connected with the jacking driving part.

The swivel mount upper end is connected with the jacking frame through link mechanism, link mechanism includes the rotary disk that is connected with the swivel mount, be equipped with the support frame on the rotary disk, the support frame is connected with the jacking frame.

The adjusting connection part comprises a connecting column arranged on the jacking frame, the connecting column is connected with the end part of the single frame through a fastening bolt, and the fastening bolt penetrates through the end part of the single frame and extends into the end part of the connecting column.

The elevating platform still includes stop gear, stop gear is including setting up the spacing post on the slurcam, spacing toe portion is equipped with the stopper, be equipped with the card system piece that cooperatees and use with the stopper on the rotary disk.

The invention has the advantages that:

the invention discloses a glass transferring method on a production line, which can realize the conveying of automobile glass by the arrangement of a conveyor, can realize the transferring of the automobile glass by the arrangement of a lifting platform, can reduce the occupied area of the production line by the matching use of the conveyor and the lifting platform, and can stack and arrange the production line in a small area to optimize the space arrangement of equipment in a factory area.

Drawings

The contents of the expressions in the various figures of the present specification and the labels in the figures are briefly described as follows:

fig. 1 is an assembly view of the present invention.

Fig. 2 is a schematic view of the structure of the conveyor of the present invention.

Fig. 3 is a partially enlarged view of the area a in fig. 2.

FIG. 4 is a schematic structural view of the support post of the present invention with a buffer post added.

Fig. 5 is a schematic structural view of the support assembly of the present invention.

Fig. 6 is a schematic structural view of the lifting platform of the present invention.

Fig. 7 is an exploded view of the lift table of the present invention.

Fig. 8 is a schematic structural view of the support frame of the present invention.

Fig. 9 is a schematic structural view of a buffer frame mechanism arranged on the jacking frame in the invention.

Fig. 10 is a partially enlarged view of the region B in fig. 9.

FIG. 11 is a schematic view of a rotary disk according to the present invention.

Fig. 12 is a bottom view of the rotating disk of the present invention.

Fig. 13 is a cross-sectional view taken along line C-C of fig. 12.

The labels in the above figures are:

1. a conveyor 2, a lifting platform 3 and glass to be filled.

Detailed Description

The following description of preferred embodiments of the invention will be made in further detail with reference to the accompanying drawings.

The glass line transferring method on the production line comprises a conveyor 1, wherein the conveyor 1 is connected with a lifting platform 2 for glass line transferring; the invention discloses a glass line-transferring method on a production line, which can also be called a transportation system of a flow production line, wherein a conveyor 1 is used for conveying glass to be assembled with accessories; the lifting platform 2 is used for transferring the glass to be assembled on the adjacent conveyor 1; in addition, in order to avoid the interference problem and optimize the spatial arrangement of a production line, one lifting table can be matched with a plurality of conveyors for use, in order to reduce the occupied area of the conveyors, the conveyors sharing one lifting table are required to be arranged in an intersecting manner, so that the end parts of the conveyors are arranged oppositely, and the glass to be loaded conveyed by the lifting table can avoid the interference when the lifting frame rises or falls through the rotation of the subsequent rotating seat on the lifting frame; in addition, through the arrangement, the conveying chain mechanisms in the plurality of conveyors can be stacked under the condition of reserving a certain space, so that glass to be filled can be dispersed to each production line through matching with the lifting platform, the production efficiency is greatly improved, meanwhile, the conveyors can be distributed in a rectangular shape, and the glass to be filled can be assembled with different accessories in different areas under the condition of small occupied space; in other words, the production line structure disclosed by the invention not only facilitates the transportation of the glass to be packaged, but also can realize the overlapping use of different conveyors through the use of the lifting platform, so that the glass to be packaged can be subjected to different assembly operations on different conveyors, namely, the spatial arrangement of the whole device is optimized through the structure, the line turning of the glass 3 to be packaged is facilitated, the normal operation of the whole assembly system is better ensured, and the overlong conveyor 1 is prevented from occupying larger site space.

Preferably, the conveyor 1 of the present invention comprises a supporting frame 11, the supporting frame 11 provides a bottom supporting base, and in addition, the supporting frame 11 is provided with a conveying chain mechanism 12; the invention uses the chain to replace the trouble of using a conveyor belt or a roller shaft for conveying in the traditional conveyor 1, and simultaneously avoids the problem of interference with the placement of the lifting platform 2 when the conveyor belt or the roller shaft is arranged in the traditional way; in addition, in order to ensure the normal conveying of the glass 3 to be loaded by the conveying chain mechanism 12, in the invention, the conveying chain mechanism 12 needs to be directly contacted with the glass 3 to be loaded, and the driving of the glass 3 to be loaded is realized through friction force; in order to ensure the normal operation of the conveying chain mechanism 12, the conveying chain mechanism 12 is connected with a chain driving mechanism 15 in the invention; the chain driving mechanism 15 includes a driving motor, the driving motor is connected with the linear driving shaft 14 through a speed reducer and a coupling, and the driving motor drives the linear driving shaft 14 to rotate the single chain mechanisms 121 connected to both ends of the linear driving shaft 14, so as to realize the operation of the whole conveying chain mechanism 12.

Preferably, the conveying chain mechanism 12 in the present invention includes two single chain mechanisms 121, and the two single chain mechanisms 121 are disposed oppositely; the two single chain mechanisms 121 play a main supporting role; the glass 3 to be loaded is transferred on the conveyor 1 by the rotation of the single chain mechanisms 121, and in addition, preferably, each conveying platform is arranged in an area between two oppositely arranged single chain mechanisms 121; with this arrangement, it is possible to avoid the problem that the lift table 2 does not interfere with the conveyor 1 when lifted, which is not achieved by the conventional belt conveying and roller conveying.

Meanwhile, as a greater optimization, the ends of the two single chain mechanisms 121 are connected through a linear driving shaft 14, and the linear driving shaft 14 is connected with a chain driving mechanism 15; the end part of the linear driving shaft 14 is meshed with a chain body in the single chain mechanism 121 through a driving gear; the arrangement of the linear driving shaft 14 enables the two monomer chain mechanisms 121 to have a linkage relation, and because the two ends of the linear driving shaft 14 are simultaneously connected with the two monomer chain mechanisms 121, the relative speed between the two monomer chain mechanisms 121 can be ensured to be consistent in actual use, and the phenomenon that the glass 3 to be filled falls off from the conveyor 1 due to the fact that the movement speeds of the monomer chain mechanisms 121 are inconsistent when the glass 3 to be filled is pulled can be avoided.

Preferably, each of the single chain mechanisms 121 of the present invention includes a chain body, and the chain body includes a plurality of chain blocks 1211 connected in sequence; each chain block 1211 is connected through a pin shaft, each chain block 1211 comprises an inner chain block and an outer chain block, and the inner chain block and the outer chain block are connected through the pin shaft; the inner chain block comprises two inner chain plates 12111 which are oppositely arranged, the outer chain block comprises two outer chain plates 12112 which are oppositely arranged, and the pin shaft is provided with a roller sleeve; in fact, the chain body stated above is just like a traditional bicycle chain structure, differing mainly in size; in addition, in order to avoid the abrasion of the chain body to the glass, the chain block 1211 is made of plastic materials in the invention, and the specific materials can be matched according to the strength setting requirement; meanwhile, the abrasion of the chain head body to the glass can be avoided; in addition, in order to better avoid the abrasion of the chain body to the glass, the outer chain block is provided with a supporting component; the supporting component is mainly used for elevating the glass, so that the glass is prevented from being abraded by the chain body based on the principle of the chain body, and the subsequent installation of other accessories of the glass can be facilitated by elevating the glass by the supporting component; meanwhile, the supporting component can abut against the inner concave surface of the glass, so that the stability of the supporting component for supporting the glass is better ensured.

Preferably, the supporting component comprises a base 1213 connected with the outer chain plate 12112, and the arrangement of the base 1213 facilitates the connection of the supporting component with the outer chain plate 12112 and the subsequent addition of other components on the chain body; in addition, the base 1213 is provided with a supporting column 1214; the supporting columns 1214 play a good role in elevating, and ensure the linkage of the movement of the glass and the single chain mechanism 121.

Preferably, the buffer column 1215 is arranged at the upper end of the support column 1214 in the invention; the arrangement of the buffer posts 1215 can play a good supporting role, and in addition, because the buffer posts 1215 have certain elasticity, the abrasion generated when the support posts 1214 are directly contacted with the glass can be reduced; the bumper posts 1215 may be made of a rubber material to ensure protection and also to ensure sufficient friction between the glass and the support assembly.

Preferably, in the present invention, the supporting column 1214 is provided with a connecting sinking groove 12153, and the buffering column 1215 is placed in the connecting sinking groove 12153; the lower end of the buffering column 1215 is connected with a connecting sinking groove 12153 through a buffering spring 12154; the arrangement of the connecting sinking groove 12153 provides a placing base for the arrangement of the buffering columns 1215, and in addition, the buffering columns 1215 have better buffering effect through the arrangement of the buffering springs 12154, so that the excessive rigid impact caused by the contact of the glass in the transportation process is reduced, and the damage of the glass is avoided.

Preferably, in the present invention, the upper end of the strut 1215 is spherical, the outer side of the strut 1215 is provided with a guide groove 12151, and the inner wall of the connecting sinking groove 12153 is provided with a guide block 12152; in the invention, the matching of the guide groove 12151 and the guide block 12152 can well realize the moving guide of the buffer column 1215 and avoid the inclination of the buffer column 1215 when moving downwards; also in the present invention, it is required that the height of the buffer column 1215 is not less than the depth of the connection sinker 12153; this arrangement makes it possible to make the upper end of the buffer column 1215 protrude from the upper end of the support column 1214, thereby preventing the glass 3 to be filled from coming into contact with the support column 1214.

Preferably, in the invention, a buffer groove 1217 is arranged at the lower end of the support column 1214, a buffer rod 1216 is arranged in the buffer groove 1217, a buffer column 1215 is arranged at the upper end of the buffer rod 1216, an exhaust hole 1218 is arranged at the lower end of the support column 1214, the diameter of the exhaust hole 1218 is smaller than that of the buffer groove 1217, and the exhaust hole 1218 is communicated with the buffer groove 1217; the downward moving speed of the buffer column 1215 can be realized through the matching of the buffer groove 1217, the buffer induction and the exhaust holes 1218; the buffering effect of the buffer column 1215 is optimized.

Preferably, the base 1213 of the present invention comprises two supporting side plates 12132, wherein the two supporting side plates 12132 are disposed opposite to each other; each support side plate 12132 is connected to an outer link plate 12112; the support side plates 12132 are connected to the outer link plates 12112 by bolts; the support side plates 12132 provide a foundation for the installation of the support column 1214, and the two support side plates 12132 can support two side surfaces of the support column 1214, so that the stability of the placement of the support column 1214 can be well ensured, and meanwhile, as a larger optimization, the lower end of the support column 1214 is provided with the positioning side groove 1212; the support side plate 12132 is arranged inside a positioning side groove 1212 at the lower end of the support column 1214, and the positioning side groove 1212 enables the lower end of the support column 1214 to have a groove structure, so as to form a platform structure, thereby realizing a self-limiting function, and in addition, in order to ensure the stability of the connection between the support column 1214 and the base 1213, the support column 1214 and the base 1213 are connected through bolts in the invention; the bolts herein may be referred to as tie bolts.

Preferably, in the invention, a limit fixture block 12121 is arranged at the lower end of the support column 1214, a limit slot 12131 is arranged on the support side plate 12132, and the limit fixture block 12121 is clamped with the limit slot 12131; according to the invention, the limiting clamping block 12121 and the limiting clamping groove 12131 are arranged, so that the limiting effect can be better achieved, and the relative sliding between the limiting clamping block 12121 and the limiting clamping groove 12131 is avoided.

Preferably, the lifting platform 2 comprises a supporting base 21, and the supporting base 21 is provided with a jacking mechanism; the jacking mechanism comprises a jacking frame 23, and the jacking frame 23 is connected with the support base 21 through a jacking driving part; the lifting platform 2 disclosed by the invention mainly plays a role of line turning, and is convenient for smooth transfer of glass to be assembled on two production lines which are arranged in an intersecting way; the jacking frame 23 plays a main supporting role, the supporting base 21 is a basic support, the jacking driving part can generally adopt a jacking hydraulic cylinder or an air cylinder, and the jacking driving part can mainly realize the up-and-down movement of the jacking frame 23 and can be used in the invention.

Preferably, the jacking frame 23 is an annular support structure; the annular support structure is an annular structure when the jacking frame 23 is seen from a top view, the arrangement can reduce the transverse size of the jacking frame 23, and is convenient for avoiding the problem that the corners of the jacking frame 23 are contacted with the adjacent monomer chain mechanisms 121 when the glass 3 to be filled rotates; in addition, through such structural design, can not influence simultaneously when realizing self function and carry out other optimal designs to jacking frame 23.

Preferably, in the present invention, the jacking frame 23 is connected with a rotating mechanism, the rotating mechanism includes a rotating base 24, the rotating base 24 can be replaced by a rotating motor, and the main function is to realize the rotation of the jacking frame 23; in addition, the jacking frame 23 is connected with the jacking driving part through the rotating seat 24; the jacking driving part can drive the air cylinder and the hydraulic cylinder.

Preferably, the rotating base 24 is connected with the jacking driving part through a linkage mechanism, the arrangement of the linkage mechanism facilitates the arrangement of the rotating base 24 and the connection between the jacking driving part and the jacking frame 23, and in addition, the linkage mechanism comprises a pushing plate 25; the pushing plate 25 plays a role in basic connection, and is convenient for placing the components such as the rotating seat 24 and the like; in the present invention, the rotary base 24 is connected to the pushing plate 25; the pushing plate 25 is connected with the jacking driving part; the normal ascending of the jacking frame 23 can be well ensured by the matching use of the pushing plate 25 and the jacking driving part, and in addition, the jacking frame is optimized to be larger, in the invention, the pushing plate 25 is connected with the supporting base 21 through a guide mechanism, the guide mechanism comprises a guide sleeve 261 arranged on the supporting base 21 and a guide post 26 arranged on the pushing plate 25, and the guide post 26 is inserted in the guide post 26; through the cooperation of guide post 26 and uide bushing 261, can be fine assurance push plate 25 stability of moving up.

Preferably, the upper end of the rotating seat 24 is connected with the jacking frame 23 through a connecting frame mechanism, the connecting mechanism is arranged to facilitate the connection between the rotating seat 24 and the jacking frame 23, meanwhile, the connecting frame mechanism comprises a rotating disk 27 connected with the rotating seat 24, the rotating disk 27 plays a role in basic connection, and meanwhile, the arrangement of structures such as a subsequent support frame 28 and the like is facilitated to play a role in bottom counterweight; meanwhile, in the invention, a support frame 28 is arranged on the rotating disc 27, and the support frame 28 is connected with the jacking frame 23; the supporting frame 28 is transversely arranged to play a role in lengthening the rotating disc 27, the length of the jacking frame 23 is generally larger than the size of the rotating disc 27, and the jacking frame 23 is designed to be of an annular structure, so that the rotating disc 27 is directly connected with the jacking frame 23, and the connecting difficulty exists, therefore, the supporting frame 28 is additionally arranged, and the supporting frame 28 is transversely arranged, so that the rotating disc 27 is conveniently connected with the jacking frame 23.

Preferably, the supporting frame 28 of the present invention includes two single-body frames 281, and the two single-body frames 281 are perpendicularly arranged in an intersecting manner; the single frame 281 plays a role in basic support, so that the subsequent arrangement of the adjusting connection part is convenient, and meanwhile, the single frame 281 also plays a role in transversely extending the rotating disc 27, so that the normal connection between the jacking frame 23 and the rotating seat 24 is convenient; in addition, the single frame 281 is connected with the jacking frame 23 through an adjusting connecting part; the connection between the single frame 281 and the jacking frame 23 can be realized through the adjusting connection part, the adjusting connection part can be in a multi-style structure, and can be specifically arranged according to actual needs as long as the connection between the jacking frame 23 or the single frame 281 can be realized.

In the invention, the adjusting connection part comprises a connection column 29 arranged on the jacking frame 23, the connection column 29 is connected with the end part of the single frame 281 through a fastening bolt 291, and the fastening bolt 291 penetrates through the end part of the single frame 281 and extends into the end part of the connection column 29; according to the invention, the connecting column 29 is fixedly connected with the jacking frame 23, the connecting column 29 is large in size, the size requirement is larger than that of the fastening bolt 291 penetrating through the penetrating hole of the single frame 281, so that the connecting column 29 can be attached to the upper end of the single frame 281 by using the end part of the connecting column 29 to perform limiting, if the height of the jacking frame 23 needs to be increased, a gasket can be sleeved on the fastening bolt 291, and the height from the connecting column 29 to the single frame 281 is increased by the gasket, so that the longitudinal height adjustment of the jacking frame 23 is realized.

Preferably, in the present invention, an adjusting mechanism is disposed on the single frame 281, and the adjusting mechanism includes an adjusting waist-shaped groove 282 disposed on the single frame 281; the fastening bolt 291 passes through the adjusting waist-shaped groove 282 to be connected with the connecting column 29; by adjusting the arrangement of the waist-shaped groove 282, the jacking frame 23 can move in the transverse direction, so that the jacking frame 23 can move in position, and the jacking operation can be performed on glass with different sizes; in order to achieve the purpose of the present invention, the jacking frame 23 requires a segmented design in the present invention, so that the jacking frame 23 does not have an interference problem due to the design of the annular structure when moving transversely.

Preferably, the lifting platform 2 further comprises a limiting mechanism, the limiting mechanism comprises a limiting column 210 arranged on the pushing plate 25, a limiting block 2101 is arranged at the end part of the limiting column 210, and a clamping block 273 matched with the limiting block 2101 for use is arranged on the rotating disc; the limiting block 2101 is fixed on the push plate 25 through the limiting column 210, meanwhile, the clamping block 273 is arranged at the lower end of the rotating disk, and the limiting function is well achieved through the limiting function between the limiting block 2101 and the clamping block 273, so that the rotating limiting function of the rotating disk is finally achieved.

Preferably, in the present invention, the lower end of the rotating disk is provided with an adjusting slot, and the adjusting slot includes a plurality of locking slots 272; the clamping grooves 272 are uniformly distributed in a circular ring shape, and one sides of the clamping grooves 272 close to the edge of the rotating disc are connected through sliding grooves 271; the sliding groove is of an annular structure; the invention can realize the connection and adjustment of the clamping block 273 at the lower end of the rotating disc through the matching of the sliding groove and the clamping groove 272, because the clamping groove 272 has a certain length, the clamping block 273 can be realized to have a plurality of mounting positions in a single clamping groove 272, and meanwhile, the invention is provided with a plurality of clamping grooves 272 at the lower end of the rotating disc, the position of the clamping block 273 on the rotating disc can be changed according to requirements, thereby limiting the rotating disc to have a plurality of rotating angles and improving the application range of the invention.

Preferably, the vertical interface between the locking groove 272 and the locking block 273 is trapezoidal in the present invention; the arrangement enables the clamping groove 272 and the clamping block 273 to be connected without an external fixing part, and certainly, in order to ensure the stability of the whole structure, the clamping groove 272 and the clamping block 273 can be fixed by extruding through bolts; and of course, can be modified as desired.

Preferably, in the invention, a buffer frame mechanism is arranged on the jacking frame 23, and the buffer frame mechanism comprises an elastic limit column 221 arranged on the jacking frame 23; the elastic limiting column plays a role in supporting and limiting, because the traditional automobile glass, such as automobile skylights or automobile windows and other glass structures, are all of an arc-shaped structure and are not of a plane structure, the elastic limiting column 221 can extend into an inner concave surface formed by the automobile glass, a better limiting effect can be achieved, and meanwhile, in order to reduce the influence of the elastic limiting column 221 on the placement of the automobile glass on the jacking frame 23, the elastic limiting column 221 penetrates through the jacking frame 23 and extends to the upper end of the connecting column 29; the lower end of the elastic limiting column 221 is connected with the connecting column 29 through a top pressure spring 222; due to the arrangement, the elastic limiting column 221 can be compressed, the phenomenon that the elastic limiting column 221 protrudes out of the jacking frame 23 too much is avoided, the contact area between the jacking frame 23 and the automobile glass is reduced, and the stable placement of the automobile glass is influenced; in addition, the length of the elastic limit column 221 is not more than the diameter of the jacking column, and the arrangement can ensure the compression return of the elastic limit column 221; based on the above arrangement, it can be clearly known that, in the present invention, the elastic limit column 221 tightly abuts against the glass to be installed under the support of the top pressure spring 222, so that the difficulty of the left-right shaking of the glass of the vehicle because the glass stands on the top rack 23 is increased.

Preferably, in the present invention, a locking mechanism 283 is disposed at an end of the single frame 281, the locking mechanism 283 includes a rotary cylinder 2831, and the rotary cylinder 2831 is connected to a locking block 2832 through a connecting arm 2833; locking mechanism 283's setting, revolving cylinder 2831 drives the upset of locking piece 2832, and locking piece 2832 is connected with revolving cylinder 2831 through linking arm 2833, and revolving cylinder 2831 drives the upset of locking piece 2832 for locking piece 2832 with wait to adorn glass and go up the side and laminate mutually, thereby realize automobile glass's compressing tightly.

It is clear that the specific implementation of the invention is not restricted to the above-described embodiments, but that various insubstantial modifications of the inventive process concept and technical solutions are within the scope of protection of the invention.

Claims

1. A glass line-turning method on a production line is characterized in that,

the assembly system comprises a conveyor, and the conveyor is connected with a lifting platform for glass line transfer; the conveyor comprises a supporting frame, and a conveying chain mechanism is arranged on the supporting frame; the conveying chain mechanism is connected with a chain driving mechanism; the lifting platform comprises a supporting base, and the supporting base is provided with a jacking mechanism; the jacking mechanism comprises a jacking frame, and the jacking frame is connected with the supporting base through a jacking driving part;

the using method comprises the following steps:

(1) selecting a conveyor with a proper size; the quantity is determined according to the setting requirement;

(2) after the step (1) is finished, arranging all the conveyors according to the setting; when any two conveyors need to carry out mutual line-changing operation, the two conveyors are arranged in a crossed manner; simultaneously arranging a lifting platform in the intersection area of the two conveyors for transferring the glass to be loaded;

(3) after the step (2) is finished, assembling of the assembly system is finished, when the assembly system is used, glass to be loaded is placed on any conveyor, the conveyor drives the glass to be loaded to move through self-movement, after the glass to be loaded moves to a set position, if line transfer operation is needed, the conveyor conveys the glass to be loaded to the position above the lifting table, the glass to be loaded is separated from the original conveyor through the ascending and the rotation of the lifting table, and then the glass to be loaded can be transferred to other conveyors connected with the previous conveyor through the ascending or descending and the rotation of the lifting table, so that the line transfer of the glass to be loaded is realized;

(4) and (4) after the step (3) is finished, basically finishing the transferring and assembling of the glass to be filled, and transferring to the next production process by a conveyor.

2. The method for transferring glass on a production line according to claim 1, wherein the conveying chain mechanism comprises two single chain mechanisms which are arranged oppositely; each conveying platform is arranged in the area between the two oppositely arranged single chain mechanisms.

3. A glass line turning method on a production line according to claim 1, characterized in that the ends of two single chain mechanisms are connected by a linear driving shaft, and the linear driving shaft is connected with a chain driving mechanism; the end part of the linear driving shaft is meshed with a chain body in the single chain mechanism through a driving gear.

4. A glass on-line changing method as claimed in claim 1, wherein each of the single chain mechanisms comprises a chain body, and the chain body comprises a plurality of chain blocks connected in sequence; each chain block is connected through a pin shaft, each chain block comprises an inner chain block and an outer chain block, and the inner chain blocks are connected with the outer chain blocks through pin shafts; the inner chain block comprises two inner chain plates which are oppositely arranged, the outer chain block comprises two outer chain plates which are oppositely arranged, and the pin shaft is provided with a rolling sleeve; and the outer chain block is provided with a supporting component.

5. The method of claim 1, wherein the support assembly comprises a base plate connected to the outer link plate, and the base plate is provided with support posts.

6. The method as claimed in claim 1, wherein the jacking frame is connected with a rotating mechanism, the rotating mechanism comprises a rotating base, and the jacking frame is connected with the jacking driving part through the rotating base.

7. The method for turning glass on a production line according to claim 1, wherein the rotary base is connected with a jacking driving part through a linkage mechanism, and the linkage mechanism comprises a pushing plate; the rotating seat is connected to the pushing plate; the pushing plate is connected with the jacking driving part.

8. The method as claimed in claim 1, wherein the upper end of the rotary base is connected to the jacking frame through a connection mechanism, the connection mechanism comprises a rotary plate connected to the rotary base, the rotary plate is provided with a support frame, and the support frame is connected to the jacking frame.

9. The glass on-line transition method according to claim 1, wherein the adjusting connection part comprises a connection column arranged on the jacking frame, the connection column is connected with the end part of the single frame through a fastening bolt, and the fastening bolt penetrates through the end part of the single frame and extends into the end part of the connection column.

10. The method as claimed in claim 1, wherein the lifting platform further comprises a limiting mechanism, the limiting mechanism comprises a limiting post disposed on the pushing plate, a limiting block is disposed at an end of the limiting post, and a locking block is disposed on the rotating plate for cooperating with the limiting block.