CN209226848U - A kind of vacuum glass multistation soldering and sealing production line - Google Patents

Abstract

The utility model provides a kind of vacuum glass multistation soldering and sealing production line, more than two soldering and sealing station groups including being alternatively arranged setting, and each soldering and sealing station group includes at least a soldering and sealing station；Each soldering and sealing station group is respectively arranged with charging transfer passage and discharging transfer passage along the two sides of soldering and sealing station orientation, a charging transfer passage or discharging transfer passage are equipped between adjacent soldering and sealing station group, the charging transfer passage and discharging transfer passage are respectively equipped with lateral transport device, the charging transfer passage and discharging transfer passage parallel interval setting.The utility model is by being arranged mutually independent charging transfer passage and discharging transfer passage for soldering and sealing station, keep fill process and the discharging process of soldering and sealing station non-interference, avoid charging and discharging process common-use tunnel and bring channel occupy and inefficiency problem, improve the production efficiency of vacuum glass soldering and sealing process and the production efficiency of the entire production line.

Description

A kind of vacuum glass multistation soldering and sealing production line

Technical field

The utility model relates to vacuum glass welding fields, more specifically to a kind of multistation of vacuum glass edge sealing Soldering and sealing production line.

Background technique

Vacuum glass is a kind of emerging energy-saving glass, has low-carbon energy-saving, heat-insulation and heat-preservation, drop sound noise reduction, separate moisture condensation Many advantages, such as, it is with a wide range of applications, is that two panels plate glass surrounding is carried out to soldering and sealing and realizes sealing, it will therebetween Gap be evacuated and seal vents and it is manufactured.The soldering and sealing process of glass periphery is the slow process of comparison, single soldering and sealing work Position work is difficult to realize continuous batch production, and industrialized production would generally use multistation production method shown in FIG. 1, example Such as, the applicant's " a kind of vacuum seal production line " disclosed in the Chinese patent of application number 201320507896.3.But In practical application, there is also many problems, such as multiple soldering and sealing stations to share a transfer passage for this multistation production method, The charging and discharging of soldering and sealing station be intended to realize by the transfer passage, so during continuous batch production, the conveying The case where channel is easy to appear channel and occupies blockage problem, influences productive temp, causes production run inefficiency appearance.

Summary of the invention

The utility model overcomes deficiency in the prior art, provides a kind of vacuum glass multistation soldering and sealing production line, To solve the problems, such as that operational efficiency existing for vacuum glass production line is low.

The purpose of this utility model is achieved by following technical proposals.

A kind of vacuum glass multistation soldering and sealing production line, more than two soldering and sealing station groups including being alternatively arranged setting, Each soldering and sealing station group includes at least a soldering and sealing station；Each soldering and sealing station group is distinguished along the two sides of soldering and sealing station orientation It is provided with charging transfer passage and discharging transfer passage, is equipped with a charging transfer passage or discharging between adjacent soldering and sealing station group Transfer passage, the charging transfer passage and discharging transfer passage are respectively equipped with lateral transport device, the charging transfer passage It is arranged with the discharging transfer passage parallel interval.

Further, the charging transfer passage is intervally arranged by multiple conveying rollers forms or is existed by guiding mechanism and setting The supplied materials device of the guiding mechanism end forms, and is additionally provided with moving conveyor on the guiding mechanism.

Further, the discharging transfer passage is intervally arranged by multiple conveying rollers forms or is existed by guiding mechanism and setting The discharging device of the guiding mechanism end is additionally provided with moving conveyor on the guiding mechanism.

Further, the moving conveyor includes the lateral transport device and rollgang, the rollgang by Multiple conveying rollers are intervally arranged.

Further, the lateral transport device includes the multiple band transmission units being arranged between adjacent conveyor roller, multiple Conveyer belt with transmission unit collectively constitutes the lateral transport plane of material；The lateral transport device is driven by lifting device It moves up and down, the lateral transport plane is made to be higher or lower than the material conveying of charging transfer passage or the transfer passage that discharges Plane；Alternatively, the charging transfer passage of lateral transport plane region and discharging transfer passage by lifting device drive into Row moves up and down, and the lateral transport plane is made to be higher or lower than the material transporting flat.

Further, the lifting device is pneumatic cylinder, hydraulic cylinder or leadscrew-nut mechanism.

Further, the lateral transport device includes bracket, and the band transmission unit is installed on the bracket, by bracket A piece driving shaft of upper setting drives synchronous working, and the driving shaft is driven by motor.

Further, the band transmission unit is synchronous belt drive mechanism.

Further, the lateral transport device includes the multiple idler wheel transmission units being intervally arranged on bracket and bracket, institute The lateral transport plane that multiple idler wheel transmission units collectively constitute material is stated, the idler wheel transmission unit includes transmission shaft and installation Multiple idler wheels on transmission shaft；The lateral transport device is moved up and down by lifting device driving, makes the transverse direction Transport plane is higher or lower than the material transporting flat of charging transfer passage or the transfer passage that discharges；Alternatively, lateral transport plane The charging transfer passage and discharging transfer passage of region are moved up and down by lifting device driving, make the laterally biography Defeated plane is higher or lower than the material transporting flat.

Further, the lifting device is pneumatic cylinder, hydraulic cylinder or leadscrew-nut mechanism.

The utility model has the following beneficial effects: the glass assembly to soldering and sealing is transmitted to and to connect with it by charging transfer passage At lateral transport device, glass assembly to be welded is transmitted to by corresponding soldering and sealing station by lateral transport device, then by with go out The glass assembly that soldering and sealing is completed is delivered to discharging transfer passage from soldering and sealing station by the lateral transport device that material transfer passage connects On, and the region is sent out by discharging transfer passage, and during whole service, the fill process and discharging process of soldering and sealing station Have channel independent, it is non-interference, avoid charging and discharging process common-use tunnel and bring channel occupy and efficiency Low problem improves the production efficiency of vacuum glass soldering and sealing process and the production efficiency of the entire production line.

Detailed description of the invention

Fig. 1 is existing vacuum glass soldering and sealing production line schematic diagram；

Fig. 2 is the structural schematic diagram of embodiment 1；

Fig. 3 is charging/discharging transfer passage structural schematic diagram；

Fig. 4 is the structural schematic diagram of lateral transport device shown in label 4 in Fig. 3；

Fig. 5 is the top view of the structural schematic diagram of lateral transport device；

Fig. 6 is the structural schematic diagram of embodiment 2；

Fig. 7 is the structural schematic diagram of embodiment 3；

Fig. 8 is the structural schematic diagram of embodiment 4；

Fig. 9 is the structural schematic diagram of embodiment 5；

Figure 10 is the structural schematic diagram of embodiment 6；

In figure:

1 charging transfer passage, 1-1 feed transfer passage conveying roller, 1-2 rack, 2 discharging transfer passages, 2-1 discharging conveying Channel conveying roller, 3 soldering and sealing station groups, the 1st soldering and sealing station of 3-1, the 2nd soldering and sealing station of 3-2, n-th of soldering and sealing station of 3-n, 4 is horizontal To transmitting device, 4-1 bracket, 4-2 synchronous belt transmission unit, 4-3 driving shaft, 4-4 sprocket wheel chain transmission device, 4-5 motor, 4- 6 driving pulleys, the passive belt wheel of 4-7,4-8 conveyer belt, 4-9 tensioning wheel, 5 air pressure jar supports, 5-1 pneumatic cylinder, 6 vacuum glass groups Part, 7 guiding mechanisms, 8 moving conveyors, 9 discharging devices, 10 supplied materials devices.

Specific embodiment

The technical solution of the utility model is further described below by specific embodiment.

The utility model vacuum glass multistation soldering and sealing production line includes the more than two soldering and sealing works for being alternatively arranged setting Hyte 3, each soldering and sealing station group 3 include at least a soldering and sealing station；Each soldering and sealing station group is along soldering and sealing station orientation Two sides are respectively arranged with charging transfer passage 1 and discharging transfer passage 2, and it is defeated to be equipped with a charging between adjacent soldering and sealing station group 3 Send channel 1 or discharging transfer passage 2.

Embodiment 1

Fig. 2-Fig. 5 is the embodiments of the present invention 1.It as shown in the figure, include 1 charging conveying in the production line example 1,2, channel discharging transfer passage 2 and 2 soldering and sealing station group 3, the setting of soldering and sealing station group 3 is in charging transfer passage 1 and discharges defeated It send between channel 2, charging transfer passage 1 is equipped between two neighboring soldering and sealing station group 3, the outside distribution of soldering and sealing station group 3 is set There is discharging transfer passage 2, each soldering and sealing station group includes 3-1 to 3-n soldering and sealing station, and the feed inlet of soldering and sealing station 3 passes through cross Connect to transmitting device 4 with charging transfer passage 1, the discharge port of soldering and sealing station 3 equally passes through lateral transport device 4 and discharging is defeated Channel 2 is sent to connect.Feeding transfer passage 1 and discharging transfer passage 2 includes rollgang, wherein feeds the defeated of transfer passage 1 Roller-way is sent to be intervally arranged by several charging transfer passage conveying roller 1-1, the rollgang for the transfer passage 2 that discharges is by several Root discharging transfer passage conveying roller 2-1 is intervally arranged.

It is sent by charging transfer passage 1 to soldering and sealing station 3 to soldering and sealing vacuum glass component 6 (referring to Fig. 5), then passes through cross Vacuum glass component 6 is transmitted to soldering and sealing station 3-1,3-1 or the 3- being connected to each other with the lateral transport device 4 to transmitting device 4 N, the vacuum glass for completing soldering and sealing are then delivered to discharging transfer passage by the lateral transport device 4 for being located at the soldering and sealing station other side On 2, and it is sent to by discharging transfer passage 2 lower one of manufacturing procedure of vacuum glass.

Lateral transport device 4 includes the charging adjacent two-by-two conveying split in charging transfer passage 1 or the transfer passage 2 that discharges Several bands transmission unit 4-2 between channel conveying roller 1-1 or discharging transfer passage conveying roller 2-1, several band transmission are single Conveyer belt on first 4-2 collectively constitutes the lateral transport plane of vacuum glass material.Band transmission unit 4-2 includes spaced Driving pulley 4-6, passive belt wheel 4-7, conveyer belt 4-8, transfer drive and the bracket being wrapped on two belt wheels, this example In all band transmission units use shared support 4-1 and shared driving device, the driving device is by driving shaft 4-3, motor 4-5 With sprocket wheel chain transmission device 4-4 constitute, wherein driving shaft 4-3 and motor 4-5 are arranged on bracket 4-1, driving shaft 4-3 and Sprocket wheel is respectively set on motor 4-5 output shaft, chain is wound on sprocket wheel, thus constitutes sprocket wheel chain transmission device 4-4, to guarantee The normal work of conveyer belt 4-8 simultaneously facilitates the spacing for adjusting two belt wheels, and each band transmission unit is provided with tensioning wheel 4-9.

Each band transmission unit 4-2 can respectively come with independent driving device, use a driving shaft 4-3 band in this example There are all band transmission unit 4-2 to work, not only reduce the quantity of driving device, simplifies the construction of lateral transport device 4, Er Qiecong Guarantee all band transmission unit 4-2 synchronous workings on mechanical realization, guarantee material stablizes transmission.Preferably, in the present embodiment Band transmission unit 4-2 is synchronous belt drive mechanism.

Certainly, conveyer belt 4-8 can also be replaced by the structure of other forms, and sprocket wheel chain transmission device 4-4 equally may be used With using the transmission device of synchronous belt transmission device or belt drive unit or other appropriate forms, these are known in the state of the art Applicable alternative form be no longer described in detail one by one herein.

The bracket 4-1 of lateral transport device 4 is arranged on the lifting device being made of air pressure jar support 5 and pneumatic cylinder 5-1, By the flexible of pneumatic cylinder 5-1 piston rod, driving arm 4-1 is with respect on the charging transfer passage or discharging transfer passage where it Lower lifting, and the lateral transport plane being made of several conveyer belts is thus made to be higher or lower than charging transfer passage 1 and discharging The material transporting flat of transfer passage 2.

For feeding the lateral transport device 4 of 1 side of transfer passage, with the rise of bracket 4-1, lateral transport thereon Plane is while projecting upwards material transporting flat, by holding on material transporting flat to the picking-up of soldering and sealing vacuum glass component 6 It is connected in lateral transport plane, and in the state of keeping being higher by material transporting flat, vacuum glass component 6 is sent into soldering and sealing work Position, then bracket 4-1 drops to material transporting flat of the lateral transport plane thereon lower than charging transfer passage 1, to avoid Influence the material transportation work of charging transmission channel 1.

It will be in soldering and sealing station in the state that bracket 4-1 rises for the lateral transport device 4 for 2 side of transfer passage that discharges The vacuum glass component 6 for completing soldering and sealing is accepted onto lateral transport plane thereon, and in this state by vacuum glass component 6 It is transmitted to the top of discharging transfer passage 2, then bracket 4-1 drops to lateral transport plane thereon lower than discharging transfer passage 2 material transporting flat and by vacuum glass component 6 be placed into discharging transfer passage 2 on.

Lifting pneumatic cylinder bracket 5 is supported on the rack 1-2 of the charging transfer passage 1 of its side or discharging conveying is logical In the rack in road 2.

Lateral transport device 4 in this example makes lateral transport plane thereon be higher or lower than charging conveying by lifting Channel 1 and discharging transfer passage 2 material transporting flat come complete the transfer of material in addition to this can also be by lateral transport The charging transfer passage 1 or discharging transfer passage 2 of 4 region of device are arranged to the form that can be gone up and down, to complete material Transfer can then use various applicable technological means well known in the prior art as specific lifting means, herein no longer It is described in detail.

In addition, above-mentioned lifting pneumatic cylinder 5-1 can also be replaced by hydraulic cylinder or electric cylinder, moreover, it is also possible to known to The leadscrew-nut mechanism by screw pair and motor form, or be made of using known connecting rod and pneumatic cylinder or hydraulic cylinder Elevating mechanism.

Lateral transport device 4 in above-mentioned example is using the transmitting device constituted with transmission unit 4-2, as vacuum The lateral transport device of glass assembly 6；The lateral transport device of the present embodiment can also use roller type transmitting device comprising The multiple idler wheel transmission units being intervally arranged on bracket and bracket, the multiple idler wheel transmission unit collectively constitute vacuum glass group The lateral transport plane of part 6, idler wheel transmission unit include transmission shaft and multiple idler wheels for being mounted on transmission shaft.It is passed with above-mentioned band Defeated unit is similar, and the lateral transport device of the present embodiment can realize transverse direction thereon using means identical with above-mentioned example The lifting of transport plane, and pass through the transfer of lifting completion vacuum glass component 6.

Certainly, similarly charging transfer passage and discharging transfer passage can be driven to move up and down by using lifting device To realize the transfer of vacuum glass component 6.

For roller type transmitting device, because those skilled in the art are based on its basic skill in the case where comprehension above-mentioned thought It can be made with the prior art, therefore this will not be detailed here.

Embodiment 2

It unlike the first embodiment, include 1 discharging conveying in embodiment 2 as shown in FIG. 6, in the production line example Transfer passage 1 and 2 soldering and sealing station group is expected in the charging of 2,2, channel, and the setting of soldering and sealing station group 3 is in charging transfer passage 1 and discharging Discharging transfer passage 2, the outside distribution of soldering and sealing station group 3 are equipped between transfer passage 2, between two neighboring soldering and sealing station group 3 Equipped with feeding transfer passage 1.

Embodiment 3

It unlike the first embodiment, include 2 charging conveyings in embodiment 3 as shown in Figure 7, in the production line example 1,2, channel discharging transfer passage 2 and 3 soldering and sealing station group 3, the setting of soldering and sealing station group 3 is in charging transfer passage 1 and discharges defeated It send between channel 2, discharging transfer passage 2, soldering and sealing station group 3 and charging transfer passage 1 are successively arranged alternately in order.

Embodiment 4-6

Unlike embodiment 1-3, in embodiment 4-6 as seen in figs. 8-10, charging transfer passage and discharging conveying Channel includes guiding mechanism 7 and moving conveyor 8, and moving conveyor 8 is mounted on guiding mechanism 7 and can be along guiding Mechanism 7 moves back and forth, and the vacuum glass component to soldering and sealing is sent into welding post by moving conveyor 8, or will complete The vacuum glass component of soldering and sealing removes soldering and sealing station.The feed end for feeding transfer passage is equipped with supplied materials device 10, is filled by supplied materials It sets 10 and the vacuum glass component 6 to soldering and sealing is transferred to moving conveyor 8, the discharge end for the transfer passage that discharges is equipped with discharging dress 9 are set, the vacuum glass component for completing soldering and sealing is transferred to by other stations by discharging device 9.Supplied materials device 10 and discharging device 9 It is provided with the rollgang of multiple conveying roller compositions, conveying roller drive rotating synchronously by driving device.Guiding machine Structure 7 can specifically use linear guide.Moving conveyor 8 is equipped with lateral transport device 4 and rollgang, and rollgang is by more A conveying roller is intervally arranged, and the structure of lateral transport device 4 is same as Example 1, and this will not be repeated here.

Embodiment 7

The present embodiment and implementation 1 are essentially identical, the difference is that: charging transfer passage is using the knot in embodiment 4~6 Structure, i.e. charging transfer passage includes guiding mechanism and moving conveyor, and moving conveyor is mounted on guiding mechanism and can To move back and forth along guiding mechanism, the vacuum glass component to soldering and sealing is sent by welding post by moving conveyor.

Embodiment 8

The present embodiment and implementation 1 are essentially identical, the difference is that: discharging transfer passage is using the knot in embodiment 4~6 Structure, i.e. discharging transfer passage includes guiding mechanism and moving conveyor, and moving conveyor is mounted on guiding mechanism and can To move back and forth along guiding mechanism, the vacuum glass component for completing soldering and sealing is removed by soldering and sealing station by moving conveyor.

Finally, it will be appreciated that embodiment of above is merely to illustrate that the principles of the present invention and uses Illustrative embodiments, however the utility model is not limited thereto.For those of ordinary skills, it is not departing from In the case where the principles of the present invention and essence, various changes and modifications can be made therein, these variations and modifications are also considered as this The protection scope of utility model.

6 embodiments of the utility model are described in detail above, but the content is only the utility model Preferred embodiment should not be considered as limiting the scope of the present invention.It is all to be made according to application scope of the utility model All the changes and improvements etc., should still belong within the patent covering scope of the utility model.

Claims (10)

1. a kind of vacuum glass multistation soldering and sealing production line, which is characterized in that more than two envelopes including being alternatively arranged setting Welder's hyte, each soldering and sealing station group include at least a soldering and sealing station；Each soldering and sealing station group is along soldering and sealing station orientation Two sides be respectively arranged with charging transfer passage and discharging transfer passage, a charging is equipped between adjacent soldering and sealing station group and is conveyed Channel or discharging transfer passage, the charging transfer passage and the transfer passage that discharges are respectively equipped with lateral transport device, it is described into Expect transfer passage and discharging transfer passage parallel interval setting.

2. vacuum glass multistation soldering and sealing production line as described in claim 1, which is characterized in that the charging transfer passage by Multiple conveying rollers, which are intervally arranged, to be formed or is made of guiding mechanism with the supplied materials device that the guiding mechanism end is arranged in, institute It states and is additionally provided with moving conveyor on guiding mechanism.

3. vacuum glass multistation soldering and sealing production line as described in claim 1, which is characterized in that the discharging transfer passage by Multiple conveying rollers be intervally arranged composition or by guiding mechanism and the discharging device that the guiding mechanism end is arranged in, it is described to lead Moving conveyor is additionally provided in mechanism.

4. vacuum glass multistation soldering and sealing production line as claimed in claim 2 or claim 3, which is characterized in that the mobile conveying dress It sets including the lateral transport device and rollgang, the rollgang is intervally arranged by multiple conveying rollers.

5. vacuum glass multistation soldering and sealing production line as claimed in claim 4, which is characterized in that the lateral transport device packet The multiple band transmission units being arranged between adjacent conveyor roller are included, multiple conveyer belts with transmission unit collectively constitute the cross of material To transport plane；The lateral transport device is moved up and down by lifting device driving, keeps the lateral transport plane high In or lower than charging transfer passage or discharge transfer passage material transporting flat；Alternatively, lateral transport plane region Charging transfer passage and discharging transfer passage are moved up and down by lifting device driving, are higher than the lateral transport plane Or it is lower than the material transporting flat.

6. vacuum glass multistation soldering and sealing production line as claimed in claim 5, which is characterized in that the lifting device is air pressure Cylinder, hydraulic cylinder or leadscrew-nut mechanism.

7. vacuum glass multistation soldering and sealing production line as claimed in claim 6, which is characterized in that the lateral transport device is set There is bracket, the band transmission unit installation drives synchronous working, institute on the bracket, by a driving shaft being arranged on bracket Driving shaft is stated to be driven by motor.

8. vacuum glass multistation soldering and sealing production line as claimed in claim 7, which is characterized in that the band transmission unit is same Walk tape handler.

9. vacuum glass multistation soldering and sealing production line as claimed in claim 4, which is characterized in that the lateral transport device packet The multiple idler wheel transmission units being intervally arranged on bracket and bracket are included, the multiple idler wheel transmission unit collectively constitutes the cross of material To transport plane, the idler wheel transmission unit includes transmission shaft and multiple idler wheels for being mounted on transmission shaft；The lateral transport Device is moved up and down by lifting device driving, and the lateral transport plane is made to be higher or lower than charging transfer passage or go out Expect the material transporting flat of transfer passage；Alternatively, the charging transfer passage of lateral transport plane region and discharging conveying are logical Road is moved up and down by lifting device driving, and the lateral transport plane is made to be higher or lower than the material transporting flat.

10. vacuum glass multistation soldering and sealing production line as claimed in claim 9, which is characterized in that the lifting device is gas Cylinder pressure, hydraulic cylinder or leadscrew-nut mechanism.