CN112537911A

CN112537911A - Glass glazing production line

Info

Publication number: CN112537911A
Application number: CN202011309937.9A
Authority: CN
Inventors: 王洪
Original assignee: Chongqing Chongbo Energy Saving Glass Co ltd
Current assignee: Chongqing Chongbo Energy Saving Glass Co ltd
Priority date: 2020-11-20
Filing date: 2020-11-20
Publication date: 2021-03-23

Abstract

The invention relates to the technical field of glass processing production, in particular to a glass glazing production line, which comprises a washing mechanism and a blowing mechanism, wherein the blowing mechanism is positioned at the rear side of the washing mechanism in the glass conveying direction, a water absorbing mechanism is arranged between the washing mechanism and the blowing mechanism, the washing mechanism comprises a fixing assembly for fixing glass and a conveying assembly for conveying glass, a plurality of spray heads for spraying water to the glass are arranged at one side of the fixing assembly, a hydraulic cylinder for driving the fixing assembly to lift is connected to the bottom of one side of the fixing assembly, and the hydraulic cylinder and the spray heads are arranged at the same side. The invention can solve the problem of poor glass cleaning effect in the prior art.

Description

Glass glazing production line

Technical Field

The invention relates to the technical field of glass processing production, in particular to a glass glazing production line.

Background

The glazed glass is made up through printing inorganic glaze (or ink) on the surface of glass, baking, toughening or thermalization and permanent sintering. The product has high functionality and decorativeness, has a plurality of different colors and patterns, and can be additionally designed according to different requirements of customers.

In the process of glass production, glass needs to be cleaned and dried before glazing, so that the surface of the glass is kept clean. In the prior art, glass is generally horizontally conveyed to a cleaning mechanism, and the glass is washed by water and dried. The glass surface can be detained the one deck water film after washing, directly weathers and expends time relatively, and the glass surface very easily leaves water stain, and the cleaning performance is not good.

Disclosure of Invention

The invention aims to provide a glass glazing production line to solve the problem of poor cleaning effect in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

glass glazing production line, including washing mechanism and blast mechanism, blast mechanism is located and washes the rear side of mechanism on the glass direction of transfer, be provided with the mechanism that absorbs water between washing mechanism and the blast mechanism, wash the mechanism including the fixed subassembly that is used for fixed glass and the conveying subassembly that is used for conveying glass, fixed subassembly one side is provided with a plurality of shower nozzles that are used for glass water spray, and the pneumatic cylinder that is used for driving fixed subassembly lift is connected to fixed subassembly one side bottom, and the pneumatic cylinder sets up in same one side with the shower nozzle.

The principle and the beneficial effect of the scheme are as follows:

the glass drying device comprises a washing mechanism, a blowing mechanism, a water absorbing mechanism and a drying mechanism, wherein the washing mechanism is used for washing glass, the blowing mechanism is used for blowing air to the glass to dry the glass, the water absorbing mechanism is used for absorbing water on the glass before blowing air, the glass is dried by subsequent blowing air conveniently, and the blowing time is saved; the glass is dried by combining water absorption and air blowing, and the drying effect is better compared with the drying effect by only air blowing. The fixed subassembly is used for fixed glass, utilizes the pneumatic cylinder to push up one side of fixed subassembly during washing for glass is the tilt state, then washes glass water spray, and the water and the impurity that wash can flow away along with glass, and the cleaning performance is good, can also reduce the water that is detained on glass, and the follow-up drying of being convenient for, and drying effect is better.

Further, the conveying assembly comprises a plurality of conveying shafts which are rotatably arranged, and a plurality of conveying wheels are fixed on the conveying shafts; the fixed assembly comprises a plurality of sucker frames, the bottom of each sucker frame is connected with a fixed cylinder, a plurality of suckers are fixed to the tops of the sucker frames, the suckers and the support frames are arranged in a staggered mode, and the suckers are communicated with negative pressure cylinders.

Has the advantages that: the conveying shaft is driven to rotate, so that the glass can be conveyed by the conveying wheel; fixed cylinder drive sucking disc frame shifts up, supports the sucking disc tightly in the glass below, utilizes the negative pressure cylinder to give the inside evacuation of sucking disc simultaneously, can make the sucking disc adsorb on glass for glass is connected with sucking disc frame, realizes glass's fixed, simple structure, convenient operation.

Furthermore, the water absorption mechanism comprises a housing, a feed inlet and a discharge outlet are respectively formed in the two ends of the housing, a plurality of water absorption rollers capable of abutting against the glass are rotatably arranged at the bottom of the housing, a blowpipe is arranged at the bottom of the feed inlet, and a plurality of blowholes capable of blowing air for the surface of the glass are formed in one side, far away from the feed inlet, of the blowpipe.

Has the advantages that: after the glass is washed, the hydraulic cylinder puts the support back to the horizontal state, and the conveying wheel is started to rotate, so that the glass can be conveyed into the housing; when glass got into the housing, the blowing pipe can blow towards the glass surface, along with glass's removal to will be detained and blow away at the water on glass surface, glass get into the housing after can with the roller contact that absorbs water, utilize the roller absorption glass surface's water that absorbs water, realize glass's preliminary drying. The blowing pipe is adopted to blow away the retained water before absorbing water, so that the water absorbing amount of the water absorbing roller can be reduced, and the frequency of water removal and drying of the water absorbing roller due to excessive absorption amount is reduced.

Further, the water absorbing roller comprises a rotating shaft, a sleeve is sleeved on the rotating shaft in a rotating mode, the sleeve is made of an electromagnet, the rotating shaft can be adsorbed by the sleeve, a sponge roller is fixed on the sleeve, two ends of the rotating shaft are rotatably connected with vertical telescopic rods, a water removing pipe with an opening in the bottom surface is arranged in the housing, and a plurality of squeezing rollers used for squeezing the sponge roller are arranged on the inner wall of the water removing pipe.

Has the advantages that: the sleeve can rotate relative to the rotating shaft when not electrified, and rolling friction is formed between the sleeve and the glass, so that the friction of the glass is reduced, and the glass is prevented from being abraded; when the water outlet of the water suction roller is dry, the telescopic rod is driven to shrink, the water suction roller is retracted into the water removal pipe, the sleeve is electrified, the sleeve adsorbs the rotating shaft, the driving rotating shaft drives the sleeve to rotate, the sponge roller is extruded by the extrusion roller, and the water removal and drying of the water suction roller are realized.

Further, the squeeze roller includes a transparent outer shell in which an ultraviolet lamp is disposed.

Has the advantages that: set up ultraviolet lamp and not only can give the sponge roller heating when the dewatering for the sponge roller is dry, can also give the sponge roller disinfection.

Further, the squeezing roller is rotatably arranged in the housing.

Has the advantages that: so set up and to reduce the friction between sponge roller and the squeeze roll, reduce the wearing and tearing of sponge roller.

Drawings

FIG. 1 is a front view of a first embodiment of the present invention;

FIG. 2 is a top view of a first embodiment of the present invention;

fig. 3 is an enlarged schematic view of a portion a of fig. 1.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a conveying wheel 1, a sucker 2, a conveying shaft 3, a base 4, a housing 5, a blowing mechanism 6, a nozzle 8, a sucker frame 9, an extrusion roller 10, a dewatering pipe 11, an expansion rod 12, a sponge roller 13, a sleeve 14 and a rotating shaft 15.

Example one

As shown in fig. 1, the glass glazing production line comprises a base 4, wherein a washing mechanism, a water absorbing mechanism, a blowing mechanism 6 and a glazing mechanism (not shown in the figure) are sequentially arranged on the base 4 from left to right, the glazing mechanism adopts a glass printing machine in the prior art, the blowing mechanism 6 comprises a blowing room, and a plurality of blowers (not shown in the figure) are arranged in the blowing room and used for blowing air to glass. The flushing mechanism, the water absorbing mechanism, the blowing mechanism 6 and the glazing mechanism comprise conveying shafts 3 which are rotatably arranged on the base 4, and a plurality of conveying wheels 1 are fixed on the conveying shafts 3 and used for conveying glass among the mechanisms.

As can be seen from fig. 2, the flushing mechanism shows three transfer shafts 3, and both ends of the three transfer shafts 3 are rotatably connected to the base 4. And a spray head 8 is arranged at the top of the side wall on one side of the base 4 and used for spraying water to the glass. The flushing mechanism further comprises several rows of suction cup holders 9, three rows being shown in fig. 2, three rows of suction cup holders 9 being staggered with three transfer shafts 3. Each row of sucker frame 9 comprises a transverse rod with the bottom transversely arranged and a plurality of vertical rods vertically welded on the transverse rod, each sucker 2 is installed at the top end of each vertical rod, a negative pressure cylinder (not shown in the figure) is installed in the base 4, and each sucker 2 is communicated with the negative pressure cylinder. The bottom of the middle part of each cross rod is connected with a fixed cylinder for driving the sucker frame 9 to horizontally move upwards, so that the sucker 2 extends out of the base 4 to be in contact with glass. The bottom of the three cross bars at the side of the base 4 provided with the spray head 8 is also connected with a hydraulic cylinder which is used for pushing the side of the suction cup 2 to rise so as to incline the glass.

As can be seen from fig. 1 and 3, the water absorbing mechanism includes a housing 5, a feeding opening is formed at the left end of the housing 5, a discharging opening is formed at the right end of the housing, and a blowing pipe (not shown) for blowing air to the glass is installed at the feeding opening. A plurality of water suction rollers are rotatably mounted in the housing 5, five of which are shown in fig. 1 and are arranged in parallel with the support frame. Each water suction roller comprises an iron rotating shaft 15, the rotating shaft 15 is connected with a motor, a sleeve 14 made of an electromagnet is rotatably sleeved outside the rotating shaft 15, a sponge roller 13 is fixedly connected to the outside of the sleeve 14 in an adhesive mode, and the sleeve 14 can be firmly adsorbed on the rotating shaft 15 after being electrified. Every 15 both ends of pivot all rotate and are connected with telescopic link 12, the vertical setting of telescopic link 12, and the top of telescopic link 12 is fixed at housing 5 top, and telescopic link 12 adopts electric telescopic handle 12 in this embodiment.

A plurality of water pipes 11 that remove are still installed at the suction roll top, and the quantity that removes water pipes 11 is the same with the suction roll, removes water pipes 11 and the corresponding setting of suction roll in vertical direction, and shrink telescopic link 12 can be with the suction roll pull-in remove in the water pipe 11. A plurality of squeezing rollers 10 are rotatably arranged in each dewatering pipe 11 and used for squeezing the sponge rollers 13 to squeeze water adsorbed by the sponge rollers 13. The squeeze roll 10 comprises a transparent outer shell in which ultraviolet lamps are installed.

The specific implementation process is as follows:

the glass plate is horizontally placed on a conveying wheel 1 of a washing mechanism, the sucker 2 is initially positioned below the conveying wheel 1, the conveying shaft 3 is driven to drive the conveying wheel 1 to rotate, and the glass is conveyed to the spray head 8 rightwards until the whole glass is positioned in an area provided with the spray head 8. Starting fixed cylinder and pushing out sucking disc frame 9 from the bottom for sucking disc 2 and glass bottom contact start the negative pressure cylinder simultaneously and give the inside evacuation of sucking disc 2, make sucking disc 2 adsorb in the glass bottom, make glass fixed from this. In practice, the glass can be pressed slightly downwards by hand, so that the suction cup 2 is better in contact with the glass.

Glass starts one side of pneumatic cylinder promotion pneumatic cylinder after fixed and rises for glass is the tilt state, opens simultaneously shower nozzle 8 and follow the high-end water spray of glass, washs glass, and abluent water and impurity can flow away along glass, reduce the water that is detained on glass, the follow-up drying of being convenient for.

After the cleaning is finished, the sucker frame 9 is lowered to the horizontal state, the sucker frame 9 is driven to move downwards, the glass is placed on the conveying wheel 1 again, the negative pressure of the sucker 2 is removed, the sucker frame 9 continues to move downwards, and the sucker 2 is separated from the glass. The conveying shaft 3 is driven to rotate, and the glass is conveyed to the water absorption mechanism. Glass is at the in-process that gets into housing 5, and the blowing pipe blows glass, can blow away the water that is detained on glass, further clears up the water on the glass, the follow-up drying of being convenient for.

After the glass enters the housing 5, the water absorbing roller abuts against the glass, and the sponge roller 13 absorbs water on the glass to primarily dry the glass. At this moment, the sleeve 14 is in a power-off state, the rotating shaft 15 does not rotate, and the sponge roller 13 can be driven to rotate in the glass conveying process, so that the sponge roller 13 is more fully contacted with glass, the water absorption effect is better, and meanwhile, the abrasion to the glass can be reduced. And after water absorption is finished, conveying the glass to a subsequent blowing mechanism 6 for blowing, so as to realize complete drying of the glass, and conveying the glass into a glazing mechanism for glazing after drying is finished.

When the sponge roller 13 needs to be dewatered and dried, the telescopic rod 12 is contracted, the water suction roller is pulled into the dewatering pipe 11, the rotating shaft 15 is driven to rotate, the sleeve 14 is electrified, the sleeve 14 generates magnetism and is tightly adsorbed with the rotating shaft 15, and the sponge roller 13 can rotate along with the rotating shaft 15. The sponge roller 13 is pressed against the squeeze roller 10 when rotating, and water in the sponge roller 13 is squeezed out under the squeezing action of the squeeze roller 10, thereby removing water from the sponge roller 13. The ultraviolet lamp in the squeeze roller 10 is opened while removing water, and the ultraviolet lamp can dry the sponge roller 13 and can also realize the disinfection of the sponge roller 13.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. Glass glazing production line, including washing mechanism and blowing mechanism, blowing mechanism is located and washes the rear side of mechanism on glass direction of transfer, its characterized in that: the glass washing machine is characterized in that a water absorbing mechanism is arranged between the washing mechanism and the blowing mechanism, the washing mechanism comprises a fixing assembly used for fixing glass and a conveying assembly used for conveying the glass, a plurality of spray heads used for spraying water to the glass are arranged on one side of the fixing assembly, a hydraulic cylinder used for driving the fixing assembly to ascend and descend is connected to the bottom of one side of the fixing assembly, and the hydraulic cylinder and the spray heads are arranged on the same side.

2. A glass glazing production line as claimed in claim 1, wherein: the conveying assembly comprises a plurality of conveying shafts which are rotatably arranged, and a plurality of conveying wheels are fixed on the conveying shafts; the fixed assembly comprises a plurality of sucker frames, the bottom of each sucker frame is connected with a fixed cylinder, a plurality of suckers are fixed to the tops of the sucker frames, the suckers and the support frames are arranged in a staggered mode, and the suckers are communicated with negative pressure cylinders.

3. A glass glazing line as claimed in claim 2, wherein: the water absorption mechanism comprises a housing, a feed inlet and a discharge outlet are respectively formed in two ends of the housing, a plurality of water absorption rollers which can abut against glass are rotatably arranged at the bottom of the housing, a blowpipe is arranged at the bottom of the feed inlet, and a plurality of blowholes which can blow the surface of the glass are formed in one side, far away from the feed inlet, of the blowpipe.

4. A glass glazing line as claimed in claim 3, wherein: the water suction roller comprises a rotating shaft, a sleeve is sleeved on the rotating shaft in a rotating mode, the sleeve is made of an electromagnet and can adsorb the rotating shaft, a sponge roller is fixed on the sleeve, two ends of the rotating shaft are rotatably connected with vertical telescopic rods, a water removal pipe with an opening in the bottom surface is arranged in a housing, and a plurality of squeezing rollers used for squeezing the sponge roller are arranged on the inner wall of the water removal pipe.

5. A glass glazing production line as claimed in claim 4, characterised in that: the squeezing roller comprises a transparent shell, and an ultraviolet lamp is arranged in the shell.

6. A glass glazing production line as claimed in claim 5, characterised in that: the squeezing rollers are rotatably arranged in the housing.