CN218133908U - Vertical glass cleaning equipment - Google Patents

Abstract

The utility model belongs to the technical field of glass production and processing equipment, and particularly discloses vertical glass cleaning equipment, which comprises a frame, wherein the frame is sequentially divided into a rough washing cavity, a pre-cleaning cavity, a fine washing cavity, a water squeezing cavity and an air drying cavity from a feed end to a discharge end, and rubber roller sets are arranged in the washing cavity, the pre-cleaning cavity and the fine washing cavity; roughly wash the chamber, finely wash the chamber and still install brush group and spray tube, crowded water roller set is installed to crowded water intracavity, air-dry intracavity is installed and is air-dried conveying system and first air knife, a pair of second air knife is still installed to the clean chamber in advance, rubber roller set, crowded water roller set are driven by the rubber roll actuating system who installs at the frame top. The utility model discloses an equal independent work in five chamber operations in two air knives each chamber has improved the machining efficiency and the quality of whole glass production line greatly.

Description

Vertical glass cleaning equipment

Technical Field

The utility model relates to a glass production and processing equipment technical field, in particular to vertical glass cleaning equipment.

Background

The glass cleaning machine is a special device for cleaning and drying the surface of glass in the previous process of glass deep processing technology, and is mainly divided into a horizontal cleaning machine and a vertical cleaning machine. The structure of the vertical cleaning machine is shown in a Chinese patent with the publication number of CN113909244A, the structure of the vertical cleaning machine discloses an open-close type glass cleaning machine, a front base plate and a rear base plate are arranged at the bottom of a cleaning machine box body, a front top plate and a rear top plate are arranged at the top of the cleaning machine box body, a cleaning chamber is arranged at the left side of the cleaning machine box body, and a wind knife chamber is arranged at the right side of the cleaning machine box body; the glass gets into air knife and blows dry chamber after the washing, and the glass face water droplet is too much, just must reduce for guaranteeing to weather glass transfer speed, has reduced the production speed of whole strip production line, is difficult to satisfy people to the expectation of production efficiency.

Disclosure of Invention

The utility model provides a make up the not enough of prior art, provide a vertical glass cleaning equipment.

The utility model discloses a realize through following technical scheme:

a vertical glass cleaning device comprises a frame, wherein the frame is sequentially divided into a rough cleaning cavity, a pre-cleaning cavity, a fine cleaning cavity, a water squeezing cavity and an air drying cavity from a feeding end to a discharging end, and rubber roller sets are arranged in the cleaning cavity, the pre-cleaning cavity and the fine cleaning cavity; roughly wash the chamber, finely wash the chamber and still install brush group and spray tube, crowded water roller set is installed to crowded water intracavity, air-dry intracavity is installed and is air-dried conveying system and first air knife, a pair of second air knife is still installed to the clean chamber in advance, rubber roll set, crowded water roller set are driven by the rubber roll actuating system who installs at the frame top.

Still include the circulation tank who comprises first pond, second pond, the third pond of mutual independence, the last first water pump of first pond matching of installing of circulation tank, the second water pump that matches with the second pond, the third water pump that matches with the third pond, first water pump is connected with the spray tube of play water end and rough cleaning chamber, clean intracavity in advance, the play water end and the spray tube of finish washing intracavity of second water pump are connected, the wash pipe of third water pump and crowded water intracavity is connected, rough cleaning chamber, clean chamber in advance are through first hole and first pond intercommunication that leaks, finish washing chamber, crowded water chamber, air-dry chamber are connected with the second pond through the second hole that leaks.

The rubber roll driving system comprises a transmission shaft which is arranged at the top of the frame and driven by a driving motor, a plurality of second bevel gears are arranged on the transmission shaft, and the second bevel gears are meshed with bevel gears on the rubber roll group and the water squeezing roll group.

The rubber roller group comprises a rear rubber roller and a front rubber roller, the top of the rear rubber roller is fixedly arranged at the top of the frame through a second upper bearing seat, and the bottom of the rear rubber roller is fixedly arranged at the bottom of the upper frame through a first lower bearing seat; the top of the front rubber roll is mounted at the top of the frame through a first adjusting part, the bottom of the front rubber roll is mounted at the bottom of the upper frame through a second adjusting part, a first bevel gear and a second upper gear are further mounted at the top of the rear rubber roll, the first upper gear meshed with the second upper gear is mounted at the top of the front rubber roll, and the first bevel gear is meshed with a corresponding bevel gear on the rubber roll driving system.

The first adjusting component comprises a first long round hole formed in the top of the frame and a first upper bearing seat mounted at the top of the front rubber roll, the first upper bearing seat is mounted on the first side of the first long round hole through a first rotating shaft, the second end of the first upper bearing seat is connected with the first end of a second spring push-pull rod through a first pull rod shaft, the second end of the second spring push-pull rod is mounted on the frame through a second push-pull rod support, the second adjusting component comprises a second lower bearing seat mounted at the bottom of the front rubber roll and a second long round hole formed in the bottom of the upper frame, the first end of the second lower bearing seat is mounted on the first side of the second long round hole through a second rotating shaft, the second end of the second lower bearing seat is connected with the first end of the first spring push-pull rod through the second pull rod shaft, and the second end of the first spring push-pull rod is mounted on the frame 1 through the first push-pull rod support.

The brush group comprises a rear brush and a front brush, the tops of the rear brush and the front brush are all installed at the top of the frame through a third upper bearing seat, the bottoms of the rear brush and the front brush are all installed at the bottom of the frame through a third lower bearing seat, a fourth upper gear is installed at the top of the rear brush, a third upper gear meshed with the fourth upper gear is installed at the upper end of the front brush, and the fourth upper gear is driven by a brush motor.

Air-dry conveying system includes preceding back frame and the back frame of both sides around the frame of fixed mounting respectively to and the air-dry conveying roller group of fixed mounting in the frame bottom, air-dry conveying roller group includes the fixed cross beam of fixed mounting on the frame, fixed cross beam is last to lead to fixed bearing frame and to install a plurality of transport axles, carry the first end of axle to install and carry the rubber roll, first sprocket is installed to the second end.

And the fixed cross beam is also provided with a baffle.

The utility model discloses following technological effect has:

on the basis of the traditional glass cleaning machine, the cleaning machine is changed into a double-air-knife five-cavity operation mode, a rough cleaning cavity and a pre-cleaning cavity are sequentially arranged according to the glass feeding direction, one pair of air knives are arranged between the brushes, namely the pre-cleaning cavity, so that the cleaning part is divided into two parts, each cavity works independently, and water circulation is also independent circulation, the processing efficiency and the quality of the whole glass production line are greatly improved, compared with the traditional glass cleaning machine, the production efficiency is at least improved by 20%, and the quality is greatly improved.

The invention has novel structure, simple operation, accurate transmission and no limit to the specification of the glass, obviously improves the processing efficiency and quality of glass production, and can also be suitable for a horizontal cleaning machine.

The innovative design of the invention greatly improves the processing efficiency, obviously improves the product quality, correspondingly reduces the economic cost and increases the economic benefit, thereby being suitable for popularization and application in the field of glass processing.

The original bottleneck process is improved through the double air knives and the wringing roller, so that the production efficiency of the whole line is improved. Wherein, the air knife of the pre-cleaning cavity preliminarily removes most of dirt on the surface of the glass; the wringing roller removes partial water drops on the surface of the glass, and the efficiency of the second air knife is improved.

Drawings

The present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic top view of the present invention.

Fig. 4 is a schematic view of the frame construction.

Fig. 5 is a schematic structural view of the rubber roller group.

Fig. 6 is a schematic structural view of a brush set.

Fig. 7 is a schematic diagram of the seasoning delivery system.

Fig. 8 is a structural schematic diagram I of the air drying conveying roller group.

Fig. 9 is a structural schematic diagram of a second air drying conveying roller set.

Fig. 10 is a schematic structural view of a circulation tank.

In the figure, 1-frame, 101-top plate, 102-upper plate, 103-lower plate, 104-vertical plate, 105-air drying chamber, 106-water squeezing chamber, 107-fine washing chamber, 108-pre-cleaning chamber, 109-rough washing chamber, 110-first long circular hole, 2-rubber roller group, 201-rear rubber roller, 202-front rubber roller, 203-first lower bearing seat, 204-first spring push-pull rod, 205-first push-pull rod bracket, 206-second push-pull rod bracket, 207-second spring push-pull rod, 208-first upper bearing seat, 209-first upper gear, 210-first bevel gear, 211-second upper gear, 212-second upper bearing seat, 3-brush group, 301-rear brush, 302-front brush, 303-third lower bearing seat, 304-third upper bearing seat, 305-third upper gear, 306-fourth upper gear, 307-brush motor, 4-first air knife, 5-air drying conveying system, 501-air drying conveying roller group, 502-back rest frame, 503-front back rest frame, 504-conveying rubber roller, 505-fixed cross beam, 506-fixed bearing seat, 507-first chain wheel, 508-baffle, 6-base, 7-second air knife, 8-rubber roller driving system, 801-driving motor, 802-second chain wheel, 803-transmission shaft, 804-second bevel gear, 805-third chain wheel, 9-circulating water tank, 901-first water tank, 902-second water tank, 903-third water tank and 904-water pump plate.

Detailed Description

The following are only embodiments of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention.

In the present invention, the words describing the directional relationship such as "front", "back", "inner", "outer" are only used for convenience of description of the embodiment, and are not considered as limitations of the present invention. The terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance. The fixed connection mode comprises but is not limited to a connection mode known in the prior art, such as welding, screwing, clamping, interference fit, integral forming and the like; the number of the plurality is more than one.

Fig. 1 to 10 show an embodiment of the present invention. The embodiment provides vertical glass cleaning equipment, which comprises a frame 1 fixedly installed on a base 6, wherein the frame 1 is structurally shown in figure 4 and comprises a top plate 101, a lower bottom plate 103 and vertical plates 104 arranged on the left side and the right side, the top of the lower bottom plate 103 is fixedly provided with an upper bottom plate 102 through supporting pieces, and the supporting pieces can be square steel, channel steel, supporting columns and the like. The frame 1 is divided into a rough washing chamber 109, a pre-cleaning chamber 108, a fine washing chamber 107, a wringing chamber 106 and an air drying chamber 105 in sequence from the feeding end to the discharging end. The three cavities of the rough washing cavity 109, the pre-cleaning cavity 108 and the fine washing cavity 107 are all provided with a rubber roller group 2 for conveying glass; the rough washing chamber 109 and the fine washing chamber 107 are further provided with a brush group 3 and a spray pipe (not shown) matched with the brush group 3, the brush group 3 and the rubber roller group 2 are arranged at intervals, specifically, two rubber roller groups 22 and one brush group 3 are arranged in the rough washing chamber 109, and two brush groups 3 and one rubber roller group 2 are arranged in the fine washing chamber 107. All the rubber roller groups 22 are driven by a rubber roller driving system 8 fixedly arranged at the top of the top plate 101. A pair of second air knives 7 are also mounted at the feed end of the pre-cleaning chamber 108. An air drying conveying system 5 and a pair of first air knives 4 are installed in the air drying cavity 105, wherein the first air knives 4 are used for final drying of the glass, and the air drying conveying system 5 is used for driving the glass to move forwards. The water squeezing cavity 106 is internally provided with a water squeezing roller set and a cleaning pipe matched with the water squeezing roller set.

The structure of the rubber roller group 2 is shown in fig. 5, and comprises a rear rubber roller 201 and a front rubber roller 202, the top of the rear rubber roller 201 is fixedly installed on the top plate 101 through a second upper bearing seat 212, and the bottom is fixedly installed on the upper bottom plate 102 through a first lower bearing seat; the top of the front rubber roll 202 is mounted on the top plate 101 through a first adjusting component, and the bottom of the front rubber roll 202 is mounted on the upper bottom plate 102 through a second adjusting component, wherein the first adjusting component comprises a first long circular hole 110 formed in the top plate 101, and a first upper bearing seat 208 mounted at the top of the front rubber roll 202, as shown in fig. 3, the first upper bearing seat 208 is mounted on a first side of the first long circular hole 110 through a first rotating shaft, a second end of the first upper bearing seat is connected with a first end of a second spring push-pull rod 207 through a first pull rod shaft, a second end of the second spring push-pull rod 207 is mounted on the top plate 101 through a second push-pull rod support 206, and the second spring push-pull rod 207 is located on a second side of the first long circular hole 110; the second adjusting component comprises a second lower bearing seat arranged at the bottom of the front rubber roll 202 and a second long circular hole arranged on the upper base plate 102, a first end of the second lower bearing seat is arranged on a first side of the second long circular hole through a second rotating shaft, a second end of the second lower bearing seat is connected with a first end of a first spring push-pull rod 204 through a second pull rod shaft, a second end of the first spring push-pull rod 204 is arranged on the base plate 102 through a first push-pull rod support 205, and the first spring push-pull rod 204 is positioned on a second side of the second long circular hole. The spring push-pull rod can make the front rubber roller 202 always press on the glass. The first side and the second side of the oblong hole are symmetrical with respect to the long axis of the oblong hole.

The top of the rear rubber roll 201 is also provided with a first bevel gear 210 and a second upper gear 211, and the top of the front rubber roll 202 is provided with a first upper gear 209 engaged with the second upper gear 211. The first bevel gear 210 is engaged with a corresponding bevel gear on the rubber roller driving system 8.

The structure of the rubber roller driving system 8 is shown in fig. 2 and fig. 3, and includes a driving motor 801 and a transmission shaft 803 which are installed on the top plate 101, a second chain wheel 803 is installed at the output end of the driving motor 801, a third chain wheel 805 which is connected with the second chain wheel 803 through a chain is installed on the transmission shaft 803, and a second bevel gear 804 which is meshed with the first bevel gear 210 is also installed on the transmission shaft 803.

The structure of the wringing roller group is different from that of the rubber roller group 2 only in that the rubber roller is replaced by the wringing roller, and other structures are the same and are also driven by the rubber roller driving system 8.

The structure of the brush group 3 is as shown in fig. 6 and fig. 3, including a rear brush 301 and a front brush 302, and the tops of the rear brush 301 and the front brush 302 are all installed on the top plate 101 through a third upper bearing seat 304, the bottoms of the rear brush 301 and the front brush 302 are all installed on the upper base plate 102 through a third lower bearing seat 303, a fourth upper gear 306 is installed at the top of the rear brush 301, a third upper gear 305 engaged with the fourth upper gear 306 is installed at the upper end of the front brush 302, the fourth upper gear 306 is driven by a brush motor 307 installed on the top plate, that is, the fourth upper gear 306 is engaged with a driving gear installed at the output end of the brush motor 307.

The air drying conveying system 5 comprises a front back frame 503 and a rear back frame 502 which are fixedly arranged on the front side and the rear side of the frame 1 respectively, and an air drying conveying roller group 501 fixedly arranged on the upper bottom plate. The structure of the air drying conveying roller set 501 is shown in fig. 8 and fig. 9, and comprises a fixed cross beam 505 fixedly mounted on the upper bottom plate 102, a plurality of conveying shafts are mounted on the fixed cross beam 505 through fixed bearing seats 506, and the conveying shafts are mounted in an array along the length direction of the fixed cross beam 505; a conveying rubber roller 504 is arranged at the first end of the conveying shaft, a first chain wheel 507 is arranged at the second end of the conveying shaft, and the first chain wheel 507 is connected with a conveying motor arranged outside the frame 1 through a chain.

The fixed beam 505 is further provided with a baffle 508 for shielding the first sprocket 507.

Well include a circulating water tank 9, be located the below of frame 1, including mutually independent first pond 901, second pond 902, third pond 903 and water pump board 904, install three water pump on the water pump board 904, be respectively the first water pump that matches with first pond 901, the second water pump that matches with second pond 902, the third water pump that matches with third pond 903. The water outlet end of the first water pump is connected with the spray pipes in the rough washing cavity 109 and the pre-cleaning cavity 108, and the water outlet end of the second water pump is connected with the spray pipe in the fine washing cavity; the third water pump is connected with the cleaning pipe in the water squeezing cavity. The rough washing cavity 109 and the pre-cleaning cavity 108 are communicated with the first water tank 901 through first water leakage holes, and the fine washing cavity 107, the wringing cavity 106 and the air drying cavity 105 are connected with the second water tank 902 through second water leakage holes, so that water recycling is realized. The first water tank 901 and the second water tank 902 are both provided with water outlets; the third basin 903 may also be similarly provided with a drain.

When the glass cleaner is used, glass enters the rough washing cavity 109 from the feeding end, dirt such as mildew-proof powder on the glass is roughly washed, then the glass enters the pre-cleaning cavity 108, and the second air knife 7 in the pre-cleaning cavity 108 pre-cleans the glass and blows off sewage on the glass; then the glass enters a fine washing cavity 107, is refined by two brush groups, enters a water squeezing cavity 106 after the refinement is finished, most of water on the surface of the glass is removed by the water squeezing roller group through squeezing, adsorption and the like, and finally enters an air drying cavity 108 for air drying in proportion. In the cleaning process, water in the first water tank 901 and the second water tank 902 is recycled through the first water pump and the second water pump; when the wringing roller sets become dirty, the third water pump is started, the wringing roller sets are cleaned through the cleaning pipes, and the cleaned water enters the second water pool 902.

Claims (8)

1. A vertical glass cleaning device comprises a frame (1) and is characterized in that the frame (1) is sequentially divided into a rough cleaning cavity (109), a pre-cleaning cavity (108), a fine cleaning cavity (107), a water squeezing cavity (106) and an air drying cavity (105) from a feeding end to a discharging end, and rubber roller sets (2) are arranged in the cleaning cavity (109), the pre-cleaning cavity (108) and the fine cleaning cavity (107); roughly wash chamber (109), fine purifiation chamber (107) and still install brush group (3) and spray tube, install crowded water roller set in crowded water chamber (106), install in air-dry chamber (105) and air-dry conveying system (5) and first air knife (4), a pair of second air knife (7) are still installed in clean chamber (108) in advance, rubber roll set (2), crowded water roller set are by installing rubber roll actuating system (8) drive at frame (1) top.

2. The vertical glass cleaning apparatus according to claim 1, wherein: still include circulation tank (9) of constituteing by mutually independent first pond (901), second pond (902), third pond (903), install the first water pump that first pond (901) match on circulation tank (9), the second water pump that matches with second pond (902), the third water pump that matches with third pond (903), first water pump and outlet end are connected with the spray tube in rough cleaning chamber (109), the clean chamber (108) in advance, the outlet end of second water pump is connected with the spray tube in the finish washing intracavity, the third water pump is connected with the washing pipe in crowded water intracavity, rough cleaning chamber (109), clean chamber (108) in advance are through first hole that leaks and first pond (901) intercommunication, finish washing chamber (107), crowded water chamber (106), air-dry chamber (105) are connected with second pond (902) through second hole that leaks.

3. The vertical glass cleaning apparatus according to claim 1, wherein: the rubber roll driving system (8) comprises a transmission shaft (803) which is arranged at the top of the frame (1) and driven by a driving motor (801), a plurality of second bevel gears (804) are arranged on the transmission shaft, and the second bevel gears (804) are meshed with bevel gears on the rubber roll group (2) and the water squeezing roll group.

4. The vertical glass cleaning apparatus according to claim 1, wherein: the rubber roller group (2) comprises a rear rubber roller (201) and a front rubber roller (202), the top of the rear rubber roller (201) is fixedly arranged at the top of the frame (1) through a second upper bearing seat (212), and the bottom of the rear rubber roller (201) is fixedly arranged at the bottom of the upper frame (1) through a first lower bearing seat; the top of the front rubber roller (202) is mounted at the top of the frame (1) through a first adjusting part, the bottom of the front rubber roller is mounted at the bottom of the upper frame (1) through a second adjusting part, a first bevel gear (210) and a second upper gear (211) are further mounted at the top of the rear rubber roller (201), a first upper gear (209) meshed with the second upper gear (211) is mounted at the top of the front rubber roller (202), and the first bevel gear (210) is meshed with a corresponding bevel gear on the rubber roller driving system (8).

5. The vertical glass cleaning apparatus according to claim 4, wherein: the first adjusting component comprises a first long round hole (110) arranged at the top of the frame (1) and a first upper bearing seat (208) arranged at the top of the front rubber roll (202), the first upper bearing seat (208) is arranged on the first side of the first long round hole (110) through a first rotating shaft, the second end of the first upper bearing seat is connected with the first end of a second spring push-pull rod (207) through a first pull rod shaft, the second end of the second spring push-pull rod (207) is arranged on the frame (1) through a second push-pull rod support (206), the second adjusting component comprises a second lower bearing seat arranged at the bottom of the front rubber roll (202) and a second long round hole arranged at the bottom of the upper frame (1), the first end of the second lower bearing seat is arranged on the first side of the second long round hole through a second rotating shaft, the second end of the second lower bearing seat is connected with the first end of the first spring push-pull rod (204) through a second pull rod shaft, and the second end of the first spring push-pull rod (204) is arranged on the frame (1) through a first push-pull rod support (205).

6. The vertical glass cleaning apparatus according to claim 1, wherein: brush group (3) are including back brush (301) and preceding brush (302), the top of back brush (301) and preceding brush (302) is all installed at frame (1) top through third bolster bearing housing (304), the bottom of back brush (301) and preceding brush (302) is all installed in frame (1) bottom through third step bearing housing (303), fourth upper cog (306) is installed at the top of back brush (301), the third upper cog (305) with fourth upper cog (306) meshing is installed to the upper end of preceding brush (302), fourth upper cog (306) is driven by brush motor (307).

7. The vertical glass cleaning apparatus according to claim 1, wherein: air-dry conveying system (5) including respectively fixed mounting in frame (1) around preceding back frame (503) and back frame (502) of both sides to and air-dry conveying roller group (501) of fixed mounting in frame (1) bottom, air-dry conveying roller group (501) is including fixed mounting fixed cross beam (505) on frame (1), fixed cross beam (505) are gone up to lead to fixed bearing frame (506) and are installed a plurality of transport axles, carry the first end of axle to install and carry rubber covered roller (504), first sprocket (507) is installed to the second end.

8. The vertical glass cleaning apparatus according to claim 7, wherein: and a baffle (508) is also arranged on the fixed cross beam (505).

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