CN214235472U - Glass does not have trace and washs drying device - Google Patents

Abstract

The utility model discloses a glass traceless cleaning and drying device, which comprises a glass conveying mechanism, a glass cleaning device, a glass preliminary dewatering device, a glass deep dewatering device and a glass drying device, wherein the glass cleaning device, the glass preliminary dewatering device, the glass deep dewatering device and the glass drying device are sequentially arranged on the glass conveying mechanism along the conveying direction; the glass deep dewatering device comprises water absorbing sleeves and press rollers, wherein the water absorbing sleeves are respectively sleeved on one group of two rotary rollers which are opposite up and down of the glass conveying mechanism, the press rollers are arranged on the upper side and the lower side of the two water absorbing sleeves, and two ends of a roller shaft of each press roller are connected with driving mechanisms which can drive the two press rollers to move in the opposite direction and in the opposite direction.

Description

Glass does not have trace and washs drying device

Technical Field

The utility model relates to a glass production facility technical field, especially a glass does not have trace and washs drying device.

Background

The processing of general glass all needs to be through processing such as cutting, edging, chamfer, all needs to wash glass usually behind these processes, washes away some scraps, avoids glass surface fish tail, then waits glass to dry and carries out treatments such as tempering silk screen printing, but present general glass processing factory does not basically have special glass cleaning and drying device, has influenced glass's machining efficiency.

SUMMERY OF THE UTILITY MODEL

For solving the problem that exists among the prior art, the utility model provides a glass does not have trace and washs drying device.

The utility model adopts the technical proposal that:

a glass traceless cleaning and drying device comprises a glass conveying mechanism, a glass cleaning device, a glass primary dewatering device, a glass deep dewatering device and a glass drying device, wherein the glass cleaning device, the glass primary dewatering device, the glass deep dewatering device and the glass drying device are sequentially arranged on the glass conveying mechanism along the conveying direction; the glass deep dewatering device comprises water absorption sleeves which are respectively sleeved on one group of two rotary rollers which are opposite up and down in the glass conveying mechanism.

Preferably, the glass cleaning device comprises a shell arranged around the side wall of the glass conveying mechanism, the shell is provided with an inlet and an outlet for the glass conveying mechanism to pass in and out, a plurality of spray heads are uniformly distributed at the top and the bottom of the shell, and the spray heads are positioned between two adjacent rotating rollers in the horizontal direction of the glass conveying mechanism.

Preferably, the bottom wall of the shell extends towards one side of the glass deep water removal device from the outlet to form a water collecting tank, a water passing hole is formed between the side wall of the shell below the outlet and the bottom wall of the shell, the bottom wall of the shell is in a concave shape with a low middle and a high periphery, and the lowest part of the bottom wall of the shell is provided with a water discharging hole.

Preferably, the water purifying device further comprises a water purifying tank, the drain hole is connected to the top of the water purifying tank through a drain pipe, a filter plate is transversely arranged in the water purifying tank, a water outlet is formed in the bottom of the water purifying tank, and the water outlet is communicated with the spray heads through a water pump.

The utility model has the advantages that:

1. the cleaned glass is preliminarily dewatered by the scraper, after a large amount of water on the front surface and the back surface of the glass is scraped, the residual water is absorbed by the water absorption sleeve, so that the water absorption sleeve is prevented from absorbing too much water and being incapable of continuously exerting the water absorption effect, and the water mark on the surface of the dried glass is prevented by matching the scraper with the water absorption sleeve;

2. the scraper can not only scrape a large amount of moisture on the glass in advance, but also scrape impurities or sundries which are not washed away by the spray head;

3. the cleaning water is recycled and filtered through the water collecting tank, and water resources are saved.

Drawings

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

fig. 2 is a schematic bottom view of the driving mechanism in the embodiment of the present invention;

reference numerals: 10. glass conveying mechanism, 11, the roller, 20, glass belt cleaning device, 21, the casing, 22, the import, 23, the export, 24, the shower nozzle, 25, the water catch bowl, 26, the water hole of crossing, 27, the wash port, 30, the preliminary dewatering device of glass, 31, the scraper blade, 32, the torsional spring, 40, the glass degree of depth dewatering device, 41, the cover that absorbs water, 42, the compression roller, 43, driving motor, 44, the lead screw, 45, driven sprocket, 46, driving sprocket, 47, the chain, 50, glass drying device, 60, the water purification case, 61, the filter, 62, the water pump.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Examples

As shown in fig. 1, a glass traceless cleaning and drying device comprises a glass conveying mechanism 10, a glass cleaning device 20, a glass preliminary dewatering device 30, a glass deep dewatering device 40 and a glass drying device 50 which are sequentially arranged on the glass conveying mechanism 10 along a conveying direction, wherein the glass conveying mechanism 10 is a roller conveyor, the glass cleaning device 20 comprises a shell 21 which is arranged around the side wall of the glass conveying mechanism 10, the shell 21 is provided with an inlet 22 and an outlet 23 for the glass conveying mechanism 10 to enter and exit, the top and the bottom of the shell 21 are uniformly provided with a plurality of spray heads 24, the spray heads 24 are positioned between two adjacent rotating rollers 11 in the horizontal direction of the glass conveying mechanism 10, the glass preliminary dewatering device 30 comprises scraping plates 31 which are respectively arranged at the upper side and the lower side of the outlet 23 of the shell 21, one side of the scraping plates 31 facing the outlet 23 is connected with a torsion spring 32 between the outer side wall of the outlet 23, the scraper 31 is positioned between two adjacent rotating rollers 11 in the horizontal direction of the glass conveying mechanism 10; the deep water removing device 40 for glass comprises water absorbing sleeves 41 respectively sleeved on one group of two vertically opposite rotating rollers 11 of the glass conveying mechanism 10, and the water absorbing sleeves 41 can be one or a combination of absorbent cotton and sponge.

When the glass cleaning device is used, glass is conveyed towards the glass cleaning device 20, the glass primary dewatering device 30, the glass deep dewatering device 40 and the glass drying device 50 through the glass conveying mechanism 10, the glass firstly enters the shell 21 and is washed by the upper side spray heads 24 and the lower side spray heads 24 to remove impurities or sundries on the glass, the washed glass is scraped with water and impurities or sundries which are not washed away through the scraping plate 31 at the outlet 23 of the shell 21, the torsional spring 32 applies pressure to the inner side of the shell 21 through the scraping plate 31 to ensure that the scraping plate 31 is in contact with the glass, and therefore the scraping plate 31 can effectively scrape the water on the glass and the impurities or sundries which are not washed away. The glass treated by the scraper 31 enters between the two rotating rollers 11 sleeved with the water absorption sleeve 41, the water absorption sleeve 41 further absorbs a small amount of residual moisture on the glass, and finally the glass enters the glass drying device 50 for final drying treatment. The glass drying device 50 is a conventional device, and the installation manner and the operation principle thereof are well known to those skilled in the art, and are not described in detail herein.

The utility model discloses an utilize scraper blade 31 to handle glass after washing, not only can scrape impurity or debris that probably not washed away, ensure that glass is clean not miscellaneous, scraper blade 31 can scrape a large amount of moisture in advance moreover for water absorption cover 41 only need absorb a small amount of moisture that do not scrape can, reduced water absorption cover 41's the pressure of absorbing water, make water absorption cover 41 final water absorption effect more ideal.

In one embodiment, the glass deep water removing device 40 further includes pressing rollers 42 disposed on the upper and lower sides of the two water suction sleeves 41, and driving mechanisms for driving the pressing rollers 42 to move toward and away from each other are connected to two ends of a roller shaft of the pressing rollers 42.

After water absorption cover 41 worked a period, because its water content is higher and higher, its effect that absorbs water can reduce, the utility model discloses a set up compression roller 42 in two upper and lower both sides of water absorption cover 41, but timing actuating mechanism moves two compression rollers 42 in opposite directions and makes compression roller 42 and water absorption cover 41 sweep, rotates down to water absorption cover 41 and carries out extrusion dehydration to water absorption cover 41, can rotate the time of round or many rings according to water absorption cover 41 and back again by actuating mechanism drive pressure roller 42 with water absorption cover 41 separation can. It should be noted that the pressing roller 42 is not driven to press the glass while the water absorption jacket 41 is absorbing water to prevent the water squeezed from the water absorption jacket 41 from rewetting the glass.

In one embodiment, the driving mechanism comprises a driving motor 43 and lead screws 44 vertically arranged on two sides of the glass conveying mechanism 10 respectively, the upper part and the lower part of each lead screw 44 are provided with threads with opposite rotating directions respectively, two ends of a roller shaft of the compression roller 42 positioned on the upper side of the water suction sleeve 41 are connected with the threads on the upper parts of the lead screws 44 on the two sides respectively, two ends of the roller shaft of the compression roller 42 positioned on the lower side of the water suction sleeve 41 are connected with the threads on the lower parts of the lead screws 44 on the two sides respectively, the top part of each lead screw 44 is connected with a driven sprocket 45, an output shaft of the driving motor 43 is connected with a driving sprocket 46, and the driven sprocket 45 and the driving sprocket 46 are in transmission connection through a chain 47.

The driving device can drive the screw rod 44 through the driving motor 43, the screw rod 44 is respectively connected with the same side of the upper and lower compression rollers 42 through opposite threads, when the screw rod 44 rotates forwards or reversely, the two compression rollers 42 are driven to move in the opposite direction or in the opposite direction, the driving motor 43 is controlled to drive the screw rod 44 to rotate through the driving chain wheel 46 and the chain 47 and the driven chain wheel 45 according to the interval time of glass conveying, and the compression rollers 42 can move in the opposite direction or in the opposite direction as required.

In one embodiment, the bottom wall of the housing 21 extends towards the outlet 23 to form a water collecting tank 25 towards the glass deep water removing device 40, a water passing hole 26 is formed between the side wall of the housing 21 below the outlet 23 and the bottom wall of the housing 21, the bottom wall of the housing 21 is concave with a low middle and a high periphery, and a water discharging hole 27 is formed at the lowest part of the bottom wall of the housing 21.

For saving water resources and simultaneously preventing sewage from polluting the environment of a work area, water flowing down from the glass primary water removal device 30 and the glass deep water removal device 40 can be collected through the water collecting tank 25 and can be uniformly discharged and recovered through the water passing holes 26 and the water sprayed out from the spray head 24 through the water discharging holes 27.

In one embodiment, the water purifying device further comprises a water purifying tank 60, the water discharge hole 27 is connected to the top of the water purifying tank 60 through a water discharge pipe, a filter plate 61 is transversely arranged in the water purifying tank 60, and a water outlet is arranged at the bottom of the water purifying tank 60 and is communicated with each spray head 24 through a water pump 62.

The water discharged from the water discharge hole 27 enters the clean water tank 60, is filtered by the filter plate 61, and then is sprayed by the water pump 62 again through the spray head 24 for use until the purpose of saving water resources.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (5)

1. A traceless glass cleaning and drying device is characterized by comprising a glass conveying mechanism (10), a glass cleaning device (20), a glass primary dewatering device (30), a glass deep dewatering device (40) and a glass drying device (50) which are sequentially arranged on the glass conveying mechanism (10) along the conveying direction, the glass conveying mechanism (10) is a roller conveyor, the glass cleaning device (20) is provided with an inlet (22) and an outlet (23) for the glass conveying mechanism (10) to enter and exit, the glass primary dewatering device (30) comprises scrapers (31) which are respectively arranged on the upper side and the lower side of an outlet (23) of the shell (21), a torsion spring (32) is connected between one side of the scraper (31) facing the outlet (23) and the outer side wall of the outlet (23), the scraper (31) is positioned between two adjacent rotating rollers (11) in the horizontal direction of the glass conveying mechanism (10); the glass deep dewatering device (40) comprises water absorption sleeves (41) respectively sleeved on one group of two rotary rollers (11) which are opposite up and down in the glass conveying mechanism (10) and pressing rollers (42) arranged on the upper side and the lower side of the two water absorption sleeves (41), and two ends of a roller shaft of each pressing roller (42) are connected with driving mechanisms capable of driving the two pressing rollers (42) to move in the opposite direction and in the opposite direction.

2. The traceless cleaning and drying device for glass according to claim 1, wherein the driving mechanism comprises a driving motor (43) and screw rods (44) vertically arranged on two sides of the glass conveying mechanism (10), the upper part and the lower part of each screw rod (44) are respectively provided with threads with opposite rotating directions, two ends of a roller shaft of the compression roller (42) positioned on the upper side of the water suction sleeve (41) are respectively connected with the threads on the upper parts of the screw rods (44) on the two sides, two ends of the roller shaft of the compression roller (42) positioned on the lower side of the water suction sleeve (41) are respectively connected with the threads on the lower parts of the screw rods (44) on the two sides, the top of each screw rod (44) is connected with a driven sprocket (45), an output shaft of the driving motor (43) is connected with a driving sprocket (46), and the driven sprocket (45) and the driving sprocket (46) are in transmission connection through a chain (47).

3. The traceless glass cleaning and drying device according to claim 2, wherein the glass cleaning device (20) comprises a shell (21) arranged around the side wall of the glass conveying mechanism (10), the shell (21) is provided with an inlet (22) and an outlet (23) for the glass conveying mechanism (10) to enter and exit, a plurality of spray heads (24) are uniformly distributed at the top and the bottom of the shell (21), and the spray heads (24) are positioned between two adjacent rotating rollers (11) in the horizontal direction of the glass conveying mechanism (10).

4. The traceless cleaning and drying device for glass according to claim 3, wherein the bottom wall of the casing (21) extends towards the outlet (23) and towards the side of the glass deep water removing device (40) to form a water collecting tank (25), a water through hole (26) is formed between the side wall of the casing (21) below the outlet (23) and the bottom wall of the casing (21), the bottom wall of the casing (21) is concave with a low middle part and a high periphery, and the lowest part of the bottom wall of the casing (21) is provided with a water drainage hole (27).

5. The traceless glass cleaning and drying device according to claim 4, further comprising a water purification tank (60), wherein the drain hole (27) is connected to the top of the water purification tank (60) through a drain pipe, a filter plate (61) is transversely arranged in the water purification tank (60), a water outlet is arranged at the bottom of the water purification tank (60), and the water outlet is communicated with each spray head (24) through a water pump (62).

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