CN210546904U

CN210546904U - Glass cleaning machine

Info

Publication number: CN210546904U
Application number: CN201921157982.XU
Authority: CN
Inventors: 李国栋; 任忠实; 任乾硕
Original assignee: SHENYANG LIAOHE SPECIAL GLASS FACTORY
Current assignee: SHENYANG LIAOHE SPECIAL GLASS FACTORY
Priority date: 2019-07-23
Filing date: 2019-07-23
Publication date: 2020-05-19
Anticipated expiration: 2029-07-23

Abstract

The utility model relates to the technical field of glass cleaning machines, in particular to a glass cleaning machine, the top surface of a conveying roller is used for conveying glass, and two air knife assemblies are respectively arranged on two sides of the conveying direction of a rack; the air outlet of the air exhaust nozzle assembly is in a long strip shape, and the air outlet of the air exhaust assembly inclines towards the glass conveying and entering direction; the length of an exhaust hole of one of the exhaust nozzle assemblies exceeds the center line of the conveying direction of the conveying roller, and the horizontal extending direction of the exhaust hole forms an acute angle with the conveying direction of the glass; the length of an air exhaust hole of the other air exhaust nozzle component exceeds the center line of the conveying direction of the conveying roller, the horizontal extension direction of the air exhaust hole forms an acute angle with the conveying direction of the glass, and the tail sections of the two air exhaust nozzle components are staggered front and back; the air exhaust holes of the two air exhaust nozzle assemblies blow water drops on the surface of the glass to the two sides of the conveying roller for conveying the glass. The glass cleaning machine can clean water drops on the surface of glass at one time.

Description

Glass cleaning machine

Technical Field

The utility model relates to a glass cleaning machine technical field, especially an equipment that relates to tectorial membrane glass surface cleaning.

Background

The glass cleaning machine is mechanical equipment specially used for cleaning glass, the traditional glass cleaning machine is provided with a cleaning channel, an air knife perpendicular to the cleaning channel is arranged in the cleaning channel, the length of the air knife is matched with the width of the cleaning channel, and the air knife is used for cleaning the glass by supplying wind power through an air inlet pipeline through a fan.

The glass cleaning machine in the prior art mostly adopts a vertical air duct design and a vertical air knife, the air outlet direction of the air knife is perpendicular to the glass, and water beads on the glass are blown away and then are cleaned through a subsequent device, so that the subsequent glass surface is conveniently coated with a film and glued.

The air knife of the glass cleaning machine in the prior art has high power, so that water drops can be blown away, and meanwhile, subsequent cleaning is needed, and the process is complicated.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a glass cleaning machine, its clearance that can disposable completion glass surface drop of water.

In order to achieve the above object, the utility model adopts the following technical scheme:

a glass cleaning machine comprises a frame, a plurality of conveying rollers and two air knife assemblies, wherein the conveying rollers are arranged on the top surface of the frame, the top surfaces of the conveying rollers are positioned on the same plane surface, the top surfaces of the conveying rollers are used for conveying glass, and the two air knife assemblies are respectively arranged on two side surfaces of the frame in the conveying direction;

the air knife assembly comprises a base, a rotating shaft, a supporting frame and an air exhaust nozzle assembly, wherein the base is arranged on the side face of the conveying direction of the rack, the rotating shaft is rotatably arranged on the base, the horizontal position of the upper end of the rotating shaft is higher than the top surface of the conveying roller, the supporting frame is arranged on the rotating shaft, the supporting frame horizontally extends to the upper part of the conveying roller, an air exhaust hole of the air exhaust nozzle assembly is long-strip-shaped, and the air exhaust hole of the air exhaust assembly inclines towards the glass conveying entering direction; the length of an exhaust hole of one of the exhaust nozzle assemblies exceeds the center line of the conveying direction of the conveying roller, and the horizontal extending direction of the exhaust hole forms an acute angle with the conveying direction of the glass; the length of an air exhaust hole of the other air exhaust nozzle component exceeds the center line of the conveying direction of the conveying roller, the horizontal extension direction of the air exhaust hole forms an acute angle with the conveying direction of the glass, and the tail sections of the two air exhaust nozzle components are staggered front and back;

the air exhaust holes of the two air exhaust nozzle assemblies blow water drops on the surface of the glass to two sides of the conveying roller for conveying the glass.

Preferably, the rotating shaft is provided with a guide rail, the guide rail is provided with a sliding block, one end of the support frame is connected to the sliding block, and the support frame and the air exhaust nozzle assembly can slide up and down through the sliding block so as to adjust the distance between the air exhaust hole and the surface of the glass.

Preferably, the rotary shaft is provided with an air supply pipe for supplying a pressure gas to the discharge nozzle assembly, the discharge nozzle assembly includes a connection pipe and a discharge end, the support frame is tubular, and the discharge end is connected to the air supply pipe in the rotary shaft through the support frame and a hollow tail portion in the connection.

Preferably, the air exhaust tail end is triangular, the top gathering end of the air exhaust tail end is in butt joint with the lower end of the connecting pipe, and the lower end of the air exhaust tail end is a strip-shaped air exhaust hole.

Preferably, the middle part of the tail end of the air exhaust is provided with a plurality of air guide columns which are horizontally arranged, so that the pressure of the pressure air exhausted from the air exhaust port is uniform.

Preferably, the middle part of the tail end of the air exhaust is provided with a plurality of air deflectors which are horizontally arranged, so that the pressure of the pressure air exhausted from the air exhaust port is uniform.

Preferably, the air deflector has an arc-shaped structure, the air deflector is a curved plate, the extending direction of the air deflector main body is the pressure gas conveying direction, and the lower end of the air deflector is bent inwards.

Preferably, the exhaust end comprises an exhaust end middle section and an exhaust end tail section, wherein the thickness of the exhaust end middle section is greater than that of the exhaust end tail section, so as to buffer and evenly divide the exhaust pressure of the exhaust end tail section.

Use the utility model discloses a beneficial effect is:

the terminal angle optimization that sets up of airing exhaust in this air exhaust nozzle subassembly for the drop of water on glass surface blows to conveying roller direction of delivery's both sides through two tail ends of airing exhaust according to car rain-proof principle, makes glass surface clean dry, and convenient follow-up tectorial membrane process goes on.

This glass cleaning machine will air exhaust terminal inside and set up air guide post or aviation baffle through optimizing the terminal structure of airing exhaust, perhaps in the terminal middle section thickness of airing exhaust great for pressurized air can evenly blow to the glass surface in the exhaust hole, makes the glass surface can not appear the drop of water gathering.

Drawings

Fig. 1 is a schematic view of the top view structure of the glass cleaning machine of the present invention.

Fig. 2 is a schematic side view of the glass cleaning machine of the present invention.

Fig. 3 is the schematic view of the angle of the air knife of the glass cleaning machine of the present invention.

Fig. 4 is a schematic structural view of an exhaust nozzle in a first embodiment of the glass cleaning machine of the present invention.

Fig. 5 is a schematic structural view of an exhaust nozzle in a second embodiment of the glass cleaning machine of the present invention.

Fig. 6 is a schematic structural view of an exhaust nozzle in a third embodiment of the glass cleaning machine of the present invention.

Fig. 7 is a schematic side view of an exhaust nozzle in a third embodiment of the glass cleaning machine of the present invention.

The reference numerals include:

100-a frame, 200-a conveying roller, 300-a wind knife component, 310-a base, 320-a rotating shaft, 330-a sliding block, 340-a supporting frame, 350-an exhaust nozzle component, 350A-a first exhaust nozzle, 350B-a second exhaust nozzle, 351-a connecting pipe, 352-an exhaust tail end, 353-an air guide column, 354-an air deflector, 3521-an exhaust tail end middle section and 3522-an exhaust tail end section.

Detailed Description

In order to make the purpose, technical solution and advantages of the present technical solution more clear, the present technical solution is further described in detail below with reference to specific embodiments. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present teachings.

As shown in fig. 1-4, the present embodiment provides a glass cleaning machine, which includes a frame 100, a plurality of conveying rollers 200, and two air knife assemblies 300, wherein the conveying rollers 200 are disposed on a top surface of the frame 100, the top surfaces of the conveying rollers 200 are located on a same plane, the top surfaces of the conveying rollers 200 are used for conveying glass, and the two air knife assemblies 300 are disposed on two side surfaces of the frame 100 in a conveying direction respectively; the air knife assembly 300 comprises a base 310, a rotating shaft 320, a supporting frame 340 and an air exhaust nozzle assembly 350, wherein the base 310 is arranged on the side face of the rack 100 in the conveying direction, the rotating shaft 320 is rotatably arranged on the base 310, the horizontal position of the upper end of the rotating shaft 320 is higher than the top surface of the conveying roller 200, the supporting frame 340 is arranged on the rotating shaft 320, the supporting frame 340 horizontally extends to the upper part of the conveying roller 200, an air exhaust hole of the air exhaust nozzle assembly 350 is long, and the air exhaust hole of the air exhaust assembly inclines towards the glass conveying entering direction; the length of the air exhaust hole of one of the air exhaust nozzle assemblies 350 exceeds the center line of the conveying direction of the conveying roller 200, and the horizontal extending direction of the air exhaust hole forms an acute angle with the conveying direction of the glass; the length of the air exhaust hole of the other air exhaust nozzle assembly 350 exceeds the center line of the conveying direction of the conveying roller 200, the horizontal extending direction of the air exhaust hole forms an acute angle with the conveying direction of the glass, and the tail sections of the two air exhaust nozzle assemblies 350 are staggered front and back; the exhaust holes of the two exhaust nozzle assemblies 350 blow the water droplets on the surface of the glass to both sides of the conveying roller 200 for conveying the glass.

Specifically, after the glass enters the conveying roller 200, the glass is conveyed backwards by the conveying roller 200, as shown in fig. 2 and 3, the length of an exhaust hole of one exhaust nozzle assembly 350, namely the first exhaust nozzle 350A, exceeds the center line of the conveying direction of the conveying roller 200, and the horizontal extending direction of the exhaust hole forms an acute angle with the conveying direction of the glass; similarly, the length of the exhaust hole of the other exhaust nozzle assembly 350, i.e., the second exhaust nozzle 350B, exceeds the center line of the conveying direction of the conveying roller 200, and the horizontal extension direction of the exhaust hole forms an acute angle with the glass conveying direction. Also shown in fig. 3, the ends of the two exhaust nozzle assemblies 350 are offset back and forth. The beads on the glass surface are matched through the first air exhaust nozzle 350A and the second air exhaust nozzle 350B to form the effect similar to an automobile glass windscreen wiper, so that the beads are gathered and flow towards the side of the conveying roller 200.

Preferably, the rotating shaft 320 is provided with a guide rail, the guide rail is provided with a sliding block 330, one end of the supporting frame 340 is connected to the sliding block 330, and the supporting frame 340 and the air discharging nozzle assembly 350 can slide up and down through the sliding block 330 to adjust the distance between the air discharging hole and the glass surface.

The rotary shaft 320 is provided with an air supply pipe for supplying pressure air to the exhaust nozzle assembly 350, the exhaust nozzle assembly 350 comprises a connecting pipe 351 and an exhaust tail end 352, the supporting frame 340 is tubular, the exhaust tail end 352 is connected with the air supply pipe in the rotary shaft 320 through the supporting frame 340 and a hollow tail part in the connection, the rotary shaft can be moved away through manual operation or motor driving under special conditions, and the rotary shaft 320 and the connecting pipe 351 play a role in supporting and supplying pressure air, so that the structure is more compact.

The air exhaust tail end 352 is triangular, the top gathering end of the air exhaust tail end 352 is in butt joint with the lower end of the connecting pipe 351, and the lower end of the air exhaust tail end 352 is a strip-shaped air exhaust hole.

In this embodiment, a plurality of air guiding columns 353 horizontally disposed are disposed in the middle of the air exhaust end 352 to make the pressure of the air exhausted from the air outlet uniform.

In this embodiment, the distance between the air vent and the glass surface should be controlled to be 15mm to 25mm, which is determined according to the air pressure at the air vent.

Example 2

The glass washer in this embodiment is similar in structure and principle to the glass washer in embodiment 1, and the difference is the difference in the air guide structure inside the air discharge end 352.

As shown in fig. 5, a plurality of air deflectors 354 are horizontally disposed in the middle of the exhaust end 352 to make the pressure of the air discharged from the exhaust outlet uniform. The air guiding plate 354 is an arc-shaped structure, the air guiding plate 354 is a curved plate, the extending direction of the main body of the air guiding plate 354 is the pressure gas conveying direction, and the lower end of the air guiding plate 354 is bent inwards. Through fluid mechanics optimization, the air guide plate 354 can play a role in guiding air, and the air output pressure at the exhaust tail end 352 is unchanged.

Example 3

As shown in fig. 6 and 7, the discharge tip 352 includes a discharge tip middle section 3521 and a discharge tip end section 3522, wherein the thickness of the discharge tip middle section 3521 is greater than the thickness of the discharge tip end section 3522 to buffer and equally distribute the discharge pressure to the discharge tip end section 3522. In this embodiment, the middle exhaust end section 3521 is a spherical structure.

The tail end 352 of airing exhaust in this air exhaust nozzle assembly 350 sets up the angle optimization for according to car rain-shield principle, make the drop of water on glass surface blow to conveying roller 200 direction of delivery's both sides through two tail ends 352 of airing exhaust, make glass surface clean dry, make things convenient for follow-up tectorial membrane process to go on.

According to the glass cleaning machine, by optimizing the structure of the exhaust tail end 352, the air guide column 353 or the air guide plate 354 is arranged inside the exhaust tail end 352, or the thickness of the middle section 3521 of the exhaust tail end is large, so that pressure air can be uniformly blown to the surface of glass in the air exhaust hole, and water drops cannot be gathered on the surface of the glass.

The foregoing is only a preferred embodiment of the present invention, and many variations can be made in the specific embodiments and applications of the present invention by those skilled in the art without departing from the spirit of the present invention.

Claims

1. The utility model provides a glass cleaning machine which characterized in that: the glass conveying device comprises a rack, a plurality of conveying rollers and two air knife assemblies, wherein the conveying rollers are arranged on the top surface of the rack, the top surfaces of the conveying rollers are positioned on the same plane surface, the top surfaces of the conveying rollers are used for conveying glass, and the two air knife assemblies are respectively arranged on two side surfaces of the rack in the conveying direction;

2. The glass cleaning machine of claim 1, wherein: the glass exhaust device is characterized in that a guide rail is arranged on the rotating shaft, a sliding block is arranged on the guide rail, one end of the support frame is connected to the sliding block, and the support frame and the exhaust nozzle assembly can slide up and down through the sliding block to adjust the distance between the exhaust hole and the surface of the glass.

3. The glass cleaning machine of claim 1, wherein: the rotary shaft is internally provided with an air supply pipe used for supplying pressure air to the air exhaust nozzle assembly, the air exhaust nozzle assembly comprises a connecting pipe and an air exhaust tail end, the supporting frame is tubular, and the air exhaust tail end is connected with the air supply pipe in the rotary shaft through the supporting frame and a hollow tail part in the connection.

4. The glass cleaning machine of claim 3, wherein: the air exhaust tail end is triangular, the top gathering end of the air exhaust tail end is in butt joint with the lower end of the connecting pipe, and the lower end of the air exhaust tail end is a strip-shaped air exhaust hole.

5. The glass cleaning machine of claim 4, wherein: the middle part of the exhaust tail end is provided with a plurality of air guide columns which are horizontally arranged so that the pressure of the pressure gas exhausted from the exhaust outlet is uniform.

6. The glass cleaning machine of claim 4, wherein: the middle part of the exhaust tail end is provided with a plurality of air deflectors which are horizontally arranged, so that the pressure of the pressure gas exhausted from the exhaust outlet is uniform.

7. The glass cleaning machine of claim 6, wherein: the air deflector is of an arc-shaped structure, the air deflector is a bent plate, the extension direction of the air deflector main body is the pressure gas conveying direction, and the lower end of the air deflector is bent inwards.

8. The glass cleaning machine of claim 4, wherein: the exhaust tail end comprises an exhaust tail end middle section and an exhaust tail end, wherein the thickness of the exhaust tail end middle section is larger than that of the exhaust tail end, so that exhaust pressure of the exhaust tail end is buffered and evenly divided.