CN211660301U - Glass bottle coating system - Google Patents

Abstract

The utility model discloses a glass bottle coating system, which relates to the field of coating machines and comprises a clamping disc, a central rotating shaft, a central motor, a spray head and a conveying line, wherein the spray head and the central motor are respectively positioned on the front and the back of the clamping disc; the clamping disc is evenly provided with a plurality of clamping devices along the circumferential direction, the clamping devices are rotatably installed in through holes in the clamping disc, the spray head is located on the motion track of the clamping devices, the conveying line is located below the front face of the clamping disc, and the clamping disc further comprises a pressing-in cylinder and a pushing-out cylinder. The glass bottle coating system of the utility model is provided with a plurality of rotatable clampers and turntables connected with the clampers, so that the spray head does not need to be adjusted during coating, and the siliconized bottles can be quickly and uniformly coated; the conveying line is matched with the pressing-in cylinder and the ejecting cylinder, so that the siliconizing bottles can be automatically loaded and unloaded, and the working efficiency is high.

Description

Glass bottle coating system

Technical Field

The utility model relates to a coating machine field, concretely relates to glass bottle coating system.

Background

Present coating machine, the structure is complicated, and it is inconvenient to treat coating film product dismouting, and the position control of shower nozzle needs electric control, structural very complicacy, and the spraying is inhomogeneous moreover, consequently at every turn the coating film is accomplished, all will clear up coating machine inner space, unusual trouble, coating liquid need dry solid cooling in certain time after the spraying in addition, and this time cycle is longer, and work efficiency can greatly reduced.

Disclosure of Invention

The utility model aims to overcome the problem of low working efficiency of film coating in the prior art and provide a glass bottle film coating system.

The utility model discloses a glass bottle coating system, including clamping disk, central pivot, central motor, shower nozzle, transfer chain, shower nozzle, central motor are located respectively the front of clamping disk, back, the clamping disk through central pivot with central motor is connected, by central motor drive the rotation of clamping disk; the utility model discloses a glass bottle conveying device, including centre gripping dish, conveyer belt, cylinder, ejecting cylinder, the conveyer belt is used for the glass bottle from the conveyer belt, the centre gripping dish evenly is provided with a plurality of holders along the circumferencial direction, the holder is rotationally installed in the through-hole on the centre gripping dish, the shower nozzle is located on the movement track of holder, the conveyer belt is located the positive bottom of centre gripping dish, still including impressing cylinder and ejecting cylinder, the cylinder of impressing is located the import of conveyer belt, ejecting cylinder is located the export of conveyer belt, the cylinder of impressing is used for impressing the glass bottle in the holder from the. The coating system is provided with a plurality of rotatable holders, the spray head does not need to be adjusted during coating, the structure is simple, the working efficiency is high, the holders can rotate during coating to enable the coating to be more uniform, and the coating system can automatically load and unload glass bottles such as silicification bottles through the matching of the conveying line and the press-in air cylinder and the ejection air cylinder, so that the working efficiency is improved.

Further, the cross section of the clamp holder is a circular ring, three clamping blocks are uniformly arranged along the circumferential direction of the clamp holder, the clamping blocks are installed in radial grooves of the clamp holder, and the free ends of the clamping blocks protrude out of the inner circular wall of the clamp holder; the clamping block is made of elastic materials, or the mounting end of the clamping block is connected to the outer circular wall of the clamping device through a spring. The clamp holder can conveniently clamp the silicification bottle, and is convenient to disassemble and assemble, compact in structure and reasonable in design.

Furthermore, the free end of the clamping block is provided with a smooth arc surface, so that the damage to the bottle body can be avoided when the siliconized bottle is contacted and clamped.

Furthermore, the glass bottle coating system also comprises rotary tables with the same number as the holders, the rotary tables are positioned on the back surfaces of the holding disks, the rotary tables are connected with the holders and are suspended outside the holding disks, and the outer edges of the rotary tables exceed the outer edges of the holding disks; the turntable is characterized by further comprising a friction wheel driven by a friction motor, when the turntable rotates to the position of the friction wheel, the outer circumference of the friction wheel is in contact with the outer circumference of the turntable, and the friction wheel drives the turntable to rotate. The coating system matches the friction wheel with the spray head, does not need to adjust the spray head, and can quickly and uniformly coat the film on the silicification bottle.

Furthermore, the friction wheel is arranged above the clamping disc, the spray head is opposite to the clamp holder located at the highest position of the clamping disc, when the clamp holder rotates to the highest position, the friction wheel drives the clamp holder at the highest position to rotate, meanwhile, the spray head sprays liquid into the silicification bottle, and the clamp holder rotates during spraying, so that the film coating is more uniform.

Furthermore, the turntable is sleeved on the outer circumference of the holder, so that the structure is simple and the arrangement is convenient.

Further, the number of the grippers is 5, and when the pressing-in air cylinder pushes the siliconized bottle into the grippers, the ejection air cylinder can eject the glass bottle coated with the film on the other gripper onto a conveying line.

Compared with the prior art, the glass bottle coating system of the utility model is provided with a plurality of rotatable clampers and turntables connected with the clampers, so that spray heads do not need to be adjusted during coating, and the siliconized bottles can be quickly and uniformly coated; the conveying line is matched with the pressing-in cylinder and the ejecting cylinder, so that the siliconizing bottles can be automatically loaded and unloaded, and the working efficiency is high. The clamp holder can conveniently clamp glass bottles such as silicification bottles and the like, and is convenient to disassemble and assemble, compact in structure and reasonable in design.

Drawings

FIG. 1 is a schematic perspective view of a glass bottle coating system;

FIG. 2 is a front view of a glass bottle coating system;

FIG. 3 is a left side view of the glass bottle coating system;

FIG. 4 is a top view of a glass bottle coating system;

FIG. 5 is a rear view of a glass bottle coating system;

FIG. 6 is a schematic view of the structure of the holder;

reference numerals: 1. the clamp comprises a clamp holder, 101 grooves, 102 clamping blocks, 103 springs;

2. the automatic feeding device comprises a spray head, a clamping disc 3, a friction wheel 4, a friction motor 5, a central rotating shaft 6, a central motor 7, an ejection cylinder 8, a conveying line 9, a press-in cylinder 10 and a rotary disc 11.

Detailed Description

The invention is further described with reference to the following examples and the accompanying drawings.

The glass bottle coating system shown in fig. 1 comprises a holder 1, a spray head 2, a holding disc 3, a friction wheel 4, a friction motor 5, a central rotating shaft 6, a central motor 7, an ejection cylinder 8, a conveying line 9 and a press-in cylinder 10. The clamping disc 3 is vertically arranged, the central motor 7 is positioned on the back of the clamping disc 3, the clamping disc 3 is connected with the central motor 7 through the central rotating shaft 6, and the central motor 7 drives the clamping disc 3 to rotate. Evenly be provided with 5 holders 1 along the circumferencial direction on grip disc 3, the contained angle of two adjacent holders 1 is 72 degrees, and holder 1 rotationally installs in the through-hole of grip disc 3. The spray head 2 is located on the motion track of the clamper 3, the spray head 2 is located on the top of the front surface of the clamping disc 3 in the embodiment and is opposite to one clamper 1, and the friction wheel 4 and the friction motor 5 are arranged above the clamping disc 3. The conveying line 9 is arranged at the bottom of the front face of the clamping disc 3, the ejecting cylinder 8 and the pressing cylinder 10 are respectively arranged on the back face and the front face of the clamping disc 3, the pressing cylinder 10 is located at the inlet of the conveying line 9, the ejecting cylinder 8 is located at the outlet of the conveying line 9, the pressing cylinder and the ejecting cylinder are located on the rotating path of the clamp and respectively face one clamp 1, the pressing cylinder pushes the glass bottles on the conveying line 9 into the clamp, and the ejecting cylinder pushes out the glass bottles in the clamp.

As shown in fig. 5, each gripper 1 is connected to a turntable 11, in this embodiment the turntable 11 is fitted over the outer circumference of the gripper 1. The turntable 11 is suspended on the back of the clamping disk 3, and the outer edge of the turntable 11 exceeds the outer edge of the clamping disk 3. The turntable 11 on the top of the clamping disc 3 is in contact with the friction wheel 4, and can drive the clamping device 1 to rotate together under the friction action of the friction wheel 4.

When the coating system works, the central motor 7 drives the clamping disc 3 to rotate, and the time is suspended for 1 to 3 seconds when the clamping disc rotates for 72 degrees. In the pause time, a piston rod of the pressing-in air cylinder 10 presses the silicification bottle to be coated into the clamper 1 from the conveying line 9; the friction wheel 4 rubs the rotary table 11 at the top of the clamping disc 3, so that the clamp 1 at the top of the clamping disc 3 and the siliconizing bottle are driven to rotate, the spray head 2 sprays coating materials into the siliconizing bottle, and the siliconizing bottle is coated with films; the piston rod of the ejection cylinder 8 ejects the coated siliconized bottles from the gripper 1 onto a conveyor line 9 for transport away. The utility model discloses set up 5 holders, when the cylinder of impressing impresses the holder with the silicification bottle, another holder reachs ejecting cylinder's front, and ejecting cylinder can push up the conveying line with the silicification bottle of having plated the membrane in another holder on, has improved work efficiency greatly. After the pause, the central motor 7 continues to drive the clamping disk 3 to rotate, and the next clamp 1 with the silicification bottle rotates to the top of the clamping disk 3 to complete the film coating in sequence.

As shown in fig. 6, the cross section of the holder 1 is a circular ring, 3 holding blocks 102 are uniformly arranged along the circumferential direction of the holder 1, and the holding blocks 102 are installed in radial grooves 101 of the holder 1. The mounting end of the clamping block 102 is connected to the outer circular wall of the clamp 1 by a spring 103, which acts as a buffer and clamp when pressing in the siliconized bottle, and the free end of the clamping block 102 protrudes out of the inner circular wall of the clamp 1 to form a clamping space. In other embodiments of the present invention, the clamping block 102 is made of an elastic material, and also has the function of cushioning and clamping the siliconized bottles. The free end of the clamping block 102 has a smooth arc surface, so that damage to the bottle body can be avoided when the siliconized bottle is contacted and clamped.

Claims (7)

1. A glass bottle coating system is characterized by comprising a clamping disc, a central rotating shaft, a central motor, a spray head and a conveying line, wherein the spray head and the central motor are respectively positioned on the front side and the back side of the clamping disc, the clamping disc is connected with the central motor through the central rotating shaft, and the central motor drives the clamping disc to rotate; the utility model discloses a glass bottle conveying device, including centre gripping dish, conveyer belt, cylinder, ejecting cylinder, the conveyer belt is used for the glass bottle from the conveyer belt, the centre gripping dish evenly is provided with a plurality of holders along the circumferencial direction, the holder is rotationally installed in the through-hole on the centre gripping dish, the shower nozzle is located on the movement track of holder, the conveyer belt is located the positive bottom of centre gripping dish, still including impressing cylinder and ejecting cylinder, the cylinder of impressing is located the import of conveyer belt, ejecting cylinder is located the export of conveyer belt, the cylinder of impressing is used for impressing the glass bottle in the holder from the.

2. A glass bottle coating system according to claim 1, wherein the cross section of the holder is a circular ring, three holding blocks are uniformly arranged along the circumference of the holder, the holding blocks are mounted in radial grooves of the holder, and free ends of the holding blocks protrude out of the inner circular wall of the holder; the clamping block is made of elastic materials, or the mounting end of the clamping block is connected to the outer circular wall of the clamping device through a spring.

3. The glass bottle coating system of claim 2, wherein the free end of the clamping block has a smooth arcuate surface.

4. The glass bottle coating system of claim 1, 2 or 3, further comprising a number of rotating discs equal to the number of holders, the rotating discs being located on the back of the holding discs, the rotating discs being connected to the holders and suspended outside the holding discs, the outer edges of the rotating discs extending beyond the outer edges of the holding discs; the turntable is characterized by further comprising a friction wheel driven by a friction motor, when the turntable rotates to the position of the friction wheel, the outer circumference of the friction wheel is in contact with the outer circumference of the turntable, and the friction wheel drives the turntable to rotate.

5. The glass bottle coating system of claim 4, wherein the friction wheel is disposed above the clamping disk, and the spray head faces the clamp at the highest position of the clamping disk.

6. The glass bottle coating system of claim 4, wherein the turntable is fitted over an outer circumference of the holder.

7. A vial coating system according to claim 1, 2 or 3, wherein the number of grippers is 5.

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