CN218811416U - Spraying workstation of glass bottle sample - Google Patents

Abstract

The utility model relates to a technical field of glass bottle processing, in particular to spraying workstation of glass bottle sample, including workstation, spraying subassembly and set up the spray gun on the workstation, spraying subassembly includes location axle and fixed mounting base on the workstation, and the one end fixedly connected with of location axle is with the thimble of axle center, and the other end fixedly connected with swivel becket of location axle has been seted up on the base and has been rotated the groove, and the swivel becket rotates and sets up in rotating the inslot, still is provided with the spray gun on the workstation. Through setting up the location axle that can rotate, the glass bottle sample cover that will spray paint is located the location epaxially to make the bottleneck support tightly in the periphery lateral wall of location axle, rotate the location axle, the location axle drives the swivel becket by rotating the inslot internal rotation, the handheld spray gun of staff carries out the spraying to the bottle face of glass bottle this moment, and at this in-process, the staff need not to touch the bottle face of glass bottle, avoids the touching to the glass bottle, effectively improves the spraying effect of glass bottle sample.

Description

Spraying workstation of glass bottle sample

Technical Field

The application relates to the technical field of glass bottle processing, in particular to a spraying workbench for glass bottle samples.

Background

Glass bottles are frequently used packaging containers, and glass is also a historical packaging material. Under the condition that a plurality of packaging materials are introduced into the market, glass containers still occupy an important position, colors or letters are sprayed on the surfaces of some glass bottles, and the grade of the glass bottles is determined by the quality of the spraying process.

Generally, a sample is required to be manufactured before a large amount of glass bottles are sprayed and produced, and then the glass bottles are sprayed in a large amount after the sample is confirmed, so that waste is reduced.

At present, in the spraying process of a glass bottle sample, because the amount of the glass bottle sample is small, the glass bottle is usually manually held or sleeved on a support shaft for spraying operation, but in the manual spraying process, the glass bottle can be rotated in order to ensure the spraying effect of the glass bottle, the glass bottle can rub the sprayed position in the manual rotating process of a worker to influence the spraying effect, and the stability of the spraying bottle placed on the support shaft is poor in order to ensure that the spraying bottle is easy to rotate, so that the quality of the spraying bottle is affected differently in the spraying process.

SUMMERY OF THE UTILITY MODEL

In order to improve the spraying effect of glass bottle sample, this application provides a spraying workstation of glass bottle sample.

The utility model provides a spraying workstation of glass bottle sample, includes workstation, spraying assembly and sets up the spray gun on the workstation, spraying assembly includes location axle and the base of fixed mounting on the workstation, the thimble with the axle center of the one end fixedly connected with of location axle, the other end fixedly connected with swivel becket of location axle, the rotation groove has been seted up on the base, the swivel becket rotates and sets up in rotating the inslot, still be provided with the spray gun on the workstation.

Through adopting above-mentioned technical scheme, during the use, the staff will need to carry out the glass bottle sample cover that sprays paint and locate on the location axle to make the thimble top in the glass bottle sample bottom surface. Then, according to the size of the bottle mouth of the glass bottle sample, cotton cloth can be wound on the positioning shaft, so that the bottle mouth is tightly abutted against the peripheral side wall of the positioning shaft, and the stability of the glass bottle sample in the rotating process is guaranteed. After the glass bottle is fixed, the staff rotates the location axle, and the location axle drives the swivel becket by rotating the inslot internal rotation, and the handheld spray gun of staff carries out the spraying to the bottle face of glass bottle this moment, and at this in-process, the staff need not to touch the bottle face of glass bottle to this avoids the touching of glass bottle, has effectively improved the spraying effect of glass bottle sample.

In some embodiments, the spray assembly further comprises a conical sleeve, the conical sleeve is connected to the positioning shaft in a threaded mode, the conical sleeve is movably arranged along the axial direction of the positioning shaft, and the diameter of one end, facing the thimble, of the conical sleeve is smaller than that of the other end of the conical sleeve.

Through adopting above-mentioned technical scheme, during the use, when the staff locates the location epaxial time with glass bottle sample cover, with the bottleneck butt of glass bottle on the periphery lateral wall of taper sleeve, before the process once more, the staff twines the cotton on with the periphery lateral wall of taper sleeve to the staff adjusts the position of taper sleeve according to the bottle height of glass bottle, can support tightly on the periphery lateral wall of taper sleeve with this guarantee glass's bottleneck.

In some embodiments, the spraying component comprises a boss installed on the workbench, a clamping groove for clamping the base is formed in the upper portion of the boss, a rectangular groove is formed in the side wall of the boss, a square groove opposite to the rectangular groove is formed in the base, a rectangular block is arranged on the boss, and the rectangular block penetrates through the rectangular groove and is inserted into the square groove.

Through adopting above-mentioned technical scheme, during the installation, the staff locates the base card in the draw-in groove to align square groove and rectangular channel each other, then insert the rectangular block by the outside in proper order and locate rectangular channel and square inslot, accomplish the fixed to the base with this, and the change of convenient location axle.

In some embodiments, the spray assembly includes a bracket mounted on the table, the bracket defining a channel for receiving a spray gun.

Through adopting above-mentioned technical scheme, the staff uses the spray gun to place it in the caulking groove of support after to this realization is to the fixed of spray gun, thereby reduces the spray gun and places at will after the use and lead to the condition that the hydrojet flows.

In some embodiments, the worktable is provided with a waste liquid cavity, and a notch of the waste liquid cavity faces to the positioning shaft.

Through adopting above-mentioned technical scheme, during the use, the staff is when to glass bottle sample spraying lacquer liquid, with the notch of the hydrojet direction orientation waste liquid chamber of spray gun to this collection to the waste liquid is realized, reduces the pollution to operational environment.

In some embodiments, the workbench is provided with an air outlet, the air outlet is provided with an air exhaust fan, and an air inlet of the air exhaust fan faces the waste liquid cavity.

Through adopting above-mentioned technical scheme, during the use, the air discharge fan is opened to the staff, and the air discharge fan realizes the air conversion of waste liquid intracavity through the air of extraction waste liquid intracavity to this pollution to the operational environment air of waste liquid intracavity because of the increase of waste liquid is reduced.

In some embodiments, the working table is provided with a fluorescent tube with the illumination direction facing to the positioning shaft.

Through adopting above-mentioned technical scheme, during the use, the staff utilizes fluorescent tube's light can better discover the defect of glass bottle sample in the paint spraying process at the paint spraying in-process.

In some embodiments, the work table is provided with a plurality of work tables arranged side by side.

By adopting the technical scheme, during use, a plurality of workers can color and spray paint on the same batch of glass bottle samples.

In summary, the present application includes at least one of the following beneficial technical effects:

1. this scheme is through setting up the location axle that can rotate, and the glass bottle sample cover that will spray paint is located the location epaxially to make the bottleneck support tightly in the periphery lateral wall of location axle, rotate the location axle, the location axle drives the swivel becket by rotating the inslot internal rotation, the handheld spray gun of staff carries out the spraying to the bottle face of glass bottle this moment, and at this in-process, the staff need not to touch the bottle face of glass bottle, avoids the touching to the glass bottle, effectively improves the spraying effect of glass bottle sample.

2. This scheme is through setting up the taper sleeve that can follow its axial and adjust on the location axle, and the staff can make glass's bottleneck support tightly on the periphery lateral wall of taper sleeve according to the high position of adjusting the taper sleeve of bottle of glass bottle to this guarantee glass bottle sample rotates the stability of in-process.

Drawings

FIG. 1 is a schematic diagram of the overall structure in an embodiment of the present application;

FIG. 2 is a schematic structural view of a spray assembly in an embodiment of the present application;

FIG. 3 is a schematic view of the internal structure of a spray assembly in an embodiment of the present application;

FIG. 4 is a schematic view of the structure of the spray gun assembly in the embodiment of the present application.

Description of reference numerals: 100. a work table; 110. a working surface; 120. a waste fluid chamber; 130. a fluorescent tube; 140. an exhaust fan; 200. a spray assembly; 210. positioning the shaft; 220. a thimble; 230. a conical sleeve; 240. a base; 241. accommodating grooves; 242. a rotating groove; 243. a square groove; 250. a collar; 260. a boss; 261. a rectangular groove; 270. a rectangular block; 271. a card slot; 280. a rotating ring; 300. a spray gun assembly; 310. a support; 320. a spray gun; 330. and (4) caulking grooves.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses spraying workstation of glass bottle sample.

Referring to fig. 1, a spray coating station for glass bottle samples includes a plurality of stations 100 arranged side by side, a spray coating assembly 200 mounted on each station 100, and a spray gun assembly 300 arranged on each station 100. One side of the worktable 100 is provided with a working surface 110 parallel to the bottom surface, and the working surface 110 and the vertical side surface in front of the worktable 100 are provided with inclined surfaces. Both the spray assembly 200 and the spray gun assembly 300 are mounted on the work surface 110.

In the embodiment of the present application, three work tables 100 are provided, and the three work tables 100 are sequentially disposed close to each other.

Referring to fig. 1, a waste liquid chamber 120 for collecting the spraying waste liquid is opened inside the workbench 100, and the waste liquid chamber 120 is provided with a notch which is arranged on the front surface of the workbench 100 and above the working surface 110 and faces the spraying assembly 200 and the spray gun assembly 300. The workbench 100 is further provided with an air outlet, the air outlet is arranged at the rear side of the workbench 100, namely, the side opposite to the notch, and the notch and the air outlet are arranged in a staggered manner. An exhaust fan 140 for ventilation is further installed on the table 100, and the exhaust fan 140 is installed at the exhaust port.

The fluorescent tube 130 is also installed on the work table 100 for enhancing brightness, the fluorescent tube 130 is fixedly installed on the front surface of the work table 100, the fluorescent tube 130 is located above the notch, and the illumination direction of the fluorescent tube 130 faces to the work surface 110 of the work table 100.

Referring to fig. 2 and 3, the spray assembly 200 includes a positioning shaft 210, a base 240, and a boss 260, the positioning shaft 210 is detachably coupled to the base 240, and an axial direction of the positioning shaft 210 is perpendicular to the base 240. And the base 240 is arranged in a cylinder, that is, when the positioning shaft 210 is installed on the base 240, the base 240 and the positioning shaft 210 are arranged coaxially.

The boss 260 is a square column and is fixedly connected to the working surface 110, the boss 260 is provided with a clamping groove 271 with an opening located at the upper portion, the side wall of the boss 260 penetrates through the boss and is provided with a rectangular groove 261, and the rectangular groove 261 is communicated with the clamping groove 271. The base 240 is formed with a rectangular groove 243 opposite to the rectangular groove 261.

Referring to fig. 2 and 3, the spray assembly 200 further includes a rectangular block 270 for inserting the rectangular groove 261 and the square groove 243. During installation, the base 240 is inserted into the slot 271, and the base 240 is rotated to align the rectangular slot 261 and the square slot 243. Then, the rectangular block 270 passes through the rectangular groove 261, the square groove 243 and the rectangular groove 261 in sequence from the outside, thereby achieving the fixation between the base 240 and the boss 260. When the connecting piece is detached, the rectangular block 270 is ejected out of the square groove 243 from one side of the rectangular groove 261, so that the connection between the boss 260 and the base 240 can be realized.

Referring to fig. 2 and 3, the spray assembly 200 further includes a collar 250 and a rotating ring 280, the base 240 defines a rotating groove 242 with an opening facing away from the boss 260, and the base 240 further defines a receiving groove 241 with an opening facing away from the boss 260. The receiving groove 241 is coaxially disposed with the rotating groove 242, the diameter of the receiving groove 241 is larger than that of the rotating groove 242, and the bottom of the receiving groove 241 is farther away from the boss 260 relative to the bottom of the rotating groove 242.

The rotating ring 280 is fixedly connected to the bottom end of the positioning shaft 210, and is coaxially and fixedly connected with each other. During installation, the rotating ring 280 is sleeved on the positioning shaft 210, and then the rotating ring 280 is placed in the rotating groove 242 and adjusted to rotate conveniently. Meanwhile, the rotating ring 280 is clamped in the receiving groove 241 and then used for screwing a screw with the base 240. And in the process, the flexibility of the positioning shaft 210 to rotate the rotating ring 280 in the rotating groove 242 is adjusted.

Referring to fig. 2 and 3, the spray assembly 200 further includes a thimble 220 and a tapered sleeve 230, the thimble 220 is fixedly connected to an end of the positioning shaft 210 far away from the rotating ring 280 and is coaxially welded. The positioning shaft 210 has a thread groove formed in a peripheral sidewall thereof, and the thread groove is formed along an axial direction of the positioning shaft 210. The tapered sleeve 230 is threaded onto the positioning shaft 210, and the outer diameter of the end of the tapered sleeve 230 facing the thimble 220 is smaller than the outer diameter of the end of the tapered sleeve 230 facing the rotating ring 280.

When the glass bottle sample is sleeved on the positioning shaft 210 through one end of the thimble 220, the position of the conical sleeve 230 can be adjusted along the axial direction of the positioning shaft 210 according to the position of the bottle mouth of the glass bottle sample by spraying, and cotton cloth is wound on the peripheral side wall of the conical sleeve 230 to ensure the connectivity between the conical sleeve 230 and the bottle mouth of the glass bottle sample.

Referring to fig. 1 and 4, the spray gun assembly 300 includes a spray gun 320 connected to a spray fluid and a holder 310 for holding the spray gun 320. The bracket 310 is fixedly connected to the working surface 110 of the working table 100, and a recessed groove 330 for placing the spray gun 320 is formed in one side of the bracket 310, and the spray gun 320 is placed in the recessed groove 330.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a spraying workstation of glass bottle sample which characterized in that: including workstation (100), spray assembly (200) and set up spray gun (320) on workstation (100), spray assembly (200) is including location axle (210) and base (240) of fixed mounting on workstation (100), the one end fixedly connected with of location axle (210) is with thimble (220) of axle center, the other end fixedly connected with swivel becket (280) of location axle (210), rotating groove (242) have been seted up on base (240), swivel becket (280) rotate to set up in rotating groove (242), still be provided with spray gun (320) on workstation (100).

2. A spray workstation for glass bottle samples as in claim 1 wherein: the spraying assembly (200) further comprises a conical sleeve (230), the conical sleeve (230) is in threaded connection with the positioning shaft (210), the conical sleeve (230) is movably arranged along the axial direction of the positioning shaft (210), and the diameter of one end, facing the ejector pin (220), of the conical sleeve (230) is smaller than that of the other end of the conical sleeve (230).

3. A spray workstation for glass bottle samples as in claim 2 wherein: spraying subassembly (200) is including installing boss (260) on workstation (100), draw-in groove (271) that supply base (240) card to establish are seted up on boss (260) upper portion, rectangular channel (261) have been seted up to the lateral wall of boss (260), base (240) are last to be seted up with rectangular channel (261) relative square groove (243), be provided with rectangular block (270) on boss (260), rectangular block (270) pass rectangular channel (261) and insert and locate in square groove (243).

4. A spray station for glass bottle samples as set forth in claim 1, characterized in that: the spraying assembly (200) comprises a support (310) installed on the workbench (100), and a caulking groove (330) used for placing the spray gun (320) is formed in the support (310).

5. A spray workstation for glass bottle samples as in claim 1 wherein: the workbench (100) is provided with a waste liquid cavity (120), and a notch of the waste liquid cavity (120) faces to the positioning shaft (210).

6. A spray workstation for glass bottle samples as in claim 5 wherein: the air outlet is formed in the workbench (100), the air outlet is provided with an air exhaust fan (140), and the air inlet of the air exhaust fan (140) faces to the waste liquid cavity (120).

7. A spray station for glass bottle samples as set forth in claim 1, characterized in that: the working table (100) is provided with a fluorescent tube (130) with the lighting direction facing to the positioning shaft (210).

8. A spray workstation for glass bottle samples as in claim 1 wherein: the workbench (100) is provided with a plurality of workbenches (100) which are arranged side by side.

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