CN211075329U

CN211075329U - Duplex position glass sculpture structure

Info

Publication number: CN211075329U
Application number: CN201921170073.XU
Authority: CN
Inventors: 李平清
Original assignee: Dongguan Taisheng Glass Co Ltd
Current assignee: Dongguan Taisheng Glass Co Ltd
Priority date: 2019-07-24
Filing date: 2019-07-24
Publication date: 2020-07-24
Anticipated expiration: 2029-07-24

Abstract

The utility model provides a double-station glass engraving structure, which comprises a workbench, a portal frame, a station A, a station B and an engraving machine, wherein the portal frame is arranged across along the width direction of the workbench, and the station A and the station B are sequentially arranged on the workbench in parallel; a lifting seat structure is arranged on the portal frame, and the engraving machine is fixedly connected with the lifting seat structure; the station A and the station B are both provided with clamping structures, and the two sides of the portal frame, which are positioned on the lifting seat structure, are both provided with pressing structures. The material changing is carried out while the carving is realized, and the carving work is ensured to be carried out all the time, so that the processing time is saved, and the working efficiency is improved.

Description

Duplex position glass sculpture structure

Technical Field

The utility model relates to a glass deep-processing technical field especially relates to a duplex position glass sculpture structure.

Background

The carved glass is a kind of decorative glass which is very good in quality in home decoration, and the drawn pattern generally has individuality and originality, and reflects the interest and pursuit of the host of the living room. The sculpture glass on the market divide into two kinds of artifical sculpture and computer sculpture, and it is required in order to be suitable for large-scale production, adopts the glyptic glass of equipment more and more, consequently, how constantly to promote the function of glass sculpture equipment, becomes the direction of the continuous research and development of engineer innovation in the trade.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing a duplex position glass sculpture structure realizes carrying out the reloading when glyptic, ensures that sculpture work goes on always to save process time, promote work efficiency.

The utility model provides a double-station glass engraving structure, which comprises a workbench, a portal frame, a station A, a station B and an engraving machine, wherein the portal frame is arranged across along the width direction of the workbench, and the station A and the station B are sequentially arranged on the workbench in parallel; a lifting seat structure is arranged on the portal frame, and the engraving machine is fixedly connected with the lifting seat structure; the station A and the station B are both provided with clamping structures, and the two sides of the portal frame, which are positioned on the lifting seat structure, are both provided with pressing structures.

As the preferred scheme, the workstation all is provided with electronic slip table along its length direction's both sides, all slides on the electronic slip table of both sides and is provided with the sliding platform seat, the both sides of portal frame are fixed respectively on the sliding platform seat that corresponds.

As a preferred scheme, the lifting seat structure comprises a lifting cylinder A and a lifting seat, and the power output end of the lifting cylinder A is fixedly connected with the lifting seat through a lifting shaft A; the engraving machine comprises a cutter seat and a cutter, wherein the cutter seat is fixedly arranged on the lifting seat, and the cutter is arranged on the cutter seat.

Preferably, the clamping structure comprises two oppositely arranged pushing structures, each pushing structure comprises a pushing cylinder and an L-shaped pushing plate, the power output end of each pushing cylinder is fixedly connected with the L-shaped pushing plate, the two oppositely arranged L-shaped pushing plates form a material supporting space, and the pushing cylinders are fixedly connected with the workbench.

As a preferred scheme, a sucker structure is arranged at the position of the working station A on the workbench; the sucking disc structure includes a plurality of vacuum chuck and vacuum generator, vacuum chuck fixes on the workstation, vacuum generator is fixed to be set up in the workstation, vacuum chuck passes through the trachea and is connected with vacuum generator.

As a preferred scheme, a sucker structure is arranged at the position of the working station B on the workbench; the sucking disc structure includes a plurality of vacuum chuck and vacuum generator, vacuum chuck fixes on the workstation, vacuum generator is fixed to be set up in the workstation, vacuum chuck passes through the trachea and is connected with vacuum generator.

According to the preferable scheme, the compression structure comprises a lifting cylinder B and a pressing plate, the lifting cylinder B is fixedly arranged on the portal frame, a lifting shaft B is fixedly connected to the power output end of the lifting cylinder B, and the bottom of the lifting shaft B is fixedly connected with the pressing plate.

As a preferred scheme, a vacuum dust collection structure is arranged on one side of the portal frame and comprises an air pump, a dust collection box and a dust collection pipe, wherein the dust collection box is connected with an air outlet of the air pump, and the dust collection pipe is connected with an air inlet of the air pump; the air pump and the dust collection box are both fixed on one side of the portal frame; the tail of the dust collection pipe is connected with a dust collection cover.

The utility model has the advantages that:

1. the working table is provided with a station A and a station B, the engraving machine is arranged on the portal frame, when the engraving machine performs engraving operation on the station A, a next glass product can be placed on the station B, when the station A completes the engraving operation, the engraving machine moves to the station B to perform engraving operation, at the moment, a worker can take away a finished product on the station A, replace the glass product to be processed and prepare for the next engraving operation, and through the structural arrangement, the material is changed while engraving is realized, so that the engraving operation is ensured to be performed all the time, the processing time is saved, and the working efficiency is improved;

2. the clamping structures are arranged on the station A and the station B, the compression structures are arranged on two sides of the lifting seat structure on the portal frame, the glass product is clamped and fixed through the clamping structures, and when the carving operation is carried out, the surface of the glass is compressed through the compression structures, so that the glass is doubly fixed, and the glass is effectively prevented from shaking when being carved;

3. the sucking disc structure is arranged at the position, located at the station A, of the workbench, the sucking disc structure is arranged at the position, located at the station B, of the workbench, and the fixing of the glass is further enhanced through the arrangement of the sucking disc structure, so that the condition that the carving quality is influenced due to shaking is effectively avoided;

4. when the carving operation is carried out, in order to prevent dust generated in the carving process, the dust staying on the surface of the glass or the dust staying on the surface of the workbench is absorbed through the vacuum dust absorption structure, so that the cleanness of the workbench or the surface of the glass is kept.

Drawings

Fig. 1 is a structural view of the present invention.

The reference numbers are that a workbench 10, a station A11, a material pushing cylinder 12, a L-shaped material pushing plate 13, a dust suction pipe 14, an air pump 15, a lifting cylinder B17, a pressing plate 16, a lifting cylinder A18, a lifting seat 21, a cutter seat 19, a portal frame 20, a vacuum suction cup 22, a dust collection box 23, a vacuum dust suction structure 24, a lifting shaft B25, a pressing structure 26, a dust suction hood 27, a material pushing structure 28, a station B29, a sliding seat 30, a cutter 31, a carving machine 32, a lifting seat structure 33 and an electric sliding table 34.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Referring to fig. 1, the double-station glass engraving structure includes a workbench 10, a portal frame 20, a station a11, a station B29, and an engraving machine 32, wherein the portal frame 20 is arranged across the width direction of the workbench 10, and the station a11 and the station B29 are arranged in parallel on the workbench 10 in sequence; a lifting seat structure 33 is arranged on the portal frame 20, and the engraving machine 32 is fixedly connected with the lifting seat structure 33; clamping structures are arranged on the station A11 and the station B29, and pressing structures 26 are arranged on the two sides of the lifting seat structure 33 on the portal frame 20. The engraving machine 32, the lifting seat structure 33, the clamping structure and the pressing structure 26 are all connected with the control device.

The two sides of the workbench 10 along the length direction thereof are provided with electric sliding tables 34, the electric sliding tables 34 on the two sides are provided with sliding table bases 30 in a sliding manner, and the two sides of the portal frame 20 are respectively fixed on the corresponding sliding table bases 30. Under the control of the control device, the electric sliding table 34 drives the gantry 20 to move back and forth along the electric sliding table 34 through the sliding table base 30.

The lifting seat structure 33 comprises a lifting cylinder A18 and a lifting seat 21, and the power output end of the lifting cylinder A18 is fixedly connected with the lifting seat 21 through a lifting shaft A; the engraving machine 32 comprises a cutter seat 19 and a cutter 31, wherein the cutter seat 19 is fixedly arranged on the lifting seat 21, and the cutter 31 is arranged on the cutter seat 19. In actual operation, the power output of the lifting cylinder a18 drives the lifting base 21 to move up and down, and in the process of lifting the lifting base 21, the carving machine 32 is synchronously driven to move up and down, and the carving machine 32 realizes the carving action through the cutter 31 under the control of the control device.

The clamping structure comprises two oppositely arranged pushing structures 28, each pushing structure 28 comprises a pushing cylinder 12 and an L-shaped pushing plate 13, the power output end of each pushing cylinder 12 is fixedly connected with the L-shaped pushing plate 13, the two oppositely arranged L-shaped pushing plates 13 form a material supporting space, the pushing cylinders 12 are fixedly connected with the workbench 10, in actual operation, glass is placed on the two oppositely arranged L-shaped pushing plates 13, the pushing cylinders 12 on the two sides output power, and the two oppositely arranged L-shaped pushing plates 13 apply opposite pushing forces respectively to clamp the glass for the engraving machine 32 to perform engraving operation.

In a preferred embodiment, a suction cup structure is provided on the table 10 at station a11, and the suction cup structure is connected to a control device. The sucker structure comprises a plurality of vacuum suckers 22 and a vacuum generator, the vacuum suckers are fixed on the workbench 10, the vacuum generator is fixedly arranged in the workbench 10, and the vacuum suckers are connected with the vacuum generator through air pipes (wherein the vacuum generator and the air pipes are not shown in the figure). Place glass in station A11 relevant position, start vacuum generator through controlling means, the negative pressure air supply that vacuum generator produced lives glass absorption through vacuum chuck 22, further strengthens fixing glass, effectively avoids appearing influencing the condition of sculpture quality because of rocking.

In a preferred embodiment, the table 10 is provided with a suction cup structure at station B29, which is connected to a control device. The sucking disc structure includes a plurality of vacuum chuck and vacuum generator, and vacuum chuck fixes on workstation 10, and vacuum generator is fixed to be set up in workstation 10, and vacuum chuck passes through the trachea and is connected with vacuum generator (wherein, vacuum generator and trachea all do not show in the figure). Place glass in station B29 relevant position, start vacuum generator through controlling means, the negative pressure air supply that vacuum generator produced lives glass absorption through vacuum chuck 22, further strengthens fixing glass, effectively avoids appearing influencing the condition of sculpture quality because of rocking.

The pressing structure 26 comprises a lifting cylinder B17 and a pressing plate 16, the lifting cylinder B17 is fixedly arranged on the portal frame 20, the power output end of the lifting cylinder B17 is fixedly connected with a lifting shaft B25, and the bottom of the lifting shaft B25 is fixedly connected with the pressing plate 16. When the glass pressing device is used for operation, the lifting cylinder B17 outputs power, and the lifting shaft B25 drives the pressing plate 16 to press down to the glass, so that the glass is pressed and fixed.

A vacuum cleaning structure 24 is arranged at one side of the portal frame 20, and the vacuum cleaning structure 24 is connected with a control device. The vacuum dust collection structure 24 comprises an air pump 15, a dust collection box 23 and a dust collection pipe 14, wherein the dust collection box 23 is connected with an exhaust port of the air pump 15, and the dust collection pipe 14 is connected with an air inlet of the air pump 15; the air pump 15 and the dust collection box 23 are both fixed on one side of the portal frame 20; the tail of the dust suction pipe 14 is connected with a dust suction cover 27. During actual operation, the air pump 15 is started through the control device, the air pump 15 generates suction force, dust is adsorbed through the dust suction pipe 14, and the dust is collected uniformly by the dust collection box 23 and is cleaned regularly.

In this embodiment, be provided with station A and station B on the workstation, the engraver sets up on the portal frame, when the engraver carries out the sculpture operation on station A, can place next piece of glass product on station B, when station A accomplishes the sculpture operation, the engraver removes to station B and carries out the sculpture operation, at this moment, the staff can take away the finished product on station A, the glass product of treating processing on the replacement again, prepare for next sculpture operation, through such structure setting, realize that the sculpture carries out the reloading simultaneously, ensure that the sculpture work is gone on always, thereby save process time, and the work efficiency is improved. All be provided with clamping structure on station A and the station B, the both sides that lie in the lift seat structure on the portal frame all are provided with the compact structure, and it is fixed to the glass product centre gripping through clamping structure to when carrying out the sculpture operation, compress tightly the glass surface by compact structure again, dual fixed takes place to rock when effectively avoiding glass to carry out the sculpture.

The above-mentioned embodiments only represent one embodiment of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the 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. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. The utility model provides a duplex position glass sculpture structure which characterized in that: the device comprises a workbench (10), a portal frame (20), a station A (11), a station B (29) and an engraving machine (32), wherein the portal frame (20) is arranged in a crossing manner along the width direction of the workbench (10), and the station A (11) and the station B (29) are sequentially arranged on the workbench (10) in parallel; a lifting seat structure (33) is arranged on the portal frame (20), and the engraving machine (32) is fixedly connected with the lifting seat structure (33); and clamping structures are arranged on the station A (11) and the station B (29), and compression structures (26) are arranged on two sides of the portal frame (20) which are positioned on the lifting seat structure (33).

2. The double-station glass engraving structure of claim 1, wherein: the length direction of the workbench (10) is prolonged, the two sides of the workbench are provided with electric sliding tables (34), the electric sliding tables (34) on the two sides are provided with sliding table seats (30) in a sliding mode, and the two sides of the portal frame (20) are fixed on the corresponding sliding table seats (30) respectively.

3. The double-station glass engraving structure of claim 1, wherein: the lifting seat structure (33) comprises a lifting cylinder A (18) and a lifting seat (21), and the power output end of the lifting cylinder A (18) is fixedly connected with the lifting seat (21) through a lifting shaft A; engraver (32) include cutter seat (19) and cutter (31), cutter seat (19) are fixed to be set up on lift seat (21), cutter (31) are installed on cutter seat (19).

4. The double-station glass engraving structure according to claim 1, wherein the clamping structure comprises two oppositely arranged pushing structures (28), each pushing structure (28) comprises a pushing cylinder (12) and an L-shaped pushing plate (13), the power output end of each pushing cylinder (12) is fixedly connected with the L-shaped pushing plate (13), the two oppositely arranged L-shaped pushing plates (13) form a material supporting space, and the pushing cylinders (12) are fixedly connected with the workbench (10).

5. The double-station glass engraving structure of claim 1, wherein: a sucker structure is arranged at the position of the working station A (11) on the workbench (10); the sucker structure comprises a plurality of vacuum suckers (22) and a vacuum generator, the vacuum suckers are fixed on the workbench (10), the vacuum generator is fixedly arranged in the workbench (10), and the vacuum suckers are connected with the vacuum generator through air pipes.

6. The double-station glass engraving structure of claim 1, wherein: a sucker structure is arranged at the position of the working station B (29) on the workbench (10); the sucker structure comprises a plurality of vacuum suckers and a vacuum generator, the vacuum suckers are fixed on the workbench (10), the vacuum generator is fixedly arranged in the workbench (10), and the vacuum suckers are connected with the vacuum generator through air pipes.

7. The double-station glass engraving structure of claim 1, wherein: the compacting structure (26) comprises a lifting cylinder B (17) and a pressing plate (16), the lifting cylinder B (17) is fixedly arranged on the portal frame (20), the power output end of the lifting cylinder B (17) is fixedly connected with a lifting shaft B (25), and the bottom of the lifting shaft B (25) is fixedly connected with the pressing plate (16).

8. The double-station glass engraving structure of claim 1, wherein: a vacuum dust collection structure (24) is arranged on one side of the portal frame (20), the vacuum dust collection structure (24) comprises an air pump (15), a dust collection box (23) and a dust collection pipe (14), the dust collection box (23) is connected with an air outlet of the air pump (15), and the dust collection pipe (14) is connected with an air inlet of the air pump (15); the air pump (15) and the dust collection box (23) are both fixed on one side of the portal frame (20); the tail part of the dust suction pipe (14) is connected with a dust suction cover (27).