CN217265437U - Glass laser cutting machine's lobe of a leaf mechanism - Google Patents

Abstract

The utility model provides a glass laser cutting machine's lobe of a leaf mechanism, including supporting platform, lobe of a leaf conveyer belt, parallel rim charge conveyer belt of locating lobe of a leaf conveyer belt one side and rim charge lobe of a leaf mechanism, minor face lobe of a leaf mechanism and long edge lobe of a leaf mechanism that locate lobe of a leaf conveyer belt top and set gradually, rim charge lobe of a leaf mechanism include cross lobe of a leaf conveyer belt and rim charge conveyer belt first longmen support, with first longmen support sliding connection and rim charge lobe of a leaf hot-blast cutter that can go up and down and locate rim charge lobe of a leaf hot-blast cutter one side and rim charge suction nozzle that can go up and down; the short edge splinter mechanism comprises a longitudinal support and a short edge splinter hot air knife which is connected with the longitudinal support in a sliding manner; the long-edge splinter mechanism comprises a second gantry support spanning the splinter conveying belt and a long-edge splinter hot air knife which is connected with the second gantry support in a sliding manner and can lift. The utility model discloses a hot-blast sword carries out the wind crack to the product, can realize quick lobe of a leaf to the great glass of thickness, and the structure is simpler moreover, and manufacturing cost is lower.

Description

Glass laser cutting machine's lobe of a leaf mechanism

Technical Field

The utility model relates to a glass laser cutting machine field especially relates to a glass laser cutting machine's lobe of a leaf mechanism.

Background

The existing glass laser cutting machine carries out preliminary cutting through a laser cutting head, and then splits through a laser splitting head, thereby completing the cutting of glass, but when the laser splitting head splits the thicker glass, because the depth cut by some thicker glass is shallower due to the surface bending, the laser splitting effect and efficiency are not very good.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the cutting efficiency and the effect are not good to than thicker glass among the prior art, the utility model provides a lobe of a leaf mechanism that lobe of a leaf speed and effect are better.

The utility model provides a glass laser cutting machine's lobe of a leaf mechanism, including supporting platform, locate lobe of a leaf conveyer belt, parallel locate lobe of a leaf conveyer belt one side rim charge conveyer belt and locate lobe of a leaf conveyer belt top and rim charge lobe of a leaf mechanism, minor face lobe of a leaf mechanism and long limit lobe of a leaf mechanism that set gradually, rim charge lobe of a leaf mechanism including span over lobe of a leaf conveyer belt and rim charge conveyer belt, with first gantry support sliding connection and rim charge lobe of a leaf hot-blast cutter that can go up and down with the first gantry support and locate rim charge lobe of a leaf hot-blast cutter one side and rim charge suction nozzle that can go up and down; the short edge splitting mechanism comprises a longitudinal support and a short edge splitting hot air knife which is connected with the longitudinal support in a sliding manner; the long-edge splinter mechanism comprises a second gantry support spanning the splinter conveying belt and a long-edge splinter hot air knife which is connected with the second gantry support in a sliding manner and can be lifted.

As a further improvement, the lobe of a leaf conveyer belt is including being located first lobe of a leaf conveyer belt of rim charge lobe of a leaf mechanism below, being located the second lobe of a leaf conveyer belt of minor face lobe of a leaf mechanism below and being located the third lobe of a leaf conveyer belt of long limit lobe of a leaf mechanism below.

As a further improvement, the first lobe conveyer belt upper end is equipped with first positioning mechanism, second lobe conveyer belt upper end is equipped with second positioning mechanism, third lobe conveyer belt upper end is equipped with third positioning mechanism.

As a further improvement of the present invention, the first positioning mechanism includes a first side reference plate and a first push plate which are oppositely disposed, and the supporting platform is further provided with two first positioning cylinders for controlling the first side reference plate and the first push plate to move respectively; the second positioning mechanism comprises a second side reference plate and a second push plate which are oppositely arranged, and the supporting platform is provided with two second positioning cylinders for controlling the second side reference plate and the second push plate to respectively move; the third positioning mechanism comprises a third side reference plate and a third push plate which are arranged oppositely, and the supporting platform is provided with two third positioning cylinders which are used for controlling the third side reference plate and the third push plate to move respectively.

As a further improvement of the present invention, the first positioning mechanism further comprises a first baffle plate near one end of the second lobe conveyer belt and a first lifting mechanism spanning above the first lobe conveyer belt for controlling the first baffle plate to lift; the second positioning mechanism further comprises a second baffle close to one end of the third lobe conveyer belt and a second lifting mechanism which stretches over the second lobe conveyer belt and is used for controlling the second baffle to lift; the third positioning mechanism further comprises a third baffle far away from one end of the third lobe conveying belt and a third lifting mechanism stretching over the third lobe conveying belt and used for controlling the third baffle to lift.

As a further improvement, the second positioning mechanism further comprises a positioning push plate, a control cylinder for controlling the lifting of the positioning push plate and a control cylinder for controlling the translation of the positioning push plate.

As a further improvement, the utility model discloses a this lobe of a leaf mechanism is still including locating the material loading conveyer belt of supporting platform upper end, span the third portal trestle of material loading conveyer belt and with third portal trestle sliding connection and the material loading sucking disc that can go up and down, the terminal of material loading conveyer belt with the top of lobe of a leaf conveyer belt is connected, is located material loading conveyer belt one side still be equipped with the storage box on the supporting platform.

As a further improvement, the feeding conveyor belt upper end still is equipped with fourth positioning mechanism, fourth positioning mechanism is including the relative fourth side benchmark board and the fourth push pedal that set up, supporting platform is equipped with and is used for control fourth side benchmark board reaches two fourth location cylinders that the fourth push pedal removed respectively.

The utility model has the advantages that: the utility model discloses a hot-blast sword carries out the wind crack to the product, can realize quick lobe of a leaf to the great glass of thickness, and the structure is simpler moreover, and manufacturing cost is lower.

Drawings

FIG. 1 is a schematic structural view of a glass laser cutting machine of the present invention;

fig. 2 is a schematic structural diagram of another angle of the splitting mechanism of the glass laser cutting machine according to the present invention.

Reference numerals: 1-a support platform; 2-a splinter conveyer belt; 3-a rim charge conveyer belt; 4-a rim charge splitting mechanism; 41-a first gantry support; 42-scrap splitting hot air knife; 43-scrap suction nozzle; 5-short edge splinter mechanism; 51-longitudinal support; 52-short edge split hot air knife; 6-long edge splitting mechanism; 61-a second gantry support; 62-long edge lobe splitting hot air knife; 7-feeding conveyer belt; 71-a third gantry support; 72-a suction cup; 73-a storage box; 101-a first pusher plate; 102-a first side datum plate; 103-a first baffle; 201-a second push plate; 202-a second side datum plate; 203-a second baffle; 204-positioning push plate; 301-a third push plate; 302-third side reference plate; 303-a third baffle; 401-a fourth pusher plate; 402-fourth side datum plate.

Detailed Description

As shown in fig. 1 and 2, the utility model discloses a glass laser cutting machine's lobe of a leaf mechanism, including supporting platform 1, locate lobe of a leaf conveyer belt 2, the parallel rim charge conveyer belt 3 that locates at lobe of a leaf conveyer belt 2 one side and locate rim charge lobe of a leaf mechanism 4, short edge lobe of a leaf mechanism 5 and long edge lobe of a leaf mechanism 6 that the rim charge lobe of a leaf mechanism 4 set gradually above the lobe of a leaf conveyer belt 2 and rim charge conveyer belt 3, the rim charge lobe of a leaf mechanism 4 including span the first longmen support 41 of lobe of a leaf conveyer belt 2 and rim charge conveyer belt 3, with the first longmen support 41 sliding connection and rim charge lobe of a leaf hot-air knife 42 that can go up and down and locate rim charge lobe of a leaf hot-air knife 42 one side and rim charge suction nozzle 43 that can go up and down; the short edge splitting mechanism 5 comprises a longitudinal support 51 and a short edge splitting hot air knife 52 connected with the longitudinal support 51 in a sliding manner; the long-edge splinter mechanism 6 comprises a second gantry support 61 spanning the splinter conveying belt 2 and a long-edge splinter hot air knife 621 which is slidably connected with the second gantry support 61 and can lift. Hot-blast sword 42 of rim charge lobe of a leaf, the hot-blast sword 52 of minor face lobe of a leaf and the hot-blast sword 621 of long limit lobe of a leaf can erupt high-temperature high-speed hot-blast, and it can heat the glass gap after accomplishing preliminary laser cutting, can make its position after preliminary cutting expand like this, realizes the lobe of a leaf, and it can accelerate lobe of a leaf speed, more is fit for the great glass's of thickness lobe of a leaf. When the rim charge splinter hot air knife 42 splinters the rim charge on the two sides of the product, the rim charge is sucked in sequence by the rim charge suction nozzle 43 and moved to the rim charge conveyer belt 3, and then the product is transferred to the next process by the rim charge conveyer belt 3. After the rim charge is cracked, the product is conveyed to the short edge cracking mechanism 5, and the cutting positions in the short edge direction of the product are sequentially cracked by the short edge cracking hot air knife 52. After the short edge of the product is cracked, the short edge of the product is conveyed to the long edge cracking mechanism 6, the long edge cracking hot air knife 621 is used for sequentially cracking the cutting position of the product in the long edge direction, blanking is carried out through the cracking conveying belt 2 after the long edge cracking is finished, and the cut product is in a square structure.

In this embodiment, the splinter conveyer belt 2 includes a first splinter conveyer belt located below the rim charge splinter mechanism 4, a second splinter conveyer belt located below the short edge splinter mechanism 5, and a third splinter conveyer belt located below the long edge splinter mechanism 6, and since the splinter speed at each position is different, one conveyer belt is provided at each splinter station for conveying at different speeds.

In this embodiment, a first positioning mechanism is disposed at an upper end of the first splinter conveying belt, a second positioning mechanism is disposed at an upper end of the second splinter conveying belt, and a third positioning mechanism is disposed at an upper end of the third splinter conveying belt, so that the splinter positions are ensured to correspond to air outlet positions of the corresponding splinter hot air knives by positioning products in different splinter states through the first positioning mechanism, the second positioning mechanism, and the third positioning mechanism.

In this embodiment, the first positioning mechanism includes a first side reference plate 102 and a first push plate 101 which are arranged oppositely, the supporting platform 1 is further provided with two first positioning cylinders for controlling the first side reference plate 102 and the first push plate 101 to move respectively, the first push plate 101 pushes the product to abut against one side of the first side reference plate 102 to realize positioning, and then the rim charge on two sides of the product is split by the rim charge splitting hot air knife 42; the second positioning mechanism comprises a second side reference plate 202 and a second push plate 201 which are arranged oppositely, the supporting platform 1 is provided with two second positioning cylinders which are used for controlling the second side reference plate 202 and the second push plate 201 to move respectively, the second push plate 201 pushes the product to abut against one side of the second side reference plate 202 to realize positioning, and then the short side splitting hot air knife 52 sequentially carries out splitting operation on the short side direction of the product; the third positioning mechanism comprises a third side reference plate 302 and a third push plate 301 which are arranged oppositely, the supporting platform 1 is provided with two third positioning cylinders which are used for controlling the third side reference plate 302 and the third push plate 301 to move respectively, the third push plate 301 pushes the product to abut against one side of the third side reference plate 302 to realize positioning, and then the long-edge splitting hot air knife 621 is used for sequentially splitting the product in the long edge direction.

In this embodiment, the first positioning mechanism further includes a first baffle 103 near one end of the second split conveyor belt, and a first lifting mechanism spanning above the first split conveyor belt and used for controlling the first baffle 103 to lift; the second positioning mechanism further comprises a second baffle 203 close to one end of the third lobe conveyer belt and a second lifting mechanism which spans above the second lobe conveyer belt and is used for controlling the second baffle 203 to lift; the third positioning mechanism further comprises a third baffle 303 far away from one end of the third splinter conveying belt and a third lifting mechanism stretching over the third splinter conveying belt and used for controlling the third baffle 303 to lift. The first baffle 103, the second baffle 203 and the third baffle 303 are respectively used for being matched with the first push plate 101, the second push plate 201 and the third push plate 301, so that multi-directional limiting of a product is realized.

In this embodiment, the second positioning mechanism further includes a positioning push plate 204, a lifting cylinder for controlling the lifting of the positioning push plate 204, and a translation cylinder for controlling the translation of the positioning push plate 204, and the positioning push plate 204 is used for pushing a product to perform positioning.

In this embodiment, the splinter mechanism further includes a feeding conveyer belt 7 disposed at the upper end of the supporting platform 1, a third gantry support 71 crossing the feeding conveyer belt 7, and a feeding sucker 72 slidably connected to the third gantry support 71 and capable of lifting, the end of the feeding conveyer belt 7 is connected to the beginning of the splinter conveyer belt 2, a storage box 73 is further disposed on the supporting platform 1 at one side of the feeding conveyer belt 7, because the laser cutting process of the previous process is faster and the splinter operation is relatively slower, so that a part of the preliminarily cut products can be placed in the storage box 73, and a part of the products are directly conveyed to the splinter conveyer belt 2 through the feeding conveyer belt 7 for splinter operation, and when all the products are subjected to the preliminary cutting operation, the products in the storage box 73 are conveyed to the feeding conveyer belt 7 through the feeding sucker 72, the splitting operation is continued. Thereby ensuring the continuity of the processing.

In this embodiment, the upper end of the feeding conveyor belt 7 is further provided with a fourth positioning mechanism, the fourth positioning mechanism includes a fourth side reference plate 402 and a fourth push plate 41 which are arranged oppositely, and the supporting platform 1 is provided with two fourth positioning cylinders for controlling the fourth side reference plate 402 and the fourth push plate 41 to move respectively. The fourth push plate 41 pushes the product to abut against one side of the fourth side reference plate 402, so that positioning is realized, and the product can be conveniently and directly transported to the designated position of the first lobe conveying belt.

The utility model discloses a hot-blast sword carries out the wind crack to the product, can realize quick lobe of a leaf to the great glass of thickness, and the structure is simpler moreover, and manufacturing cost is lower.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (8)

1. The utility model provides a glass laser cutting machine's lobe of a leaf mechanism which characterized in that: the edge material splitting mechanism comprises a first gantry support, an edge material splitting hot air knife and an edge material suction nozzle, wherein the first gantry support stretches across the splitting conveyer belt and the edge material conveyer belt, the edge material splitting hot air knife is connected with the first gantry support in a sliding mode and can lift, and the edge material suction nozzle is arranged on one side of the edge material splitting hot air knife and can lift; the short edge splitting mechanism comprises a longitudinal support and a short edge splitting hot air knife which is connected with the longitudinal support in a sliding manner; the long-edge splinter mechanism comprises a second gantry support spanning the splinter conveying belt and a long-edge splinter hot air knife which is connected with the second gantry support in a sliding manner and can be lifted.

2. The breaking mechanism of the glass laser cutting machine according to claim 1, characterized in that: the splinter conveying belt comprises a first splinter conveying belt positioned below the rim charge splinter mechanism, a second splinter conveying belt positioned below the short-edge splinter mechanism and a third splinter conveying belt positioned below the long-edge splinter mechanism.

3. The breaking mechanism of the glass laser cutting machine according to claim 2, characterized in that: the upper end of the first lobe conveyer belt is provided with a first positioning mechanism, the upper end of the second lobe conveyer belt is provided with a second positioning mechanism, and the upper end of the third lobe conveyer belt is provided with a third positioning mechanism.

4. The breaking mechanism of the glass laser cutting machine according to claim 3, characterized in that: the first positioning mechanism comprises a first side reference plate and a first push plate which are arranged oppositely, and the supporting platform is further provided with two first positioning cylinders for controlling the first side reference plate and the first push plate to move respectively; the second positioning mechanism comprises a second side reference plate and a second push plate which are arranged oppositely, and the supporting platform is provided with two second positioning cylinders for controlling the second side reference plate and the second push plate to move respectively; the third positioning mechanism comprises a third side reference plate and a third push plate which are arranged oppositely, and the supporting platform is provided with two third positioning cylinders which are used for controlling the third side reference plate and the third push plate to move respectively.

5. The breaking mechanism of the glass laser cutting machine according to claim 4, characterized in that: the first positioning mechanism further comprises a first baffle close to one end of the second lobe conveyer belt and a first lifting mechanism stretching over the first lobe conveyer belt and used for controlling the first baffle to lift; the second positioning mechanism further comprises a second baffle close to one end of the third lobe conveyer belt and a second lifting mechanism which stretches over the second lobe conveyer belt and is used for controlling the second baffle to lift; the third positioning mechanism further comprises a third baffle far away from one end of the third splinter conveying belt and a third lifting mechanism stretching over the third splinter conveying belt and used for controlling the third baffle to lift.

6. The breaking mechanism of the glass laser cutting machine according to claim 5, characterized in that: the second positioning mechanism further comprises a positioning push plate, a lifting cylinder and a translation cylinder, wherein the lifting cylinder is used for controlling the lifting of the positioning push plate, and the translation cylinder is used for controlling the translation of the positioning push plate.

7. The breaking mechanism of the glass laser cutting machine according to claim 1, characterized in that: the splinter mechanism further comprises a feeding conveyer belt arranged at the upper end of the supporting platform, a third gantry support stretching over the feeding conveyer belt and a feeding sucker which is connected with the third gantry support in a sliding manner and can lift, the terminal end of the feeding conveyer belt is connected with the starting end of the splinter conveyer belt, and a storage box is further arranged on the supporting platform and positioned on one side of the feeding conveyer belt.

8. The breaking mechanism of the glass laser cutting machine according to claim 7, characterized in that: the feeding conveyer belt upper end still is equipped with fourth positioning mechanism, fourth positioning mechanism is including the relative fourth side benchmark board and the fourth push pedal that sets up, supporting platform is equipped with and is used for control the fourth side benchmark board reaches two fourth location cylinders that the fourth push pedal removed respectively.

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