CN220782467U - Plate cutting machine - Google Patents

Abstract

The utility model belongs to the technical field of bulb assembly, and particularly relates to a plate cutting machine which comprises a feeding unit and a cutting unit; the cutting unit comprises a first cutting component and a second cutting component, and the first cutting component comprises a first cutting mechanism, a first clamp and a first conveying mechanism; the first cutter mechanism cuts the light-emitting plate into vertical strips, the vertical strips are conveyed to the second conveying mechanism through the first conveying mechanism, and the second cutter mechanism cuts the vertical strips into single light-emitting plates. The utility model can realize the completion of cutting the LED bulb luminescent plate of the whole disc, can greatly save labor and effectively improve the production efficiency; meanwhile, in the two cutting processes, the luminous plate is clamped by the first clamp and the second clamp, so that the cutting process is very stable, the situations of error cutting, error cutting and the like during manual cutting are greatly reduced, cost loss is avoided, unqualified luminous plates are prevented from flowing into the subsequent bulb assembly process, and production quality can be greatly improved.

Description

Plate cutting machine

Technical Field

The utility model relates to the technical field of bulb assembly, in particular to a plate cutting machine.

Background

The bulb is made according to the luminous principle of the semiconductor PN structure, and after the bulb is connected with rated voltage, current is emitted through the light emitting diode (semiconductor wafer), so that when the bulb works, electric energy is converted into internal energy and light energy.

Some current bulbs are still assembled manually, and some enterprises start to design a full-automatic assembly line of the bulbs in order to improve production efficiency.

At present, before a bulb is assembled, the whole disc of LED bulb luminescent plate is required to be cut into single luminescent plates, and considering that the design of the existing full-automatic bulb assembly equipment is not mature, the equipment for cutting the whole disc of LED luminescent plate is not available, so the application provides a plate cutting machine capable of greatly saving manpower and effectively improving the production efficiency.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides a plate cutting machine, which solves the problem that no equipment for automatically cutting a whole disc of LED bulb light-emitting plates into single light-emitting plates exists at present.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a board cutting machine comprising:

The feeding unit comprises a feeding module and a material moving module, wherein the feeding module is used for placing and conveying the light-emitting plates to the material moving module, and the material moving module is used for sequentially conveying out each light-emitting plate;

The cutting unit comprises a first cutting assembly and a second cutting assembly, the first cutting assembly comprises a first cutting mechanism, a first clamp and a first conveying mechanism, and the second cutting assembly comprises a second cutting mechanism, a second conveying mechanism and a second clamp;

the first cutter mechanism cuts Cheng Shu the light-emitting plate into strips, the strips are conveyed to the second conveying mechanism through the first conveying mechanism, the second cutter mechanism cuts the vertical strip-shaped light-emitting plate into single strips, and the first clamp and the second clamp are used for clamping the light-emitting plate when the materials are cut.

Through the structure, the LED bulb light-emitting plate of the whole tray can be cut, labor can be greatly saved, and the production efficiency is effectively improved; meanwhile, in the two cutting processes, the luminous plate is clamped by the first clamp and the second clamp, so that the cutting process is very stable, the situations of error cutting, error cutting and the like during manual cutting are greatly reduced, cost loss is avoided, unqualified luminous plates are prevented from flowing into the subsequent bulb assembly process, and production quality can be greatly improved.

Preferably, the feeding module comprises:

The vertical conveyor belts are uniformly distributed with a plurality of clamping strips capable of placing the whole plate of the luminous plate;

and the driving mechanism is used for synchronously driving the two vertical conveyor belts.

Through above-mentioned structure for the feed bin realizes the function of direct material loading in proper order, and the occupied space is less, and only blocks the edge of luminescent plate in the feeding process, can not let other positions of luminescent plate produce wearing and tearing and influence and become flat quality finally, and is very practical.

Preferably, the material moving module is arranged below the feeding module, and the material moving module comprises:

The plate taking clamp comprises plate taking clamping heads and plate taking clamping cylinders, wherein the two plate taking clamping heads are connected to the plate taking clamping cylinders in a sliding mode, and are driven by the plate taking clamping cylinders to clamp from the edge of one end of the whole plate light-emitting plate;

And the plate taking clamp is fixedly connected to the reciprocating material moving mechanism.

Through the structure, the whole material moving process is smooth, and the plate taking clamp acts on the rear end of the whole plate light-emitting plate, so that the plate taking clamp and the first clamp act on the two ends of the whole plate light-emitting plate respectively, so that the stress of the light-emitting plate is more balanced during cutting, the generation quality is ensured, the whole structure only occupies a little space below the feeding module, and the design is compact and precise.

Preferably, the first cutter mechanism and the second cutter mechanism each comprise:

the cutter guide rails are vertically arranged;

the cutter body is connected in the cutter guide rail in a sliding manner;

The cutter push rod is connected with the cutter body.

Through the structure, the whole light-emitting plate is cut into the single light-emitting plate, and the cutter guide rail and the cutter push rod can be designed below the workbench, so that the complexity of the layout structure above the workbench is reduced, and meanwhile, a large amount of occupied space can be reduced, so that the structure layout is more exquisite, the design concept of a miniaturized assembly production line is met, and the structure is easier to directly apply to bulb automatic assembly equipment.

Preferably, the first clamp includes:

the first chucks clamp the upper and lower surfaces of the whole light-emitting plate when driven;

A first moving guide rail;

The first clamping cylinder is connected to the first guide rail in a sliding mode, the path direction of the first clamping cylinder on the first moving guide rail is consistent with the material moving direction of the material moving module, and the first clamping head is connected to one side, close to the feeding unit, of the first clamping cylinder in a sliding mode.

Through the structure, the upper surface and the lower surface of the vertical bar-shaped light-emitting plate to be cut off are clamped, falling after cutting is avoided, meanwhile, the phenomenon that the light-emitting plate cannot be used due to bending caused by unidirectional thrust of the cutter body is avoided, continuous actions of subsequent working procedures cannot be carried out due to the fact that bending is not carried out is avoided, the quality reliability of finished products is ensured, meanwhile, accumulation and clamping of shells due to errors in the running process of equipment are avoided, loss is avoided, production progress is further delayed, and the production efficiency of the equipment is greatly improved.

Preferably, the second fixture includes:

a second chuck, wherein two second chucks clamp two side edges of a single light-emitting plate when driven;

A second moving guide rail;

the second clamping cylinder is connected in the second movable guide rail in a sliding manner, and the path direction of the second clamping cylinder on the second movable guide rail is consistent with the conveying direction of the second conveying mechanism;

Two second chucks clamping the edges of two sides of the single light-emitting plate are connected to one side, close to the second conveying mechanism, of the second clamping cylinder in a sliding mode, and the other second chucks are fixedly connected to one side, close to the second conveying mechanism, of the top of the second clamping cylinder.

Through the structure, the left edge and the right edge of the single light-emitting plate to be cut off are clamped, falling after cutting is avoided, meanwhile, the phenomenon that the light-emitting plate cannot be used due to bending caused by unidirectional thrust of the cutter body is avoided, continuous actions of subsequent working procedures cannot be carried out due to the fact that bending is not carried out is avoided, the quality reliability of finished products is ensured, meanwhile, accumulation and shell blocking caused by errors in the running process of equipment are avoided, loss is avoided, production progress is further delayed, and the production efficiency of the equipment is greatly improved.

Preferably, the first conveying mechanism includes:

The first material conveying clamp heads are driven to clamp the two side edges of the vertical strip-shaped light-emitting plate, and a first clamping groove is formed in each first material conveying clamp head;

The first material conveying clamping cylinders are connected with the two first material conveying clamping heads in a sliding manner;

the first material conveying clamping cylinder is rotatably connected to the bottom of the rotating mechanism;

The rotating mechanism is connected to the lifting guide rail in a sliding manner;

The lifting guide rail is connected to the transverse guide rail in a sliding manner, the transverse guide rail is arranged above the first clamp, and the movement path of the lifting guide rail on the transverse guide rail is between the first clamp and the second conveying mechanism.

Through the structure, the second conveying mechanism and the second cutter mechanism can be designed beside the second clamp, so that the total width of the blanking unit is approximately aligned with the total width of the feeding unit, the occupation of space is greatly reduced, and the automatic bulb assembling device is easy to directly apply to bulb automatic assembling equipment; through the design of first draw-in groove, still make the in-process luminescent plate that carries be difficult for dropping.

Preferably, the second conveying mechanism includes:

the two sides of the horizontal conveying belt are provided with limiting plates, and the horizontal conveying belt comprises two conveying belts which synchronously run;

The two second material conveying chucks are driven to clamp the edges of the two sides of the luminous plate, and a second clamping groove is formed in each second material conveying chuck;

The two second material conveying clamping heads are connected to one side, close to the second clamp, of the second material conveying clamping cylinder in a sliding manner;

The second conveying guide rail is connected to the second conveying clamping cylinder in a sliding manner, and the moving direction of the second conveying guide rail is consistent with that of the horizontal conveying belt;

the second conveying guide rail is arranged on one side, close to the second clamp, above the horizontal conveying belt.

By the structure, only the edge of the light-emitting plate is contacted when the vertical strip-shaped light-emitting plate is conveyed, the abrasion to the light-emitting plate is prevented from affecting the quality of a finished product, the follow-up plate cutting process is prevented from being affected due to unevenness, and the production quality can be improved; the stress of the luminous plate is more balanced, the cutting is more stable, and the production quality is improved; the second conveying guide rail drives the second conveying clamping cylinder to be consistent with the direction of the horizontal conveying belt, so that the vertical strip-shaped light-emitting plate can be driven to move in an auxiliary mode, inaccuracy in the cutting position of the vertical strip-shaped light-emitting plate due to inertia of the horizontal conveying belt can be avoided, and production quality can be ensured.

Preferably, the feeding device further comprises a feeding unit, the feeding unit is arranged on one side of the second clamp, and the feeding unit comprises:

the sucker assembly comprises two sucker rods;

The feeding guide rail is connected to the sucking disc component in a sliding mode, the feeding guide rail comprises an X-Y-Z guide rail, and the sucking disc component moves on the feeding guide rail to convey the cut single luminous plate to a track of bulb assembly equipment.

Through the structure, the single cut light-emitting plate is grabbed, and then conveyed to the process of the bulb assembly equipment, the automation degree of the equipment is further improved, the automatic bulb assembly equipment is easier to use in the automatic bulb assembly equipment, the manpower and material resources are greatly reduced, the cost can be saved, and the production efficiency is improved.

Preferably, the method further comprises:

the feeding unit and the blanking unit are fixedly connected to the workbench through lifting adjustable brackets;

the brake wheel is movably connected to the bottom of the workbench;

And the control unit is respectively in control connection with the feeding unit and the blanking unit.

Through the structure, the application range and the production efficiency of the equipment are improved.

Compared with the prior art, the utility model provides a plate cutting machine, which has the following beneficial effects:

according to the plate cutting machine, the whole-disc luminous plates are conveyed to the first cutter mechanism from the feeding unit through the material moving module, each whole-disc luminous plate is sequentially cut into vertical-strip luminous plates, the vertical-strip luminous plates are conveyed to the second conveying mechanism through the first conveying mechanism, the second cutter mechanism sequentially cuts the vertical-strip luminous plates into single luminous plates, the cutting of the LED bulb luminous plates of the whole-disc is achieved, labor can be greatly saved, and production efficiency is effectively improved; meanwhile, in the two cutting processes, the luminous plate is clamped by the first clamp and the second clamp, so that the cutting process is very stable, the situations of error cutting, error cutting and the like during manual cutting are greatly reduced, cost loss is avoided, unqualified luminous plates are prevented from flowing into the subsequent bulb assembly process, and production quality can be greatly improved.

Drawings

FIG. 1 is a schematic diagram of the whole machine perspective structure of the plate cutting machine;

FIG. 2 is a schematic perspective view of the plate cutting machine;

FIG. 3 is a schematic perspective view of a feeding module in the plate cutting machine;

FIG. 4 is a schematic perspective view of a material transferring module in the plate cutting machine;

FIG. 5 is a schematic perspective view of a first cutter mechanism in the present plate cutter;

FIG. 6 is a schematic perspective view of a first clamp in the present plate cutting machine;

FIG. 7 is a schematic perspective view of a second conveying mechanism in the plate cutting machine;

FIG. 8 is a schematic view of a first conveying mechanism in the present plate cutting machine;

Fig. 9 is a schematic control flow chart of the plate cutting machine.

In the figure: 1. a feeding unit; 2. a blanking unit; 3. a feeding unit; 4. a work table; 5. a brake wheel; 6. a control unit; 7. a feeding module; 8. a material moving module; 9. a first cutting mechanism; 10. a first clamp; 11. a first conveying mechanism; 12. a second cutter mechanism; 13. a second conveying mechanism; 14. a second clamp; 15. a vertical conveyor belt; 16. clamping strips; 17. a driving mechanism; 18. a plate taking chuck; 19. taking a plate and clamping the air cylinder; 20. a reciprocating material moving mechanism; 21. a cutter guide rail; 22. a cutter body; 23. a cutter push rod; 24. a first chuck; 25. a first moving guide rail; 26. a first clamping cylinder; 27. a second chuck; 28. a second moving guide rail; 29. a second clamping cylinder; 30. a first material conveying chuck; 31. a first clamping groove; 32. the first material conveying clamping cylinder; 33. a rotation mechanism; 34. lifting the guide rail; 35. a traversing guide rail; 36. a horizontal conveyor belt; 37. a limiting plate; 38. a second material conveying chuck; 39. a second clamping groove; 40. the second material conveying clamping cylinder; 41. a second conveying guide rail; 42. a suction cup assembly; 43. and a feeding guide rail.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides the following technical solutions: a board cutting machine comprising:

the feeding unit 1, the feeding unit 1 comprises a feeding module 7 and a material moving module 8, the feeding module 7 puts the light-emitting plates into and conveys the light-emitting plates to the material moving module 8, and the material moving module 8 sequentially conveys each light-emitting plate out;

The cutting unit 2, the cutting unit 2 comprises a first cutting component and a second cutting component, the first cutting component comprises a first cutting mechanism 9, a first clamp 10 and a first conveying mechanism 11, and the second cutting component comprises a second cutting mechanism 12, a second conveying mechanism 13 and a second clamp 14;

The first cutter mechanism 9 cuts the light-emitting plate into vertical strips, the vertical strips are conveyed to the second conveying mechanism 13 through the first conveying mechanism 11, the second cutter mechanism 12 cuts the vertical strips into single strips, and the first clamp 10 and the second clamp 14 are used for clamping the light-emitting plate during blanking.

As an alternative implementation scheme of the utility model, the whole disc luminous disc is conveyed to the first cutter mechanism 9 from the feeding unit 1 through the material moving module 8, each whole disc luminous plate is sequentially cut into vertical strip luminous plates, then the vertical strip luminous plates are conveyed to the second conveying mechanism 13 through the first conveying mechanism 11, and the second cutter mechanism 12 sequentially cuts the vertical strip luminous plates into single luminous plates, so that the cutting of the whole disc LED bulb luminous plates is completed, labor is greatly saved, and the production efficiency is effectively improved; meanwhile, in the two cutting processes, the luminous plate is clamped by the first clamp 10 and the second clamp 14, so that the cutting process is very stable, the situations of error cutting, error cutting and the like during manual cutting are greatly reduced, cost loss is avoided, unqualified luminous plates are prevented from flowing into the subsequent bulb assembly process, and production quality can be greatly improved.

As shown in fig. 2-3, the feed module 7 includes:

the vertical conveyor belts 15 are uniformly distributed with a plurality of clamping strips 16 which can be used for placing the whole plate light-emitting plate;

And a driving mechanism 17, wherein the driving mechanism 17 is used for synchronously driving the two vertical conveyor belts 15.

As an alternative implementation scheme of the utility model, the two ends of the whole plate light-emitting plate can be directly inserted into two clamping strips 16 with equal height, so that the two vertical conveyor belts 15 can be used as bins of the plate cutting machine; when the two vertical conveyor belts 15 run synchronously, each whole luminescent plate is conveyed downwards and finally reaches the reciprocating material moving mechanism 20; through this kind of design for the feed bin realizes the function of direct material loading in proper order, and the occupied space is less, and only blocks the edge of luminescent plate in the feeding process, can not let other positions of luminescent plate produce wearing and tearing and influence and become flat quality finally, and is very practical.

As shown in fig. 2-4, the material moving module 8 is disposed below the feeding module 7, and the material moving module 8 includes:

The plate taking clamp comprises plate taking clamping heads 18 and plate taking clamping cylinders 19, the two plate taking clamping heads 18 are connected to the plate taking clamping cylinders 19 in a sliding mode, and the two plate taking clamping heads 18 are driven by the plate taking clamping cylinders 19 to clamp from the edge of one end of the whole plate light-emitting plate;

the reciprocating material moving mechanism 20, and the plate taking clamp is fixedly connected to the reciprocating material moving mechanism 20.

As an alternative embodiment of the present utility model, the reciprocating pushing mechanism may adopt modes including, but not limited to, a reciprocating pushing rod, a reciprocating conveying belt, a reciprocating conveying chain, etc., and in the present embodiment, the reciprocating conveying chain is preferred, and the reciprocating pushing mechanism is suitable for directly installing and fixing the plate taking clamp in the chain; the reciprocating material moving mechanism 20 reciprocates to enable the plate taking clamp to retract to the rear of the whole disk of the lowest layer, when the vertical conveyor belt 15 conveys the whole disk of the light-emitting plate to a position between the two plate taking clamp heads 18, the plate taking clamp heads 18 combine to clamp the rear end of the light-emitting plate, and meanwhile, the clamping strip 16 is taken as a track, and the reciprocating material moving mechanism 20 pushes the whole disk of the light-emitting plate to the first cutting mechanism 9; through the design, the whole material moving process is smooth, and the plate taking clamp acts on the rear end of the whole plate light-emitting plate, so that the plate taking clamp and the first clamp 10 act on the two ends of the whole plate light-emitting plate respectively, the stress of the light-emitting plate during cutting is balanced, the quality is ensured, the whole structure only occupies a little space below the feeding module 7, and the design is compact and precise.

As shown in fig. 5, the first cutter mechanism 9 and the second cutter mechanism 12 each include:

The cutter guide rails 21 are vertically arranged;

a cutter body 22, the cutter body 22 being slidably connected in the cutter guide rail 21;

the cutter push rod 23, the cutter push rod 23 is connected with the cutter body 22.

As an alternative embodiment of the present utility model, the cutter push rod 23 may be driven by a reciprocating mechanism including, but not limited to, a reciprocating electric push rod, a linear slider, etc., for driving the cutter body 22 to reciprocate so as to cut the entire light-emitting plate into individual light-emitting plates; the cutter body 22 can be cut from bottom to top or from top to bottom in a mode which can be adopted by the embodiment, preferably from bottom to top, and the cutter guide rail 21 and the cutter push rod 23 can be designed below the workbench 4 together, so that the complexity of the layout structure above the workbench 4 is reduced, and meanwhile, a large amount of occupied space can be reduced, the structure layout is more exquisite, the design concept of a miniaturized assembly production line is met, and the bulb automatic assembly device is easier to directly apply.

As shown in fig. 6, the first jig 10 includes:

The first chucks 24, when the two first chucks 24 are driven, the upper and lower surfaces of the whole disk of luminous plate are clamped;

A first moving rail 25;

the first clamping cylinder 26 is slidably connected to the first guide rail, the path direction of the first clamping cylinder 26 on the first moving guide rail 25 is consistent with the material moving direction of the material moving module 8, and the first chuck 24 is slidably connected to one side, close to the feeding unit 1, of the first clamping cylinder 26.

As an alternative implementation scheme of the utility model, the first clamping cylinder 26 drives the two first chucks 24 to clamp the upper and lower sides of the vertical bar-shaped light-emitting plate to be cut, so that the light-emitting plate is prevented from falling off after cutting, meanwhile, the light-emitting plate cannot be used due to bending caused by unidirectional thrust of the cutter body 22, the light-emitting plate cannot be bent and does not fall off, continuous actions of subsequent working procedures cannot be carried out, the quality of a finished product is ensured to be reliable, meanwhile, accumulation and shell clamping caused by errors in the running process of the equipment are avoided, loss is avoided, the production progress is further delayed, and the production efficiency of the equipment is greatly improved.

As shown in fig. 7, the second jig 14 includes:

second chucks 27, wherein both side edges of the single light-emitting panel are clamped when the second chucks 27 are driven;

A second moving rail 28;

The second clamping cylinder 29 is slidably connected in the second moving guide rail 28, and the path direction of the second clamping cylinder 29 on the second moving guide rail 28 is consistent with the conveying direction of the second conveying mechanism 13;

Two second chucks 27 sandwiching both side edges of the single light emitting panel are slidably connected to one side of the second clamping cylinder 29 near the second conveying mechanism 13, and the other second chuck 27 is fixedly connected to one side of the top of the second clamping cylinder 29 near the second conveying mechanism 13.

As an alternative embodiment of the present utility model, the second clamping cylinder 29 drives the left and right edges of the single light-emitting plate to be cut by the two second chucks 27 to clamp, so as to avoid falling after cutting, and simultaneously avoid bending caused by unidirectional thrust of the cutter body 22 directly, and avoid bending and falling, so that continuous actions of subsequent working procedures cannot be performed, ensure reliable quality of finished products, and ensure that the equipment is not stacked and blocked due to errors in the operation process, avoid loss and further delay production progress, and greatly improve the production efficiency of the equipment.

As shown in fig. 8, the first conveying mechanism 11 includes:

The first material conveying clamping heads 30 are driven to clamp the two side edges of the vertical strip-shaped light-emitting plate, and the first material conveying clamping heads 30 are provided with first clamping grooves 31;

the first material conveying clamping cylinders 32, and the two first material conveying clamping heads 30 are connected to the first material conveying clamping cylinders 32 in a sliding manner;

The rotating mechanism 33, the first material conveying clamping cylinder 32 is rotatably connected to the bottom of the rotating mechanism 33;

A lifting guide rail 34, and the rotating mechanism 33 is connected to the lifting guide rail 34 in a sliding manner;

The transverse moving guide rail 35, the lifting guide rail 34 is connected to the transverse moving guide rail 35 in a sliding manner, the transverse moving guide rail 35 is arranged above the first clamp 10, and the moving path of the lifting guide rail 34 on the transverse moving guide rail 35 is between the first clamp 10 and the second conveying mechanism 13.

As an alternative embodiment of the utility model, the first material conveying clamping cylinders 32 drive the two first material conveying clamping heads 30 to synchronously clamp the two sides of the vertical bar-shaped light-emitting plates, the rotating mechanism 33 rotates the vertical bar-shaped light-emitting plates so as to be conveniently placed on the horizontal conveying belt 36, and then the cut vertical bar-shaped light-emitting plates are conveyed to the horizontal conveying belt 36 through the lifting guide rails 34 and the transverse moving guide rails 35; through the structural design, the second conveying mechanism 13 and the second cutter mechanism 12 can be designed beside the second clamp 14, so that the total width of the blanking unit 2 is approximately aligned with the total width of the feeding unit 1, the occupation of space is greatly reduced, and the automatic bulb assembling device is easy to directly apply to bulb automatic assembling equipment; through the design of the first clamping groove 31, the light-emitting plate is not easy to fall off in the conveying process.

As shown in fig. 7, the second conveying mechanism 13 includes:

The horizontal conveyor belt 36, two sides of the horizontal conveyor belt 36 are provided with limiting plates 37, and the horizontal conveyor belt 36 comprises two conveyor belts which run synchronously;

the second material conveying chucks 38, two second material conveying chucks 38 are driven to clamp the two side edges of the luminous plate, and a second clamping groove 39 is formed in the second material conveying chucks 38; the second material conveying clamping head 38 is provided with a groove position which can enable the second clamping head 27 to pass through, so that the second clamping head 27 and the second material conveying clamping head 38 are ensured to have enough positions to clamp the left side and the right side of the light-emitting plate;

The second material conveying clamping cylinder 40, and two second material conveying chucks 38 are slidably connected to one side, close to the second clamp 14, of the second material conveying clamping cylinder 40;

The second conveying guide rail 41, the second conveying clamping cylinder 40 is connected to the second conveying guide rail 41 in a sliding manner, and the moving direction of the second conveying guide rail is consistent with that of the horizontal conveying belt 36;

the second conveying rail 41 is provided above the horizontal conveyor belt 36 on a side close to the second clamp 14.

As an alternative embodiment of the present utility model, the horizontal conveyor belt 36 makes the parts carried on the light-emitting plate fall into the space between the two conveyor belts through the two conveyor belts running synchronously, so that only the edges of the light-emitting plate are contacted when the vertical bar-shaped light-emitting plate is conveyed, the abrasion of the light-emitting plate is not caused, the quality of the finished product is not affected, the subsequent plate cutting process is not affected due to the unevenness, and the production quality can be improved; the second material conveying clamping cylinders 40 drive the two second material conveying clamping heads 38 to clamp the left and right edges of the single light-emitting plate to be cut, and the two second material conveying clamping heads and the second clamp 14 jointly act on the single light-emitting plate to be cut, so that the stress of the light-emitting plate is more balanced, the cutting is more stable, and the production quality is improved; the second conveying guide rail 41 drives the second conveying clamping cylinder 40 to be consistent with the horizontal conveying belt 36 in direction, so that the vertical strip-shaped light-emitting plate can be driven to move in an auxiliary mode, inaccuracy in the cutting position of the vertical strip-shaped light-emitting plate due to inertia of the horizontal conveying belt 36 can be avoided, and production quality can be ensured.

As shown in fig. 7, the feeding unit 3 is further included, the feeding unit 3 is disposed at one side of the second fixture 14, and the feeding unit 3 includes:

a suction cup assembly 42, the suction cup assembly 42 comprising two suction cup bars;

The feeding guide rail 43, the sucking disc assembly 42 is slidably connected to the feeding guide rail 43, the feeding guide rail 43 comprises but is not limited to an X-Y-Z guide rail, and the sucking disc assembly 42 moves on the feeding guide rail 43 to convey the cut single luminous plate to a track of the bulb assembly device.

As an alternative implementation scheme of the utility model, two sucker rods act on a single light-emitting plate to realize the grabbing of the cut single light-emitting plate, and then the single light-emitting plate is conveyed to the process of bulb assembly equipment through an X-Y-Z guide rail, so that the automation degree of the equipment is further improved, the equipment is more easily used in automatic bulb assembly equipment, the manpower and material resources are greatly reduced, the cost is saved, and the production efficiency is improved.

As shown in fig. 1 and 9, the method further includes:

The workbench 4, the feeding unit 1 and the blanking unit 2 are fixedly connected to the workbench 4 through lifting adjustable brackets;

The brake wheel 5 is movably connected to the bottom of the workbench 4;

and the control unit 6 is respectively in control connection with the feeding unit 1 and the blanking unit 2.

As an alternative embodiment of the utility model, the brake wheel 5 enables the plate cutting machine to be movable and is convenient to fix in the use process; the table 4 provides the installation of the above-described respective structures; the lifting adjustable bracket is used for coping with adjustment when cutting the light-emitting plates with different specifications, so that the application range of the equipment is improved; the control unit 6 is used for controlling the operation of each component, and can realize continuous automatic operation of the equipment through a written program, thereby improving the production efficiency.

The working principle and the using flow of the utility model are as follows: manually placing the whole plate of the luminous plate between two vertical conveyor belts 15, and starting the equipment; the two vertical conveyor belts 15 run synchronously, each whole luminescent plate is conveyed downwards, and finally reaches the reciprocating material moving mechanism 20; the reciprocating material moving mechanism 20 firstly withdraws the plate taking clamp to the rear of the whole disk of the lowest layer, when the vertical conveyor belt 15 conveys the whole disk of the light emitting plate to a position between the two plate taking clamp heads 18, the plate taking clamp heads 18 combine and clamp the rear end of the light emitting plate, and meanwhile, the clamping strip 16 is taken as a track, and the reciprocating material moving mechanism 20 pushes the whole disk of the light emitting plate to the first cutting mechanism 9; the first clamping cylinder 26 drives the two first chucks 24 to clamp the upper and lower surfaces of the vertical bar-shaped light-emitting plate to be cut, and then the first cutting mechanism 9 operates to sequentially cut the whole plate into the vertical bar-shaped light-emitting plates; the first clamping cylinder 26 moves on the first guide rail to bring out the cut vertical bar-shaped light-emitting plate; the first material conveying clamping cylinder 32 drives the two first material conveying clamping heads 30 to synchronously clamp two sides of the vertical bar-shaped light-emitting plates, the rotating mechanism 33 rotates the vertical bar-shaped light-emitting plates so as to be conveniently placed on the horizontal conveying belt 36, and then the cut vertical bar-shaped light-emitting plates are conveyed to the horizontal conveying belt 36 through the lifting guide rail 34 and the transverse moving guide rail 35; the second feeding clamping cylinder 40 drives the two second feeding chucks 38 to clamp the left and right edges of the single light-emitting plate to be cut, the second clamping cylinder 29 drives the two second chucks 27 to jointly act on the single light-emitting plate to be cut, and then the second cutter mechanism 12 operates to sequentially cut the vertical light-emitting plates into the single light-emitting plates; the second clamping cylinder 29 moves on the second moving guide rail 28 to bring out the cut single light-emitting plate; then, the two sucker rods act on the single light-emitting plate to grasp the cut single light-emitting plate, and then the single light-emitting plate is conveyed to a process of bulb assembly equipment through an X-Y-Z guide rail; can save the manual work by a wide margin, effectual improvement production efficiency.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. A board cutting machine, comprising:

The feeding unit comprises a feeding module and a material moving module, wherein the feeding module is used for placing and conveying the light-emitting plates to the material moving module, and the material moving module is used for sequentially conveying out each light-emitting plate;

The cutting unit comprises a first cutting assembly and a second cutting assembly, the first cutting assembly comprises a first cutting mechanism, a first clamp and a first conveying mechanism, and the second cutting assembly comprises a second cutting mechanism, a second conveying mechanism and a second clamp;

the first cutter mechanism cuts Cheng Shu the light-emitting plate into strips, the strips are conveyed to the second conveying mechanism through the first conveying mechanism, the second cutter mechanism cuts the vertical strip-shaped light-emitting plate into single strips, and the first clamp and the second clamp are used for clamping the light-emitting plate when the materials are cut.

2. A plate cutting machine according to claim 1, wherein: the feeding module includes:

The vertical conveyor belts are uniformly distributed with a plurality of clamping strips capable of placing the whole plate of the luminous plate;

and the driving mechanism is used for synchronously driving the two vertical conveyor belts.

3. A plate cutting machine according to claim 1, wherein: the below of feeding module is located to the material module that moves, move the material module and include:

The plate taking clamp comprises plate taking clamping heads and plate taking clamping cylinders, wherein the two plate taking clamping heads are connected to the plate taking clamping cylinders in a sliding mode, and are driven by the plate taking clamping cylinders to clamp from the edge of one end of the whole plate light-emitting plate;

And the plate taking clamp is fixedly connected to the reciprocating material moving mechanism.

4. A plate cutting machine according to claim 1, wherein: the first cutter mechanism and the second cutter mechanism both comprise:

the cutter guide rails are vertically arranged;

the cutter body is connected in the cutter guide rail in a sliding manner;

The cutter push rod is connected with the cutter body.

5. A plate cutting machine according to claim 1, wherein: the first clamp includes:

the first chucks clamp the upper and lower surfaces of the whole light-emitting plate when driven;

A first moving guide rail;

The first clamping cylinder is connected to the first guide rail in a sliding mode, the path direction of the first clamping cylinder on the first moving guide rail is consistent with the material moving direction of the material moving module, and the first clamping head is connected to one side, close to the feeding unit, of the first clamping cylinder in a sliding mode.

6. A plate cutting machine according to claim 1, wherein: the second clamp includes:

a second chuck, wherein two second chucks clamp two side edges of a single light-emitting plate when driven;

A second moving guide rail;

the second clamping cylinder is connected in the second movable guide rail in a sliding manner, and the path direction of the second clamping cylinder on the second movable guide rail is consistent with the conveying direction of the second conveying mechanism;

Two second chucks clamping the edges of two sides of the single light-emitting plate are connected to one side, close to the second conveying mechanism, of the second clamping cylinder in a sliding mode, and the other second chucks are fixedly connected to one side, close to the second conveying mechanism, of the top of the second clamping cylinder.

7. A plate cutting machine according to claim 1, wherein: the first conveying mechanism includes:

The first material conveying clamp heads are driven to clamp the two side edges of the vertical strip-shaped light-emitting plate, and a first clamping groove is formed in each first material conveying clamp head;

The first material conveying clamping cylinders are connected with the two first material conveying clamping heads in a sliding manner;

the first material conveying clamping cylinder is rotatably connected to the bottom of the rotating mechanism;

The rotating mechanism is connected to the lifting guide rail in a sliding manner;

The lifting guide rail is connected to the transverse guide rail in a sliding manner, the transverse guide rail is arranged above the first clamp, and the movement path of the lifting guide rail on the transverse guide rail is between the first clamp and the second conveying mechanism.

8. A plate cutting machine according to claim 1, wherein: the second conveying mechanism includes:

the two sides of the horizontal conveying belt are provided with limiting plates, and the horizontal conveying belt comprises two conveying belts which synchronously run;

The two second material conveying chucks are driven to clamp the edges of the two sides of the luminous plate, and a second clamping groove is formed in each second material conveying chuck;

The two second material conveying clamping heads are connected to one side, close to the second clamp, of the second material conveying clamping cylinder in a sliding manner;

The second conveying guide rail is connected to the second conveying clamping cylinder in a sliding manner, and the moving direction of the second conveying guide rail is consistent with that of the horizontal conveying belt;

the second conveying guide rail is arranged on one side, close to the second clamp, above the horizontal conveying belt.

9. A plate cutting machine according to claim 1, wherein: still include the material loading unit, the material loading unit is located one side of second anchor clamps, the material loading unit includes:

the sucker assembly comprises two sucker rods;

The feeding guide rail is connected to the sucking disc component in a sliding mode, the feeding guide rail comprises an X-Y-Z guide rail, and the sucking disc component moves on the feeding guide rail to convey the cut single luminous plate to a track of bulb assembly equipment.

10. A plate cutting machine according to any one of claims 1-9, characterized in that: further comprises:

the feeding unit and the blanking unit are fixedly connected to the workbench through lifting adjustable brackets;

the brake wheel is movably connected to the bottom of the workbench;

And the control unit is respectively in control connection with the feeding unit and the blanking unit.