CN113499947A - Be used for solid brilliant glue dispensing equipment of using of COB - Google Patents

Abstract

The invention relates to a dispensing machine, in particular to dispensing equipment for COB die bonding. Can realize the removal of equipment in XYZ three orientation through triaxial moving platform, can will wait to extrude the gluey of injection rubber bottle and heat through the coil that generates heat. The first motor drives the first sliding block to move on the first sliding rail and the second sliding block to move on the second sliding rail through the belt, namely, the movement in the X-axis direction is realized, the second motor drives the fourth sliding block to move on the third sliding rail through the second belt, namely, the movement in the Y-axis direction is realized, and the third motor drives the sixth sliding block to move on the sixth sliding rail through the third belt, namely, the movement in the Z-axis direction is realized; glue in the glue storage box is conveyed into an injection glue bottle through a glue conveying pipe, a motor IV drives a transmission disc IV to rotate through a belt IV, a helical blade rotates to extrude the glue to a glue outlet taper pipe, a battery is connected with a heating coil through a positive wire and a negative wire, the glue to be extruded is heated, and glue dispensing operation is carried out on a PCB; and conveying the PCB subjected to the dispensing to the next process under the transfer of the belt V.

Description

Be used for solid brilliant glue dispensing equipment of using of COB

Technical Field

The invention relates to a dispensing machine, in particular to dispensing equipment for COB die bonding.

Background

For example, patent number cn201821493466.x point glues equipment and system thereof, including point gum machine, point glue support plate and point glue apron, point gum machine be used for with control terminal electricity is connected, point glue apron with point glue support plate detachably connects and can with point glue support plate encloses into the point glue space, be provided with on the point glue apron with the point glue hole of point glue space intercommunication, point gum machine is provided with a point glue shower nozzle, point glue shower nozzle can stretch into in the point glue hole. But can not carry out the removal in triaxial direction, to the solid required heating point of brilliant realization of COB gluing.

Disclosure of Invention

The invention aims to provide a dispensing device for COB die bonding, which can move in three directions of XYZ by a three-axis moving platform and heat glue to be extruded out of an injection glue bottle by a heating coil.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a be used for solid brilliant glue dispensing equipment of using of COB, includes equipment rack, triaxial moving platform, point and glues assembly, PCB board transportation platform, the equipment rack is connected with triaxial moving platform, and the equipment rack is connected with PCB board transportation platform, and triaxial moving platform is connected with the point and glues the assembly.

As a further optimization of the technical scheme, the dispensing equipment for chip on board die bonding comprises an equipment rack, a bottom plate, a support column, a support leg, a first connecting column, a first hole, a second connecting column and a second hole, wherein the bottom plate is fixedly connected with the support column, the first connecting column and the second connecting column, the support column is fixedly connected with the support leg, the first connecting column is provided with the first hole, and the second connecting column is provided with the second hole.

As a further optimization of the technical scheme, the invention relates to a dispensing device for Chip On Board (COB) die bonding, wherein a three-axis moving platform comprises a first flat plate, a first slide rail, a second slide rail, a first slide block, a second slide block, a first connecting block, a first belt pressing block, a third slide rail, a first motor transmission disc, a first belt, a second slide rail, a fourth slide rail, a second belt, a second motor transmission disc, a second belt, a fourth slide rail, a fifth slide rail, a second flat plate, a third flat plate, a first vertical plate, a second vertical plate, a sixth slide rail, a sixth slide block, a connecting plate, a third connecting block, a third belt pressing block, a third motor transmission disc, a third transmission disc and a third belt, wherein the first flat plate is fixedly connected with the first slide rail, the first motor, the third slide rail and the second motor, the first flat plate is rotatably connected with the first slide rail and the first slide block, a second sliding rail is connected with a second sliding block in a sliding manner, a first connecting block is fixedly connected with a first sliding block, a second sliding block and a third sliding block, the first connecting block is fixedly connected with a first belt pressing block and a first belt, the third sliding block is connected with a fifth sliding rail in a sliding manner, a first motor is rotatably connected with a first motor transmission disc, the first motor transmission disc is connected with the first transmission disc through the first belt, the third sliding rail is slidably connected with a fourth sliding block and a fourth sliding block, the second connecting block is fixedly connected with the second belt pressing block and the second belt, the fifth sliding block is slidably connected with the fourth sliding rail, the second motor is rotatably connected with a second motor transmission disc, the second motor transmission disc is connected with the second transmission disc through the second belt, the second flat plate is fixedly connected with the fourth sliding rail, the fifth sliding rail and the third flat plate, the third flat plate is fixedly connected with the first vertical plate and the second vertical plate, the first vertical plate is fixedly connected with the third motor, the second vertical plate is fixedly connected with the sixth sliding rail, and the sixth sliding rail is slidably connected with the sixth sliding block, the connecting plate is fixedly connected with the sliding block six and the connecting block three, the connecting block three is fixedly connected with the belt pressing block three and the belt three, the motor three is rotatably connected with the motor driving disc three, the motor driving disc three is connected with the driving disc three through the belt three, and the flat plate one is fixedly connected with the connecting column one through hole one.

As a further optimization of the technical scheme, the invention relates to a dispensing device for COB die bonding, wherein a dispensing assembly comprises a glue storage box, a glue conveying pipe, a fixing plate, a first limiting plate, a second limiting plate, a glue injection bottle, a third hole, a limiting ring, a fourth transmission plate, a glue conveying rotating shaft, a helical blade, a glue discharging conical tube, a fourth motor transmission plate, a fourth belt, a battery, a positive electric wire, a negative electric wire and a heating coil, the glue storage box is fixedly connected with the glue conveying pipe, the glue conveying pipe is fixedly connected with the third hole of the glue injection bottle, the fixing plate is fixedly connected with the first limiting plate, the second limiting plate, the glue injection bottle, the fourth motor and the battery, the third hole is formed in the glue injection bottle, the glue injection bottle is fixedly connected with the limiting ring and the glue discharging conical tube, the limiting ring is rotatably connected with the fourth transmission plate, the fourth transmission plate is fixedly connected with the glue conveying rotating shaft, and the fourth transmission plate is connected with the motor transmission plate through the fourth belt, the glue conveying rotating shaft is fixedly connected with the helical blade, the motor four is rotatably connected with the motor transmission disc four, the battery is fixedly connected with the positive electrode wire, the negative electrode wire and the heating coil, the glue storage box is fixedly connected with the flat plate two, and the fixing plate is fixedly connected with the connecting plate.

As a further optimization of the technical scheme, the dispensing equipment for chip on board die bonding provided by the invention comprises a first rotating shaft, a second rotating shaft, a fifth belt and a PCB board, wherein the first rotating shaft is connected with the second rotating shaft through the fifth belt, the PCB board is arranged on the fifth belt, and the first rotating shaft and the second rotating shaft are rotatably connected with the second connecting column through hole.

The dispensing equipment for COB die bonding has the beneficial effects that:

the invention relates to a dispensing device for COB die bonding, wherein a motor drives a motor transmission disc to rotate, a belt I is fixedly connected with a connecting block I and a belt pressing block I, a slide block I is driven by the belt to move on a slide rail I and a slide block II on the slide rail II, namely, the movement in the X-axis direction is realized, the motor II drives the motor transmission disc II to rotate, the belt II is fixedly connected with the connecting block II and the belt pressing block II, the slide block II is driven by the belt II to move on the slide rail III, namely, the movement in the Y-axis direction is realized, the connecting block I is fixedly connected with the slide block III, the slide block III is slidably connected with the slide rail V, the connecting block II is fixedly connected with the slide block V, the slide block V is slidably connected with the slide rail IV, the two sliding connections are driven by the slide block I, the slide block II and the slide block IV, the motor III drives the motor transmission disc to rotate, the belt III is fixedly connected with the connecting block III and the belt pressing block III, the third belt drives the sixth sliding block to move on the sixth sliding rail, namely the Z-axis direction movement is realized; the three-axis moving platform drives the glue dispensing assembly to move, the glue storage box is fixedly connected with the second flat plate, the fixed plate is fixedly connected with the connecting plate, glue in the glue storage box is conveyed into an injection glue bottle through a glue conveying pipe, the injection glue bottle is fixed by the fixed plate, the first limiting plate and the second limiting plate, the motor drives the motor driving disc to rotate four times, the driving disc is driven to rotate four times through a belt, the driving disc is fixedly connected with a glue conveying rotating shaft, the spiral blade rotates to extrude the glue to a glue outlet conical tube, and the battery is connected with the heating coil through a positive electric wire and a negative electric wire so that the heating coil heats the glue to be extruded, and the glue dispensing operation is carried out on the PCB; and conveying the PCB subjected to the dispensing to the next process under the transfer of the belt V.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the equipment rack configuration of the present invention;

FIG. 3 is a schematic diagram of a three-axis mobile platform according to the present invention;

FIG. 4 is a schematic structural diagram of a three-axis mobile platform according to the present invention;

FIG. 5 is a schematic diagram of a three-axis mobile platform according to the present invention;

FIG. 6 is a schematic diagram of a three-axis mobile platform according to the present invention;

FIG. 7 is a schematic diagram of a three-axis mobile platform according to the present invention;

FIG. 8 is a first schematic view of a dispensing assembly according to the present invention;

FIG. 9 is a second schematic view of a dispensing assembly according to the present invention;

FIG. 10 is a schematic view of the structure of the injection glue bottle of the present invention;

FIG. 11 is a schematic diagram of a battery coil structure of the present invention;

fig. 12 is a schematic structural view of a PCB transferring platform of the present invention.

In the figure: an equipment rack 1; a bottom plate 1-1; a pillar 1-2; 1-3 of support legs; 1-4 of a connecting column I; 1-5 of a first hole; connecting a second column 1-6; 1-7 of a second hole; a three-axis mobile platform 2; 2-1 of a first plate; a first slide rail 2-2; 2-3 of a second sliding rail; 2-4 parts of a first sliding block; 2-5 of a second sliding block; 2-6 parts of a first connecting block; 2-7 of a belt pressing block I; 2-8 parts of a sliding block III; 2-9 parts of a first motor; 2-10 parts of a first motor transmission disc; 2-11 parts of a first transmission disc; 2-12 parts of a first belt; 2-13 parts of a slide rail; 2-14 parts of a sliding block; 2-15 parts of a second connecting block; 2-16 parts of a belt pressing block II; 2-17 parts of a slide block; 2-18 of a second motor; a second motor transmission disc 2-19; 2-20 parts of a second transmission disc; 2-21 parts of a second belt; four sliding rails 2-22; five sliding rails 2-23; 2-24 of a second flat plate; 2-25 parts of a flat plate III; a first vertical plate 2-26; 2-27 parts of a second vertical plate; six sliding rails 2-28; six sliding blocks 2-29; 2-30 of connecting plates; connecting blocks III 2-31; 2-32 parts of a belt pressing block III; motor three 2-33; motor driving discs three 2-34; a third transmission disc 2-35; 2-36 parts of a third belt; a dispensing assembly 3; 3-1 of a glue storage box; 3-2 parts of a rubber delivery pipe; 3-3 of a fixing plate; 3-4 parts of a first limiting plate; 3-5 parts of a second limiting plate; 3-6 parts of injection rubber bottle; 3-7 of a third hole; 3-8 parts of a limiting ring; a fourth transmission disc 3-9; 3-10 of a glue conveying rotating shaft; 3-11 parts of helical blades; 3-12 of a glue outlet taper pipe; motor four 3-13; a motor transmission disc IV 3-14; a fourth belt 3-15; 3-16 of a battery; positive electrode wires 3 to 17; 3-18 parts of negative electrode wires; 3-19 of heating coil; a PCB transferring platform 4; a first rotating shaft 4-1; a second rotating shaft 4-2; 4-3 parts of a belt; PCB 4-4.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes this embodiment with reference to fig. 1 to 12, and a dispensing device for COB die bonding includes a device rack 1, a three-axis moving platform 2, a dispensing assembly 3, and a PCB transferring platform 4, where the device rack 1 is connected to the three-axis moving platform 2, the device rack 1 is connected to the PCB transferring platform 4, and the three-axis moving platform 2 is connected to the dispensing assembly 3.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 12, and the present embodiment further describes the first embodiment, where the equipment rack 1 includes a bottom plate 1-1, a pillar 1-2, a leg 1-3, a first connecting column 1-4, a first hole 1-5, a second connecting column 1-6, and a second hole 1-7, the bottom plate 1-1 is fixedly connected with the pillar 1-2, the first connecting column 1-4, and the second connecting column 1-6, the pillar 1-2 is fixedly connected with the leg 1-3, the first connecting column 1-4 is provided with the first hole 1-5, and the second connecting column 1-6 is provided with the second hole 1-7.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 12, and the present embodiment further describes the first embodiment, where the three-axis mobile platform 2 includes a first flat plate 2-1, a first slide rail 2-2, a second slide rail 2-3, a first slide block 2-4, a second slide block 2-5, a first connecting block 2-6, a first belt pressing block 2-7, a third slide block 2-8, a first motor 2-9, a first motor driving disc 2-10, a first driving disc 2-11, a first belt 2-12, a third slide rail 2-13, a fourth slide block 2-14, a second connecting block 2-15, a second belt pressing block 2-16, a fifth slide block 2-17, a second motor 2-18, a second motor driving disc 2-19, a second driving disc 2-20, a second belt 2-21, a fourth slide rail 2-22, a fourth belt pressing block 2-16, a fifth slide block 2-17, a second motor 2-18, a second motor driving disc 2-19, a second driving disc 2-20, a second belt 2-21, a fourth slide rail four 2-22, a third connecting block 2-6, a third connecting block, a fourth block, a, 2-23 parts of a slide rail five, 2-24 parts of a flat plate two, 2-25 parts of a flat plate three, 2-26 parts of a vertical plate one, 2-27 parts of a vertical plate two, 2-28 parts of a slide rail six, 2-29 parts of a slide block six, 2-30 parts of a connecting plate, 2-31 parts of a connecting block three, 2-32 parts of a belt pressing block three, 2-33 parts of a motor three, 2-34 parts of a motor driving disc three, 2-35 parts of a driving disc three and 2-36 parts of a belt, 2-1 parts of the flat plate one is fixedly connected with 2-2 parts of the slide rail one, 2-3 parts of the slide rail two, 2-9 parts of the motor one, 2-13 parts of the slide rail three and 2-18 parts of the motor two, 2-1 parts of the flat plate one is rotatably connected with 2-11 parts of the driving disc two, 2-20 parts of the slide rail one is slidably connected with 2-4 parts of the slide block one, 2-3 parts of the slide rail two is slidably connected with 2-5 parts of the slide block two, the first connecting block 2-6 is fixedly connected with the first sliding block 2-4, the second sliding block 2-5 and the third sliding block 2-8, the first connecting block 2-6 is fixedly connected with the first belt pressing block 2-7 and the first belt 2-12, the third sliding block 2-8 is slidably connected with the fifth sliding rail 2-23, the first motor 2-9 is rotatably connected with the first motor transmission disc 2-10, the first motor transmission disc 2-10 is connected with the first transmission disc 2-11 through the first belt 2-12, the third sliding rail 2-13 is slidably connected with the fourth sliding block 2-14, the second connecting block 2-15 is fixedly connected with the fourth sliding block 2-14 and the fifth sliding block 2-17, the second connecting block 2-15 is fixedly connected with the second belt pressing block 2-16 and the second belt 2-21, and the fifth sliding block 2-17 is slidably connected with the fourth sliding rail 2-22, the motor II 2-18 is rotationally connected with the motor driving disc II 2-19, the motor driving disc II 2-19 is connected with the driving disc II 2-20 through the belt II 2-21, the flat plate II 2-24 is fixedly connected with the slide rail IV 2-22, the slide rail V2-23 and the flat plate III 2-25, the flat plate III 2-25 is fixedly connected with the vertical plate I2-26 and the vertical plate II 2-27, the vertical plate I2-26 is fixedly connected with the motor III 2-33, the vertical plate II 2-27 is fixedly connected with the slide rail VI 2-28, the slide rail VI 2-28 is slidably connected with the slide block VI 2-29, the connecting plate 2-30 is fixedly connected with the slide block VI 2-29 and the connecting block III 2-31, the connecting block III 2-31 is fixedly connected with the belt pressing block III 2-32 and the belt III 2-36, the motor III 2-33 is rotatably connected with the motor transmission disc III 2-34, the motor transmission disc III 2-34 is connected with the transmission disc III 2-35 through a belt III 2-36, and the flat plate I2-1 is fixedly connected with the connecting column I1-4 through a hole I1-5;

the motor I2-9 drives the motor transmission disc I2-10 to rotate, the belt I2-12 is fixedly connected with the connecting block I2-6 and the belt pressing block I2-7, the belt I2-12 drives the sliding block I2-4 to move on the sliding rail I2-2 and the sliding block II 2-5 to move on the sliding rail II 2-3, namely the movement in the X-axis direction is realized, the motor II 2-18 drives the motor transmission disc II 2-19 to rotate, the belt II 2-21 is fixedly connected with the connecting block II 2-15 and the belt pressing block II 2-16, the belt II 2-21 drives the sliding block IV 2-14 to move on the sliding rail III 2-13, namely the movement in the Y-axis direction is realized, the connecting block I2-6 is fixedly connected with the sliding block III 2-8, the sliding block III 2-8 is slidably connected with the sliding rail V2-23, the second connecting block 2-15 is fixedly connected with the fifth sliding block 2-17, the fifth sliding block 2-17 is slidably connected with the fourth sliding rail 2-22, the two sliding connections are driven to slide passively and driven by the first sliding block 2-4, the second sliding block 2-5 and the fourth sliding block 2-14, the third motor 2-33 drives the third motor driving disc 2-34 to rotate, the third belt 2-36 is fixedly connected with the third connecting block 2-31 and the third belt pressing block 2-32, and the sixth sliding block 2-29 is driven to move on the sixth sliding rail 2-28 through the third belt 2-36, so that the Z-axis direction movement is realized.

The fourth concrete implementation mode:

the first embodiment is further described with reference to fig. 1-12, wherein the dispensing assembly 3 includes a glue storage box 3-1, a glue delivery tube 3-2, a fixing plate 3-3, a first limiting plate 3-4, a second limiting plate 3-5, a glue injection bottle 3-6, a third hole 3-7, a limiting ring 3-8, a driving disk four 3-9, a glue delivery rotating shaft 3-10, a helical blade 3-11, a glue outlet taper tube 3-12, a motor four 3-13, a motor driving disk four 3-14, a belt four 3-15, a battery 3-16, a positive electrode wire 3-17, a negative electrode wire 3-18, and a heating coil 3-19, the glue storage box 3-1 is fixedly connected with the glue delivery tube 3-2, the glue delivery tube 3-2 is fixedly connected with the glue injection bottle 3-6 through the third hole 3-7, the fixed plate 3-3 is fixedly connected with the first limit plate 3-4, the second limit plate 3-5, the injection rubber bottle 3-6, the motor four 3-13 and the battery 3-16, the injection rubber bottle 3-6 is provided with a hole three 3-7, the injection rubber bottle 3-6 is fixedly connected with the limit ring 3-8 and the glue outlet taper pipe 3-12, the limit ring 3-8 is rotatably connected with the driving disc four 3-9, the driving disc four 3-9 is fixedly connected with the glue conveying rotating shaft 3-10, the driving disc four 3-9 is connected with the motor driving disc four 3-14 through the belt four 3-15, the glue conveying rotating shaft 3-10 is fixedly connected with the helical blade 3-11, the motor four 3-13 is rotatably connected with the motor driving disc four 3-14, the battery 3-16 is connected with the positive electric wire 3-17, 3-18 parts of negative electrode wires and 3-19 parts of heating coils are fixedly connected, 3-1 parts of a glue storage box are fixedly connected with 2-24 parts of a flat plate, and 3-3 parts of a fixing plate are fixedly connected with 2-30 parts of a connecting plate;

the three-axis moving platform drives the glue dispensing assembly 3 to move, the glue storage box 3-1 is fixedly connected with the second flat plate 2-24, the fixing plate 3-3 is fixedly connected with the connecting plate 2-30, glue in the glue storage box 3-1 is conveyed into the injection glue bottle 3-6 through the glue conveying pipe 3-2, the injection glue bottle 3-6 is fixed by the fixing plate 3-3, the first limiting plate 3-4 and the second limiting plate 3-5, the motor four 3-13 drives the motor driving disc four 3-14 to rotate, the belt four 3-15 drives the driving disc four 3-9 to rotate, the driving disc four 3-9 is fixedly connected with the glue conveying rotating shaft 3-10, the spiral blade 3-11 rotates to extrude the glue to the glue outlet taper pipe 3-12, the battery 3-16 is connected with the heating coil 3-19 through the positive electrode wire 3-17 and the negative electrode wire 3-18, so that the heating coils 3-19 heat the glue to be extruded and carry out glue dispensing operation on the PCB.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 12, and the embodiment further describes the first embodiment, where the PCB transferring platform 4 includes a first rotating shaft 4-1, a second rotating shaft 4-2, a fifth belt 4-3, and a PCB 4-4, the first rotating shaft 4-1 is connected to the second rotating shaft 4-2 through the fifth belt 4-3, the PCB 4-4 is on the fifth belt 4-3, and the first rotating shaft 4-1, the second rotating shaft 4-2 and the second connecting column 1-6 are rotatably connected through the second hole 1-7;

and conveying the PCB 4-4 subjected to dispensing to the next working procedure under the transfer of the belt V4-3.

The invention discloses a dispensing device for COB die bonding, which has the working principle that:

the motor I2-9 drives the motor transmission disc I2-10 to rotate, the belt I2-12 is fixedly connected with the connecting block I2-6 and the belt pressing block I2-7, the belt I2-12 drives the sliding block I2-4 to move on the sliding rail I2-2 and the sliding block II 2-5 to move on the sliding rail II 2-3, namely the movement in the X-axis direction is realized, the motor II 2-18 drives the motor transmission disc II 2-19 to rotate, the belt II 2-21 is fixedly connected with the connecting block II 2-15 and the belt pressing block II 2-16, the belt II 2-21 drives the sliding block IV 2-14 to move on the sliding rail III 2-13, namely the movement in the Y-axis direction is realized, the connecting block I2-6 is fixedly connected with the sliding block III 2-8, the sliding block III 2-8 is slidably connected with the sliding rail V2-23, the second connecting block 2-15 is fixedly connected with the fifth sliding block 2-17, the fifth sliding block 2-17 is slidably connected with the fourth sliding rail 2-22, the two sliding connections are driven to slide and driven by the first sliding block 2-4, the second sliding block 2-5 and the fourth sliding block 2-14, the third motor 2-33 drives the third motor driving disc 2-34 to rotate, the third belt 2-36 is fixedly connected with the third connecting block 2-31 and the third belt pressing block 2-32, and the sixth sliding block 2-29 is driven to move on the sixth sliding rail 2-28 through the third belt 2-36, so that the movement in the Z-axis direction is realized; the three-axis moving platform drives the glue dispensing assembly 3 to move, the glue storage box 3-1 is fixedly connected with the second flat plate 2-24, the fixing plate 3-3 is fixedly connected with the connecting plate 2-30, glue in the glue storage box 3-1 is conveyed into the injection glue bottle 3-6 through the glue conveying pipe 3-2, the injection glue bottle 3-6 is fixed by the fixing plate 3-3, the first limiting plate 3-4 and the second limiting plate 3-5, the motor four 3-13 drives the motor driving disc four 3-14 to rotate, the belt four 3-15 drives the driving disc four 3-9 to rotate, the driving disc four 3-9 is fixedly connected with the glue conveying rotating shaft 3-10, the spiral blade 3-11 rotates to extrude the glue to the glue outlet taper pipe 3-12, the battery 3-16 is connected with the heating coil 3-19 through the positive electrode wire 3-17 and the negative electrode wire 3-18, heating the glue to be extruded by the heating coils 3-19, and carrying out glue dispensing operation on the PCB; and conveying the PCB 4-4 subjected to dispensing to the next working procedure under the transfer of the belt V4-3.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a be used for COB solid brilliant with some adhesive deposite equipment which characterized in that: including equipment rack (1), triaxial moving platform (2), point gluey assembly (3), PCB board transportation platform (4), equipment rack (1) is connected with triaxial moving platform (2), and equipment rack (1) is connected with PCB board transportation platform (4), and triaxial moving platform (2) is connected with point gluey assembly (3).

2. The dispensing equipment for COB die bonding according to claim 1, wherein: the equipment rack (1) comprises a bottom plate (1-1), a support column (1-2), support legs (1-3), a first connecting column (1-4), a first hole (1-5), a second connecting column (1-6) and a second hole (1-7), wherein the bottom plate (1-1) is fixedly connected with the support column (1-2), the first connecting column (1-4) and the second connecting column (1-6), the support column (1-2) is fixedly connected with the support legs (1-3), the first hole (1-5) is formed in the first connecting column (1-4), and the second hole (1-7) is formed in the second connecting column (1-6).

3. The dispensing equipment for COB die bonding according to claim 1, wherein: the three-axis moving platform (2) comprises a first flat plate (2-1), a first sliding rail (2-2), a second sliding rail (2-3), a first sliding block (2-4), a second sliding block (2-5), a first connecting block (2-6), a first belt pressing block (2-7), a third sliding block (2-8), a first motor (2-9), a first motor transmission disc (2-10), a first transmission disc (2-11), a first belt (2-12), a third sliding rail (2-13), a fourth sliding block (2-14), a second connecting block (2-15), a second belt pressing block (2-16), a fifth sliding block (2-17), a second motor (2-18), a second motor transmission disc (2-19), a second transmission disc (2-20), a second belt (2-21), Four sliding rails (2-22), five sliding rails (2-23), two flat plates (2-24), three flat plates (2-25), one vertical plate (2-26), two vertical plates (2-27), six sliding rails (2-28), six sliding blocks (2-29), a connecting plate (2-30), a connecting block (2-31), a belt pressing block (2-32), a motor (2-33), a motor transmission disc (2-34), a transmission disc (2-35) and a belt (2-36), wherein the first flat plate (2-1) is fixedly connected with the first sliding rails (2-2), the second sliding rails (2-3), the first motor (2-9), the third sliding rails (2-13) and the second motor (2-18), and the first flat plate (2-1) is fixedly connected with the first transmission disc (2-11), A second transmission disk (2-20) is rotatably connected, a first sliding rail (2-2) is slidably connected with a first sliding block (2-4), a second sliding rail (2-3) is slidably connected with a second sliding block (2-5), a first connecting block (2-6) is fixedly connected with the first sliding block (2-4), the second sliding block (2-5) and a third sliding block (2-8), the first connecting block (2-6) is fixedly connected with a first belt pressing block (2-7) and a first belt (2-12), the third sliding block (2-8) is slidably connected with a fifth sliding rail (2-23), a first motor (2-9) is rotatably connected with a first motor transmission disk (2-10), the first motor transmission disk (2-10) is connected with the first transmission disk (2-11) through a first belt (2-12), and the third sliding rail (2-13) is slidably connected with a fourth sliding block (2-14), the second connecting block (2-15) is fixedly connected with the fourth sliding block (2-14) and the fifth sliding block (2-17), the second connecting block (2-15) is fixedly connected with the second belt pressing block (2-16) and the second belt (2-21), the fifth sliding block (2-17) is slidably connected with the fourth sliding rail (2-22), the second motor (2-18) is rotatably connected with the second motor transmission disc (2-19), the second motor transmission disc (2-19) is connected with the second transmission disc (2-20) through the second belt (2-21), the second flat plate (2-24) is fixedly connected with the fourth sliding rail (2-22), the fifth sliding rail (2-23) and the third flat plate (2-25), the third flat plate (2-25) is fixedly connected with the first vertical plate (2-26) and the second vertical plate (2-27), the first vertical plate (2-26) is fixedly connected with the third motor (2-33), the second vertical plate (2-27) is fixedly connected with the sixth sliding rail (2-28), the sixth sliding rail (2-28) is slidably connected with the sixth sliding block (2-29), the connecting plate (2-30) is fixedly connected with the sixth sliding block (2-29) and the third connecting block (2-31), the third connecting block (2-31) is fixedly connected with the third belt pressing block (2-32), the belt III (2-36) is fixedly connected, the motor III (2-33) is rotatably connected with the motor transmission disc III (2-34), the motor transmission disc III (2-34) is connected with the transmission disc III (2-35) through the belt III (2-36), and the flat plate I (2-1) is fixedly connected with the connecting column I (1-4) through the hole I (1-5).

4. The dispensing equipment for COB die bonding according to claim 1, wherein: the glue dispensing assembly (3) comprises a glue storage box (3-1), a glue conveying pipe (3-2), a fixing plate (3-3), a limiting plate I (3-4), a limiting plate II (3-5), a glue injection bottle (3-6), a hole III (3-7), a limiting ring (3-8), a transmission disc IV (3-9), a glue conveying rotating shaft (3-10), a spiral blade (3-11), a glue outlet taper pipe (3-12), a motor IV (3-13), a motor transmission disc IV (3-14), a belt IV (3-15), a battery (3-16), an anode wire (3-17), a cathode wire (3-18) and a heating coil (3-19), wherein the glue storage box (3-1) is fixedly connected with the glue conveying pipe (3-2), the rubber delivery pipe (3-2) is fixedly connected with an injection rubber bottle (3-6) through a hole III (3-7), the fixing plate (3-3) is fixedly connected with a limiting plate I (3-4), a limiting plate II (3-5), an injection rubber bottle (3-6), a motor IV (3-13) and a battery (3-16), the injection rubber bottle (3-6) is provided with a hole III (3-7), the injection rubber bottle (3-6) is fixedly connected with a limiting ring (3-8) and a rubber discharge taper pipe (3-12), the limiting ring (3-8) is rotatably connected with a driving disc IV (3-9), the driving disc IV (3-9) is fixedly connected with a rubber delivery rotating shaft (3-10), the driving disc IV (3-9) is connected with a motor driving disc IV (3-14) through a belt IV (3-15), the glue conveying rotating shaft (3-10) is fixedly connected with the helical blade (3-11), the motor four (3-13) is rotatably connected with the motor transmission disc four (3-14), the battery (3-16) is fixedly connected with the anode wire (3-17), the cathode wire (3-18) and the heating coil (3-19), the glue storage box (3-1) is fixedly connected with the flat plate two (2-24), and the fixing plate (3-3) is fixedly connected with the connecting plate (2-30).

5. The dispensing equipment for COB die bonding according to claim 1, wherein: the PCB transferring platform (4) comprises a first rotating shaft (4-1), a second rotating shaft (4-2), a fifth belt (4-3) and a PCB (4-4), wherein the first rotating shaft (4-1) is connected with the second rotating shaft (4-2) through the fifth belt (4-3), the PCB (4-4) is arranged on the fifth belt (4-3), and the first rotating shaft (4-1), the second rotating shaft (4-2) and the second connecting column (1-6) are rotatably connected through a second hole (1-7).

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