CN111384222A

CN111384222A - Accurate control LED packaging equipment

Info

Publication number: CN111384222A
Application number: CN202010209673.3A
Authority: CN
Inventors: 程一龙; 郭经洲; 王晓哲; 李辉
Original assignee: Hangzhou Dachen Display Technology Co ltd
Current assignee: Fujian xinhantang Lighting Technology Co.,Ltd.
Priority date: 2017-12-27
Filing date: 2017-12-27
Publication date: 2020-07-07
Anticipated expiration: 2037-12-27
Also published as: CN108231975A; CN108231975B; CN111384222B

Abstract

The invention discloses LED packaging equipment with accurate control, which comprises dispensing equipment, mould pressing equipment and fluorescent coating equipment, wherein the dispensing equipment is arranged on the mould pressing equipment; the dispensing equipment comprises a quantitative dispensing device, a feeding pipe, a controller, a debugger, a flat plate, radiating holes, a connecting wire, a side plate, a connecting plate, a workbench surface, a control knob, a wiring end, a packaging platform and a control key device, wherein the back of the quantitative dispensing device is arranged on the front side of the connecting plate, and the back of the feeding pipe is embedded and arranged in the debugger. The quantitative glue dispensing device is arranged, the knob in the quantitative glue feeder is adjusted, and the glue is opened at regular intervals to the glue feeding pipe below the quantitative glue feeder to convey the glue, so that the quantitative glue feeding effect is improved.

Description

Accurate control LED packaging equipment

Technical Field

The invention belongs to the technical field of LED packaging, and particularly relates to LED packaging equipment with accurate control.

Background

Most LEDs on the market at present adopt a traditional packaging system, and are dried and discharged after gluing and mould pressing. However, the existing packaging system has poor quantitative glue feeding effect, so that too much glue or too little glue is generated during glue dispensing and packaging. Secondly, the material loading of current moulding equipment realizes the emergency braking to the device through the pneumatic cylinder usually, but the valve is relatively poor to the sealed effect of fluid of pneumatic cylinder, leads to the oil tank oil impregnate, makes the hydraulic stem promote not in place, influences the material loading work.

Disclosure of Invention

Aiming at the problems, the invention provides the LED packaging equipment which is good in quantitative glue feeding effect and accurate in feeding control and control.

In order to achieve the purpose, the invention adopts the following technical scheme: an LED packaging device with accurate control comprises a dispensing device, a molding device and a fluorescent coating device; the dispensing equipment comprises a quantitative dispensing device, a feeding pipe, a controller, a debugger, a flat plate, heat dissipation holes, a connecting wire, a side plate, a first connecting plate, a working table, a control knob, a wiring end, a packaging platform and a control key device, wherein the back of the quantitative dispensing device is arranged on the front side of the first connecting plate, and the back of the feeding pipe is embedded and arranged inside the debugger; the mould pressing equipment comprises a feeding box, a regulating bolt, a baffle, a conveying belt, a rotating shaft, a connecting frame, a feeding pipe, a first base, an emergency braking device, a control device, a flange plate, a feeding cylinder, a receiving disc and a feeding base station, wherein the bottom surface of the feeding box is connected with the upper surface of the connecting frame, the regulating bolt is embedded in the front surface of the connecting frame, and the bottom surface of the connecting frame is attached to the upper surface of the first base. The quantitative glue dispensing device is arranged, the knob in the quantitative glue feeder is adjusted, and the glue is opened at regular intervals to the glue feeding pipe below the quantitative glue feeder to convey the glue, so that the quantitative glue feeding effect is improved; the oil control device is arranged and connected with the signal receiver through an electric wire, and in the process of emergency stop of the device, the electric valve can convert the received electric signals into kinetic energy to push the piston rod upwards, so that the piston rod is communicated with the cavity of the oil control device, the oil tank supplies oil to the hydraulic cylinder, the partition plate plugs the feeding pipe, and therefore timely emergency stop is realized, and damage to the machine due to insufficient emergency stop is avoided.

Furthermore, the emergency braking device comprises an oil control device, a hydraulic cylinder, an oil tank, a shell, an electric wire, a signal receiver and a partition plate, wherein the oil control device is connected with the signal receiver through the electric wire, the bottom of the signal receiver is connected with the upper surface of the hydraulic cylinder, the right end surface of the partition plate is welded with the left end surface of the hydraulic cylinder, the oil tank is connected with the inner surface of the shell, the oil control device comprises an electric valve, a sealing bolt, a piston rod, a second connecting plate and an oil control device cavity, the bottom surface of the electric valve is welded with the upper surface of the piston rod, the bottom surface of the second connecting plate and the inner surface of the oil control device cavity are of an integrated structure, the sealing bolt is embedded in the inner surface of the oil control device cavity, and the electric valve is.

Further, the quantitative glue dispensing device is composed of a dust ring, a piston spring, a piston, a quantitative glue feeder, a glue feeding pipe, a sealing gasket, a shell and a glue dispensing head, wherein the lower surface of the dust ring is arranged above the piston spring, the piston spring is arranged in the shell, the inner side of the piston is connected with the outer side of the glue feeding pipe, the outer side of the glue feeding pipe is attached to the inner side of the sealing gasket, the quantitative glue feeder is arranged on the glue feeding pipe, the inner side of the sealing gasket is attached to the outer side of the glue feeding pipe, and the upper surface of the glue dispensing head is arranged below the glue feeding pipe; the sealing gasket fixes the rubber feeding pipe at the lower part, the rubber feeding pipe conveys glue to the glue dispensing head, and the glue dispensing head performs quantitative glue dispensing packaging on the rubber feeding pipe, so that the quantitative glue dispensing effect is improved, and excessive glue or too little glue cannot be generated during glue dispensing packaging.

Furthermore, the back of the quantitative dispensing device is arranged on the front side of the first connecting plate, the back of the feeding pipe is embedded in the debugger, the controller is electrically connected with the connecting wire, the lower portion of the debugger is arranged above the flat plate, the lower surface of the flat plate is parallel to the upper surface of the first connecting plate, and the heat dissipation holes and the controller are of an integrated structure.

Further, the fluorescence coating equipment comprises a display screen, screws, an object table, a fixing frame, an equipment body, a power interface, support legs, a pressure gauge, an operation panel, an adjusting switch, a positioning device, an applicator, an emergency stop button, an object, a cabinet door and a handle, wherein the display screen is electrically connected with the operation panel, the object table is positioned at the lower end of the object, the power interface is positioned at the left end of the equipment body, and the pressure gauge is electrically connected with the operation panel.

Furthermore, the positioning device comprises an FET tube, a housing, a support ring, a window, pins, a second base, a circuit element, a thermoelectric plate, and a filter lens, wherein the FET tube is located at the upper end of the circuit element, the housing and the window are of an integrated structure, the support ring is located inside the housing, the pins penetrate through the second base, the circuit element is located inside the housing, and the lower surface of the thermoelectric plate is attached to the upper surface of the filter lens; the invention solves the problems of inaccurate position calibration and positioning and uneven fluorescent powder coating caused by the phenomenon of offset in the prior art, and the invention installs the positioning device on the machine body through the mutual combination of the components, switches on the power supply, maps the object on the filter lens through the window, transmits the analog signal to the thermoelectric plate through the filter lens, transmits the signal to the circuit original through the thermoelectric plate, converts the analog signal into the digital signal through the circuit original, transmits the digital signal to the machine body through the FET tube, and starts coating, thereby accurately positioning the position of the object and ensuring the uniform coating of the object.

In summary, the invention has the following advantages: the knob in the quantitative glue feeder is adjusted by itself, and the glue is delivered to the glue feeding pipe below the quantitative glue feeder at regular intervals, so that the quantitative glue feeding effect is improved; the oil control device is arranged and connected with the signal receiver through the electric wire, so that the equipment can be emergently stopped in time, and the machine is prevented from being damaged due to untimely stop.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the dispensing apparatus of the present invention.

FIG. 3 is a schematic view of a quantitative dispensing device according to the present invention

FIG. 4 is a schematic view showing the structure of the molding apparatus of the present invention.

FIG. 5 is a schematic cross-sectional view of the emergency brake apparatus of the present invention;

FIG. 6 is a schematic cross-sectional view of a control device according to the present invention;

fig. 7 is a schematic cross-sectional view of the oil control device of the present invention.

FIG. 8 is a schematic view showing the structure of a phosphor coating apparatus according to the present invention.

FIG. 9 is a cross-sectional view of a positioning device of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

An LED packaging device with accurate control is shown in figures 1-9 and comprises a dispensing device 1, a molding device 3 and a fluorescent coating device 4; as shown in fig. 2-3, the dispensing apparatus 1 includes a quantitative dispensing device 11, a feeding tube 12, a controller 13, a debugger 14, a flat plate 15, a heat dissipation hole 16, a connection line 17, a side plate 18, a first connection plate 19, a worktable 110, a control knob 111, a terminal 112, a packaging platform 113, and a control button device 114, wherein the back of the quantitative dispensing device 11 is installed on the front side of the first connection plate 19, the back of the feeding tube 12 is embedded inside the debugger 14, the controller 13 is electrically connected to the connection line 17, the lower side of the debugger 14 is installed above the flat plate 15, the lower surface of the flat plate 15 and the upper surface of the first connection plate 19 are parallel to each other, the heat dissipation hole 16 and the controller 13 are integrated, the lower side of the connection line 17 is embedded inside the worktable 110, the upper surface of the side plate 18 is welded below the flat plate 15, the lower surface of the control knob 111 is embedded in the workbench 110, the terminal 112 is electrically connected with the workbench 110, the lower surface of the packaging platform 113 is attached above the workbench 110, the lower surface of the control button device 114 is mounted above the workbench 110, the quantitative glue dispensing device 11 is composed of a dust ring 101, a piston spring 102, a piston 103, a quantitative glue feeder 104, a glue feeding pipe 105, a sealing pad 106, a housing 107 and a glue dispensing head 108, the lower surface of the dust ring 101 is mounted above the piston spring 102, the piston spring 102 is mounted in the housing 107, the inner side of the piston 103 is connected with the outer side of the glue feeding pipe 105, the outer side of the glue feeding pipe 105 is attached to the inner side of the sealing pad 106, the quantitative glue feeder 104 is mounted on the glue feeding pipe 105, and the inner side of the sealing pad 106 is attached to the outer side of the glue feeding pipe 105, the upper surface mounting of dispensing head 108 is in the below of giving rubber tube 105, table surface 110 is the cuboid structure, control knob 111's diameter is 1cm, the outside of first connecting plate 19 welds the inboard in curb plate 18, table surface 110's the outside perpendicular to curb plate 18's inboard, give rubber tube 105 and be connected with feed pipe 12 through shell 107, curb plate 18 is made by pvc, has with low costs effect, piston spring 102 is made by stainless steel, has rust-resistant effect.

The controller 13 described in this patent refers to a master control device for controlling the starting, speed regulation, braking and reversing of the motor by changing the wiring of the master circuit or control circuit and changing the resistance value in the circuit according to a predetermined sequence, and the control knob 11 is a manual element that is manually controlled to rotate.

When the glue dispensing device is used, glue needed for dispensing is injected into the glue feeding pipe 105 through the feeding pipe 12, the piston spring 102 compresses downwards, when the glue in the glue feeding pipe 105 reaches the quantitative glue feeder 104, a knob in the quantitative glue feeder 104 adjusts itself, the glue feeding pipe 105 below the quantitative glue feeder 104 is opened at regular intervals to convey the glue, the glue feeding pipe 105 at the lower part is fixed by the sealing gasket 106, the glue is conveyed to the glue dispensing head 108 by the glue dispensing head 108, and quantitative glue dispensing and packaging are carried out.

The quantitative glue dispensing device is structurally provided through the mutual combination of the components, so that the quantitative glue dispensing effect is improved, and the excessive glue or the insufficient glue can not be generated during glue dispensing and packaging.

Specifically, as shown in fig. 4 to 7, the mold pressing device 3 includes a feeding box 31, an adjusting bolt 32, a baffle 33, a conveyor belt 34, a rotating shaft 35, a connecting frame 36, a feeding pipe 37, a first base 38, an emergency braking device, a control device 310, a flange 311, a feeding cylinder 312, a receiving tray 313, and a feeding base 314, wherein a bottom surface of the feeding box 31 is connected to an upper surface of the connecting frame 36, the adjusting bolt 32 is embedded in a front surface of the connecting frame 36, a bottom surface of the connecting frame 36 is attached to an upper surface of the first base 38, the baffle 33 is disposed on an upper surface of the conveyor belt 34, the conveyor belt 34 is attached to an outer surface of the rotating shaft 35, the connecting frame 36 is connected to a left end surface of the feeding base 314 through the feeding pipe 37, a bottom surface of the receiving tray 313 is welded to the upper surface of the feeding base 314, a ground surface of the flange 311 is bonded to the upper surface of the first base 38, the control device 310 is embedded in the right side of the front surface of the first base 38, the emergency brake device is embedded in the feeding base 314, the emergency brake device comprises an oil control device 901, a hydraulic cylinder 902, an oil tank 903, a housing 904, an electric wire 905, a signal receiver 906 and a partition 907, the oil control device 901 is connected with the signal receiver 906 through the electric wire 905, the bottom of the signal receiver 906 is connected with the upper surface of the hydraulic cylinder 902, the right end surface of the partition 907 is welded with the left end surface of the hydraulic cylinder 902, the oil tank 903 is connected with the inner surface of the housing 904, the oil control device 901 comprises an electric valve 90101, a sealing bolt 90102, a piston rod 90103, a second connecting plate 90104 and an oil control device cavity 90105, the bottom surface of the electric valve 90101 is welded with the upper surface of the piston rod 90103, and the bottom surface of the second connecting plate 90104 and the inner surface of the oil control device cavity 90105 are of, the embedded internal surface of installing in accuse oily device cavity 90105 of sealed plug 90102, motorised valve 90101 is connected with signal receiver 906 through electric wire 905, controlling means 310 includes button 1001, dustcoat 1002, signal transmitter 1003, contactor 1004, the left end face of button 1001 is connected with the right-hand member face of contactor 1004, the left end face of signal transmitter 1003 is laminated with the left end face of contactor 1004, the center of dustcoat 1002 internal surface is located to contactor 1004, the bottom surface embedding of feed cylinder 312 is installed in the upper surface and the mutually perpendicular of ring flange 311, the diameter of adjusting bolt 32 is 5cm, linking frame 36 is made by the stainless steel, and the hardness is high and difficult rust, first base 38 is the cuboid structure.

The flange 311 mentioned in this patent is a metal body having a shape similar to a disk, and several holes for fixing are formed on the periphery of the metal body for connecting other objects, which are widely used in machinery, so that the appearance is very strange, and as long as the flange is called, the second connecting plate 90104 is two or more structural members separated from each other and connected into an integral structural member, and the structural style of the flange is that rectangular plates, polygonal plates, special-shaped plates and the like are very many, and the types of the flange generally include a corner brace connecting plate, a tie bar connecting plate, a horizontal brace connecting plate and an inter-column brace connecting plate.

When the device is used, the oil control device 901 can be connected with the signal receiver 906 through the electric wire 905, and in the process of sudden stop of the device, the electric valve 90101 can convert the received electric signal into kinetic energy to push the piston rod 90103 upwards, so that the piston rod 90103 opens the cavity 90105 of the oil control device, the oil tank supplies oil to the hydraulic cylinder 902, the partition plate 907 blocks the feeding pipe 37, timely sudden stop is realized, and damage to the machine due to insufficient prompt stop is avoided.

The invention solves the problems that the emergency braking of the device is realized through a hydraulic cylinder in the prior art, but the oil sealing effect of a valve on the hydraulic cylinder is poor, so that oil leakage of an oil tank is caused, a hydraulic rod is not pushed in place, and the feeding work is influenced.

Specifically, as shown in fig. 8-9, the fluorescent coating apparatus 4 includes a display screen 41, screws 42, an object table 43, a fixing frame 44, a body 45, a power interface 46, a support 47, a pressure gauge 48, an operation panel 49, an adjustment switch 410, a positioning device, an applicator 412, an emergency stop button 413, an object 414, a cabinet door 415, and a handle 416, wherein the display screen 41 is electrically connected to the operation panel 49, the object table 43 is located at the lower end of the object 414, the power interface 46 is located at the left end of the body 45, the pressure gauge 48 is electrically connected to the operation panel 49, the adjustment switch 410 is located at the right end of the pressure gauge 48, the adjustment switch 410 is electrically connected to the operation panel 49, the positioning device is located at the upper end of the object 414, the applicator 412 is located at the lower end of the operation panel 49, the emergency stop button 413 is electrically connected to the body 45, the cabinet door 415 is welded to the handle 416, the cabinet, the positioning device includes FET 1101, housing 1102, support ring 1103, window 1104, pins 1105, second base 1106, circuit element 1107, thermoelectric plate 1108, filter lens 1109, the FET 1101 is located at the upper end of the circuit element 1107, the housing 1102 is integral with the window 1104, the support ring 1103 is located inside the housing 1102, the leads 1105 extend through the second base 1106, the circuit element 1107 is located inside the housing 1102, the lower surface of the thermoelectric plate 1108 is attached to the upper surface of the filter lens 1109, the screw 42 is in threaded connection with the fixing frame 44, the lower surface of the machine body 45 is welded with the upper surface of the supporting leg 47, the lead 1105 is electrically connected to the body 45, the support leg 47 has a length of 5cm, a width of 3cm and a height of 8cm, the support leg 47 is of a cuboid structure, and the object table 43 is made of stainless steel, is high in hardness and is not prone to rusting.

The display screen 41 is an I/O device belonging to a computer, i.e. an input/output device, which is a display tool for displaying a certain electronic document on a screen through a specific transmission device and reflecting the electronic document to human eyes, the screw 42 is a tool for fastening a machine member of an object step by utilizing physics and mathematical principles of inclined circular rotation and friction of the object, the screw is a general term of a fastening member, a daily oral word, the screw is an indispensable industrial necessity in daily life, such as a camera, glasses, a clock, an extremely small screw used for electronics, etc., a general screw for a television, an electric product, a musical instrument, furniture, etc., as for engineering, construction, a bridge, a large screw, a nut, a transportation device, an airplane, a trolley, an automobile, etc., is a large screw and a small screw, and a large screw is used for a bridge, the screw is used for a transportation device, an airplane, a trolley, an automobile, etc., the screw has, the function of the screw is always important, the screw is a common invention in production and life of people for thousands of years, and the screw is the first invention of human according to the application field.

When the positioning device is used, the positioning device is installed on the machine body 45, a power supply is switched on, an object is mapped on the filter lens 1109 through the window 1104, an analog signal is transmitted to the thermal electric plate 1108 through the filter lens 1109, the thermal electric plate 1108 transmits the signal to the circuit element 1107, the analog signal is converted into a digital signal through the circuit element 1107, the digital signal is transmitted to the machine body 45 through the FET pipe 1101, coating is started, the position of the object is accurately positioned, and the coating uniformity of the object is guaranteed.

The invention solves the problems of inaccurate position calibration and positioning and uneven fluorescent powder coating caused by the phenomenon of offset in the prior art, and the invention installs the positioning device on the machine body through the mutual combination of the components, switches on the power supply, maps the object on the filter lens through the window, transmits the analog signal to the thermoelectric plate through the filter lens, transmits the signal to the circuit original through the thermoelectric plate, converts the analog signal into the digital signal through the circuit original, transmits the digital signal to the machine body through the FET tube, and starts coating, thereby accurately positioning the position of the object and ensuring the uniform coating of the object.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims

1. An LED packaging device capable of being controlled accurately comprises a dispensing device (1), a molding device (3) and a fluorescent coating device (4); the method is characterized in that: the dispensing equipment (1) comprises a quantitative dispensing device (11), a feeding pipe (12), a workbench surface (110), a control knob (111), a packaging platform (113), a controller (13), a flat plate (15), heat dissipation holes (16) and connecting wires (17), wherein the back surface of the quantitative dispensing device (11) is installed on the front side of a first connecting plate (19), and the back of the feeding pipe (12) is embedded and installed inside a debugger (14); the mould pressing equipment (3) comprises a feeding box (31), an adjusting bolt (32), a baffle (33), a conveyor belt (34), a rotating shaft (35), a connecting frame (36), a feeding pipe (37), a first base (38), an emergency braking device, a control device (310), a flange plate (311), a feeding cylinder (312), a receiving disc (313) and a feeding base table (314), wherein the bottom surface of the feeding box (31) is connected with the upper surface of the connecting frame (36), the adjusting bolt (32) is embedded in the front surface of the connecting frame (36), and the bottom surface of the connecting frame (36) is attached to the upper surface of the first base (38);

the emergency braking device comprises an oil control device (901), a hydraulic cylinder (902), an oil tank (903), a shell (904), an electric wire (905), a signal receiver (906) and a partition plate (907), wherein the oil control device (901) is connected with the signal receiver (906) through the electric wire (905), the bottom of the signal receiver (906) is connected with the upper surface of the hydraulic cylinder (902), the right end surface of the partition plate (907) is welded with the left end surface of the hydraulic cylinder (902), and the oil tank (903) is connected with the inner surface of the shell (904);

the oil control device (901) comprises an electric valve (90101), a sealing bolt (90102), a piston rod (90103), a second connecting plate (90104) and an oil control device cavity (90105), wherein the bottom surface of the electric valve (90101) is welded with the upper surface of the piston rod (90103), the bottom surface of the second connecting plate (90104) and the inner surface of the oil control device cavity (90105) are of an integrated structure, the sealing bolt (90102) is embedded in the inner surface of the oil control device cavity (90105), and the electric valve (90101) is connected with a signal receiver (906) through an electric wire;

the quantitative glue dispensing device (11) is composed of a dust ring (101), a piston spring (102), a piston (103), a quantitative glue feeder (104), a glue feeding pipe (105), a sealing gasket (106), a shell (107) and a glue dispensing head (108), wherein the lower surface of the dust ring (101) is installed above the piston spring (102), the piston spring (102) is installed inside the shell (107), the inner side of the piston (103) is connected with the outer side of the glue feeding pipe (105), the outer side of the glue feeding pipe (105) is attached to the inner side of the sealing gasket (106), the quantitative glue feeder (104) is installed on the glue feeding pipe (105), the inner side of the sealing gasket (106) is attached to the outer side of the glue feeding pipe (105), and the upper surface of the glue dispensing head (108) is installed below the glue feeding pipe (105); the controller (13) is electrically connected with the connecting wire (17), the lower part of the debugger (14) is installed above the flat plate (15), the lower surface of the flat plate (15) is parallel to the upper surface of the first connecting plate (19), and the heat dissipation holes (16) and the controller (13) are of an integrated structure.

2. The LED packaging device with accurate control as claimed in claim 1, wherein: the fluorescent coating equipment (4) comprises a display screen (41), screws (42), an object table (43), a fixing frame (44), an engine body (45), a power interface (46), support legs (47), a pressure gauge (48), an operating panel (49), an adjusting switch (410), a positioning device, an applicator (412), an emergency stop button (413), an object (414), a cabinet door (415) and a handle (416), wherein the display screen (41) is electrically connected with the operating panel (49).

3. The LED packaging device with accurate control according to claim 2, wherein: the positioning device comprises an FET (field effect transistor) tube (1101), a shell (1102), a support ring (1103), a window (1104), pins (1105), a second base (1106), a circuit original (1107), a thermoelectric plate (1108) and a filter lens (1109), wherein the FET tube (1101) is located at the upper end of the circuit original (1107), the shell (1102) and the window (1104) are of an integrated structure, the support ring (1103) is located inside the shell (1102), the pins (1105) penetrate through the second base (1106), the circuit original (1107) is located inside the shell (1102), and the lower surface of the thermoelectric plate (1108) is attached to the upper surface of the filter lens (1109).