阅读说明：本技术 封胶固化机 (Sealing glue curing machine ) 是由 农升区 杨茗博 于 2021-10-26 设计创作，主要内容包括：本发明涉及封胶技术领域的封胶固化机,包括机体、控制机构、回流机构、托盘和料台,所述控制机构包括控制器、操纵按钮和显示面板,料台位于机体的两端,料台的一端为进料端,料台的另一端为出料端,机体的下端为控制箱,所述料台的表面设有结构对称的滑槽,料台靠近进料端的一端安装有用于自的进料的进料滑台,料台靠近出料端的一端安装有落料运输机,落料运输机的表面设有定位夹具,料台的内部均设有料台电机,料台电机的一端设有料台传送带,通过料台电机转动料台传送带,所述料台的上方设有取料机构,进料滑台的物料通过取料机构输送至托盘表面,通过回流机构将托盘进行回流上升,再由取料机构将托盘表面的物料输送至落料运输机。(The invention relates to a sealing adhesive curing machine in the technical field of sealing adhesive, which comprises a machine body, a control mechanism, a backflow mechanism, a tray and a material platform, wherein the control mechanism comprises a controller, an operating button and a display panel, the material platform is positioned at two ends of the machine body, one end of the material platform is a feeding end, the other end of the material platform is a discharging end, the lower end of the machine body is a control box, the surface of the material platform is provided with chutes with symmetrical structures, one end of the material platform, which is close to the feeding end, is provided with a feeding sliding platform for self-feeding, one end of the material platform, which is close to the discharging end, is provided with a blanking conveyer, the surface of the blanking conveyer is provided with a positioning clamp, the interior of the material platform is provided with a material platform motor, one end of the material platform motor is provided with a material platform conveyer belt, the material platform conveyer belt is rotated by the material platform motor, the material taking mechanism is arranged above the material platform, the material of the feeding sliding platform is conveyed to the surface of the tray by the material taking mechanism, the tray is refluxed and ascended by the backflow mechanism, and then the material taking mechanism conveys the material on the surface of the tray to a blanking conveyor.)

1. Seal glue solidification machine, including organism, control mechanism, backward flow mechanism, tray and material platform, its characterized in that: the control mechanism is positioned on the surface of the machine body and comprises a controller, an operating button and a display panel, the material platforms are positioned at two ends of the machine body and symmetrically extend towards the two ends of the machine body respectively, one end of the material platform is a feeding end, the other end of the material platform is a discharging end, the lower end of the machine body is a control box, the backflow mechanism is positioned in the control box, the surface of the material platform is provided with chutes with symmetrical structure, one end of the material platform close to the feeding end is provided with a feeding sliding platform for feeding, one end of the material platform close to the discharging end is provided with a blanking conveyer, the surface of the blanking conveyer is provided with a positioning clamp, the interior of the material platform is provided with a material platform motor, one end of the material platform motor is provided with a material platform conveyer belt, the bottoms of the feeding sliding platform and the blanking conveyer are respectively connected with the material platform conveyer belt, the material platform conveyer belt is rotated through the material platform motor, so that the feeding sliding platform and the blanking conveyer belt move along the chutes, the material taking mechanism is arranged above the material platform, materials of the feeding sliding table are conveyed to the surface of the tray through the material taking mechanism, the tray is refluxed and ascended through the refluxing mechanism, and the materials on the surface of the tray are conveyed to the blanking conveyor through the material taking mechanism.

2. The adhesive curing machine of claim 1, wherein: the material taking mechanism is composed of a first material taking device and a second material taking device, the first material taking device and the second material taking device respectively comprise a material taking cylinder, an air suction pipe, a cylinder fixing plate, a conveying support frame and a Y-axis conveying chain, the Y-axis conveying chain is located at the upper end of the conveying support frame, a Y-axis conveying motor is mounted on the surface of the conveying support frame, one end of the Y-axis conveying motor is connected with a belt, the other end of the belt is connected with the Y-axis conveying chain, the belt is enabled to move through rotation of the Y-axis conveying motor, the belt drives the Y-axis conveying chain to move during moving, the material taking cylinder is located on the surface of the cylinder fixing plate, one end of the cylinder fixing plate is connected with the Y-axis conveying chain, and the first material taking device further comprises a scanner.

3. The adhesive curing machine of claim 2, wherein: the both ends of conveying support frame are equipped with the X axle stroke pole of structural symmetry, and the both ends of X axle stroke pole are fixed by the foot rest, and the other end of foot rest is connected with the bottom plate, and with bottom plate fixed connection, the bottom plate is located the top of control box, and X axle transfer chain is all installed on the surface of X axle stroke pole, and the one end of X axle stroke pole is equipped with X axle conveying motor, and the one end of X axle conveying motor is connected with the drive belt, and the one end and the X axle transfer chain of drive belt are connected, the both ends of conveying support frame respectively with the surface swing joint of drive belt, when X axle conveying motor rotated the drive belt, conveying support frame and X axle transfer chain carried out the motion each other along X axle stroke pole.

4. The adhesive curing machine of claim 1, wherein: the backward flow mechanism includes backward flow motor, the teeth of a cogwheel pivot, sprocket and backward flow chain, the helical gear is installed to the one end of backward flow motor, the teeth of a cogwheel pivot is located the helical gear both ends, the one end of teeth of a cogwheel pivot is equipped with reversing gear, reversing gear and helical gear intermeshing, the backward flow chain is located sprocket's lateral surface, sprocket is located the surface of teeth of a cogwheel pivot, rotate the helical gear through the backward flow motor, make helical gear rotate reversing gear and teeth of a cogwheel pivot, the rotation through the teeth of a cogwheel pivot makes sprocket drive sprocket and go on backward flow from top to bottom, the periphery of teeth of a cogwheel pivot is equipped with the pivot protective housing.

5. The adhesive curing machine of claim 4, wherein: the surface of teeth of a cogwheel pivot is equipped with a plurality of pivot fixed plate, the surface and the pivot fixed plate swing joint of teeth of a cogwheel pivot, the one end and the control box fixed connection of pivot fixed plate, the surface mounting of control box has booster fan, can regulate and control booster fan's the temperature of blowing through the controller, the inside of control box is equipped with the blast pipe, the one end of blast pipe is the gas vent, and extend to the top of organism, the bottom of the tray of telling is equipped with a plurality of tray backup pad, the surface of backward flow chain is equipped with the locking piece of being connected with the tray backup pad, during the motion of backward flow chain, the tray backup pad reciprocates along with the motion of backward flow chain, the bottom of tray backup pad is equipped with adsorption equipment, when the tray backup pad reciprocates, will be close to the tray of feed end and transfer to the one end that is close to the discharge end through adsorption equipment.

6. The adhesive curing machine of claim 5, wherein: adsorption equipment includes removal motor, slide bar and sucking disc cylinder, and the mid-mounting of removal motor has the slide bar, and the both ends of slide bar are equipped with the slide bar fixed plate, and the surface mounting of removal motor has the sucking disc backup pad, and the sucking disc cylinder is located the middle part of sucking disc backup pad, the top of sucking disc cylinder is equipped with the sucking disc bottom plate, and the surface mounting of sucking disc bottom plate has the sucking disc, makes the sucking disc backup pad remove along the slide bar through the removal motor, produces the bottom that the suction makes the sucking disc adsorb the tray backup pad through the sucking disc cylinder.

7. The sealant curing machine of any one of claims 1-6, wherein: photoelectric switches for detecting whether products are put in or taken out are arranged on the surfaces of the blanking conveyor and the feeding sliding table.

8. The sealant curing machine of any one of claims 1-6, wherein: the surface mounting of control box has the cabinet door, and the one end of cabinet door passes through hinge and organism swing joint.

9. The sealant curing machine of any one of claims 1-6, wherein: the surface of organism is equipped with a plurality of emergency exit, and the surface of emergency exit all is equipped with the glass window, and the top of organism is equipped with the warning light, and the bottom of organism is equipped with the universal wheel.

10. The sealant curing machine of any one of claims 1-6, wherein: and a supporting foot rest for supporting the material platform is arranged at the bottom of the material platform.

Technical Field

The invention relates to the technical field of sealing glue, in particular to a sealing glue curing machine.

Background

The automatic glue sealing machine is professional equipment for replacing manual glue sealing, influences in the industry are wide, and glue sealing is needed in many places in industrial production.

The traditional glue sealing is realized by manual operation of workers. The more and more the sealing process is in industrial production, the more and more the requirements are, and the manual sealing is far from meeting the industrial requirements and is gradually replaced by an automatic sealing machine. The automatic glue sealing machine is widely applied to industrial production, such as integrated circuits, printed circuit boards, electronic components, automobile parts, handbags, packing boxes and the like. The application of the automatic glue sealing machine improves the production efficiency to a great extent, improves the product quality, and can realize the processes which can not be finished by manual glue sealing. The automatic glue sealing machine can realize intelligent work in the aspect of automation degree.

The existing automatic glue sealing machine has the problems that the product positioning and the tray placing need to be manually adjusted, the production and the manufacturing are inconvenient, the time cost is increased, and the labor cost is also increased

On the other hand, the existing automatic glue sealing machine is still lack of a backflow mechanism, and one-step completion cannot be realized in the glue sealing process, so that a fixing device for the automatic glue sealing machine is provided to solve the technical problems.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a technical scheme capable of solving the problems.

The glue sealing and solidifying machine comprises a machine body, a control mechanism, a backflow mechanism, a tray and a material platform, wherein the control mechanism is positioned on the surface of the machine body, the control mechanism comprises a controller, an operating button and a display panel, the material platform is positioned at two ends of the machine body and symmetrically extends towards the two ends of the machine body respectively, one end of the material platform is a feeding end, the other end of the material platform is a discharging end, the lower end of the machine body is a control box, the backflow mechanism is positioned inside the control box, the surface of the material platform is provided with sliding grooves with symmetrical structures, one end of the material platform, which is close to the feeding end, is provided with a feeding sliding table for feeding, one end of the material platform, which is close to the discharging end, is provided with a blanking conveyer, the surface of the blanking conveyer is provided with a positioning clamp, the inside of the material platform is provided with a material platform motor, one end of the material platform motor is provided with a material platform conveyer belt, and the bottoms of the feeding sliding table and the blanking conveyer belt are respectively connected with the material platform conveyer belt, the material platform motor rotates the material platform conveyer belt through the material platform, makes feeding slip table and blanking conveyer remove along the spout, the top of material platform is equipped with extracting mechanism, and the material of feeding slip table is carried to the tray surface through extracting mechanism, and it rises to flow back the tray through return mechanism, carries the material on tray surface to the blanking conveyer by extracting mechanism again.

Preferably, the material taking mechanism comprises a first material taking device and a second material taking device, the first material taking device and the second material taking device respectively comprise a material taking cylinder, an air suction pipe, a cylinder fixing plate, a conveying support frame and a Y-axis conveying chain, the Y-axis conveying chain is located at the upper end of the conveying support frame, a Y-axis conveying motor is mounted on the surface of the conveying support frame, one end of the Y-axis conveying motor is connected with a belt, the other end of the belt is connected with the Y-axis conveying chain, the belt is enabled to move through rotation of the Y-axis conveying motor, the Y-axis conveying chain is driven to move when the belt moves, the material taking cylinder is located on the surface of the cylinder fixing plate, one end of the cylinder fixing plate is connected with the Y-axis conveying chain, and the first material taking device further comprises a scanner.

Preferably, the both ends of conveying support frame are equipped with the X axle stroke pole of structural symmetry, and the both ends of X axle stroke pole are fixed by the foot rest, and the other end of foot rest is connected with the bottom plate, and with bottom plate fixed connection, the bottom plate is located the top of control box, and X axle transfer chain is all installed on the surface of X axle stroke pole, and the one end of X axle stroke pole is equipped with X axle conveying motor, and the one end of X axle conveying motor is connected with the drive belt, and the one end and the X axle transfer chain of drive belt are connected, the both ends of conveying support frame respectively with the surperficial swing joint of drive belt, when X axle conveying motor rotated the drive belt, conveying support frame and X axle transfer chain carried out the motion along X axle stroke pole.

Preferably, the backflow mechanism comprises a backflow motor, a gear tooth rotating shaft, a sprocket gear and a backflow chain, a helical gear is installed at one end of the backflow motor, the gear tooth rotating shaft is located at two ends of the helical gear, a reversing gear is arranged at one end of the gear tooth rotating shaft, the reversing gear is meshed with the helical gear, the backflow chain is located on the outer side face of the sprocket gear, the sprocket gear is located on the surface of the gear tooth rotating shaft, the helical gear is rotated through the backflow motor, the helical gear rotates the reversing gear and the gear tooth rotating shaft, the sprocket gear drives the sprocket gear to perform vertical backflow through rotation of the gear tooth rotating shaft, and a rotating shaft protective shell is arranged on the periphery of the gear tooth rotating shaft.

As preferred, the surface of teeth of a cogwheel pivot is equipped with a plurality of pivot fixed plate, the surface and the pivot fixed plate swing joint of teeth of a cogwheel pivot, the one end and the control box fixed connection of pivot fixed plate, the surface mounting of control box has booster fan, can regulate and control booster fan's the temperature of blowing through the controller, the inside of control box is equipped with the blast pipe, the one end of blast pipe is the gas vent, and extend to the top of organism, the bottom of the tray of telling is equipped with a plurality of tray backup pad, the surface of backward flow chain is equipped with the locking piece of being connected with the tray backup pad, during the motion of backward flow chain, the tray backup pad reciprocates along with the motion of backward flow chain, the bottom of tray backup pad is equipped with adsorption equipment, when the tray backup pad reciprocates, will be close to the one end of transferring to being close to the discharge end through adsorption equipment.

Preferably, the adsorption device comprises a moving motor, a sliding rod and a sucker cylinder, the sliding rod is mounted in the middle of the moving motor, the sliding rod fixing plates are arranged at two ends of the sliding rod, a sucker supporting plate is mounted on the surface of the moving motor, the sucker cylinder is located in the middle of the sucker supporting plate, a sucker bottom plate is arranged at the top of the sucker cylinder, a sucker is mounted on the surface of the sucker bottom plate, the sucker supporting plate moves along the sliding rod through the moving motor, and the sucker cylinder generates adsorption force to enable the sucker to adsorb the bottom of the sucker supporting plate.

Preferably, photoelectric switches for detecting the putting in or taking out of the products are arranged on the surfaces of the blanking conveyer and the feeding sliding table.

Preferably, a cabinet door is installed on the surface of the control box, and one end of the cabinet door is movably connected with the machine body through a hinge.

Preferably, the surface of the machine body is provided with a plurality of safety doors, the surfaces of the safety doors are provided with glass windows, the top of the machine body is provided with a warning lamp, and the bottom of the machine body is provided with universal wheels.

Preferably, the bottom of the material platform is provided with a supporting foot frame for supporting the material platform.

The work flow of the sealing glue curing machine comprises the following steps:

s1, mechanically feeding; s2, moving the feeding sliding table rightwards;

s3, uploading a product scanning code to a system by the scanner, and adsorbing the product by a material taking cylinder; s4, the product is placed into a tray by a material taking cylinder until the tray is full (or the time is up); s5, pushing the empty tray on the right side to the left side by the adsorption device; s6, the adsorption device pushes the tray at the bottom to the right side; s7, starting a motor, descending the left tray and ascending the right tray; s8, sucking the product out of the tray by a material taking cylinder; s9, placing the product on a blanking conveyor by a material taking cylinder, and carrying out secondary positioning on the product; and S10, conveying the product to the next station by the chute.

Compared with the prior art, the invention has the beneficial effects that: the tray can be placed to be deviated through a positioning clamp of the blanking conveyor, and photoelectric switches arranged on the surfaces of the blanking conveyor and the feeding sliding table can detect the placement or the taking-out of products, so that the glue sealing precision of each time is ensured;

the upper and lower positions of the tray are changed through the backflow structure, and the empty tray on the right side is pushed to the left side through the adsorption device; the bottom tray is then pushed to the right, completing the reflow process.

Drawings

FIG. 1 is a schematic front view of an embodiment of the present invention;

FIG. 2 is a front perspective view of an embodiment of the present invention;

FIG. 3 is a schematic view of a take off mechanism according to an embodiment of the present invention;

FIG. 4 is an enlarged partial schematic view of A in FIG. 3 according to an embodiment of the present invention;

FIG. 5 is a schematic view showing the internal structure of a control box in the embodiment of the present invention;

FIG. 6 is an enlarged partial schematic view of B in FIG. 5 according to an embodiment of the present invention;

FIG. 7 is a partial schematic view of a take off mechanism in an embodiment of the invention;

FIG. 8 is a schematic view of an adsorption apparatus in an embodiment of the present invention;

FIG. 9 is a partial schematic view of a material table in an embodiment of the invention;

in the figure: 1 is a machine body, 2 is a tray, 3 is a controller, 4 is an operating button, 5 is a display panel, 6 is a material table, 7 is a feeding end, 8 is a discharging end, 9 is a control box, 10 is a chute, 11 is a feeding sliding table, 12 is a blanking conveyer, 13 is a positioning clamp, 14 is a material table motor, 15 is a material table conveying belt, 16 is a material taking air cylinder, 17 is an air suction pipe, 18 is an air cylinder fixing plate, 19 is a conveying support frame, 20 is a Y-axis conveying chain, 21 is a Y-axis conveying motor, 22 is a belt, 23 is a scanner, 24 is an X-axis stroke rod, 25 is a foot rest, 26 is a bottom plate, 27 is an X-axis conveying chain, 28 is an X-axis conveying motor, 29 is a conveying belt, 30 is a backflow motor, 31 is a gear tooth rotating shaft, 32 is a chain buckle gear, 33 is a backflow chain, 34 is a helical gear, 35 is a reversing gear, 36 is a rotating shaft protecting shell, 37 is a rotating shaft, 38 is a booster fan, 39 is an exhaust pipe, 40 is an exhaust port, 41 is a tray support plate, 42 is a lock block, 43 is a moving motor, 44 is a slide rod, 45 is a suction cup cylinder, 46 is a slide rod fixing plate, 47 is a suction cup support plate, 48 is a suction cup bottom plate, 49 is a suction cup, 50 is a photoelectric switch, 51 is a cabinet door, 52 is a safety door, 53 is a glass window, 54 is a warning light, 55 is a universal wheel, and 56 is a support foot stool.

Detailed Description

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

In this embodiment, please refer to fig. 1 to 9, a glue curing machine specifically implemented by the present invention includes a machine body 1, a control mechanism, a backflow mechanism, a tray 2 and a material table 6, wherein the control mechanism is located on a surface of the machine body 1, the control mechanism includes a controller 3, an operation button 4 and a display panel 5, the material table 6 is located at two ends of the machine body 1 and symmetrically extends towards two ends of the machine body 1 respectively, one end of the material table 6 is a feeding end 7, the other end of the material table 6 is a discharging end 8, a lower end of the machine body 1 is a control box 9, the backflow mechanism is located inside the control box 9, the surface of the material table 6 is provided with chutes 10 having a symmetric structure, one end of the material table 6 close to the feeding end 7 is provided with a feeding sliding table 11 for self-feeding, one end of the material table 6 close to the discharging end 8 is provided with a conveyor 12, a positioning clamp 13 is arranged on a surface of the blanking conveyor 12, a material table motor 14 is arranged inside the material table 6, the one end of material platform motor 14 is equipped with material platform conveyer belt 15, and the bottom of feeding slip table 11 and blanking conveyer 12 is connected with material platform conveyer belt 15 respectively, rotates material platform conveyer belt 15 through material platform motor 14, makes feeding slip table 11 and blanking conveyer 12 remove along spout 10, the top of material platform 6 is equipped with extracting mechanism, and the material of feeding slip table 11 passes through extracting mechanism and carries to tray 2 surface, and it rises to flow back tray 2 through the mechanism that flows back, carries the material on tray 2 surface to blanking conveyer 12 by extracting mechanism again.

The material taking mechanism is composed of a first material taking device and a second material taking device, the first material taking device and the second material taking device respectively comprise a material taking air cylinder 16, an air suction pipe 17, an air cylinder fixing plate 18, a conveying support frame 19 and a Y-axis conveying chain 20, the Y-axis conveying chain 20 is located at the upper end of the conveying support frame 19, a Y-axis conveying motor 21 is installed on the surface of the conveying support frame 19, one end of the Y-axis conveying motor 21 is connected with a belt 22, the other end of the belt 22 is connected with the Y-axis conveying chain 20, the belt 22 rotates to enable the belt 22 to move, the Y-axis conveying chain 20 is driven to move when the belt 22 moves, the material taking air cylinder 16 is located on the surface of the air cylinder fixing plate 18, one end of the air cylinder fixing plate 18 is connected with the Y-axis conveying chain 20, and the first material taking device further comprises a scanner 23.

The both ends of conveying support frame 19 are equipped with the X axle stroke pole 24 of structural symmetry, and the both ends of X axle stroke pole 24 are fixed by foot rest 25, and the other end of foot rest 25 is connected with bottom plate 26, and with bottom plate 26 fixed connection, bottom plate 26 is located the top of control box 9, and X axle transfer chain 27 is all installed on the surface of X axle stroke pole 24, and the one end of X axle stroke pole 24 is equipped with X axle transfer motor 28, and the one end of X axle transfer motor 28 is connected with drive belt 29, and the one end and the X axle transfer chain 27 of drive belt 29 are connected, the both ends of conveying support frame 19 respectively with the surface swing joint of drive belt 29, when X axle transfer motor 28 rotated drive belt 29, conveying support frame 19 and X axle transfer chain 27 carried out the reciprocal motion along X axle stroke pole 24.

The backward flow mechanism includes backflow motor 30, teeth of a cogwheel pivot 31, sprocket 32 and backward flow chain 33, helical gear 34 is installed to backflow motor 30's one end, teeth of a cogwheel pivot 31 is located helical gear 34 both ends, the one end of teeth of a cogwheel pivot 31 is equipped with reversing gear 35, reversing gear 35 and helical gear 34 intermeshing, backward flow chain 33 is located sprocket 32's lateral surface, sprocket 32 is located the surface of teeth of a cogwheel pivot 31, rotate helical gear 34 through backflow motor 30, make helical gear 34 rotate reversing gear 35 and teeth of a cogwheel pivot 31, make sprocket 32 drive sprocket 32 through the rotation of teeth of a cogwheel pivot 31 and carry out upper and lower backward flow, the periphery of teeth of a cogwheel pivot 31 is equipped with pivot protective housing 36.

The surface of the gear tooth rotating shaft 31 is provided with a plurality of rotating shaft fixing plates 37, the surface of the gear tooth rotating shaft 31 is movably connected with the rotating shaft fixing plates 37, one end of each rotating shaft fixing plate 37 is fixedly connected with the control box 9, the surface of the control box 9 is provided with a booster fan 38, the blowing temperature of the booster fan 38 can be controlled by the controller 3, an exhaust pipe 39 is arranged in the control box 9, one end of the exhaust pipe 39 is an exhaust port 40, and extends to the top of the machine body 1, the bottom of the tray 2 is provided with a plurality of tray supporting plates 41, the surface of the backflow chain 33 is provided with a locking block 42 connected with the tray supporting plates 41, when the backflow chain 33 moves, the tray supporting plate 41 moves up and down with the movement of the return chain 33, the bottom of the tray supporting plate 41 is provided with an adsorption device, when the tray support plate 41 moves up and down, the tray 2 near the feed end 7 is transferred to the end near the discharge end 8 by the adsorption device.

The adsorption equipment includes removal motor 43, slide bar 44 and sucking disc cylinder 45, and the mid-mounting of removal motor 43 has slide bar 44, and the both ends of slide bar 44 are equipped with slide bar fixed plate 46, and the surface mounting of removal motor 43 has sucking disc backup pad 47, and sucking disc cylinder 45 is located the middle part of sucking disc backup pad 47, the top of sucking disc cylinder 45 is equipped with sucking disc bottom plate 48, and the surface mounting of sucking disc bottom plate 48 has sucking disc 49, makes sucking disc backup pad 47 remove along slide bar 44 through removal motor 43, produces the bottom that suction force made sucking disc 49 adsorb tray backup pad 41 through sucking disc cylinder 45.

Photoelectric switches 50 for detecting the putting in or taking out of products are arranged on the surfaces of the blanking conveyor 12 and the feeding sliding table 11.

A cabinet door 51 is mounted on the surface of the control box 9, and one end of the cabinet door 51 is movably connected with the machine body 1 through a hinge.

The surface of the machine body 1 is provided with a plurality of safety doors 52, the surfaces of the safety doors 52 are provided with glass windows 53, the top of the machine body 1 is provided with a warning lamp 54, and the bottom of the machine body 1 is provided with universal wheels 55.

And a supporting foot stand 56 for supporting the material platform 6 is arranged at the bottom of the material platform 6.

The work flow of the sealing glue curing machine comprises the following steps:

s1, mechanically feeding;

s2, moving the feeding sliding table rightwards;

s3, uploading a product scanning code to a system by the scanner, and adsorbing the product by a material taking cylinder;

s4, the product is placed into a tray by a material taking cylinder until the tray is full (or the time is up);

s5, pushing the empty tray on the right side to the left side by the adsorption device;

s6, the adsorption device pushes the tray at the bottom to the right side;

s7, starting a motor, descending the left tray and ascending the right tray;

s8, sucking the product out of the tray by a material taking cylinder;

s9, placing the product on a blanking conveyor by a material taking cylinder, and carrying out secondary positioning on the product;

and S10, conveying the product to the next station by the chute.

The foregoing is a more detailed description of the invention, taken in conjunction with the specific preferred embodiments thereof, and is not intended to limit the invention to the particular forms disclosed. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as the protection scope of the invention.