CN109772647B - Automatic precise gluing and drying equipment for aluminum substrates - Google Patents

Automatic precise gluing and drying equipment for aluminum substrates Download PDF

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Publication number
CN109772647B
CN109772647B CN201910205487.XA CN201910205487A CN109772647B CN 109772647 B CN109772647 B CN 109772647B CN 201910205487 A CN201910205487 A CN 201910205487A CN 109772647 B CN109772647 B CN 109772647B
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China
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sliding
aluminum substrate
cylinder
screw rod
supporting
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CN201910205487.XA
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CN109772647A (en
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张剑萌
肖伟
李铁林
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Ganzhou Yihao New Material Co ltd
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Ganzhou Yihao New Material Co ltd
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Abstract

The invention relates to the technical field of aluminum substrate processing equipment, in particular to automatic equipment for precisely gluing and drying an aluminum substrate, which comprises a feeding conveyor belt, a moving assembly, a gluing assembly, a drying assembly, a conveying conveyor belt and a conveying support table, wherein the moving assembly comprises a first screw rod sliding table, a second screw rod sliding table and a third screw rod sliding table, the gluing assembly comprises a first support table and a glue dispenser, the drying assembly comprises a second support table, an opening box body and a heater, the second support table is arranged below the first screw rod sliding table and positioned beside the conveying conveyor belt, the opening box is arranged at the top of the second support table and fixedly connected with the second support table, and the heater is arranged at one side of the opening box body and fixedly connected with the opening box body, not only effectively improves the processing efficiency, but also greatly reduces the labor intensity.

Description

Automatic precise gluing and drying equipment for aluminum substrates
Technical Field
The invention relates to the technical field of aluminum substrate processing equipment, in particular to automatic equipment for precisely gluing and drying an aluminum substrate.
Background
The aluminum substrate is a metal-based copper clad laminate with good heat dissipation function, a common single-sided board is composed of three layers of structures, namely a circuit layer copper foil, an insulating layer and a metal base layer, is common in LED lighting products, and has a front side and a back side, wherein the white side is welded with LED pins, the other side presents aluminum natural color, and generally can be coated with heat conduction slurry and then contacts with a heat conduction part, at present, a ceramic substrate and the like are also designed into a double-sided board for high-end use, the structure is a circuit layer, an insulating layer, an aluminum base, an insulating layer and a circuit layer, and the very few application is a multilayer board which can be formed by laminating a common multilayer board, an insulating layer and an aluminum base, the LED aluminum substrate is a PCB and a printed circuit board, only the material of the circuit board is an aluminum alloy, the material of the common circuit board is a glass fiber in the past, but the, the aluminum substrate has the advantages that the aluminum substrate is high in heat conduction speed, circuit boards used for other equipment or electrical appliances are glass fiber boards, the aluminum substrate metal-based heat dissipation plate comprises an aluminum substrate and a copper substrate, the iron substrate is a low-alloyed Al-Mg-Si series high-plasticity alloy board structure shown in the following figure, the aluminum substrate has good heat conduction performance, electrical insulation performance and machining performance, compared with the traditional FR-4, the aluminum substrate is the same in thickness and line width, can bear higher current, can withstand voltage of 4500V, has a heat conductivity coefficient larger than 2.0, and is mainly made of aluminum substrates in the industry.
Gluing and drying are indispensable in the aluminum substrate processing process, the gluing can enable the aluminum substrate to absorb and dissipate heat well, and meanwhile, an insulating effect is achieved.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides automatic equipment for precise gluing and drying of an aluminum substrate.
The invention discloses automatic precise gluing and drying equipment for an aluminum substrate, which comprises a feeding conveyor belt, a moving assembly, a gluing assembly, a drying assembly, a conveying conveyor belt and a conveying support platform, wherein the feeding conveyor belt is arranged below the moving assembly, the gluing assembly is arranged below the moving assembly and is positioned beside the feeding conveyor belt, the drying assembly is arranged below the moving assembly and is positioned beside the gluing assembly, the conveying conveyor belt is arranged below the moving assembly, the conveying support platform is arranged below the conveying conveyor belt, the moving assembly comprises a first lead screw sliding table, a second lead screw sliding table and a third lead screw sliding table, two ends of the first lead screw sliding table are respectively arranged on sliding blocks of the second lead screw sliding table and the third lead screw sliding table and can move right above each assembly, the second lead screw sliding table is arranged at one end of the first lead screw sliding table, the third lead screw sliding table is arranged at the other end of the first lead screw sliding table, the rubber coating subassembly includes first supporting station and point gum machine, and first supporting station sets up the below at first lead screw slip table, and the point gum machine sets up the top at first supporting station, and the stoving subassembly includes second brace table, opening box and heater, and the second brace table sets up in the below of first lead screw slip table and is located the side of transportation conveyer belt, and the opening box setting is at the top and the fixed connection of second brace table, and the heater setting is in one side and the fixed connection of opening box.
Preferably, the movable assembly further comprises a first connecting plate, a lifting cylinder and a sucker, the first connecting plate is arranged on one side of a sliding block of the first screw rod sliding table and fixedly connected with the sliding block, the lifting cylinder is arranged on one side of the first connecting plate and fixedly connected with the sliding block, and the sucker is arranged at the telescopic end of the lifting cylinder and fixedly connected with the telescopic end of the lifting cylinder.
Preferably, the gluing component further comprises a first sliding block, a first sliding rail, a second sliding block, a first fixing plate, a compressing cylinder, a second motor and a second cylinder, the first sliding block is arranged on the first sliding rail and is in sliding fit, the first sliding rail is arranged at the top of the first supporting table and is fixedly connected with the first sliding block, the second sliding block is arranged above the first sliding block, the glue dispenser is arranged at one side of the second sliding block and is fixedly connected with the second sliding block, the first fixing plate is arranged at the top of the first supporting table and is fixedly connected with the first supporting table, the first fixing plate is arranged below the glue dispenser, the compressing cylinder is arranged at the top of the first supporting table and is arranged at one side of the first fixing plate, the telescopic end of the compressing cylinder is provided with a rubber compressing block, the rubber compressing block is fixedly connected with the telescopic end of the compressing cylinder, the top of the first fixing plate is provided with two positioning columns for positioning the aluminum substrate, and, the second motor sets up one side and fixed connection at the second sliding block, and the second cylinder setting is kept away from one side and fixed connection of first fixed plate at first sliding block.
Preferably, the bottom of second sliding block is provided with a plurality of pulley, and the output and one of them pulley of second motor are connected, and the top of first sliding block is provided with the gliding first spout of confession pulley, and the top of first supporting bench still is provided with revolving cylinder, revolving cylinder and first supporting bench fixed connection, last being provided with of revolving cylinder can be with the cylinder clamping jaw that aluminium base board was cliied, the cylinder clamping jaw is located the top of first supporting bench and can freely rotate.
Preferably, the drying assembly further comprises a lifting device, a sliding sealing plate and two slots, the lifting device is arranged on one side of the opening box body and located at the top of the second supporting table, the sliding sealing plate is arranged on the top of the opening box body and located in the two slots, and the two slots are respectively arranged at the top of the opening box body and fixedly connected with the opening box body.
Preferably, elevating gear includes the lifter plate, first linkage block, first rack, first motor, first gear and motor supporting seat, the lifter plate sets up the inboard at the opening box, the one end and the lifter plate fixed connection of first linkage block, the other end is located the outside of opening box, first rack setting is on the first linkage block that is located the opening box outside and fixed connection, first motor setting is at the top and the fixed connection of motor supporting seat, first gear setting is at the output of first motor, first gear and the transmission of first rack engagement, the motor supporting seat sets up at the top and the fixed connection of second brace table, one side of opening box is provided with the first opening that supplies first linkage block to reciprocate.
Preferably, the top of the second supporting table is further provided with a first cylinder, a telescopic end of the first cylinder is fixedly connected with one end of the sliding sealing plate, one side of the open box body is provided with a first fan, a first ventilation opening is arranged beside the first fan, and the first ventilation opening is located on the open box body.
Preferably, the top of transportation brace table is provided with cooling device, and cooling device includes cooler, first support frame, air-blower and the sealed flexible glue blend stop of a plurality of, and the cooler setting is at the top and the fixed connection of first support frame, and first support frame setting is at the top and the fixed connection of transportation brace table, and the air-blower setting is in one side and the fixed connection of first support frame, and the sealed flexible glue blend stop of a plurality of sets up both sides and the fixed connection at first support frame respectively.
Preferably, the top of transportation backup pad still is provided with product detection device, and product detection device includes second support frame and ultrasonic detector, and the second support frame setting is at the top and the fixed connection of transportation backup pad, and ultrasonic detector sets up at the top and the fixed connection of second support frame, and product detection device is located cooling device's side.
Preferably, one side of the conveying conveyor belt is provided with a material receiving box, and the material receiving box is positioned beside the product detection device.
Has the advantages that: when the aluminum substrate drying device is used, the second lead screw sliding table and the third lead screw sliding table are opened to drive the first lead screw sliding table, the first lead screw sliding table can move above each component, when a sliding block of the first lead screw sliding table moves right above a feeding conveying belt, an aluminum substrate on the feeding conveying belt is moved to a first supporting table, glue is applied to the aluminum substrate through a glue dispenser, after the glue is applied, the aluminum substrate is moved to an opening box body from the first supporting table by the first lead screw sliding table, the aluminum substrate is dried through a heater in the opening box body, after the aluminum substrate is dried, the aluminum substrate is moved to a conveying belt through the first lead screw sliding table and is conveyed away, when the sliding block of the first lead screw sliding table moves, the first connecting plate can be driven to move at the same time, a lifting cylinder is fixed on the sliding block of the first lead screw sliding table through the first connecting plate, the lifting cylinder can enable a sucker to, the aluminum base plate is convenient to be sucked by the sucker, the sucker moves the aluminum base plate from the feeding conveyor belt to the first fixing plate, the rubber compaction block is pushed to the aluminum base plate by the compaction cylinder at the moment, one side of the aluminum base plate is pushed by the compaction cylinder and moves towards the positioning column until the aluminum base plate butts against the positioning column, the aluminum base plate is fixed at the moment, the second sliding block is driven by the second motor to move transversely so as to drive the dispenser to move transversely on the first fixing plate, the first sliding block is driven by the second cylinder to move longitudinally so as to drive the dispenser to move longitudinally on the first fixing plate, the dispenser can move up and down, so that the accuracy of gluing the aluminum base plate is greatly improved, when the second sliding plate moves, the second sliding plate can move more conveniently through the sliding fit between the pulley and the first chute, and double-sided gluing of the aluminum base plate can be carried out through the rotation of the cylinder and the clamping, the aluminum substrate processed on one side is moved into the cylinder clamping jaw through the sucking disc, after the cylinder clamping jaw is clamped tightly, the sucking disc is loosened, the aluminum substrate on the cylinder clamping jaw is driven to rotate by the rotating cylinder at the moment, when the aluminum substrate rotates to the other side, the aluminum substrate is moved onto the first fixing plate to be processed by the sucking disc, the practicability of the equipment is improved, after the aluminum substrate is coated with glue, the aluminum substrate is moved into the open box body by the sucking disc, the height of the aluminum substrate in the open box body is adjusted through the lifting device, the open box body is opened or closed by moving the sliding sealing plate in the slot, the aluminum substrate is convenient to put in and take out, when the aluminum substrate is put into the open box body, the aluminum substrate falls on the lifting plate, the first gear is driven to rotate through the first motor, the first gear drives the first rack, and the first rack moves up and, thereby the lifting plate is lifted or lowered, the sliding sealing plate can be pulled through the first air cylinder to enable the opening box body to be in an open state or a closed state, the first fan can accelerate drying of the aluminum substrate in the opening box body, the first vent enables air in the opening box body to circulate, drying time is further shortened, after the aluminum substrate is dried, the aluminum substrate is moved to the conveying conveyor belt through the suction disc, the aluminum substrate is brought into the first support frame through the conveying conveyor belt, at the moment, the cooler cools the aluminum substrate, the cooling of the aluminum substrate is accelerated by the blower, cold air is gathered in the first support frame through the sealing soft rubber barrier strip, cooling time is shortened, processing efficiency is improved, after the aluminum substrate is cooled, the aluminum substrate enters the second support frame, product qualification rate is improved through the ultrasonic detector, and after a product detection device is completed, the automatic precise gluing and drying equipment for the aluminum substrates has the advantages that automation is realized through the moving assembly, the gluing assembly and the drying assembly, so that the processing efficiency is effectively improved, and the labor intensity is greatly reduced.
Drawings
The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:
FIG. 1 is a schematic perspective view of the present invention;
FIG. 2 is a top view of the present invention;
FIG. 3 is a side view of the present invention;
FIG. 4 is a perspective view of the moving assembly of the present invention;
FIG. 5 is a perspective view of the glue dispensing assembly of the present invention;
FIG. 6 is a side view of the glue assembly of the present invention;
FIG. 7 is a schematic perspective view of a drying assembly according to the present invention;
FIG. 8 is a side view of a drying assembly of the present invention;
FIG. 9 is a schematic perspective view of the lifting device of the present invention;
FIG. 10 is a perspective view of a cooling device according to the present invention;
FIG. 11 is a schematic perspective view of a product inspection device according to the present invention;
description of reference numerals: the automatic glue dispensing device comprises a feeding conveyor belt 1, a moving assembly 2, a first screw rod sliding table 2a, a second screw rod sliding table 2b, a third screw rod sliding table 2c, a first connecting plate 2d, a lifting cylinder 2e, a sucker 2f, a gluing assembly 3, a first supporting table 3a, a glue dispenser 3b, a first sliding block 3c, a first sliding rail 3d, a second sliding block 3e, a first fixing plate 3f, a pressing cylinder 3g, a second motor 3h, a second cylinder 3i, a rubber pressing block 3j, a positioning column 3k, a pulley 3L, a first sliding chute 3m, a rotating cylinder 3n, a cylinder clamping jaw 3o, a drying assembly 4, a second supporting table 4a, an opening box body 4b, a heater 4c, a lifting device 4d, a lifting plate 4d1, a first connecting block 4d2, a first rack 4d3, a first motor 4d4, a first gear 4d5, a motor supporting seat 4d6, a sliding plate 4e and a sealing plate 4d4, The device comprises a slot 4f, a conveying conveyor belt 5, a conveying support table 6, a cooling device 6a, a cooler 6a1, a first support frame 6a2, a blower 6a3, a sealing soft rubber barrier 6a4, a product detection device 6b, a second support frame 6b1, an ultrasonic detector 6b2, a first port 7, a first air cylinder 8, a first fan 9, a first ventilation opening 10 and a material receiving box 11.
Detailed Description
In the following description, for purposes of explanation, numerous implementation details are set forth in order to provide a thorough understanding of the various embodiments of the present invention. It should be understood, however, that these implementation details are not to be interpreted as limiting the invention. That is, in some embodiments of the invention, such implementation details are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.
In addition, the descriptions related to the first, the second, etc. in the present invention are only used for description purposes, do not particularly refer to an order or sequence, and do not limit the present invention, but only distinguish components or operations described in the same technical terms, and are not understood to indicate or imply relative importance or implicitly indicate the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.
Referring to fig. 1 to 11, an automatic precise gluing and drying device for an aluminum substrate comprises a feeding conveyor belt 1, a moving assembly 2, a gluing assembly 3, a drying assembly 4, a transporting conveyor belt 5 and a transporting support table 6, wherein the feeding conveyor belt 1 is arranged below the moving assembly 2, the gluing assembly 3 is arranged below the moving assembly 2 and is located at the side of the feeding conveyor belt 1, the drying assembly 4 is arranged below the moving assembly 2 and is located at the side of the gluing assembly 3, the transporting conveyor belt 5 is arranged below the moving assembly 2, the transporting support table 6 is arranged below the transporting conveyor belt 5, the moving assembly 2 comprises a first screw rod sliding table 2a, a second screw rod sliding table 2b and a third screw rod sliding table 2c, two ends of the first screw rod sliding table 2a are respectively arranged on sliders of the second screw rod sliding table and the third screw rod sliding table 2c and can move right above each assembly, the second screw rod sliding table 2b is arranged at one end of the first screw rod sliding table 2a, the third screw rod sliding table 2c is arranged at the other end of the first screw rod sliding table 2a, the gluing component 3 comprises a first supporting table 3a and a glue dispenser 3b, the first supporting table 3a is arranged below the first screw rod sliding table 2a, the glue dispenser 3b is arranged above the first supporting table 3a, the drying component 4 comprises a second supporting table 4a, an opening box body 4b and a heater 4c, the second supporting table 4a is arranged below the first screw rod sliding table 2a and is positioned at the side of the conveying belt 5, the opening box is arranged at the top of the second supporting table 4a and is fixedly connected, the heater 4c is arranged at one side of the opening box body 4b and is fixedly connected, when the glue dispenser is used, the second screw rod sliding table 2b and the third screw rod sliding table are opened to drive the first screw rod sliding table 2a, so that the first screw rod sliding table can move above each component, when the sliding block of the first lead screw sliding table 2a moves right above the feeding conveying belt 1, the aluminum substrate on the feeding conveying belt 1 is moved to the first supporting table 3a, the aluminum substrate is coated with glue through the glue dispenser 3b, after the glue is coated, the aluminum substrate is moved to the opening box 4b from the first supporting table 3a through the first lead screw sliding table, the aluminum substrate is dried through the heater 4c in the opening box 4b, and after the aluminum substrate is dried, the aluminum substrate is moved to the conveying belt 5 through the first lead screw sliding table 2a and is conveyed away.
Remove subassembly 2 still includes first connecting plate 2d, lift cylinder 2e and sucking disc 2f, first connecting plate 2d sets up slider one side and fixed connection at first lead screw slip table 2a, lift cylinder 2e sets up one side and fixed connection at first connecting plate 2d, sucking disc 2f sets up flexible end and fixed connection at lift cylinder 2e, slider when first lead screw slip table 2a is when removing, can drive first connecting plate 2d and remove simultaneously, fix lift cylinder 2e on the slider of first lead screw slip table through first connecting plate 2d, lift cylinder 2e enables sucking disc 2f and rises or descends, be convenient for sucking disc 2f and hold aluminium base board.
The gluing component 3 also comprises a first sliding block 3c, a first sliding rail 3d, a second sliding block 3e, a first fixing plate 3f, a pressing cylinder 3g, a second motor 3h and a second cylinder 3i, wherein the first sliding block 3c is arranged on the first sliding rail 3d and is in sliding fit, the first sliding rail 3d is arranged at the top of the first supporting platform 3a and is fixedly connected, the second sliding block 3e is arranged above the first sliding block 3c, the glue dispenser 3b is arranged at one side of the second sliding block 3e and is fixedly connected, the first fixing plate 3f is arranged at the top of the first supporting platform 3a and is fixedly connected, the first fixing plate 3f is arranged below the glue dispenser 3b, the pressing cylinder 3g is arranged at the top of the first supporting platform 3a and is arranged at one side of the first fixing plate 3f, the telescopic end of the pressing cylinder 3g is provided with a rubber pressing block 3j, the rubber pressing block 3j is fixedly connected with the telescopic end of the pressing cylinder 3g, two positioning columns 3k for positioning the aluminum substrate are arranged at the top of the first fixing plate 3f, each positioning column 3k is fixedly connected with the first fixing plate 3f, the second motor 3h is arranged at one side of the second sliding block 3e and is fixedly connected with the same, the second cylinder 3i is arranged at one side of the first sliding block 3c away from the first fixing plate 3f and is fixedly connected with the same, the aluminum substrate is moved from the feeding conveyor belt 1 to the first fixing plate 3f by the sucker 2f, at the moment, the rubber pressing block 3j is pushed to the aluminum substrate by the pressing cylinder 3g, one side of the aluminum substrate is pushed by the pressing cylinder 3g and moves towards the positioning columns 3k until the positioning columns abut against the positioning columns 3k, at the moment, the aluminum substrate is fixed, the second sliding block 3e is driven by the second motor 3h to move transversely, so as to drive the dispenser 3b to move transversely on the first fixing plate 3f, drive first sliding block 3c through second cylinder 3i and carry out longitudinal movement to drive point gum machine 3b and carry out longitudinal movement on first fixed plate 3f, point gum machine 3b self can carry out lifting movement, so the precision when carrying out the rubber coating to aluminium base board promotes greatly.
The bottom of the second sliding block 3e is provided with a plurality of pulleys 3L, the output end of a second motor 3h is connected with one pulley 3L, the top of the first sliding block 3c is provided with a first chute 3m for the pulley 3L to slide, the top of the first supporting table 3a is also provided with a rotary cylinder 3n, the rotary cylinder 3n is fixedly connected with the first supporting table 3a, the rotary cylinder 3n is provided with a cylinder clamping jaw 3o capable of clamping an aluminum substrate, the cylinder clamping jaw 3o is positioned above the first supporting table 3a and can freely rotate, when the second sliding plate moves, the second sliding plate moves more conveniently through the sliding fit between the pulley 3L and the first chute 3m, the double-sided gluing of the aluminum substrate can be carried out through the rotary cylinder 3n and the cylinder clamping jaw 3o, the aluminum substrate processed on one side is moved into the cylinder clamping jaw 3o through the sucker 2f, treat that cylinder clamping jaw 3o presss from both sides tightly the back, loosen sucking disc 2f, revolving cylinder 3n will drive the aluminium base board on the cylinder clamping jaw 3o and rotate this moment, when treating to rotate the other side, sucking disc 2f removes it and processes on the first fixed plate 3f, has promoted the practicality of equipment.
The drying component 4 further comprises a lifting device 4d, a sliding sealing plate 4e and two slots 4f, the lifting device 4d is arranged on one side of the opening box body 4b and located at the top of the second supporting table 4a, the sliding sealing plate 4e is arranged on the top of the opening box body 4b and located in the two slots 4f, the two slots 4f are respectively arranged at the top of the opening box body 4b and fixedly connected with the opening box body 4b, after the aluminum substrate is coated with glue, the aluminum substrate is moved into the opening box body 4b by the suckers 2f, the height of the aluminum substrate in the opening box body 4b is adjusted by the lifting device 4d, and the sliding sealing plate 4e is moved in the slots 4f to open or close the opening box body 4b, so that the aluminum substrate can be conveniently put in and.
The lifting device 4d comprises a lifting plate 4d1, a first connecting block 4d2, a first rack 4d3, a first motor 4d4, a first gear 4d5 and a motor support 4d6, the lifting plate 4d1 is arranged on the inner side of the opening box 4b, one end of the first connecting block 4d2 is fixedly connected with the lifting plate 4d1, the other end is arranged on the outer side of the opening box 4b, the first rack 4d3 is arranged on the first connecting block 4d2 arranged on the outer side of the opening box 4b and fixedly connected with the first motor 4d4, the first gear 4d5 is arranged on the top of the motor support 4d6 and fixedly connected with the first motor 4d4, the first gear 4d5 is engaged with the first rack 4d3, the motor support 4d6 is arranged on the top of the second support table 4a and fixedly connected with the second support table, one side of the opening box 4b is provided with a through opening 397 for the first connecting block 4d2 to move up and down, when the aluminum substrate is placed in the open box 4b, the aluminum substrate falls on the lifting plate 4d1, the first motor 4d4 drives the first gear 4d5 to rotate, the first gear 4d5 drives the first rack 4d3, and the first rack 4d3 moves up and down along the first port 7 at one side of the open box 4b, so that the lifting plate 4d1 rises or falls.
The top of the second supporting table 4a is further provided with a first cylinder 8, the telescopic end of the first cylinder 8 is fixedly connected with one end of the sliding sealing plate 4e, one side of the opening box body 4b is provided with a first fan 9, a first vent 10 is arranged beside the first fan 9, the first vent 10 is located on the opening box body 4b, the sliding sealing plate 4e can be pulled through the first cylinder 8, the opening box body 4b is in an open state or a closed state, the first fan 9 can accelerate drying of an aluminum substrate in the opening box body 4b, and the first vent 10 enables air circulation in the opening box body 4b, so that drying time is further shortened.
A cooling device 6a is arranged on the top of the transportation support platform 6, the cooling device 6a comprises a cooler 6a1, a first support frame 6a2, an air blower 6a3 and a plurality of sealing soft rubber barrier strips 6a4, the cooler 6a1 is arranged on the top of the first support frame 6a2 and fixedly connected with the first support frame 6a2, the air blower 6a3 is arranged on one side of the first support frame 6a2 and fixedly connected with the first support frame 6a2, the plurality of sealing soft rubber barrier strips 6a4 are respectively arranged on two sides of the first support frame 6a2 and fixedly connected with the first support frame 6a2, after the aluminum substrate is dried, the aluminum substrate is moved to the transportation conveyor belt 5 by a suction cup 2f, the aluminum substrate is brought into the first support frame 6a2 by the transportation conveyor belt 5, at this time, the aluminum substrate is cooled by the cooler 6a1, the air blower 6a3 accelerates the cooling of the aluminum substrate, and the cooling air blower 6a4 makes the aluminum substrate gather in the first support frame 6a2, the cooling time is shortened, and the processing efficiency is improved.
The top of transportation backup pad still is provided with product detection device 6b, product detection device 6b includes second support frame 6b1 and ultrasonic detector 6b2, second support frame 6b1 sets up at the top and fixed connection of transportation backup pad, ultrasonic detector 6b2 sets up at the top and fixed connection of second support frame 6b1, product detection device 6b is located cooling device 6 a's side, aluminium base board accomplishes the cooling back, enter into in second support frame 6b1, carry out the product qualification through ultrasonic detector 6b2 and detect, thereby promote the qualification rate of product.
And a material receiving box 11 is arranged on one side of the conveying conveyor belt 5, the material receiving box 11 is positioned beside the product detection device 6b, and after the product detection device 6b is completed, qualified aluminum substrates are sent into the material receiving box 11.
The working principle is as follows: when the aluminum substrate drying device is used, the second lead screw sliding table 2b and the third lead screw sliding table are opened to drive the first lead screw sliding table 2a, the first lead screw sliding table can move above each component, when a sliding block of the first lead screw sliding table 2a moves right above the feeding conveying belt 1, the aluminum substrate on the feeding conveying belt 1 is moved to the first supporting table 3a, the aluminum substrate is coated with glue through the glue dispenser 3b, after the glue is coated, the aluminum substrate is moved from the first supporting table 3a to the opening box body 4b by the first lead screw sliding table, the aluminum substrate is dried through the heater 4c in the opening box body 4b, after the aluminum substrate is dried, the aluminum substrate is moved to the conveying belt 5 through the first lead screw sliding table 2a and is transported away, when the sliding block of the first lead screw sliding table 2a moves, the first connecting plate 2d is driven to move at the same time, the lifting cylinder 2e is fixed on the sliding block of the first lead screw sliding table through the first connecting plate 2d, the lifting cylinder 2e can make the sucker 2f ascend or descend so as to facilitate the sucker 2f to suck the aluminum substrate, the sucker 2f moves the aluminum substrate from the feeding conveyor belt 1 to the first fixing plate 3f, at the moment, the pressing cylinder 3g pushes the rubber pressing block 3j to the aluminum substrate, one side of the aluminum substrate is pushed by the pressing cylinder 3g and moves towards the positioning column 3k until the aluminum substrate abuts against the positioning column 3k, at the moment, the aluminum substrate is fixed, the second motor 3h drives the second sliding block 3e to move transversely so as to drive the dispenser 3b to move transversely on the first fixing plate 3f, the second cylinder 3i drives the first sliding block 3c to move longitudinally so as to drive the dispenser 3b to move longitudinally on the first fixing plate 3f, the dispenser 3b can move up and down, so that the accuracy of gluing the aluminum substrate is greatly improved, when the second sliding plate moves, the sliding fit between the pulley 3L and the first chute 3m is used to ensure that the second sliding plate can move more conveniently, double-sided gluing of the aluminum substrate can be carried out through the rotary cylinder 3n and the cylinder clamping jaw 3o, the aluminum substrate with one processed surface is moved into the cylinder clamping jaw 3o through the sucker 2f, after the cylinder clamping jaw 3o is clamped, the sucker 2f is loosened, the rotary cylinder 3n drives the aluminum substrate on the cylinder clamping jaw 3o to rotate at the moment, when the aluminum substrate rotates to the other surface, the sucker 2f moves the aluminum substrate onto the first fixed plate 3f to be processed, the practicability of the equipment is improved, after the gluing of the aluminum substrate is finished, the sucker 2f moves into the opening box body 4b, the height of the aluminum substrate in the opening box body 4b is adjusted through the lifting device 4d, and the sliding sealing plate 4e moves in the slot 4f, to open or close the open box 4b for the aluminum substrate to be put in and taken out, when the aluminum substrate is put in the open box 4b, the aluminum substrate falls on the lifting plate 4d1, the first motor 4d4 drives the first gear 4d5 to rotate, the first gear 4d5 drives the first rack 4d3, the first rack 4d3 moves up and down along the first port 7 on one side of the open box 4b, so that the lifting plate 4d1 moves up and down, the sliding sealing plate 4e can be pulled by the first cylinder 8 to make the open box 4b in an open state or a closed state, the first fan 9 can accelerate drying of the aluminum substrate in the open box 4b, the first vent 10 circulates the air in the open box 4b, further shortening the drying time, after the aluminum substrate is dried, the aluminum substrate is moved to the transport conveyor 5 by the suction cup 2f, and is brought into the first support 6a2 by the transport conveyor 5, at the moment, the cooler 6a1 cools the aluminum substrate, the blower 6a3 accelerates the cooling of the aluminum substrate, cold air is gathered in the first supporting frame 6a2 through the sealing soft rubber barrier strips 6a4, the cooling time is shortened, the processing efficiency is improved, the aluminum substrate enters the second supporting frame 6b1 after being cooled, the product qualification detection is carried out through the ultrasonic detector 6b2, the qualification rate of the product is improved, and after the product detection device 6b is completed, the qualified aluminum substrate is sent to the material receiving box 11.
The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (9)

1. The utility model provides an accurate rubber coating of aluminium base board and stoving automatic equipment which characterized in that: comprises a feeding conveyor belt (1), a moving assembly (2), a gluing assembly (3), a drying assembly (4), a conveying conveyor belt (5) and a conveying support table (6), wherein the feeding conveyor belt (1) is arranged below the moving assembly (2), the gluing assembly (3) is arranged below the moving assembly (2) and is positioned at the side of the feeding conveyor belt (1), the drying assembly (4) is arranged below the moving assembly (2) and is positioned at the side of the gluing assembly (3), the conveying conveyor belt (5) is arranged below the moving assembly (2), the conveying support table (6) is arranged below the conveying conveyor belt (5), the moving assembly (2) comprises a first screw rod sliding table (2a), a second screw rod sliding table (2b) and a third screw rod sliding table (2c), two ends of the first screw rod sliding table (2a) are respectively arranged on sliding blocks of the second screw rod sliding table and the third screw rod sliding table (2c) and can move right above each assembly, the second screw rod sliding table (2b) is arranged at one end of the first screw rod sliding table (2a), the third screw rod sliding table (2c) is arranged at the other end of the first screw rod sliding table (2a), the gluing component (3) comprises a first supporting table (3a) and a glue dispenser (3b), the first supporting table (3a) is arranged below the first screw rod sliding table (2a), the glue dispenser (3b) is arranged above the first supporting table (3a), the drying component (4) comprises a second supporting table (4a), the opening box body (4b) and the heater (4c), the second support table (4a) is arranged below the first screw rod sliding table (2a) and located beside the conveying conveyor belt (5), the opening box is arranged at the top of the second support table (4a) and fixedly connected with the second support table, and the heater (4c) is arranged on one side of the opening box body (4b) and fixedly connected with the opening box body;
the gluing component (3) also comprises a first sliding block (3c), a first sliding rail (3d), a second sliding block (3e), a first fixing plate (3f), a pressing cylinder (3g), a second motor (3h) and a second cylinder (3i), wherein the first sliding block (3c) is arranged on the first sliding rail (3d) and is in sliding fit, the first sliding rail (3d) is arranged at the top of the first supporting platform (3a) and is fixedly connected, the second sliding block (3e) is arranged above the first sliding block (3c), the glue dispenser (3b) is arranged at one side of the second sliding block (3e) and is fixedly connected, the first fixing plate (3f) is arranged at the top of the first supporting platform (3a) and is fixedly connected, the first fixing plate (3f) is arranged below the glue dispenser (3b), the pressing cylinder (3g) is arranged at the top of the first supporting platform (3a) and is arranged at one side of the first fixing plate (3f), the telescopic end of the pressing cylinder (3g) is provided with a rubber pressing block (3j), the rubber pressing block (3j) is fixedly connected with the telescopic end of the pressing cylinder (3g), the top of the first fixing plate (3f) is provided with two positioning columns (3k) used for positioning an aluminum substrate, each positioning column (3k) is fixedly connected with the first fixing plate (3f), the second motor (3h) is arranged on one side of the second sliding block (3e) and is fixedly connected with the second sliding block, and the second cylinder (3i) is arranged on one side of the first sliding block (3c) far away from the first fixing plate (3f) and is fixedly connected with the second sliding block.
2. The automatic precise gluing and drying equipment for the aluminum substrate as claimed in claim 1, wherein: remove subassembly (2) and still include first connecting plate (2d), lift cylinder (2e) and sucking disc (2f), first connecting plate (2d) set up slider one side and fixed connection at first lead screw slip table (2a), lift cylinder (2e) set up in one side and fixed connection of first connecting plate (2d), sucking disc (2f) set up at the flexible end and the fixed connection of lift cylinder (2 e).
3. The automatic precise gluing and drying equipment for the aluminum substrate as claimed in claim 1, wherein: the bottom of second sliding block (3e) is provided with a plurality of pulley (3L), the output and one of them pulley (3L) of second motor (3h) are connected, the top of first sliding block (3c) is provided with supplies the gliding first spout (3m) of pulley (3L), the top of first supporting bench (3a) still is provided with revolving cylinder (3n), revolving cylinder (3n) and first supporting bench (3a) fixed connection, be provided with cylinder clamping jaw (3o) that can clip aluminium base board on revolving cylinder (3n), cylinder clamping jaw (3o) are located the top of first supporting bench (3a) and can freely rotate.
4. The automatic precise gluing and drying equipment for the aluminum substrate as claimed in claim 1, wherein: drying assembly (4) still include elevating gear (4d), sliding seal board (4e) and two slots (4f), elevating gear (4d) set up in one side of opening box (4b) and are located the top of second brace table (4a), sliding seal board (4e) set up at the top of opening box (4b) and are located two slots (4f), two slots (4f) set up respectively at the top and fixed connection of opening box (4 b).
5. The automatic precise gluing and drying equipment for the aluminum substrate as claimed in claim 4, wherein: the lifting device (4d) comprises a lifting plate (4d1), a first connecting block (4d2), a first rack (4d3), a first motor (4d4), a first gear (4d5) and a motor supporting seat (4d6), the lifting plate (4d1) is arranged on the inner side of the opening box body (4b), one end of the first connecting block (4d2) is fixedly connected with the lifting plate (4d1), the other end of the first connecting block is arranged on the outer side of the opening box body (4b), a first rack (4d3) is arranged on the first connecting block (4d2) arranged on the outer side of the opening box body (4b) and is fixedly connected with the lifting plate, a first motor (4d4) is arranged on the top of the motor supporting seat (4d6) and is fixedly connected with the motor supporting seat, a first gear (4d5) is arranged on the output end of the first motor (4d4), a first gear (4d5) is meshed with a first rack (4d3), and a second supporting seat (6a) is fixedly connected with the supporting seat (364 a), one side of the opening box body (4b) is provided with a first through opening (7) for the first connecting block (4d2) to move up and down.
6. The automatic precise gluing and drying equipment for the aluminum substrate as claimed in claim 4, wherein: the top of the second supporting table (4a) is further provided with a first air cylinder (8), the telescopic end of the first air cylinder (8) is fixedly connected with one end of the sliding sealing plate (4e), one side of the opening box body (4b) is provided with a first fan (9), the side of the first fan (9) is provided with a first ventilation opening (10), and the first ventilation opening (10) is located on the opening box body (4 b).
7. The automatic precise gluing and drying equipment for the aluminum substrate as claimed in claim 1, wherein: the top of transportation supporting bench (6) is provided with cooling device (6a), cooling device (6a) includes cooler (6a1), first support frame (6a2), air-blower (6a3) and a plurality of sealed flexible glue blend stop (6a4), cooler (6a1) set up at the top and fixed connection of first support frame (6a2), first support frame (6a2) set up at the top and fixed connection of transportation supporting bench (6), air-blower (6a3) set up in one side and fixed connection of first support frame (6a2), a plurality of sealed flexible glue blend stop (6a4) set up respectively in both sides and fixed connection of first support frame (6a 2).
8. The automatic precise gluing and drying equipment for the aluminum substrate as claimed in claim 7, wherein: the top of transportation supporting bench (6) still is provided with product detection device (6b), and product detection device (6b) includes second support frame (6b1) and ultrasonic detector (6b2), and second support frame (6b1) set up at the top and fixed connection of transportation backup pad, and ultrasonic detector (6b2) set up at the top and fixed connection of second support frame (6b1), and product detection device (6b) are located the side of cooling device (6 a).
9. The automatic precise gluing and drying equipment for the aluminum substrate as claimed in claim 8, wherein: one side of the conveying conveyor belt (5) is provided with a material receiving box (11), and the material receiving box (11) is located on the side of the product detection device (6 b).
CN201910205487.XA 2019-03-18 2019-03-18 Automatic precise gluing and drying equipment for aluminum substrates Active CN109772647B (en)

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CN111889309A (en) * 2020-07-13 2020-11-06 三门杉飘医疗器械有限公司 Gauze mask ear rope point gum machine constructs
CN111940244A (en) * 2020-07-28 2020-11-17 王幽青 Accurate rubber coating of aluminium base board and integrative equipment of drying

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JP2006346606A (en) * 2005-06-17 2006-12-28 Kazuyo Yanagida Coating apparatus and coating method using the same
EP2106861A1 (en) * 2008-04-05 2009-10-07 Trade Fabrication Systems Ltd. A method for manufacturing a coated timber panel
CN205463068U (en) * 2016-01-05 2016-08-17 马鞍山涵宇自动化科技有限公司 Automatic dry and cool off machine people
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Inventor after: Zhang Jianmeng

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