CN108156760B - FPC (flexible printed circuit) false pasting machine provided with double-station material taking false pasting mechanism - Google Patents

Abstract

The invention discloses an FPC (flexible printed circuit) false pasting machine with a double-station material taking false pasting mechanism, which structurally comprises a false pasting mechanism, a front cover plate, an external connecting frame, a display, an alarm indicating lamp, a machine body, a side window, a handle, an exhaust port and supporting legs, wherein the supporting legs are sequentially connected into a rectangular structure and vertically arranged at the bottom of the machine body, the side surface of the front cover plate is embedded at the front side of the lower half end of the machine body, the left end of the external connecting frame is fixedly connected with the right side of the machine body, the top of the right end of the external connecting frame is provided with the display, and the bottom end of the alarm indicating lamp is vertically connected with the top of the machine body. The circuit boards can be orderly arranged inside the continuous loading frame.

Description

FPC (flexible printed circuit) false pasting machine provided with double-station material taking false pasting mechanism

Technical Field

The invention discloses an FPC (flexible printed circuit) false pasting machine with a double-station material taking false pasting mechanism, and belongs to the field of FPC false pasting machines with double-station material taking false pasting mechanisms.

Background

In the field of processing of circuit boards, particularly FPC (flexible printed circuit), reinforcing or attaching materials in an FPC reinforcing and attaching material machine are formed into small materials with proper sizes through a forming machine, then the small materials are sent out through a material taking and false pasting mechanism, and after the small materials are sent out, the small materials are sucked through the material taking and false pasting mechanism and then sent to a substrate on a workbench to be installed and fixed.

The existing FPC false pasting machine provided with the double-station material taking false pasting mechanism does not arrange circuit boards in order after the circuit boards are processed, so that the production efficiency is low.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the FPC false pasting machine with the double-station material taking false pasting mechanism, so that the problems that the prior art is imperfect, and the prior FPC false pasting machine with the double-station material taking false pasting mechanism does not arrange circuit boards in order after the circuit boards are processed are solved, and the production efficiency is low.

In order to achieve the purpose, the invention is realized by the following technical scheme: a FPC false pasting machine provided with a double-station material taking false pasting mechanism structurally comprises a false pasting mechanism, a front cover plate, an outer connecting frame, a display, an alarm indicating lamp, a machine body, a side window, a handle, an exhaust port and supporting legs, wherein the supporting legs are sequentially connected into a rectangular structure and vertically arranged at the bottom of the machine body; the false sticking mechanism consists of a buffer pressing device, a double-station material taking device, a left sticking material transmission device, a transmission device, an arranging device, a right sticking material transmission device and a linkage device; the linkage device left end is connected with the inside transmission that carries on of buffering push-down device, linkage device right-hand member bottom meshes with the attached material transmission top in the right side mutually, be parallel to each other between the extracting device of duplex position and locate the attached material transmission in a left side and the attached material transmission both sides in the right side, the attached material transmission in a left side right-hand member is connected with the transmission device left end transmission, the collating unit left end is connected with the transmission device right-hand member laminating, buffering push-down device bottom is located directly over the transmission device center.

Further, buffering holding-down device comprises left plate, buffer rod, right plate, gear section of thick bamboo, external tooth transmission piece, the fixed cover of lift, pushes down frame, location transmission section of thick bamboo, V-arrangement link down, be parallel to each other between the buffer rod, buffer rod one end is connected with left plate right flank is perpendicular, and the other end is connected with right plate left flank is perpendicular, right plate right flank is connected with gear section of thick bamboo side laminating, gear section of thick bamboo front end side meshes with external tooth transmission piece side mutually, V-arrangement link bottom is connected with the inside rotation of location transmission section of thick bamboo, V-arrangement link left end top and gear section of thick bamboo front end fixed connection, push down the inside swing joint of frame top and V-arrangement link right-hand member, the fixed cover of lift is inside and pushes down frame middle part side sliding connection.

Furthermore, the double-station material taking device comprises a lower material fixing rotating rod, a positioning pin, a feeding hopper, an upper material fixing rotating rod, a bottom cover plate, an L-shaped support frame, a bearing, a worm gear rod, a hand cranking frame, a transmission gear and a tension rope, wherein the upper material fixing rotating rod and the left end of the upper material fixing rotating rod are installed on the left wall of the upper half end of the feeding hopper, one end of the positioning pin is vertically connected with the inside of the left end of the bottom cover plate, the other end of the positioning pin is connected to the left end of the bottom of the feeding hopper, one end of the tension rope is connected to the bottom of the lower material fixing rotating rod, the other end of the tension rope is fixed to the top of the bottom cover plate, the top end of the L-shaped support frame is welded to the left portion of the top end of the feeding hopper, the bearing is installed at the bottom end of the L-shaped support frame, the top end of the worm gear rod is fixedly connected with the inside of the bearing, and the hand cranking frame is in transmission connection with the worm gear rod through the transmission gear.

Further, attached material transmission device in a left side comprises getting material transmission frame, transfer line, controller, baffle, towed electro-magnet, transmission band, passive pole, half ratch, linkage gear, it is connected with the transfer line top is perpendicular to get material transmission frame right-hand member, the baffle top is connected with getting material transmission frame left end bottom laminating, the baffle right-hand member is connected with the towed electro-magnet left end is perpendicular, towed electro-magnet right-hand member with get the inside fixed connection of material transmission frame left half end, the controller is equipped with on the towed electro-magnet, the transmission line bottom is passed through the transmission band and is connected with the transmission of passive pole top, the passive pole bottom is passed through the transmission band and is connected with the transmission of half ratch top, half ratch top side meshes with linkage gear side mutually.

Further, transmission device comprises internal support frame, motor, power connecting block, an initiative gear section of thick bamboo, large-scale transmission band, a driven gear section of thick bamboo, the motor carries out the transmission through power connecting block and initiative gear section of thick bamboo front end side and is connected, large-scale transmission band both ends inboard is connected to initiative gear section of thick bamboo side and driven gear section of thick bamboo side respectively, driven gear section of thick bamboo front end side meshes with linkage gear side mutually, internal support frame installs at large-scale transmission band inboardly.

Furthermore, the arranging device comprises a material distributing wheel, a guide frame, a push-pull rod, a bottom fixed rail and a continuous loading frame, the material distributing wheel is arranged in the guide frame, the left end of the top of the guide frame is attached to and connected with the side face of the right end of the driving gear cylinder, the top of the continuous loading frame is parallel to the bottom of the guide frame, the right end of the continuous loading frame is vertically connected with the left end of the push-pull rod, and the bottom of the continuous loading frame is mechanically connected with the inside of the bottom fixed rail.

Further, attached material transmission on right side is got material transmission by right baffle, right towed electro-magnet, second controller, transmission gear pole, second and is transmitted the frame and constitute, right baffle top is got material transmission frame left end bottom laminating with the second and is connected, right baffle right-hand member is connected with right towed electro-magnet left end is perpendicular, the inside fixed connection of material transmission frame left half end is got with the second to right towed electro-magnet right-hand member, right towed electro-magnet right-hand member is equipped with the second controller, the second is got material transmission frame right-hand member and is connected with transmission gear pole bottom is perpendicular.

Furthermore, the linkage device is composed of a transmission belt, a transmission gear disc, a driving motor, a guide transmission belt, a guide transmission rod, a second gear disc, a guide gear, a transmission connecting frame, a stabilizing gear and an upper gear transmission strip.

Further, driving motor bottom side meshes with transmission gear dish front side outer lane mutually, the transmission gear dish carries out the transmission through drive belt and external tooth drive piece and is connected, the driving motor bottom is connected to the direction transfer line bottom through the direction transmission band, direction transfer line bottom side meshes with second gear dish front side outer lane mutually, the second gear dish carries out the transmission through drive belt and guide gear and is connected, the guide gear side meshes with transmission link front end side mutually, transmission link right side and stabilizing gear side, go up the meshing of tooth drive strip top side mutually, transmission gear pole top side is connected with last tooth drive strip front side transmission.

Further, the exhaust port can increase the heat dissipation speed inside the equipment and increase the continuous working capacity of the equipment.

Further, the second controller can control the right traction type electromagnet to work.

Advantageous effects

The invention relates to an FPC (flexible printed circuit) false pasting machine with a double-station material taking false pasting mechanism, which needs to generate driving torque as a power source through a driving motor, wherein the driving motor can drive an external tooth transmission block to rotate through a transmission belt and a transmission gear disc so as to drive a gear drum, a positioning transmission drum and a V-shaped connecting frame to integrally rotate, a lower pressing frame is controlled to ascend and descend through different rotating directions, a lifting fixing sleeve can control the vertical displacement of the lifting fixing sleeve, the driving motor drives a guide gear to rotate through a series of transmission among a guide transmission belt, a guide transmission rod and a second gear disc so as to control the rotation of a transmission connecting frame, the transmission connecting frame can drive a transmission gear rod to rotate through an upper tooth transmission strip, then the position of a second material taking transmission frame is adjusted, when the right end of the second material taking transmission frame rotates, a bottom cover plate is pushed to rotate, and a lower fixing rotating rod is pulled down through a tension rope, the attaching material falls on the second material taking and conveying frame, when the attaching material rotates to the left end, the second controller controls the right traction type electromagnet to pull and control the right baffle to move rightwards, the attaching material falls on the circuit board, the lower pressing frame can be pressed down for attachment, the motor drives the driving gear cylinder to rotate through the power connecting block, the large-scale transmission belt and the driven gear cylinder can rotate together, so that the transmission of the circuit board can be controlled, the rotation of the material taking and conveying frame and the transmission rod is controlled through the transmission among the transmission belt, the driven rod, the semi-toothed rod and the linkage gear to move the attaching material, the hand cranking frame can drive the transmission gear to control the lifting of the worm wheel rod according to the actual situation, the double-station material taking device is properly adjusted, the processed circuit board can be arranged in the continuous material feeding frame under the linkage of the material distributing wheel and the guide frame, thus, the working difficulty of workers can be reduced.

According to the FPC false attaching machine with the double-station material taking and false attaching mechanism, the two sides of the FPC false attaching machine can be supplied together through the double-station material taking device, the working speed of the FPC false attaching machine is improved, the FPC false attaching machine can buffer generated impact force when a pressing device is reset, the impact force applied to an element of the FPC is reduced, and the FPC can be orderly arranged in a continuous loading frame when the FPC is processed by the FPC false attaching machine.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of an FPC dummy bonding machine provided with a double-station material-taking dummy bonding mechanism according to the present invention.

FIG. 2 is a schematic structural diagram of a pseudo-pasting mechanism according to the present invention.

FIG. 3 is a detailed structural diagram of the pseudo-pasting mechanism of the present invention.

FIG. 4 is a schematic structural diagram of the working state of the dummy attaching mechanism of the present invention.

Fig. 5 is a schematic structural diagram of the buffering and pressing device of the present invention.

In the figure: a false sticking mechanism-1, a front cover plate-2, an external connecting frame-3, a display-4, an alarm indicator lamp-5, a machine body-6, a side window-7, a handle-8, an exhaust port-9, a supporting foot-10, a buffering pressing device-11, a double-station material taking device-12, a left attaching material transmission device-13, a transmission device-14, an arrangement device-15, a right attaching material transmission device-16, a linkage device-17, a left plate-111, a buffering rod-112, a right plate-113, a gear cylinder-114, an external tooth transmission block-115, a lifting fixed sleeve-116, a pressing frame-117, a positioning transmission cylinder-118, a V-shaped connecting frame-119, a lower fixing rotating rod-121, a positioning pin-122, a feeding hopper-123, a lifting fixed sleeve-116, a pressing frame-117, An upper material fixing rotating rod-124, a bottom cover plate-125, an L-shaped support frame-126, a bearing-127, a worm gear rod-128, a hand-cranking frame-129, a transmission gear-1210, a tension rope-1211, a material taking transmission frame-131, a transmission rod-132, a controller-133, a left baffle-134, a traction electromagnet-135, a transmission belt-136, a driven rod-137, a half-tooth rod-138, a linkage gear-139, an internal support frame-141, a motor-142, a power connecting block-143, a driving gear cylinder-144, a large transmission belt-145, a driven gear cylinder-146, a material distributing wheel-151, a guide frame-152, a push-pull rod-153, a bottom fixing rail-154, a continuous material loading frame-155, a right baffle-161, a right traction electromagnet-162, a left baffle-134, a right traction electromagnet-135, a left traction electromagnet-137, a left traction electromagnet-driven electromagnet-137, a left traction electromagnet-137, a right traction electromagnet, a left traction electromagnet, a right traction belt, a left traction belt, a right traction belt, a left traction belt, a right traction belt, a left traction, a right traction bar-137, a right traction bar-138, a left traction, a right traction bar-137, a left traction bar, a right traction bar, a left traction bar, a right traction bar, a left traction bar, a right traction bar, a left traction bar, a right traction bar, a left, A second controller-163, a transmission gear rod-164, a second material taking transmission rack-165, a transmission belt-171, a transmission gear disc-172, a driving motor-173, a guide transmission belt-174, a guide transmission rod-175, a second gear disc-176, a guide gear-177, a transmission connecting rack-178, a stabilizing gear-179 and an upper gear transmission strip-1710.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-5, the present invention provides a technical solution of an FPC dummy bonding machine with a double-station material-taking dummy bonding mechanism: the structure of the novel multifunctional alarm device comprises a false pasting mechanism 1, a front cover plate 2, an outer connecting frame 3, a display 4, an alarm indicating lamp 5, a machine body 6, a side window 7, a handle 8, an exhaust port 9 and supporting legs 10, wherein the supporting legs 10 are sequentially connected into a rectangular structure and are vertically arranged at the bottom of the machine body 6, the side surface of the front cover plate 2 is embedded at the front side of the lower half end of the machine body 6, the left end of the outer connecting frame 3 is fixedly connected with the right side of the machine body 6, the display 4 is arranged at the top of the right end of the outer connecting frame 3, the bottom end of the alarm indicating lamp 5 is vertically connected with the top of the machine body 6, the false pasting mechanism 1 is installed inside the machine body 6, the exhaust ports 9 are mutually parallel and are arranged at the left lower corner of the front side of the machine body 6, and the side surface of the side window 7 is in clearance fit with the inner side of the left end of the machine body 6; the false sticking mechanism 1 consists of a buffer pressing device 11, a double-station material taking device 12, a left sticking material transmission device 13, a transmission device 14, an arrangement device 15, a right sticking material transmission device 16 and a linkage device 17; the left end of the linkage device 17 is connected with the interior of the buffer pressing device 11 in a transmission manner, the bottom of the right end of the linkage device 17 is meshed with the top of the right attached material transmission device 16, the double-station material taking devices 12 are parallel to each other and are arranged on two sides of the left attached material transmission device 13 and the right attached material transmission device 16, the right end of the left attached material transmission device 13 is connected with the left end of the transmission device 14 in a transmission manner, the left end of the arrangement device 15 is connected with the right end of the transmission device 14 in a laminating manner, the bottom of the buffer pressing device 11 is arranged right above the center of the transmission device 14, the buffer pressing device 11 is composed of a left plate 111, a buffer rod 112, a right plate 113, a gear cylinder 114, an external gear transmission block 115, a lifting fixing sleeve 116, a pressing frame 117, a positioning transmission cylinder 118 and a V-shaped connecting frame 119, the buffer rods 112 are parallel to each other, one end of the buffer rod 112 is vertically connected with the right side surface of the left plate 111, the other end of the double-station material taking device 12 is vertically connected with the left side surface of a right plate 113, the right side surface of the right plate 113 is attached to the side surface of a gear cylinder 114, the side surface of the front end of the gear cylinder 114 is engaged with the side surface of an external gear transmission block 115, the bottom end of a V-shaped connecting frame 119 is rotatably connected with the inside of a positioning transmission cylinder 118, the top of the left end of the V-shaped connecting frame 119 is fixedly connected with the front end of the gear cylinder 114, the top end of a lower pressing frame 117 is movably connected with the inside of the right end of the V-shaped connecting frame 119, the inside of a lifting fixing sleeve 116 is slidably connected with the middle side surface of the lower pressing frame 117, the double-station material taking device 12 is composed of a lower fixing rotating rod 121, a positioning pin 122, a feed hopper 123, an upper fixing rotating rod 124, a bottom cover plate 125, an L-shaped supporting frame 126, a bearing 127, a worm wheel rod 128, a hand rack 129, a transmission gear 1210 and a tension rope 1211, the left ends of the upper fixing rotating rod 124 and the upper fixing rotating rod 124 are installed on the left wall of the upper half end of the feed hopper 123, one end of the positioning pin 122 is vertically connected with the inside of the left end of the bottom cover plate 125, the other end of the positioning pin is connected to the left end of the bottom of the feed hopper 123, one end of the tensile rope 1211 is connected to the bottom of the lower material fixing rotating rod 121, the other end of the tensile rope 1211 is fixed to the top of the bottom cover plate 125, the top end of the L-shaped support frame 126 is welded to the left end of the top of the feed hopper 123, the bearing 127 is installed at the bottom end of the L-shaped support frame 126, the top end of the worm wheel rod 128 is fixedly connected with the inside of the bearing 127, the hand rocking frame 129 is in transmission connection with the worm wheel rod 128 through the transmission gear 1210, the left attaching material transmission device 13 is composed of a material taking transmission frame 131, a transmission rod 132, a controller 133, a baffle 134, a traction type electromagnet 135, a transmission belt 136, a driven rod 137, a half gear 138, the right end of the baffle 134 is vertically connected with the left end of a traction-type electromagnet 135, the right end of the traction-type electromagnet 135 is fixedly connected with the inside of the left half end of a material taking and conveying frame 131, a controller 133 is mounted on the traction-type electromagnet 135, the bottom end of a transmission rod 132 is in transmission connection with the top end of a driven rod 137 through a transmission belt 136, the bottom end of the driven rod 137 is in transmission connection with the top end of a half-tooth rod 138 through the transmission belt 136, the side surface of the top end of the half-tooth rod 138 is meshed with the side surface of a linkage gear 139, the transmission device 14 is composed of an internal support frame 141, a motor 142, a power connecting block 143, a driving gear cylinder 144, a large transmission belt 145 and a driven gear cylinder 146, the motor 142 is in transmission connection with the side surface of the front end of the driving gear cylinder 144 through the power connecting block 143, and the inner sides of two ends of the large transmission belt 145 are respectively connected to the side surfaces of the driving gear cylinder 144 and the driven gear cylinder 146, the side face of the front end of the driven gear cylinder 146 is engaged with the side face of the linkage gear 139, the internal support frame 141 is installed on the inner side of the large-scale conveyor 145, the arranging device 15 is composed of a material distributing wheel 151, a guide frame 152, a push-pull rod 153, a bottom fixing rail 154 and a continuous loading frame 155, the material distributing wheel 151 is arranged inside the guide frame 152, the left end of the top of the guide frame 152 is attached and connected with the side face of the right end of the driving gear cylinder 144, the top of the continuous loading frame 155 is parallel to the bottom of the guide frame 152, the right end of the continuous loading frame 155 is vertically connected with the left end of the push-pull rod 153, the bottom of the continuous loading frame 155 is mechanically connected with the inside of the bottom fixing rail 154, the right attaching material transmission device 16 is composed of a right baffle plate 161, a right traction type electromagnet 162, a second controller 163, a transmission gear rod 164 and a second material taking transmission frame 165, the top of the right baffle plate 161 is attached and connected with the bottom of the left end of the second material taking transmission frame 165, right baffle 161 right-hand member is connected with right towed electro-magnet 162 left end is perpendicular, the inside fixed connection in the left half end of material transmission frame 165 is got with the second to right towed electro-magnet 162 right-hand member, right towed electro-magnet 162 right-hand member is equipped with second controller 163, the second is got and is transmitted frame 165 right-hand member and is connected with transmission gear pole 164 bottom is perpendicular, aggregate unit 17 comprises drive belt 171, transmission gear dish 172, driving motor 173, direction transmission band 174, direction transmission pole 175, second gear dish 176, leading gear 177, transmission link 178, stabilizing gear 179, last tooth drive strip 1710, driving motor 173 bottom side meshes with transmission gear dish 172 front side outer lane mutually, transmission gear dish 172 carries out the transmission through drive belt 171 and external tooth transmission piece 115 and is connected, driving motor 173 bottom is connected to direction transmission pole 175 bottom through direction transmission band 174, the direction transfer line 175 bottom side meshes with second gear dish 176 front side outer lane mutually, second gear dish 176 carries out the transmission through drive belt 171 and guide gear 177 and is connected, guide gear 177 side meshes with transmission link 178 front end side mutually, transmission link 178 right side and stabilizing gear 179 side, go up tooth drive strip 1710 top side and mesh mutually, transmission gear pole 164 top side is connected with last tooth drive strip 1710 front side transmission, gas vent 9 can increase the inside radiating rate of equipment, increases the ability that equipment continued work, right traction formula electro-magnet 162 can be controlled to second controller 163 and works.

The bearing 127 is an important part of the modern mechanical equipment. Its main function is to support the mechanical rotator, reduce the friction coefficient in its motion process and ensure its rotation precision.

When the material taking and conveying device is used, a driving torque is required to be generated by the driving motor 173 to serve as a power source, the driving motor 173 can drive the external tooth transmission block 115 to rotate through the transmission belt 171 and the transmission gear disc 172, so as to drive the gear cylinder 114, the positioning transmission cylinder 118 and the V-shaped connecting frame 119 to integrally rotate, the lower pressing frame 117 is controlled to ascend and descend through different rotating directions, the ascending and descending fixing sleeve 116 can control the vertical displacement of the ascending and descending fixing sleeve 116, the driving motor 173 drives the guide gear 177 to rotate through a series of transmission among the guide transmission belt 174, the guide transmission rod 175 and the second gear disc 176, so as to control the rotation of the transmission connecting frame 178, the transmission connecting frame 178 can drive the transmission gear rod 164 to rotate through the upper tooth transmission bar 1710, then the position of the second material taking and conveying frame 165 is adjusted, when the right end of the second material taking and conveying frame 165 rotates, the bottom cover plate 125 is pushed to rotate, meanwhile, the lower solid material rotating rod 121 is pulled down by the pulling rope 1211, the attaching material falls on the second material taking and conveying frame 165, when the attaching material is rotated to the left end, the second controller 163 controls the right traction type electromagnet 162 to pull and control the right baffle 161 to move right, the attaching material falls on the circuit board, the lower pressing frame 117 can be pressed down and attached, the motor 142 drives the driving gear cylinder 144 to rotate through the power connecting block 143, the large-scale conveying belt 145 and the driven gear cylinder 146 rotate together, so that the transmission of the circuit board can be controlled, the rotation of the material taking and conveying frame 131 and the transmission rod 132 is controlled through the transmission among the conveying belt 136, the driven rod 137, the half gear rod 138 and the linkage gear 139 to move the attaching material, and the transmission gear 1210 can be driven by the hand rocking frame 129 according to actual conditions to control the lifting of the worm gear 128 and properly adjust the material taking device 12, the processed circuit boards can be arranged into the continuous loading frame 155 under the linkage of the distributing wheel 151 and the guide frame 152, so that the working difficulty of workers can be reduced.

The FPC fake sticking machine comprises a double-station material taking device, a pressing device, a feeding device, a discharging device and a discharging device.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. The utility model provides a set up two stations and get material false machine of pasting of FPC of mechanism, its structure includes false mechanism (1), front shroud (2), outer link (3), display (4), alarm indicator (5), organism (6), side window (7), handle (8), gas vent (9), supporting legs (10), its characterized in that:

the supporting legs (10) are sequentially connected into a rectangular structure and are vertically arranged at the bottom of the machine body (6), the side face of the front cover plate (2) is embedded at the front side of the lower half end of the machine body (6), the left end of the external connecting frame (3) is fixedly connected with the right side of the machine body (6), the top of the right end of the external connecting frame (3) is provided with a display (4), the bottom end of the alarm indicator lamp (5) is vertically connected with the top of the machine body (6), the false pasting mechanism (1) is installed in the machine body (6), the exhaust ports (9) are parallel to each other and are arranged at the lower left corner of the front side of the machine body (6), and the side face of the side window (7) is in clearance fit with the inner side of the left end of the machine body (6);

the false sticking mechanism (1) is composed of a buffering and pressing device (11), a double-station material taking device (12), a left sticking material transmission device (13), a transmission device (14), an arranging device (15), a right sticking material transmission device (16) and a linkage device (17);

linkage (17) left end and buffering push down device (11) inside transmission and be connected, linkage (17) right-hand member bottom meshes with attached material transmission (16) top in the right side mutually, be parallel to each other between double-station extracting device (12) and locate attached material transmission (13) in a left side and attached material transmission (16) both sides in the right side, attached material transmission (13) right-hand member in a left side carries out the transmission with transmission (14) left end and is connected, collating unit (15) left end is connected with transmission (14) right-hand member laminating, buffering push down device (11) bottom and locate transmission (14) directly over the center.

2. The FPC false pasting machine provided with a double-station material taking false pasting mechanism according to claim 1, characterized in that: the buffering and pressing device (11) is composed of a left plate (111), a buffering rod (112), a right plate (113), a gear cylinder (114), an external gear transmission block (115), a lifting fixing sleeve (116), a lower pressing frame (117), a positioning transmission cylinder (118) and a V-shaped connecting frame (119), the buffering rod (112) is parallel to each other, one end of the buffering rod (112) is vertically connected with the right side surface of the left plate (111), the other end of the buffering rod is vertically connected with the left side surface of the right plate (113), the right side surface of the right plate (113) is attached to the side surface of the gear cylinder (114), the side surface of the front end of the gear cylinder (114) is meshed with the side surface of the external gear transmission block (115), the bottom end of the V-shaped connecting frame (119) is connected with the positioning transmission cylinder (118) in an internal rotating manner, the top of the left end of the V-shaped connecting frame (119) is fixedly connected with the front end of the gear cylinder (114), the top end of the lower pressing frame (117) is movably connected with the inside of the V-shaped connecting frame (119), the interior of the lifting fixing sleeve (116) is in sliding connection with the side face of the middle part of the lower pressing frame (117).

3. The FPC false pasting machine provided with a double-station material taking false pasting mechanism according to claim 1, characterized in that: the double-station material taking device (12) comprises a lower solid material rotating rod (121), a positioning pin (122), a feeding hopper (123), an upper solid material rotating rod (124), a bottom cover plate (125), an L-shaped supporting frame (126), a bearing (127), a worm gear rod (128), a hand-cranking frame (129), a transmission gear (1210) and a tension rope (1211), wherein the left ends of the lower solid material rotating rod (121) and the upper solid material rotating rod (124) are arranged on the left wall of the lower half end of the feeding hopper (123), one end of the positioning pin (122) is vertically connected with the inside of the left end of the bottom cover plate (125), the other end of the positioning pin (122) is connected to the left end of the bottom of the feeding hopper (123), one end of the tension rope (1211) is connected to the bottom of the lower solid material rotating rod (121), the other end of the positioning pin is fixed to the top of the bottom cover plate (125), the top end of the L-shaped supporting frame (126) is welded with the left end of the feeding hopper (123), the bearing (127) is arranged at the bottom end of the L-shaped supporting frame (126), the top end of the worm gear (128) is fixedly connected with the inside of the bearing (127), and the hand-cranking frame (129) is in transmission connection with the worm gear (128) through a transmission gear (1210).

4. The FPC false pasting machine provided with a double-station material taking false pasting mechanism according to claim 1, characterized in that: attached material transmission (13) in a left side comprises getting material transmission frame (131), transfer line (132), controller (133), left baffle (134), towed electro-magnet (135), transmission band (136), driven bar (137), half-tooth pole (138), linkage gear (139), it is connected with transfer line (132) top perpendicularly to get material transmission frame (131) right-hand member, left baffle (134) top with get material transmission frame (131) left end bottom laminating and be connected, left baffle (134) right-hand member is connected with towed electro-magnet (135) left end perpendicularly, towed electro-magnet (135) right-hand member with get material transmission frame (131) left half-end inside fixed connection, controller (133) are equipped with on towed electro-magnet (135), transmission line (132) bottom is connected with driven bar (137) top through transmission band (136) in a transmission way, driven bar (137) bottom is connected with half-tooth pole (138) top through transmission band (136), the side surface of the top end of the half-rack rod (138) is meshed with the side surface of the linkage gear (139).

5. The FPC false pasting machine provided with a double-station material taking false pasting mechanism according to claim 1, characterized in that: the transmission device (14) comprises an internal support frame (141), a motor (142), a power connecting block (143), a driving gear cylinder (144), a large-scale transmission belt (145) and a driven gear cylinder (146), the motor (142) is in transmission connection with the front end side of the driving gear cylinder (144) through the power connecting block (143), the inner sides of the two ends of the large-scale transmission belt (145) are respectively connected to the side of the driving gear cylinder (144) and the side of the driven gear cylinder (146), the side of the front end of the driven gear cylinder (146) is meshed with the side of a linkage gear (139), and the internal support frame (141) is mounted on the inner side of the large-scale transmission belt (145).

6. The FPC false pasting machine provided with a double-station material taking false pasting mechanism according to claim 1, characterized in that: the arranging device (15) is composed of a material distributing wheel (151), a guide frame (152), a push-pull rod (153), a bottom fixed rail (154) and a continuous loading frame (155), the material distributing wheel (151) is arranged inside the guide frame (152), the left end of the top of the guide frame (152) is attached to the side face of the right end of a driving gear cylinder (144), the top of the continuous loading frame (155) is parallel to the bottom of the guide frame (152), the right end of the continuous loading frame (155) is vertically connected with the left end of the push-pull rod (153), and the bottom of the continuous loading frame (155) is mechanically connected with the inside of the bottom fixed rail (154).

7. The FPC false pasting machine provided with a double-station material taking false pasting mechanism according to claim 1, characterized in that: attached material transmission (16) in the right side is got material transmission frame (165) by right baffle (161), right towed electro-magnet (162), second controller (163), drive gear pole (164), second and is constituteed, right baffle (161) top is got material transmission frame (165) left end bottom laminating with the second and is connected, right baffle (161) right-hand member is connected with right towed electro-magnet (162) left end is perpendicular, the inside fixed connection of material transmission frame (165) left half end is got with the second to right towed electro-magnet (162) right-hand member, second controller (163) are equipped with to right towed electro-magnet (162) right-hand member, the material transmission frame (165) right-hand member is got with drive gear pole (164) bottom and is connected perpendicularly to the second.

8. The FPC false pasting machine provided with a double-station material taking false pasting mechanism according to claim 7, characterized in that: the linkage device (17) is composed of a transmission belt (171), a transmission gear disc (172), a driving motor (173), a guide transmission belt (174), a guide transmission rod (175), a second gear disc (176), a guide gear (177), a transmission connecting frame (178), a stabilizing gear (179) and an upper gear transmission strip (1710).

9. The FPC false pasting machine provided with a double-station material taking false pasting mechanism according to claim 8, characterized in that: the side surface of the bottom end of the driving motor (173) is meshed with the outer ring of the front side of the transmission gear disc (172), the transmission gear disc (172) is in transmission connection with the external tooth transmission block (115) through a transmission belt (171), the bottom end of the driving motor (173) is connected to the bottom end of a guide transmission rod (175) through a guide transmission belt (174), the side surface of the bottom end of the guide transmission rod (175) is meshed with the outer ring of the front side of the second gear wheel disc (176), the second gear disc (176) is in transmission connection with the guide gear (177) through a transmission belt (171), the side surface of the guide gear (177) is meshed with the side surface of the front end of the transmission connecting frame (178), the right side of the transmission connecting frame (178) is meshed with the side surface of the stabilizing gear (179) and the top side of the upper tooth transmission bar (1710), the side face of the top end of the transmission gear rod (164) is in transmission connection with the front side of the upper gear transmission bar (1710).

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