CN110124938B - Be applied to buffer and some conducting resin equipment of some conducting resin equipment - Google Patents

Abstract

The invention discloses a buffer device applied to conductive adhesive dispensing equipment and the conductive adhesive dispensing equipment. The buffer device comprises a power mechanism and a card conveying mechanism which are connected with each other, wherein the card conveying mechanism comprises a first conveying mechanism capable of conveying workpieces upwards, a second conveying mechanism capable of conveying the workpieces downwards and a third conveying mechanism, the device can convey the workpieces in the device upwards and downwards, and finally the workpieces are conveyed back to the horizontal transmission rail and then horizontally conveyed out of the buffer device, so that the retention time of the workpieces in the device is prolonged, the surface of the conductive adhesive is sufficiently cured, and the detection reliability is ensured.

Description

Be applied to buffer and some conducting resin equipment of some conducting resin equipment

Technical Field

The invention relates to the field of intelligent card point conductive adhesive, in particular to a buffer device applied to conductive adhesive point equipment and conductive adhesive point equipment.

Background

At present, a point conductive adhesive and a conductive adhesive height detection two procedures are adopted in a point conductive adhesive device of an intelligent chip card. After the smart card finishes the conductive adhesive dotting process, the next conductive adhesive height detection process is immediately carried out, the conductive adhesive is still fluid, the appearance and the height can continuously change under the action of gravity, the height value obtained by immediately carrying out height detection is higher than the height value of the conductive adhesive after solidification, the quality stability of the produced product is not high enough, when the height of the conductive adhesive is detected, the height value is a qualified lower limit, the detection is judged to be a qualified product, but after the smart card is kept stand for a period of time, the height of the conductive adhesive after complete solidification is lower than a qualified standard, and after the smart card finishes the following packaging process, the non-contact function fails due to the insufficient height of the conductive adhesive, and unqualified products are produced.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the buffer device applied to the conductive adhesive dispensing equipment and the conductive adhesive dispensing equipment, which can increase the retention time of the smart card in the equipment, enable the surface of the conductive adhesive to have sufficient curing time and effectively utilize the equipment space.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides a be applied to some electrically conductive mucilage binding and put buffer, buffer sets up on some electrically conductive mucilage binding transfer orbit, including interconnect's power unit and card conveying mechanism, card conveying mechanism is including the first transport mechanism that can upwards transport the work piece, can transport the second transport mechanism and the third transport mechanism of work piece downwards, third transport mechanism sets up in the upper end of first transport mechanism and second transport mechanism for transport the work piece to second transport mechanism from first transport mechanism, power unit is used for the drive first transport mechanism with the motion of second transport mechanism.

As a further improvement of the above scheme, the power mechanism includes a base, and a motor and a power assembly both disposed on the base, wherein the motor is used for driving the power assembly to operate.

As a further improvement of the above scheme, the power assembly includes a first power assembly and a second power assembly respectively disposed at the left and right sides of the base, the first power assembly is connected with the first transmission mechanism, and the second power assembly is connected with the second transmission mechanism;

the first power assembly comprises a first synchronous belt wheel, a second synchronous belt wheel, a first synchronous belt, a first transmission gear, a first bevel gear, a second transmission shaft, a third bevel gear, a fourth bevel gear, a second transmission gear, and a first transmission shaft and a third transmission shaft which are sequentially arranged in parallel from one side to the other side of the motor, the first synchronous belt wheel is arranged on an output shaft of the motor and connected with the second synchronous belt wheel through the first synchronous belt, the second synchronous belt wheel is arranged on the first transmission shaft, the first transmission shaft is also provided with the first transmission gear and the first bevel gear, the first bevel gear is meshed with the second bevel gear, the second bevel gear is arranged at one end of the second transmission shaft, the other end of the second transmission shaft is provided with the third bevel gear, and the third bevel gear is meshed with the fourth bevel gear, the fourth bevel gear is arranged at one end of the third transmission shaft, and the third transmission shaft is also provided with the second transmission gear;

the second power assembly comprises a third synchronous belt wheel, a fourth synchronous belt wheel, a second synchronous belt, a third transmission gear, a fifth bevel gear, a sixth bevel gear, a fifth transmission shaft, a seventh bevel gear, an eighth bevel gear, a fourth transmission gear, a sixth transmission shaft and a fourth transmission shaft which are sequentially arranged in parallel from one side to the other side of the motor, the third synchronous belt wheel is arranged on an output shaft of the motor and connected with the fourth synchronous belt wheel through the second synchronous belt, the fourth synchronous belt wheel is arranged on the fourth transmission shaft, the fourth transmission shaft is also provided with the third transmission gear and the fifth bevel gear, the fifth bevel gear is meshed with the sixth bevel gear, the sixth bevel gear is arranged at one end of the fifth transmission shaft, the other end of the fifth transmission shaft is provided with the seventh bevel gear, and the seventh bevel gear is meshed with the eighth bevel gear, the eighth bevel gear is arranged at one end of the sixth transmission shaft, and a fourth transmission gear is further arranged on the sixth transmission shaft.

As a further improvement of the above scheme, the first transmission mechanism includes a first transmission assembly and a second transmission assembly which are symmetrically arranged, the second transmission mechanism includes a third transmission assembly and a fourth transmission assembly which are symmetrically arranged, and the first transmission assembly, the second transmission assembly, the third transmission assembly and the fourth transmission assembly have the same structure.

As a further improvement of the scheme, the first transmission assembly comprises a supporting plate, a transmission belt and a guide baffle plate, the transmission belt is arranged on the supporting plate, the guide baffle plate is arranged on the outer side of the supporting plate, the transmission belt is driven by the power mechanism to move, and a plurality of tooth blocks used for clamping the smart card are arranged on the transmission belt.

As a further improvement of the scheme, the upper part and the lower part of the supporting plate are both provided with optical fiber fixing plates, and the optical fiber fixing plates are provided with optical fiber detection eyelets.

As a further improvement of the above scheme, the third conveying mechanism includes a card pushing mechanism and a connecting rail, the card pushing mechanism is disposed at the upper ends of the first conveying mechanism and the second conveying mechanism, two ends of the connecting rail are respectively connected with the upper portions of the first conveying mechanism and the second conveying mechanism, and the card pushing mechanism is used for pushing the workpiece to be transported from the first conveying mechanism to the second conveying mechanism through the connecting rail.

As a further improvement of the above scheme, the card pushing mechanism includes a connecting plate, an air cylinder disposed at an upper end of the connecting plate, and a card pushing arm disposed on the air cylinder, and the connecting plate is disposed at upper ends of the first conveying mechanism and the second conveying mechanism and is provided with a channel for the card pushing arm to move.

As a further improvement of the scheme, a plurality of threaded holes are formed in the connecting plate, and the connecting plate is fixed to the upper ends of the first conveying mechanism and the second conveying mechanism through screws.

The intelligent card point conductive adhesive equipment comprises the buffer device, wherein the buffer device is arranged on a conveying track of a connection point conductive adhesive process and a conductive adhesive height detection process.

The invention has the following beneficial effects:

the utility model provides a be applied to some conductive adhesive equipment's buffer, includes interconnect's power unit and defeated card mechanism, defeated card mechanism includes the first transport mechanism that can upwards transport the work piece, can transport the second transport mechanism and the third transport mechanism of work piece downwards, and this device realizes carrying upwards earlier to the work piece in the arrival device, then carries downwards again, and finally, the work piece is sent back on horizontal transmission's track, is sent out buffer by the level again, prolongs the dwell time of work piece in equipment, makes the surface of conductive adhesive solidify enough, guarantees the reliability of detection.

A conductive adhesive dispensing device comprises the buffering device and has the effects as described above.

Drawings

The invention is further described with reference to the following detailed description of embodiments and drawings, in which:

FIG. 1 is a schematic structural view of a cushioning device in a preferred embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure of the power mechanism in a preferred embodiment of the present invention;

FIG. 3 is a schematic view of the structure of the lower portion of the buffer device in a preferred embodiment of the present invention;

FIG. 4 is a schematic structural view of a card pushing mechanism in a preferred embodiment of the present invention;

fig. 5 is a partially enlarged view of a portion a in fig. 3.

In the figure, 1-cylinder, 2-connecting plate, 3-connecting rail, 4-third transmission mechanism, 5-base, 6-transmission rail, 7-motor, 8-power mechanism, 9-guide baffle, 10-transmission belt, 11-pushing arm, 12-first transmission gear, 13-first synchronous belt, 14-first synchronous pulley, 15-third synchronous pulley, 16-second synchronous belt, 17-fourth transmission gear, 18-sixth transmission shaft, 19-eighth bevel gear, 20-seventh bevel gear, 21-fifth transmission shaft, 22-sixth bevel gear, 23-fifth bevel gear, 24-fourth transmission shaft, 25-third transmission gear, 26-fourth synchronous pulley, 27-second synchronous pulley, 28-second transmission gear, 29-third transmission shaft, 30-fourth bevel gear, 31-third bevel gear, 32-second transmission shaft, 33-first transmission shaft, 34-second bevel gear, 35-first bevel gear, 36-support plate, 37-tooth block.

Detailed Description

The following further describes the embodiments of the present invention. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Referring to fig. 1 to 5, a buffering device applied to a conductive adhesive dispensing device is disposed on a conveying track 6 connecting a conductive adhesive process and a conductive adhesive height detection process, and includes an actuating mechanism 8 and a card conveying mechanism 4 connected to each other, where the card conveying mechanism 4 includes a first conveying mechanism capable of conveying a workpiece upwards, a second conveying mechanism capable of conveying a workpiece downwards, and a third conveying mechanism disposed at an upper end of the first conveying mechanism and the second conveying mechanism and used for conveying the workpiece from the first conveying mechanism to the second conveying mechanism, and the actuating mechanism 8 is used for driving the first conveying mechanism and the second conveying mechanism to move. This device realizes carrying upwards earlier to the smart card in the arrival device, then carries downwards again, and finally, on the smart card was sent back horizontal drive's track, is sent out buffer by the level again, prolongs the dwell time of smart card in the equipment, makes the conducting resin surface sufficient solidification, guarantees the reliability that detects.

Further, the power mechanism 8 comprises a base 5, and a motor 7 and a power assembly which are arranged on the base 5, wherein the motor 7 is used for driving the power assembly to operate, and the power assembly comprises a first power assembly and a second power assembly which are respectively arranged on the left side and the right side of the base 5;

the first power assembly comprises a first synchronous pulley 14, a second synchronous pulley 27, a first synchronous belt 13, a first transmission gear 12, a first bevel gear 35, a second bevel gear 34, a second transmission shaft 32, a third bevel gear 31, a fourth bevel gear 30, a second transmission gear 28, a first transmission shaft 33 and a third transmission shaft 29 which are sequentially arranged in parallel from one side to the other side of the motor 7, the first synchronous pulley 14 is arranged on an output shaft of the motor 7 and is connected with the second synchronous pulley 27 through the first synchronous belt 13, the second synchronous pulley 27 is arranged on the first transmission shaft 33, the first transmission shaft 33 is further provided with the first transmission gear 12 and the first bevel gear 35, the first bevel gear 35 is in meshing connection with the second bevel gear 34, the second bevel gear 34 is arranged at one end of the second transmission shaft 32, the other end of the second transmission shaft 32 is provided with the third bevel gear 31, the third bevel gear 31 is meshed with the fourth bevel gear 30, the fourth bevel gear 30 is arranged at one end of the third transmission shaft 29, the second transmission gear 28 is further arranged on the third transmission shaft 29, and one of the transmission directions of the first transmission gear 12 and the second transmission gear 28 is in clockwise rotation and the other is in counterclockwise rotation through bevel gear transmission;

the second power assembly comprises a third synchronous belt wheel 15, a fourth synchronous belt wheel 26, a second synchronous belt 16, a third transmission gear 25, a fifth bevel gear 23, a sixth bevel gear 22, a fifth transmission shaft 21, a seventh bevel gear 20, an eighth bevel gear 19, a fourth transmission gear 17, a sixth transmission shaft 18 and a fourth transmission shaft 24 which are sequentially arranged in parallel from one side to the other side of the motor 7, the third synchronous belt wheel 15 is arranged on an output shaft of the motor 7 and is connected with the fourth synchronous belt wheel 26 through the second synchronous belt 16, the fourth synchronous belt wheel 26 is arranged on the fourth transmission shaft 24, the fourth transmission shaft 24 is further provided with the third transmission gear 25 and the fifth bevel gear 23, the fifth bevel gear 23 is meshed with the sixth bevel gear 22, the sixth bevel gear 22 is arranged at one end of the fifth transmission shaft 21, the other end of the fifth transmission shaft 21 is provided with the seventh bevel gear 20, the seventh bevel gear 20 is in meshed connection with the eighth bevel gear 19, the eighth bevel gear 19 is arranged at one end of the sixth transmission shaft 18, the sixth transmission shaft 18 is further provided with a fourth transmission gear 17, and through bevel gear transmission, one of the transmission directions of the third transmission gear 25 and the fourth transmission gear 17 is in clockwise rotation, and the other is in counterclockwise rotation. The third synchronous pulley 15 and the first synchronous pulley 14 are both arranged on the same rotating shaft, so that the left power assembly and the right power assembly keep the same rotating speed. The second synchronous pulley 27 and the fourth synchronous pulley 26 are disposed close to the motor 7 and far from the motor 7, respectively, so that the rotation directions of the rotation shafts which are symmetrical to each other are just opposite.

Furthermore, the first transmission mechanism comprises a first transmission assembly and a second transmission assembly which are symmetrically arranged, the second transmission mechanism comprises a third transmission assembly and a fourth transmission assembly which are symmetrically arranged, and the first transmission assembly, the second transmission assembly, the third transmission assembly and the fourth transmission assembly are identical in structure. First drive assembly includes backup pad 36, conveyer belt 10 and direction plate washer 9, conveyer belt 10 is established on the backup pad 36, direction plate washer 9 is established in the backup pad 36 outside, plays the effect of direction and protection when the smart card rises and descends, makes intelligence according to upper and lower rectilinear movement in the process of motion, can not fall out conveyer belt 10 about controlling. The conveying belt 10 is driven by the power mechanism 8 to move, a plurality of tooth blocks 37 are arranged on one side of the conveying belt 10, the conveying track 6 penetrates through the bottoms of the first conveying mechanism and the second conveying mechanism, a groove is formed in the conveying track 6, one side, provided with the tooth blocks 37, of the conveying belt 10 is installed on an opening of the conveying track 6, and when the smart card conveyed from the conveying track 6 enters the first conveying mechanism or the second conveying mechanism, two adjacent tooth blocks 37 play a role in clamping the smart card for conveying. The first transmission gear 12, the second transmission gear 28, the third transmission gear 25 and the fourth transmission gear 17 respectively drive the conveyor belts 10 on the first transmission assembly, the second transmission assembly, the third transmission assembly and the fourth transmission assembly to move.

Further, the upper portion and the lower part of backup pad 36 all are equipped with the optical fiber fixed plate, be equipped with the optical fiber detection eyelet on the optical fiber fixed plate, the optical fiber detection eyelet is used for optical fiber detector, detects smart card position.

Further, third transport mechanism is including pushing away card mechanism and connecting track 3, push away card mechanism and set up in first transport mechanism and second transport mechanism's upper end, connecting track 3's both ends are connected with first transport mechanism and second transport mechanism's upper portion respectively, it includes connecting plate 2 to push away card mechanism, sets up cylinder 1 on connecting plate 2, and sets up push away card arm 11 on the cylinder 1, be equipped with a plurality of screw holes on the connecting plate 2, connecting plate 2 passes through the fix with screw in first transport mechanism and second transport mechanism upper end. The connecting plate 2 is arranged at the upper ends of the first conveying mechanism and the second conveying mechanism and is provided with a channel for the card pushing arm 11 to move. When the smart card transported to first transport mechanism top, the optical fiber detector on the optical fiber detection eyelet detected the card position, and optical fiber sensor sent the signal that targets in place to PLC, and PLC sends again and pushes away card signal to cylinder 1, and cylinder 1 drives and pushes away card arm 11 and pass through connecting track 3 propelling movement to second transport mechanism's conveyer belt 10 from first transport mechanism's conveyer belt 10 to the smart card.

The working principle of the embodiment is as follows: after the smart card finishes the conductive adhesive dispensing process, the smart card is transported to the lower part of the first transport mechanism through the transport track 6, the transport belt 10 of the first transport mechanism moves upwards under the driving of the first drive gear and the second drive gear, the tooth block 37 on the transport belt 10 drives the smart card to move upwards, when the smart card moves to the upper part of the first transport mechanism, the position of the card is detected by the optical fiber detector on the optical fiber detection eyelet, the optical fiber sensor sends a signal in place to the PLC, the PLC sends a card pushing signal to the cylinder 1 again, the cylinder 1 drives the card pushing arm 11 to push the smart card from the transport belt 10 of the first transport mechanism to the transport belt 10 of the second transport mechanism through the connecting track 3, the smart card is transported from top to bottom by the transport belt 10 of the second transport mechanism and finally transported to the transport track 6, and is sent out of the buffer device by the transport track 6. This device realizes buffering the smart card in the equipment the inside, lets the conducting resin obtain abundant curing time. And the space occupied by the device is the upward part of the space of the equipment, so that the total length of the equipment is not greatly increased, and the equipment is designed to be more compact.

The intelligent card point conductive adhesive equipment comprises the buffer device, wherein the buffer device is arranged on a conveying track 6 of a connection point conductive adhesive process and a conductive adhesive height detection process.

The above description is only a preferred embodiment of the present invention, but the present invention is not limited to the above embodiments, and the present invention shall fall within the protection scope of the present invention as long as the technical effects of the present invention are achieved by any similar or identical means.

Claims (8)

1. The utility model provides a be applied to some buffer of conducting resin equipment which characterized in that: the automatic clamping device comprises a power mechanism (8) and a clamping mechanism (4) which are connected with each other, wherein the clamping mechanism (4) comprises a first conveying mechanism capable of conveying workpieces upwards, a second conveying mechanism capable of conveying workpieces downwards and a third conveying mechanism, the third conveying mechanism is arranged at the upper ends of the first conveying mechanism and the second conveying mechanism and used for conveying the workpieces from the first conveying mechanism to the second conveying mechanism, and the power mechanism (8) is used for driving the first conveying mechanism and the second conveying mechanism to move; the power mechanism (8) comprises a base (5), and a motor (7) and a power assembly which are arranged on the base (5), the power assembly comprises a first power assembly and a second power assembly which are respectively arranged on the left side and the right side of the base (5), the motor (7) is used for driving the first power assembly and the second power assembly to move, the first power assembly is connected with the first transmission mechanism, and the second power assembly is connected with the second transmission mechanism; the first power assembly comprises a first synchronous pulley (14), a second synchronous pulley (27), a first synchronous belt (13), a first transmission gear (12), a first bevel gear (35), a second bevel gear (34), a second transmission shaft (32), a third bevel gear (31), a fourth bevel gear (30), a second transmission gear (28), a first transmission shaft (33) and a third transmission shaft (29) which are sequentially arranged in parallel from one side to the other side of the motor (7), the first synchronous pulley (14) is arranged on an output shaft of the motor (7) and is connected with the second synchronous pulley (27) through a first synchronous belt (13), the second synchronous pulley (27) is arranged on the first transmission shaft (33), the first transmission shaft (33) is further provided with the first transmission gear (12) and the first bevel gear (35), and the first bevel gear (35) is meshed with the second bevel gear (34), the second bevel gear (34) is arranged at one end of a second transmission shaft (32), the third bevel gear (31) is arranged at the other end of the second transmission shaft (32), the third bevel gear (31) is in meshed connection with the fourth bevel gear (30), the fourth bevel gear (30) is arranged at one end of the third transmission shaft (29), and the third transmission shaft (29) is further provided with the second transmission gear (28).

2. The buffer device applied to the conductive adhesive dispensing equipment according to claim 1, wherein: the second power assembly comprises a third synchronous belt wheel (15), a fourth synchronous belt wheel (26), a second synchronous belt (16), a third transmission gear (25), a fifth bevel gear (23), a sixth bevel gear (22), a fifth transmission shaft (21), a seventh bevel gear (20), an eighth bevel gear (19), a fourth transmission gear (17), a sixth transmission shaft (18) and a fourth transmission shaft (24) which are sequentially arranged in parallel from one side to the other side of the motor (7), the third synchronous belt wheel (15) is arranged on an output shaft of the motor (7) and is connected with the fourth synchronous belt wheel (26) through the second synchronous belt (16), the fourth synchronous belt wheel (26) is arranged on the fourth transmission shaft (24), the fourth transmission shaft (24) is also provided with the third transmission gear (25) and the fifth bevel gear (23), and the fifth bevel gear (23) is meshed with the sixth bevel gear (22), the sixth bevel gear (22) is arranged at one end of a fifth transmission shaft (21), the seventh bevel gear (20) is arranged at the other end of the fifth transmission shaft (21), the seventh bevel gear (20) is in meshed connection with the eighth bevel gear (19), the eighth bevel gear (19) is arranged at one end of the sixth transmission shaft (18), and a fourth transmission gear (17) is further arranged on the sixth transmission shaft (18).

3. The buffer device applied to the conductive adhesive dispensing equipment according to claim 1, wherein: the first transmission mechanism comprises a first transmission assembly and a second transmission assembly which are symmetrically arranged, the second transmission mechanism comprises a third transmission assembly and a fourth transmission assembly which are symmetrically arranged, and the first transmission assembly, the second transmission assembly, the third transmission assembly and the fourth transmission assembly are identical in structure.

4. The buffer device applied to the conductive adhesive dispensing equipment according to claim 3, wherein: the first transmission assembly comprises a supporting plate (36), a conveying belt (10) and a guide baffle plate (9), the conveying belt (10) is arranged on the supporting plate (36), the guide baffle plate (9) is arranged on the outer side of the supporting plate (36), the conveying belt (10) is driven to move by a power mechanism (8), and a plurality of tooth blocks (37) used for clamping the smart card are arranged on the conveying belt (10).

5. The buffer device applied to the conductive adhesive dispensing equipment according to claim 4, wherein: and the upper part and the lower part of the supporting plate (36) are both provided with optical fiber fixing plates, and the optical fiber fixing plates are provided with optical fiber detection eyelets.

6. The buffer device applied to the conductive adhesive dispensing equipment according to claim 1, wherein: the third transport mechanism is including pushing away card mechanism and connecting track (3), push away card mechanism setting in the upper end of first transport mechanism and second transport mechanism, the both ends of connecting track (3) are connected with the upper portion of first transport mechanism and second transport mechanism respectively, push away card mechanism and be used for promoting the work piece and transport to second transport mechanism from first transport mechanism through connecting track (3).

7. The buffer device applied to the conductive adhesive dispensing equipment according to claim 6, wherein: the card pushing mechanism comprises a connecting plate (2), a cylinder (1) arranged at the upper end of the connecting plate (2) and a card pushing arm (11) arranged on the cylinder (1), wherein the connecting plate (2) is arranged at the upper ends of the first conveying mechanism and the second conveying mechanism and is provided with a channel for the card pushing arm (11) to move.

8. A spot adhesive dispensing apparatus, characterized by comprising a buffer device according to any one of claims 1 to 7, said buffer device being provided on a transfer rail (6) connecting a spot adhesive process and a spot adhesive height detection process.

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