CN112305267B

CN112305267B - Electronic component operation device and operation classification equipment using same

Info

Publication number: CN112305267B
Application number: CN202010116729.0A
Authority: CN
Inventors: 李子玮; 陈永仓
Original assignee: Hongjin Precision Co ltd
Current assignee: Hongjin Precision Co ltd
Priority date: 2019-07-16
Filing date: 2020-02-25
Publication date: 2024-04-12
Anticipated expiration: 2040-02-25
Also published as: CN112305267A; TW202104042A; TWI685461B

Abstract

The invention discloses an electronic element operation device and an operation classification device using the same, wherein the electronic element operation device comprises an operation device and an operation determining mechanism, the operation determining mechanism is provided with a bearing unit, a buckling unit and a driving unit, the bearing unit is provided with a first bearing device for assembling the operation device, a second bearing device is arranged in an operation area, the buckling unit is provided with a first determination device on the first bearing device, the second bearing device is provided with a second determination device, the first determination device and the second determination device are provided with a first buckling part and a second buckling part which can be mutually buckled, the driving unit is provided with a driving source for driving the first determination device or the second determination device to rotate, so that the first buckling part of the first determination device and the second buckling part of the second determination device are mutually buckled, the whole operation device is prevented from being reversely pushed by an electronic element to displace, and the operation device can really execute preset operation on the electronic element, and the practical benefit of improving the operation quality is achieved.

Description

Electronic component operation device and operation classification equipment using same

Technical Field

The invention provides a working device which can ensure that a working device can execute preset operation on an electronic element and improve the working quality.

Background

In the present day, the number of contacts of electronic devices is increasing from several to tens of different types, and correspondingly, the test sockets of the operation device must be configured with the same number of probes to electrically contact the contacts of the electronic devices; because the spring is arranged in the probe, in order to ensure that the contact point of the electronic element and the probe of the test seat are in electrical contact, the operation device must make an operation device which is a crimping device press the electronic element under a lower pressure, so that the electronic element compresses the spring of the probe, but the excessive or insufficient pressing force of the crimping device influences the test quality, for example, when the electronic element is provided with tens of contact points and the test seat is provided with tens of probes, the crimping device must press the electronic element under a larger pressing force so as to ensure that the contact point of the electronic element contacts the probe of the test seat, and further avoid the electronic element from being misjudged as a defective product.

Referring to fig. 1, a schematic diagram of a test socket 11 and a press-connector 12 of an operation device is shown, wherein the test socket 11 is provided with a plurality of probes 111 and is electrically connected with a circuit board 13 for testing electronic components; the press-connection device 12 is assembled on the moving arm 14 to transfer the electronic component 15 to be tested to the test seat 11, the membrane 121, the air chamber 122, the pressing-down jig 123 and the like are arranged in the press-connection device 12, after the air chamber 122 is injected by the air supply source (not shown), the membrane 121 protrudes downwards to deform, and the pressing-down jig 123 is pushed to move downwards in the Z direction to press the electronic component 15, so that the electronic component 15 performs the test operation in the test seat 11; however, since the springs (not shown) of the tens of probes 111 of the test socket 11 are compressed, the tens of probes 111 generate a larger reaction force on the electronic component 15, and the larger reaction force pushes the whole set of the crimpers 12 to perform the Z-direction reverse displacement via the electronic component 15, so that the crimpers 12 cannot press against the electronic component 15 with a predetermined pressing force, and therefore, part of the contacts of the electronic component 15 cannot actually contact the probes 111 of the test socket 11, thereby affecting the test quality of the electronic component.

Disclosure of Invention

The invention provides an electronic component operation device, which comprises an operation device and a confirmation mechanism, wherein the confirmation mechanism is provided with a bearing unit, a buckling unit and a driving unit, the bearing unit is provided with an operation device by a first bearing device, a second bearing device is arranged in an operation area, the buckling unit is provided with a first confirmation device on the first bearing device, and a second confirmation device on the second bearing device, the first confirmation device and the second confirmation device are provided with a first buckling part and a second buckling part which can be mutually buckled, the driving unit is provided with a driving source for driving the first confirmation device or the second confirmation device to act, so that the first buckling part of the first confirmation device and the second buckling part of the second confirmation device are mutually buckled to prevent the whole operation device from being reversely pushed by an electronic component to displace, the operation device can indeed execute preset operation on the electronic component, and the practical benefit of improving the operation quality is achieved.

The invention provides operation classifying equipment applying an electronic element operation device, comprising a machine table, a feeding device, a receiving device, an operation device, a conveying device and a central control device, wherein the feeding device is arranged on the machine table and is provided with at least one feeding carrier for accommodating the electronic element to be operated, the receiving device is arranged on the machine table and is provided with at least one receiving carrier for accommodating the operated electronic element, the operation device is arranged on the machine table and is provided with at least one operation device and a confirming mechanism, the operation device executes preset operation on the electronic element, the confirming mechanism comprises a carrying unit, a buckling unit and a driving unit so as to prevent the operation device from integrally and reversely displacing, the operation device really executes preset operation on the electronic element, the conveying device is arranged on the machine table and is provided with at least one material shifter for transferring the electronic element, and the central control device is used for controlling and integrating the operation of each device so as to execute automatic operation, and the practical benefit of improving the operation efficiency is achieved.

Drawings

Fig. 1: the test seat and the crimp connector of the existing operation device are schematically used.

Fig. 2: the invention provides a configuration diagram of an operator and a confirming mechanism of an operation device.

Fig. 3: the invention is a schematic diagram of a carrying unit.

Fig. 4: schematic diagram of the drive unit of the present invention.

Fig. 5: the use of the invention is shown in the schematic diagram (I).

Fig. 6: the use of the present invention is shown in the schematic diagram (II).

Fig. 7: the use of the present invention is shown schematically in (III).

Fig. 8: the use of the present invention is shown in the schematic diagram (IV).

Fig. 9: the invention is applied to a schematic diagram of a job classification device.

Reference numerals illustrate: 11-a test socket; a 111-probe; 12-crimping device; 121-a membrane; 122-air chamber; 123-pressing down a jig; 13-a circuit board; 14-moving the arm; 15-an electronic component; 20-an operation device; 21-a crimp; 211-crimping a part; 22-a tester; 221-a circuit board; 222-test socket; 223-probe; 231-a first carrier; 232-a second carrier; 233-a rack; 234-a first press cylinder; 235-a first pulley set; 236-a second pulley set; 241-first actuator; 242-a second actuator; 243-clamping blocks; 244-a clamping groove; 245-through opening; 251-a second press cylinder; 252-rack; 253-gear; a-the frame; 30-an electronic component; 40-machine; 50-feeding devices; 51-a feed carrier; 60-a material receiving device; 61-receiving a material carrier; 70-a conveying device; 71-a first displacer; 72-a first carrying mechanism; 73-a first pick-and-place mechanism; 74-a second carrying mechanism; 75-a second picking and placing mechanism; 76-second pipettor.

Detailed Description

For a further understanding of the present invention, a preferred embodiment is described in conjunction with the drawings, as follows:

referring to fig. 2, 3 and 4, the electronic device operation apparatus 20 of the present invention includes at least one operation device and a determining mechanism, wherein the operation device performs a preset operation on the electronic device, and further, the operation device may be a press-connection device, a tester, a printer, etc., in this embodiment, the operation device 20 includes a first operation device and a second operation device, the first operation device is disposed on the determining mechanism and is a press-connection device 21, the press-connection device 21 is provided with at least one press-connection part 211 capable of moving in the Z direction to perform an operation of the lower voltage electronic device, and the operation device 20 may be provided with a temperature controller on the press-connection device 21 according to a usage requirement, so the embodiment is not limited thereto; the second working device is disposed on the machine of the working area and is a tester 22, the tester comprises a circuit board 221 and a test seat 222 electrically connected with each other, and the test seat 222 is provided with a plurality of probes 223 for executing the operation of testing the electronic components.

The determining mechanism comprises a bearing unit, a buckling unit and a driving unit, wherein the bearing unit is provided with a first bearing device 231 and a second bearing device 232, the first bearing device 231 is used for assembling an operation device, the second bearing device 232 is arranged in an operation area, the first bearing device 231 and the second bearing device 232 relatively move, the bearing unit is further provided with at least one power source for driving the first bearing device 231 or the second bearing device 232 to relatively move, the power source can be a linear motor, a pressure cylinder or comprise a motor and at least one first transmission group, or comprise a first pressure cylinder and at least one first transmission group, the power source can be configured according to operation requirements, and is not limited by the embodiment, the power source comprises a frame 233, a first pressure cylinder 234, a first transmission group and a second transmission group, the frame 233 is fixedly arranged on a frame A above the operation area, the first pressure cylinder 234 is assembled on the frame 233 in the X direction, the first transmission group is a first belt pulley group 235 and is assembled on the frame 233 in the X direction, or comprises a motor and at least one first transmission group, or comprises a first pressure cylinder and at least one first transmission group 236 is assembled on the frame 235 in the Z direction, the first transmission group is not occupied by the first transmission group 236 and a plurality of belt pulleys 236 is assembled on the first transmission group and the Z transmission group is not occupied by the first transmission group 236, the first transmission group and the first transmission group is assembled on the first transmission group and the Z transmission group is not in the Z direction is more than the Z direction, the same transmission direction, the first transmission group is not occupied by the first transmission group is assembled with the first transmission group and the first transmission group is assembled with the first transmission group is arranged; the second pulley set 236 is connected to the first bearing device 231 to drive the first bearing device 231 and the press 21 mounted thereon to move in the Z direction, the second bearing device 232 may be a part of a machine table or a stand alone of a second working device, and may be configured as required, but is not limited to this embodiment, in this embodiment, the bearing units are provided with lugs as the second bearing devices 232 at two sides of the test stand 222.

The fastening unit is provided with a first fastening device 241 on the first bearing device 231, and a second fastening device 242 on the second bearing device 232, wherein the first fastening device 241 may be a rod and located at the periphery of the press-connector 21, the second fastening device 242 may be a seat or a block, the fastening unit is provided with a first fastening component on the first fastening device 241, and the second fastening device 242 is provided with a second fastening component for fastening the first fastening component, and further, the first fastening component and the second fastening component may be a clamping block and a clamping groove fastened with each other; for example, a first fastening component which is a clamping block is arranged on the first determining tool 241, and a second fastening component which is a clamping groove and is used for hooking the clamping block is arranged on the second determining tool 242; for example, a first fastening component which is a clamping groove is arranged on the first determining tool 241, and a second fastening component which can be hooked and fastened on the clamping groove and is a clamping block is arranged on the second determining tool 242; for example, a first fastening component which is a spring clip block is arranged on the first determining tool 241, and a second fastening component which is a clip groove and is used for hooking the spring clip block is arranged on the second determining tool 242; for example, a first fastening component which is a clamping block is arranged on the first determining tool 241, and the second determining tool 242 is a single-side stop block, and a second fastening component which is a clamping groove and is used for hooking the clamping block is arranged on the stop block; for example, a second fastening component which is a spring clip block is provided on the second determining tool 242, and a first fastening component which is a clip groove and is used for hooking the spring clip block is provided on the first determining tool 241; in the present embodiment, the first fixing device 241 is a rod and is assembled on the first bearing device 231 and is located at the periphery of the press-connector 21, the second fixing device 242 is a base and is assembled on the second bearing device 232 at the side of the test seat 222, and with respect to the first fixing device 241, the fastening unit sets a first fastening component which is a fastening block 243 at one end of the first fixing device 241 with respect to the second fixing device 242, and sets a second fastening component which is a fastening groove 244 for the fastening block 243 at the second fixing device 242, and sets a through hole 245 which penetrates through the fastening groove 244 at the position of the second fixing device 242 with respect to the fastening block 243 for inserting the fastening block 243.

The driving unit is provided with at least one driving source for driving the first fixing tool 241, the second fixing tool 242, the first fastening component or the second fastening component to act, so that the first fastening component of the first fixing tool 241 and the second fastening component of the second fixing tool 242 are fastened or separated from each other, and further, the driving source can drive the first fixing tool 241, the second fixing tool 242, the first fastening component or the second fastening component to rotate or move aside and retract; for example, the driving source may drive the first actuator 241 to rotate, so that the first fastening component is fastened to or separated from the second fastening component of the second actuator 242; for example, when the second confirming tool 242 is a single-side stop, the driving source can drive the first confirming tool 241 to laterally displace, so that the first fastening component is fastened or separated from the second fastening component of the second confirming tool 242; for example, when the first fastening component is a spring clip, the first fastening component can be elastically fastened to the second fastening component of the second determining tool 242, and the driving source can drive the first fastening component of the spring clip to perform lateral swing displacement to retract, so that the first fastening component is separated from the second fastening component of the second determining tool 242; the driving source may be a rotary cylinder, a linear motor, a linear pressing cylinder or a motor and a third transmission set, or a second pressing cylinder and a third transmission set, the third transmission set may be a belt pulley set or a rack and pinion set, the driving source may be assembled on the first bearing device 231, the second bearing device 232 or a peripheral side thereof, and the driving unit may also be provided with a plurality of driving sources to respectively drive the first determining device 241 and the second determining device 242, so that the first fastening component and the second fastening component are fastened with each other; in this embodiment, the driving unit is configured with a driving source on the first bearing device 231, the driving source includes a second pressing cylinder 251 and a third transmission set, the second pressing cylinder 251 is configured on the first bearing device 231, the third transmission set is a rack and pinion set, the rack 252 of the rack and pinion set is disposed on the second pressing cylinder 251 and connected to the piston rod of the second pressing cylinder 251, so that the rack 252 can be driven by the piston rod to perform linear displacement, the gear 253 of the rack and pinion set is configured on the first bearing device 231 and connected to the first determining device 241, and the gear 253 is driven to rotate by the engaged rack 252 to drive the connected first determining device 241 to rotate by a proper angle, so that the clamping block 243 of the first determining device 241 is fastened to the clamping groove 244 of the second determining device 242.

Referring to fig. 3 and 5, since the test socket 222 of the tester 22 already holds the electronic device 30 to be tested, a pressing force must be applied to the electronic device 30 to make the contact points of the electronic device 30 contact the probes 223 of the test socket 222 and make the contact points and the probes 223 contact each other; therefore, the piston rod of the first pressing cylinder 234 of the bearing unit drives a first pulley set 235 configured in the X direction to rotate, and a first pulley of the first pulley set 235 drives a second pulley of a second pulley set 236 configured in the Z direction via the rotating shaft, so that the second pulley set 236 rotates to drive the first bearing device 231, the crimper 21 mounted thereon, the first confirming device 241, and the like to synchronously move downward in the Z direction, so that the clamping block 243 of the first confirming device 241 is inserted into the through hole 245 of the second confirming device 242 and is positioned in the clamping groove 244 of the second confirming device 242.

Referring to fig. 6 and 7, after the clamping block 243 of the first determining tool 241 is inserted into the clamping groove 244 of the second determining tool 242, the driving unit drives the rack 252 of the rack-and-pinion set to linearly displace in the Y direction by using the piston rod of the second pressing cylinder 251, the rack 252 drives the engaged gear 253 to rotate, and the gear 253 drives the connected first determining tool 241 to rotate 90 degrees, so that the clamping block 243 of the first determining tool 241 is fastened to the clamping groove 244 of the second determining tool 242.

Referring to fig. 8, after the clamping block 243 of the first confirming tool 241 of the fastening unit is fastened to the clamping groove 244 of the second confirming tool 242, the press-connector 21 drives the press-connector part 211 to move downward in the Z direction and to press the electronic component 30 with a predetermined pressing force, and the springs (not shown) of the plurality of probes 223 of the test socket 222 are compressed, so that the plurality of probes 223 generate a larger reaction force on the electronic component 30, and the larger reaction force is conducted to the press-connector 21 and the first bearing tool 231 through the electronic component 30, however, since the first confirming tool 241 of the fastening unit is assembled to the first bearing tool 231, the clamping block 243 of the first confirming tool 241 and the clamping groove 244 of the second confirming tool 242 are fastened to each other, thereby effectively preventing the whole set of the first bearing tool 231 and the press-connector 21 from moving upward in the Z direction, so as to ensure that the press-connector part 211 of the press-connector 21 does press the electronic component 30 with the predetermined pressing force to perform the test operation, thereby achieving the practical benefit of improving the test quality.

Referring to fig. 2-4 and 9, a schematic diagram of an operation device 20 applied to an operation sorting apparatus according to the present invention includes a machine 40, a feeding device 50, a receiving device 60, an operation device 20, a conveying device 70 and a central control device (not shown), wherein the feeding device 50 is disposed on the machine 40 and is provided with at least one feeding carrier 51 for accommodating electronic components to be operated, the receiving device 60 is disposed on the machine 40 and is provided with at least one receiving carrier 61 for accommodating operated electronic components, the operation device 20 of the present invention is disposed on the machine 40 and includes at least one operation device and a determining mechanism, the operation device performs a preset operation on the electronic components, in this embodiment, a plurality of operation devices 20 are disposed on a first operation device which is a press-connector 21 and a second operation device which is a tester 22 are disposed on a first side and a second side of the machine 40 respectively, the tester 22 is used for testing electronic components, the press-fit device 21 presses down the electronic components in the tester 22, the determining mechanism comprises a bearing unit, a buckling unit and a driving unit, the bearing unit uses a first bearing device 231 to bear the press-fit device 21, a second bearing device 232 is arranged on the tester 22, the buckling unit uses the first bearing device 231 to arrange a first determining device 241, and uses the second bearing device 232 to arrange a second determining device 242, the first bearing device 231 and the second bearing device 232 relatively displace, and the first determining device 241 and the second determining device 242 are provided with a first buckling component and a second buckling component which are mutually matched, the driving unit is provided with a driving source to drive the first determining device 241 or the second determining device 242 to rotate, so that the first buckling component of the first determining device 241 and the second buckling component of the second determining device 242 are mutually buckled to prevent the whole press-fit device 21 from reversely displacing, the press 21 is made to lower the electronic component to perform the test operation, the conveying device 70 is disposed on the machine 40 and is provided with at least one shifter for shifting the electronic component, in this embodiment, a first shifter 71 is provided for taking out the electronic component to be tested from the feeder carrier 51 of the feeder 50, a carrying mechanism and a picking mechanism are provided at the side of the working device 20 for carrying and picking the electronic component, in this embodiment, a first carrying mechanism 72 and a first picking mechanism 73 are provided at the side of the working device 20 at the first side of the machine 40 for synchronously displacing, the first carrying mechanism 72 carries the electronic component to be tested and the electronic component to be tested, the first picking mechanism 73 picks up and places the electronic component to be tested and the electronic component to be tested between the first carrying mechanism 72 and the working device 20 at the first side, a second carrying mechanism 74 and a second picking mechanism 75 are provided at the side of the working device 20 at the second side of the machine 40, the second carrying mechanism 74 carries the electronic component to be tested and the electronic component to be tested, the second picking and placing mechanism 75 picks and places the electronic component to be tested and the electronic component to be tested between the second carrying mechanism 74 and the working device 20 at the second side, taking the operation of the first carrying mechanism 72 and the first picking and placing mechanism 73 as an example, the first carrying mechanism 72 is used for moving the first shifter 71 into the electronic component to be tested, when the first carrying mechanism 72 and the first picking and placing mechanism 73 synchronously move to the side of the working device 20, the first picking and placing mechanism 73 takes out the electronic component to be tested from the first carrying mechanism 72 and transfers the electronic component to be tested of the working device 20 to the first carrying mechanism 72, the first carrying mechanism 72 carries out the electronic component to be tested for the second shifter 76 to take out the electronic component to be tested, and the material receiving and holding device 61 which is moved to the material receiving device 60 is received according to the test result, the central control device is used for controlling and integrating the actions of the devices so as to execute the automatic operation, thereby achieving the practical benefit of improving the production efficiency.

Claims

1. An electronic component working device, comprising at least one working device and a confirming mechanism, wherein the confirming mechanism comprises:

and a bearing unit: a first bearing device and a second bearing device are arranged, the first bearing device is used for assembling the working device, and the first bearing device and the second bearing device are relatively displaced;

and the buckling unit comprises: arranging a first confirming tool on the first bearing tool for synchronous displacement, arranging a second confirming tool on the second bearing tool, arranging a first buckling part on the first confirming tool, and arranging a second buckling part for buckling the first buckling part on the second confirming tool;

a driving unit: at least one driving source is provided for driving the first confirming tool with the first fastening part to rotate on the first bearing tool.

2. The electronic component handling device according to claim 1, wherein the handling device is provided with a first handling device and a second handling device, the first handling device being mounted on the first carrier, the second handling device being disposed in the handling area.

3. The electronic component handling device of claim 1, wherein the second carrier of the carrier unit is a part of a machine, a second handler, or a stand alone carrier.

4. The electronic component handling device of claim 1, wherein the carrier unit is provided with at least one power source for driving the first carrier or the second carrier to move.

5. The electronic component handling device of claim 4, wherein the power source of the carrier unit is a linear motor, a cylinder, or comprises a motor and at least one first driving set, or comprises a first cylinder and at least one first driving set.

6. The electronic component working device according to claim 4, wherein the power source comprises a frame, a first cylinder, a first transmission set and a second transmission set, the first cylinder is assembled on the frame in the X direction, the first transmission set is assembled on the frame in the X direction and is driven by the first cylinder, the second transmission set is assembled on the frame in the Z direction and is driven by the first transmission set, and the second transmission set is connected with the first bearing device.

7. The electronic component working device according to claim 1, wherein the first fastening member and the second fastening member of the fastening unit are a clamping block and a clamping groove for fastening to each other.

8. The electronic component working apparatus according to claim 1, wherein the driving source of the driving unit is a rotary cylinder, a linear motor, a linear cylinder, or a third driving group including a motor and a third driving group, or a second cylinder and the third driving group.

9. A job classification apparatus using an electronic component working device, comprising:

a machine table;

and (3) feeding devices: at least one feeding carrier for accommodating electronic components to be operated is arranged on the machine;

receiving device: at least one receiving and holding device for holding the electronic components;

at least one electronic component working device according to claim 1: is arranged on the machine table;

conveying device: the material shifter is arranged on the machine table and is provided with at least one material shifter for shifting electronic elements;

and a central control device: control and integrate the operation of each device.