CN219464607U - Corrector for pins of electronic components - Google Patents

Abstract

The utility model relates to an electronic component pin corrector, which comprises a hydraulic cylinder, an auxiliary correcting device, a correcting head, a conveying frame, a outgoing frame, a sliding frame and a supporting frame, wherein the electronic components with different diameters generate interaction force with a laminating block, the elastic property of the laminating block and the elasticity of a second spring assist the electronic components, the electronic components deform to buffer pressure when in contact with the electronic components, the pressure is prevented from being excessively pressed, the pressure is transmitted to a fixed plate after being pressed, the first spring is extruded, so that a connecting plate drives the first spring to move backwards, and a certain pushing force is generated to the connecting plate when the connecting plate is driven to move backwards, so that the laminating block can be better and stably attached to the periphery of the electronic components, the electronic components with different diameters can be flexibly clamped and stably adapted, and the pin is more accurate in the correcting process.

Description

Corrector for pins of electronic components

Technical Field

The utility model relates to the technical field of electronic components, in particular to an corrector for pins of an electronic component.

Background

Electronic components often refer to certain parts of the industries such as electrical appliances, radios, meters and the like, such as diodes, and when the electronic components are manufactured, in order to facilitate welding, pins are bent, and phenomena of excessive bending or nonstandard are easy to occur, so that a pin correction device is needed for correction.

The existing electronic component corrector generally needs a clamping and stabilizing device to clamp the component when the pin correction is performed, the auxiliary component is stable, the electronic components are various in variety and different in diameter width, the clamping and stabilizing device is needed to flexibly adjust the touch force, different electronic components can adapt to the touch force, and the stability effect is enhanced.

Disclosure of Invention

(one) solving the technical problems

In order to solve the technical problems, the utility model provides an corrector for pins of electronic components.

Two technical schemes

Based on the above, the utility model provides the following technical scheme: the utility model provides an unscrambler of electronic components pin, includes pneumatic cylinder, auxiliary unscrambler, correction head, carriage, outgoing frame, balladeur train, support frame, the correction head is installed in the pneumatic cylinder bottom and is cooperateed, the bottom of pneumatic cylinder is fixed with the support frame mutually, auxiliary unscrambler installs in the top of support frame, the rear end bolted connection of carriage and support frame, outgoing frame is located auxiliary unscrambler's the other end, the upper end of balladeur train is located the below of correction head perpendicularly, auxiliary unscrambler includes auxiliary frame, guide rail, carrier plate, takes out head, cover frame, regulation knob, the carrier plate is located auxiliary unscrambler's below, the carriage is located the one end of cover frame and cooperatees, outgoing frame is located one side end, the bottom and the guide rail of auxiliary frame are connected and sliding fit, the carrier plate is established in the below of taking out the head, take out the head and establish in one side of cover frame, the lower extreme and the carrier engagement connection of regulation knob, regulation knob fixed mounting is in auxiliary device up end position, the inside passes auxiliary unscrambler.

Preferably, the auxiliary frame comprises a frame, correction openings, sliding rails, a moving device and an inner cavity, wherein the bottom end of the frame is connected with the guide rails in a sliding fit mode, the correction openings are located between the frames, the sliding rails are arranged at the upper edge and the lower edge of the inner side of the frame, the inner cavity and the frame are of an integrated structure and located on the inner side of the frame, and the moving device is in movable fit with the sliding rails.

Preferably, the magnetic block is movably matched with the front edge end of the carrier, the magnetic block is fixedly connected with the rear end of the clamping head in a embedding mode, one end of the top plate is fixedly connected with the bottom end of the magnetic block, the position moving wheel is rotatably connected with the bottom end of the top plate, and the magnetic block and the carrier generate repulsive magnetic field acting force.

Preferably, the slide rail includes drive pole, slider, connecting plate, first spring, contact block, drive pole one end and slide rail hinged connection, lower extreme and slide rail sliding fit about the slider, the other end and the slider hinged connection and the clearance fit of drive pole, the slider is connected with first spring rear end, the front end at first spring is connected to the contact block, contact block passes through first spring and connecting plate clearance fit.

Preferably, the contact block comprises a fixed plate, a clack cavity, a fitting block, a second spring and an air port, wherein the fixed plate is connected to the front end of the first spring, the fixed plate is movably matched with the connecting plate through the first spring, the clack cavity and the fixed plate are of an integrated structure, the fitting block is connected to the front side of the fixed plate, the second spring is connected between the fixed plate and the fitting block and is movably matched with the second spring, and the air port and the fitting block are of an integrated structure.

Preferably, the auxiliary frame can be positioned below the correction head in a sliding manner, the carrier frame is matched with the conveying frame, and the carrier frame is in transmission connection with the outgoing frame.

Preferably, the correcting opening can be located above the carrier plate through sliding, the moving device is matched with the carrying head, the correcting opening can be penetrated by the carrying head, and the carrier plate can be subjected to ninety-degree folding angle.

Preferably, the contact block generates position change under the elasticity of the first spring, the contact block is provided with and is arranged in opposite faces, the connecting plate, the first spring and the contact block are in one group, two groups are arranged, and the contact block is in a symmetrical structure and moves in opposite directions.

Preferably, the valve cavity is in a hollow groove state, the attaching block is in an arc direction and can generate clearance fit with the carrying head, the fixing plate moves above the carrier plate in a clearance mode, the attaching block is made of butadiene rubber, good toughness is achieved, and good friction force is achieved when the attaching block is attached to an external object.

Preferably, the air port is provided with a plurality of positions on the attaching block, and the space shape of the valve cavity provides a deformation range for the attaching block.

Three beneficial effects

Compared with the prior art, the utility model provides an corrector for pins of electronic components, which has the following beneficial effects:

1. this unscrambler of electronic components pin, when passing to the tape head rear through electronic components, the auxiliary frame slides along the guide rail for correct mouthful and tape head alignment, take out the electronic components on the carrier by tape head, and the suspension is on the carrier plate, then correct the head and carry out the correction to electronic components's pin downwards under the drive of pneumatic cylinder.

2. This unscrambler of electronic components pin produces the interact through the electronic components of different footpaths width and laminating piece, by the toughness nature of laminating piece and the elasticity of second spring is supplementary, deformation and buffer pressure when it touches with electronic components, avoid causing the excessive compression to electronic components, and pass the pressure to the fixed plate after pressing, extrude first spring, make the connecting plate drive first spring and move backward, by the articulated state of drive pole, produce certain thrust to it when driving the connecting plate and move backward, make laminating piece better paste steady in electronic components periphery, thereby can press from both sides steadily in a flexible way and adapt to the electronic components of different footpaths width, the pin of being convenient for is more accurate in the middle of the rectification process.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an electronic component pin corrector according to the present utility model;

FIG. 2 is a schematic perspective view of an auxiliary orthotic device according to the present utility model;

FIG. 3 is a schematic view showing the internal structure of the tape head according to the present utility model

FIG. 4 is a schematic view showing the internal structure of the auxiliary frame of the present utility model;

FIG. 5 is a schematic diagram of the internal structure of the mobile device according to the present utility model;

fig. 6 is a schematic view of the internal structure of the contact block of the present utility model.

In the figure: the hydraulic cylinder-1, the auxiliary correcting device-2, the correcting head-3, the conveying frame-4, the outgoing frame-5, the sliding frame-6, the supporting frame-7, the auxiliary frame-21, the guide rail-22, the carrier plate-23, the carrying head-24, the cover frame-25, the adjusting rotating button-26, the carrier frame-27, the frame-211, the correcting opening-212, the sliding rail-213, the moving device-214, the inner cavity-215, the clamping head-241, the magnetic block-242, the top plate-243, the position-moving wheel-244, the driving rod-a 1, the sliding block-a 2, the connecting plate-a 3, the first spring-a 4, the contact block-a 5, the fixed plate-c 1, the cavity-c 2, the attaching block-c 3, the second spring-c 4 and the air port-c 5.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, an electronic component pin corrector comprises a hydraulic cylinder 1, an auxiliary correcting device 2, a correcting head 3, a conveying frame 4, a outgoing frame 5, a carriage 6 and a supporting frame 7, wherein the correcting head 3 is installed at the bottom of the hydraulic cylinder 1 and matched with the supporting frame 7, the bottom of the hydraulic cylinder 1 is fixed with the supporting frame 7, the auxiliary correcting device 2 is installed at the top of the supporting frame 7, the conveying frame 4 is connected with the rear end of the supporting frame 7 through bolts, the outgoing frame 5 is located at the other end of the auxiliary correcting device 2, the upper end of the carriage 6 is vertically located below the correcting head 3, the auxiliary correcting device 2 comprises an auxiliary frame 21, a guide rail 22, a carrier plate 23, a carrying head 24, a cover frame 25 and an adjusting knob 26, the carrier plate 23 is located below the auxiliary correcting device 2, the conveying frame 4 is located at one end of the cover frame 25 and matched with the carrier frame 27, the bottom end of the auxiliary frame 21 is connected with the guide rail 22 and matched with the carrier plate 23 in a sliding mode, the carrying head 24 is arranged below the carrying head 24 is arranged at one side of the frame 25, the adjusting knob 26 is connected with the lower end of the carrier plate 26 through the auxiliary correcting device 2, and the adjusting knob 26 is meshed with the auxiliary correcting device 2 at the position and penetrates through the auxiliary correcting device 2.

In addition, the auxiliary frame 21 can be positioned below the correction head 3 in a sliding manner, the carrier 27 is matched with the conveying frame 4, the carrier 27 is in transmission connection with the outgoing frame 5, and the front edge of the carrier 27 is an edge end with a spacing magnetic force.

In addition, preferably, the magnetic block 242 is movably matched with the front edge of the carrier 27, the magnetic block 242 is fixedly connected with the rear end of the clamping head 241, one end of the top plate 243 is fixedly connected with the bottom end of the magnetic block 242, the position moving wheel 244 is rotatably connected with the bottom end of the top plate 243, the magnetic block 242 and the carrier 27 generate repulsive magnetic field acting force, the top plate 243 is vertically displaced 25 due to the repulsive magnetic field under the matching of the position moving wheel 244, and pushing acting force can be generated on the electronic components in the sliding process.

Referring to fig. 4, an electronic component pin corrector, an auxiliary frame 21 comprises a frame 211, a correcting opening 212, a sliding rail 213, a moving device 214 and an inner cavity 215, wherein the bottom end of the frame 211 is connected with the guiding rail 22 and is in sliding fit, the correcting opening 212 is positioned between the frames 211, the sliding rail 213 is arranged at the upper and lower edges of the inner side of the frame 211, the inner cavity 215 and the frame 211 are in an integrated structure and are positioned at the inner side of the frame, and the moving device 214 is in movable fit with the sliding rail 213.

In addition, the correcting opening 212 can be located above the carrier plate 23 by sliding, the moving device 214 is matched with the carrying-out head 24, the correcting opening 212 can be penetrated by the carrying-out head 24, and the carrier plate 23 can be subjected to ninety-degree folding angle.

Referring to fig. 5-6, an electronic component pin corrector includes a driving rod a1, a slider a2, a connecting plate a3, a first spring a4, and a contact block a5, wherein one end of the driving rod a1 is hinged to the sliding rail 213, the upper and lower ends of the slider a2 are slidably matched with the sliding rail 213, the other end of the driving rod a1 is hinged to the slider a2 and movably matched with the sliding rail, the slider a2 is connected with the rear end of the first spring a4, the contact block a5 is connected to the front end of the first spring a4, and the contact block a5 is movably matched with the connecting plate a3 through the first spring a 4.

In addition, the contact block a5 comprises a fixed plate c1, a valve cavity c2, a laminating block c3, a second spring c4 and an air port c5, wherein the fixed plate c1 is connected to the front end of the first spring a4, the fixed plate c1 is movably matched with the connecting plate a3 through the first spring a4, the valve cavity c2 and the fixed plate c1 are of an integrated structure, the laminating block c3 is connected to the front side of the fixed plate c1, the second spring c4 is connected between the fixed plate c1 and the laminating block c3 and is movably matched with the laminating block c3, and the air port c5 and the laminating block c3 are of an integrated structure.

In addition, the contact block a5 generates position change under the elasticity of the first spring a4, the contact block a5 is provided with and is arranged in opposite faces, the connecting plate a3, the first spring a4 and the contact block a5 are in a group, and two groups of the connecting plate a3, the first spring a4 and the contact block a5 are provided with a symmetrical structure and move in opposite directions.

In addition, be the empty slot state in the lamella chamber c2, laminating piece c3 is the arc to, can produce clearance fit with taking out head 24, and fixed plate c1 clearance activity is in support plate 23 top, and laminating piece c3 is butadiene rubber material, has good toughness, and has better frictional force with the foreign object laminating.

In addition, the air port c5 is provided with a plurality of positions on the bonding block c3, and the space shape of the valve cavity c2 provides a deformation range for the bonding block c3, so that the pressing force during contact can be buffered when the bonding block c3 is bonded with the periphery of the pin.

In summary, when in use, the whole equipment is electrified, the electronic components to be corrected are placed on the carrier 27, the adjusting knob 26 is adjusted, the carrier 27 meshed with the lower part of the adjusting knob 26 is driven, the auxiliary carrier 27 is transmitted at a constant speed and intermittently, when the electronic components are transmitted to the rear of the tape head 24, the auxiliary carrier 21 slides along the guide rail 22, the correction port 212 is aligned with the tape head 24, the magnetic field effect of the magnetic block 242 is gradually changed in the advancing driving process due to the magnetism of the front edge interval of the carrier 27, the magnetic block 242 is subjected to repulsive magnetic force to drive the clamping head to the front, the tape driving top plate 243 is changed in position under the cooperation of the positioning wheel 244, then the pushing effect is generated on the electronic components inserted on the carrier 27, the electronic components gradually tend to be transverse from the vertical direction, the electronic components are separated from the carrier 27, and are inverted on the carrier 23, then the correction head 3 is driven by the hydraulic cylinder 1 to downwards correct pins of the electronic component, the electronic component with different diameters is carried out by the carrying head 24, the mutual acting force is generated with the bonding block c3 through the interval between the contact blocks a5, the elastic property of the bonding block c3 and the elasticity of the second spring c4 assist the deformation of the bonding block c3 when the bonding block is contacted with the electronic component to buffer pressure, the excessive compression of the electronic component is avoided, the pressure is transmitted to the fixed plate c1 after the pressing, the first spring a4 is extruded, the connecting plate a3 drives the first spring a4 to move backwards, a certain pushing force is generated to the connecting plate a3 when the connecting plate a3 is driven to move backwards, the bonding block c3 is enabled to be better bonded on the periphery of the electronic component, the electronic component with different diameters can be flexibly clamped and stably adapted, the pin of being convenient for is more accurate in the middle of correcting the process.

The control mode of the utility model is controlled by manually starting and closing the switch, the wiring diagram of the power element and the supply of the power supply are common knowledge in the field, and the utility model is mainly used for protecting the mechanical device, so the utility model does not explain the control mode and the wiring arrangement in detail.

The control mode of the utility model is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of a person skilled in the art, the supply of power also belongs to common knowledge in the art, and the utility model is mainly used for protecting a mechanical device, so the utility model does not explain the control mode and circuit connection in detail.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides an electronic components pin's unscrambler, includes pneumatic cylinder (1), supplementary orthotic devices (2), correct first (3), carriage (4), outgoing frame (5), balladeur train (6), support frame (7), correct first (3) and install in pneumatic cylinder (1) bottom and cooperate, the bottom of pneumatic cylinder (1) is fixed with support frame (7) mutually, supplementary orthotic devices (2) are installed in the top of support frame (7), the rear end bolted connection of carriage (4) and support frame (7), outgoing frame (5) are located the other end of supplementary orthotic devices (2), the upper end of balladeur train (6) is located the below of correcting first (3) perpendicularly;

the method is characterized in that: auxiliary orthotic devices (2) are including auxiliary frame (21), guide rail (22), carrier plate (23), take out head (24), cover frame (25), regulation knob (26), carrier plate (23) are located the below of auxiliary orthotic devices (2), carriage (4) are located the one end of cover frame (25) and cooperate, it is located one side end of carrier (27) to pass out frame (5), the bottom and the guide rail (22) of auxiliary frame (21) are connected and sliding fit, carrier plate (23) are established in the below of taking out head (24), take out head (24) are established in one side of cover frame (25), regulation knob (26) lower extreme and carrier (27) meshing are connected, regulation knob (26) fixed mounting is in auxiliary orthotic devices (2) up end position department, carrier (27) pass auxiliary orthotic devices (2) inside.

2. An electronic component pin corrector as set forth in claim 1, wherein: the utility model provides a take-out head (24) is including screens head (241), magnetic path (242), roof (243), walk position wheel (244), auxiliary frame (21) are including frame (211), correction mouth (212), slide rail (213), mobile device (214), inner chamber (215), the bottom of frame (211) is connected and sliding fit with guide rail (22), correction mouth (212) are located between frame (211), slide rail (213) are established at the inboard upper and lower edge of frame (211), inner chamber (215) and frame (211) are integrated structure and are located its medial side, mobile device (214) and slide rail (213) clearance fit.

3. An electronic component pin corrector as set forth in claim 2, wherein: the magnetic block (242) is movably matched with the front edge end of the carrier (27), the magnetic block (242) is fixedly connected to the rear end of the clamping head (241) in a embedding mode, one end of the top plate (243) is fixedly connected with the bottom end of the magnetic block (242), and the position moving wheel (244) is rotatably connected to the bottom end of the top plate (243).

4. An electronic component pin corrector as set forth in claim 2, wherein: slide rail (213) are including driving pole (a 1), slider (a 2), connecting plate (a 3), first spring (a 4), contact block (a 5), drive pole (a 1) one end and slide rail (213) hinged connection, slider (a 2) upper and lower extreme and slide rail (213) sliding fit, the other end and slider (a 2) hinged connection and clearance fit of driving pole (a 1), slider (a 2) are connected with first spring (a 4) rear end, contact block (a 5) are connected at the front end of first spring (a 4), contact block (a 5) are through first spring (a 4) and connecting plate (a 3) clearance fit.

5. An electronic component pin corrector as set forth in claim 4, wherein: the contact block (a 5) comprises a fixed plate (c 1), a valve cavity (c 2), a fitting block (c 3), a second spring (c 4) and an air port (c 5), wherein the fixed plate (c 1) is connected to the front end of the first spring (a 4), the fixed plate (c 1) is movably matched with the connecting plate (a 3) through the first spring (a 4), the valve cavity (c 2) and the fixed plate (c 1) are of an integrated structure, the fitting block (c 3) is connected to the front side of the fixed plate (c 1), the second spring (c 4) is connected between the fixed plate (c 1) and the fitting block (c 3) and is movably matched with the air port (c 5) and the fitting block (c 3) to be of an integrated structure.

6. An electronic component pin corrector as set forth in claim 1, wherein: the auxiliary frame (21) can be positioned below the correction head (3) in a sliding manner, the carrier (27) is matched with the conveying frame (4), and the carrier (27) is in transmission connection with the outgoing frame (5).

7. An electronic component pin corrector as set forth in claim 2, wherein: the correcting opening (212) can be positioned above the carrier plate (23) through sliding, the moving device (214) is matched with the carrying-out head (24), and the correcting opening (212) can be communicated by the carrying-out head (24).

8. An electronic component pin corrector as set forth in claim 4, wherein: the contact blocks (a 5) change in position under the elasticity of the first springs (a 4), and the two contact blocks (a 5) are arranged in opposite faces.

9. An electronic component pin corrector as set forth in claim 5, wherein: the valve cavity (c 2) is in a hollow groove state, the attaching block (c 3) is in an arc direction and can be in clearance fit with the carrying head (24), and the fixing plate (c 1) is in clearance movement above the carrier plate (23).