CN112838469A - Diode pin mechanism and recycling and repairing device - Google Patents

Abstract

The invention discloses a diode pin mechanism and a recovery and repair device, and relates to the technical field of diode recovery. The diode pin mechanism comprises a first connecting sleeve and a second connecting sleeve. The first connecting sleeve is provided with a through hole, the through hole is provided with a first insertion end and a second insertion end oppositely, the first insertion end is used for a pin of the diode to extend into, the first connecting sleeve is in sliding fit with the second connecting sleeve, the second connecting sleeve is provided with a thimble, the thimble extends into the second insertion end, and the thimble can be in contact with the pin of the diode when the first connecting sleeve slides to a preset position relative to the second connecting sleeve. The diode pin mechanism provided by the invention can simplify the repair process, shorten the repair production period, improve the repair production efficiency, reduce the labor cost and the material cost, avoid the defects and damages caused by welding and cutting processes and improve the recovery rate.

Description

Diode pin mechanism and recycling and repairing device

Technical Field

The invention relates to the technical field of diode recovery, in particular to a diode pin mechanism and a recovery and repair device.

Background

At present, before recycling the coaxial laser diode, the pin of the laser diode is cut short, and when recycling, the pin of the laser diode needs to be lengthened, namely, the pin of the laser diode is welded with the lengthened pin; then welding the lengthened pin and the connecting wire to realize the electrification of the laser diode; the laser diode is coupled with the optical device after being electrified; after the coupling is qualified, welding the laser diode and the optical device; then testing the optical device; and cutting off and detaching the pins of the laser diode after the test is passed, and finishing repair. However, in this way, the welding and cutting processes of the pins are required, the processes are complicated, the repair production period is long, the repair production efficiency is low, the labor cost and the material cost are high, the defects and the damage are easily caused by the two processes, and the recovery rate is reduced.

In view of the above, it is important to design and manufacture a diode pin mechanism with high rework production efficiency and a recycling and rework apparatus, especially for recycling diodes.

Disclosure of Invention

The invention aims to provide a diode pin mechanism which can simplify the repair process, shorten the repair production period, improve the repair production efficiency, reduce the labor cost and the material cost, avoid the defects and damages caused by the welding and cutting process and improve the recovery rate.

Another object of the present invention is to provide a recycling and repairing apparatus, which can simplify the repairing process, shorten the repairing production cycle, improve the repairing production efficiency, reduce the labor cost and the material cost, avoid the defects and damages caused by the welding and cutting processes, and improve the recycling rate.

The invention is realized by adopting the following technical scheme.

A diode pin mechanism comprises a first connecting sleeve and a second connecting sleeve, wherein the first connecting sleeve is provided with a through hole, the through hole is provided with a first insertion end and a second insertion end, the first insertion end is used for allowing a pin of a diode to extend into the first connecting sleeve, the first connecting sleeve is in sliding fit with the second connecting sleeve, the second connecting sleeve is provided with a thimble, the thimble extends into the second insertion end, and the thimble can be in contact with the pin of the diode when the first connecting sleeve slides to a preset position relative to the second connecting sleeve.

Optionally, the first connecting sleeve comprises a sleeve body and a sliding table, the sliding table is fixedly connected with the sleeve body, the through hole is formed in the sleeve body, the second connecting sleeve is provided with a guide sliding groove, and the sliding table extends into the guide sliding groove and is in sliding fit with the guide sliding groove.

Optionally, the diode pin mechanism further comprises an elastic piece, the elastic piece is arranged in the guide sliding groove, one end of the elastic piece is connected with the bottom wall of the guide sliding groove, and the other end of the elastic piece is connected with the sliding table.

Optionally, the guide chute is the echelonment, and the guide chute includes first groove section and second groove section, first groove section and second groove section intercommunication, and the diameter of first groove section is greater than the diameter of second groove section, and the slip table slides and sets up in first groove section, and the elastic component is kept away from the one end of slip table and is connected in the diapire of second groove section, and the second groove section is used for prescribing a limit to the flexible direction of elastic component.

Optionally, the lateral wall of the guide sliding groove is provided with a limiting hole, the sliding table is provided with a limiting pin along the radial direction of the sliding table, and the limiting pin extends into the limiting hole and is in sliding fit with the limiting hole.

Optionally, the number of the limiting holes is two, the two limiting holes are oppositely arranged on the side wall of the guide sliding groove, the limiting pin penetrates through the sliding table, one end of the limiting pin is in sliding fit with one limiting hole, and the other end of the limiting pin is in sliding fit with the other limiting hole.

Optionally, the slip table sets up in the middle part of cover body, and the axis of slip table and the parallel interval of the axis of through-hole set up.

The utility model provides a retrieve and reprocess device, including fixture and foretell diode pin mechanism, this diode pin mechanism includes first adapter sleeve and second adapter sleeve, the through-hole has been seted up to first adapter sleeve, the through-hole is provided with first insert end and second insert end relatively, first insert end is used for supplying the pin of diode to stretch into, first adapter sleeve and second adapter sleeve sliding fit, the second adapter sleeve is provided with the thimble, the thimble stretches into the second and inserts the end, the thimble can slide with the pin contact of diode when to the preset position for the second adapter sleeve at first adapter sleeve, the second adapter sleeve is installed in fixture, fixture is used for when first adapter sleeve slides to the preset position for the second adapter sleeve and carries out the centre gripping to the diode, with the relative position of fixed diode, first adapter sleeve and second adapter sleeve.

Optionally, the clamping mechanism includes a chuck, a fixing sleeve, an air cylinder and a switching column, the second connecting sleeve is disposed in the chuck and abuts against the chuck, the fixing sleeve is sleeved outside the chuck, the air cylinder is connected with the chuck through the switching column, and the air cylinder can drive the chuck to move in a direction retracting into the fixing sleeve through the switching column, so that the chuck can clamp the diode under the abutting action of the fixing sleeve.

Optionally, the chuck is provided with a plurality of clamping arms, the plurality of clamping arms are arranged at intervals and jointly enclose a clamping cavity, the first connecting sleeve and the second connecting sleeve are both arranged in the clamping cavity, the diode part extends into the clamping cavity, and the plurality of clamping arms are both used for abutting against the fixing sleeve to clamp the diode.

The diode pin mechanism and the recycling and repairing device provided by the invention have the following beneficial effects:

according to the diode pin connecting mechanism provided by the invention, the first connecting sleeve is provided with the through hole, the through hole is oppositely provided with the first insertion end and the second insertion end, the first insertion end is used for the pin of the diode to extend into, the first connecting sleeve is in sliding fit with the second connecting sleeve, the second connecting sleeve is provided with the ejector pin, the ejector pin extends into the second insertion end, and the ejector pin can be contacted with the pin of the diode when the first connecting sleeve slides to a preset position relative to the second connecting sleeve. Compared with the prior art, the diode pin mechanism provided by the invention adopts the through hole arranged on the first connecting sleeve and the thimble arranged on the second connecting sleeve, so that the repair process can be simplified, the repair production period can be shortened, the repair production efficiency can be improved, the labor cost and the material cost can be reduced, the defects and damages caused by welding and cutting processes can be avoided, and the recovery rate can be improved.

The recovery and repair device provided by the invention comprises the diode pin mechanism, can simplify the repair process, shorten the repair production period, improve the repair production efficiency, reduce the labor cost and the material cost, avoid the defects and damages caused by welding and cutting processes, and improve the recovery rate.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a recycling and repairing apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a diode pin mechanism and a diode connection structure according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a diode applied to the diode pin mechanism according to the embodiment of the invention;

FIG. 4 is a cross-sectional view of a diode pin mechanism and diode connection provided in accordance with an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a first connection sleeve in a diode pin mechanism according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a second connection sleeve in the diode pin mechanism according to the embodiment of the present invention;

fig. 7 is a cross-sectional view of a second connection sleeve in the diode pin mechanism according to the embodiment of the invention;

fig. 8 is an exploded view of a clamping mechanism in a recycling device according to an embodiment of the present invention;

fig. 9 is a schematic view of the structure of the chuck of fig. 8.

Icon: 10-recycling the repair device; 100-diode pin mechanism; 110-a first coupling sleeve; 111-a via; 112-a first insertion end; 113-a second insertion end; 114-a sleeve body; 115-a slip table; 116-a spacing pin; 120-a second connecting sleeve; 121-a thimble; 122-a guide chute; 123-a first groove section; 124-a second groove section; 125-limiting hole; 130-an elastic member; 200-a clamping mechanism; 210-a chuck; 211-a gripper arm; 212-a clamping cavity; 220-a fixed sleeve; 230-a cylinder; 240-a transfer column; 300-diode; 310-Pin.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "inside", "outside", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships conventionally put in use of products of the present invention, and are only for convenience of description and simplicity of description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "connected," "mounted," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Some embodiments of the invention are described in detail below with reference to the accompanying drawings. Features in the embodiments described below may be combined with each other without conflict.

Referring to fig. 1 and fig. 2, an embodiment of the invention provides a recycling and repairing apparatus 10 for recycling and repairing a coaxial laser diode. The method can simplify the repair process, shorten the repair production period, improve the repair production efficiency, reduce the labor cost and the material cost, avoid the defects and damages caused by the welding and cutting processes, and improve the recovery rate.

In the present embodiment, the recovery and repair device 10 is used to perform the recovery and repair work on the coaxial laser diode, but the present invention is not limited thereto, and in other embodiments, the recovery and repair device 10 may be used to perform the recovery and repair work on other types of diodes 300, and the application scenario of the recovery and repair device 10 is not particularly limited.

The recycling device 10 includes a diode pin mechanism 100 and a clamping mechanism 200. The diode pin mechanism 100 can realize the pin connection and pin removal operation of the diode 300 under the condition of avoiding welding, and the clamping mechanism 200 is used for fixing the position of the diode pin mechanism 100 when the diode pin mechanism 100 connects the diode 300, so that the diode pin mechanism 100 keeps the pin connection action of the diode 300, and the stable pin connection state is ensured.

Referring to fig. 3 and 4, the diode pin mechanism 100 includes a first connection sleeve 110, a second connection sleeve 120 and an elastic member 130. The first connecting sleeve 110 is provided with a through hole 111, and the through hole 111 is oppositely provided with a first insertion end 112 and a second insertion end 113. The first insertion end 112 is used for cooperating with the diode 300 and for the pin 310 of the diode 300 to extend into, so as to realize the assembly of the first connection sleeve 110 and the diode 300. The first connecting sleeve 110 is slidably engaged with the second connecting sleeve 120, and the first connecting sleeve 110 can slide relative to the second connecting sleeve 120. The second connecting sleeve 120 is provided with a thimble 121, the thimble 121 extends into the second insertion end 113, and the thimble 121 can contact with the pin 310 of the diode 300 when the first connecting sleeve 110 slides to a preset position relative to the second connecting sleeve 120, so as to implement the contact action of the thimble 121 and the pin 310 of the diode 300, thereby implementing the pin operation of the diode 300. Specifically, the thimble 121 is used for connecting with an electrical connection wire, and the electrical connection wire is powered on to realize the power-on function of the thimble 121 and the pin 310 of the diode 300, so as to facilitate the test of the optical device.

Further, the second connecting sleeve 120 is installed in the clamping mechanism 200, and the clamping mechanism 200 is configured to clamp the diode 300 when the first connecting sleeve 110 slides to a preset position relative to the second connecting sleeve 120, so as to fix the relative positions of the diode 300, the first connecting sleeve 110 and the second connecting sleeve 120, thereby maintaining the contact state of the thimble 121 with the pin 310 of the diode 300 and preventing the thimble 121 from separating from the pin 310 of the diode 300.

It should be noted that, in the pin connecting process of the diode 300, the diode 300 and the first connecting sleeve 110 are assembled first, so that the diode 300 is attached to the first connecting sleeve 110, and at this time, the pin 310 of the diode 300 extends into the first insertion end 112; then, the first connecting sleeve 110 is slid relative to the second connecting sleeve 120, in the process, the thimble 121 extends into the second insertion end 113 and slides in the through hole 111; when the first connecting sleeve 110 slides to a predetermined position, the first connecting sleeve 110 and the second connecting sleeve 120 are attached to each other, and the thimble 121 contacts with the pin 310 of the diode 300, so as to implement the pin operation of the diode 300. In the pin taking process of the diode 300, firstly, the first connecting sleeve 110 slides reversely relative to the second connecting sleeve 120, and the thimble 121 is separated from the pin 310 of the diode 300; diode 300 is then removed from first coupling sleeve 110 during which pin 310 of diode 300 exits first insertion end 112 to enable removal of pin 310 of diode 300. Therefore, the pins 310 of the diode 300 do not need to be welded and cut off to be detached, the repair process is simplified, the repair production period is shortened, the repair production efficiency is improved, the labor cost and the material cost are reduced, the defects and damages caused by the welding and cutting processes can be avoided, and the recovery rate is improved.

In this embodiment, the elastic member 130 is connected between the first connection sleeve 110 and the second connection sleeve 120, the elastic member 130 is always in a compressed state, and the elastic member 130 can apply an elastic force to the first connection sleeve 110 and the second connection sleeve 120, so that the first connection sleeve 110 and the second connection sleeve 120 have a tendency to move away from each other. Specifically, the elastic member 130 is a spring, but is not limited thereto, and in other embodiments, the elastic member 130 may also be an elastic rubber, and the material of the elastic member 130 is not particularly limited.

In the process of connecting the diode 300, an external force is applied to the first connection sleeve 110 and the second connection sleeve 120, the external force can overcome the elastic force of the elastic member 130, so that the first connection sleeve 110 slides to a predetermined position relative to the second connection sleeve 120, the thimble 121 is contacted with the pin 310 of the diode 300, the pin operation of the diode 300 is completed, and in order to maintain the pin state of the diode 300, the clamping mechanism 200 is used to fix the relative positions of the diode 300, the first connection sleeve 110 and the second connection sleeve 120. In the pin removing process of the diode 300, the clamping function of the clamping mechanism 200 is cancelled, and the first connecting sleeve 110 and the second connecting sleeve 120 are separated under the elastic force of the elastic member 130, so that the thimble 121 is separated from the pin 310 of the diode 300, and the pin removing operation of the diode 300 is realized.

Referring to fig. 5, fig. 6 and fig. 7, the first connecting sleeve 110 includes a sleeve body 114 and a sliding table 115. The sliding table 115 is fixedly connected with the sleeve body 114, and the through hole 111 is formed in the sleeve body 114. The second connecting sleeve 120 is provided with a guide chute 122, the sliding table 115 extends into the guide chute 122 and is in sliding fit with the guide chute 122, the sliding table 115 can slide relative to the guide chute 122, and the guide chute 122 can limit the position and the sliding direction of the sliding table 115.

In this embodiment, the sliding table 115 is cylindrical, the sliding table 115 is disposed in the middle of the sleeve body 114, the guide chute 122 is disposed in the middle of the second connecting sleeve 120, the axis of the sliding table 115 is parallel to the axis of the through hole 111, the thimble 121 extends into the through hole 111, and the sliding table 115 can slide along the axis relative to the guide chute 122, so that the thimble 121 slides in the through hole 111.

In this embodiment, the elastic member 130 is disposed in the sliding guide groove 122, one end of the elastic member 130 is connected to the bottom wall of the sliding guide groove 122, the other end of the elastic member 130 is connected to the sliding table 115, and the elastic member 130 can apply an elastic force to the sliding table 115, so that the sliding table 115 has a tendency of sliding towards a direction away from the bottom wall of the sliding guide groove 122, and the first connecting sleeve 110 has a tendency of sliding towards a direction away from the second connecting sleeve 120.

Specifically, the guiding groove 122 is stepped, the guiding groove 122 includes a first groove section 123 and a second groove section 124, the first groove section 123 is communicated with the second groove section 124, and a diameter of the first groove section 123 is larger than a diameter of the second groove section 124. The sliding table 115 is slidably disposed in the first groove section 123, and the first groove section 123 can define the position and the sliding direction of the sliding table 115. One end of the elastic member 130, which is far away from the sliding table 115, is connected to the bottom wall of the second groove section 124, and the second groove section 124 is used for limiting the stretching direction of the elastic member 130, so as to ensure that the elastic direction of the elastic member 130 is the same as the sliding direction of the sliding table 115.

In this embodiment, the side wall of the sliding guide groove 122 is provided with a limiting hole 125, the sliding table 115 is provided with a limiting pin 116 along the radial direction thereof, and the limiting pin 116 extends into the limiting hole 125 and is in sliding fit with the limiting hole 125. The extending direction of the limiting hole 125 is the same as the sliding direction of the sliding table 115, the limiting pin 116 can slide relative to the limiting hole 125, and the limiting hole 125 can limit the position and the sliding direction of the limiting pin 116, so as to prevent the first connecting sleeve 110 from being separated from the second connecting sleeve 120. When the limiting pin 116 slides to the lower limit position relative to the limiting hole 125, the deformation of the elastic member 130 is the largest, the first connecting sleeve 110 slides to the preset position relative to the second connecting sleeve 120, the first connecting sleeve 110 and the second connecting sleeve 120 are attached to each other, and at this time, the thimble 121 contacts with the pin 310 of the diode 300; when the stopper pin 116 slides to an upper limit position relative to the stopper hole 125, the deformation of the elastic element 130 is minimized, and at this time, the stopper pin 116 can prevent the sliding table 115 from coming out of the sliding guide groove 122, that is, the thimble 121 from coming out of the through hole 111, and the thimble 121 is separated from the pin 310 of the diode 300.

Further, the number of the limiting holes 125 is two, the two limiting holes 125 are oppositely arranged on the side wall of the guide chute 122, the limiting pin 116 penetrates through the sliding table 115, one end of the limiting pin 116 is in sliding fit with one limiting hole 125, and the other end of the limiting pin is in sliding fit with the other limiting hole 125. The two limiting holes 125 act together to enhance the limiting effect on the limiting pin 116, and ensure that the limiting pin 116 can stably and reliably perform the limiting effect.

Referring to fig. 8 and 9, the clamping mechanism 200 includes a clamping head 210, a fixing sleeve 220, an air cylinder 230, and an adapter 240. The second connecting sleeve 120 is disposed in the collet 210 and abuts against the collet 210, and the collet 210 can limit the second connecting sleeve 120. The fixing sleeve 220 is sleeved outside the chuck 210, the chuck 210 extends out of the fixing sleeve 220, and the end of the chuck 210 abuts against the end of the fixing sleeve 220. The cylinder 230 is connected to the collet 210 through the adapter 240, and the cylinder 230 can drive the collet 210 to move toward the direction of retracting into the fixing sleeve 220 through the adapter 240, so that the collet 210 clamps the diode 300 under the abutting action of the fixing sleeve 220, thereby fixing the position of the diode 300, further fixing the relative positions of the diode 300, the first connecting sleeve 110 and the second connecting sleeve 120, and maintaining the contact state of the thimble 121 and the pin 310 of the diode 300.

In this embodiment, the cylinder 230 is disposed below the fixing sleeve 220, and the adapter 240 is disposed in the fixing sleeve 220 and connected to the chuck 210. The cylinder 230 can drive the chuck 210 to move downwards through the adapter 240, so that the chuck 210 abuts against the fixed sleeve 220, the diode 300 is clamped, and the pin operation of the diode 300 is facilitated; the cylinder 230 can also drive the chuck 210 to move upward through the adapter 240, so that the chuck 210 is separated from the fixing sleeve 220, at this time, the fixing sleeve 220 does not apply a holding force to the chuck 210, and the chuck 210 releases the diode 300, thereby facilitating the pin-taking operation of the diode 300.

In this embodiment, the chuck 210 is provided with a plurality of clamping arms 211, the plurality of clamping arms 211 are arranged at intervals, the plurality of clamping arms 211 jointly enclose a clamping cavity 212, the first connecting sleeve 110 and the second connecting sleeve 120 are both arranged in the clamping cavity 212, the diode 300 partially extends into the clamping cavity 212, and the plurality of clamping arms 211 are all used for abutting against the fixing sleeve 220 to clamp the diode 300, so that the relative positions of the diode 300, the first connecting sleeve 110 and the second connecting sleeve 120 are fixed at the same time, and the contact state of the thimble 121 and the pin 310 of the diode 300 is maintained. Specifically, the number of the holding arms 211 is four, and the four holding arms 211 together enclose the circular holding cavity 212, but the number is not limited thereto, and in other embodiments, the number of the holding arms 211 may be three or six, and the number of the holding arms 211 is not particularly limited.

In the pin connecting process of the diode pin mechanism 100, the diode 300 is first assembled on the first connection sleeve 110, so that the pin 310 of the diode 300 extends into the first insertion end 112; then, the second connection sleeve 120, the first connection sleeve 110 and a part of the diode 300 sequentially extend into the clamping cavity 212 until the second connection sleeve 120 abuts against the clamping head 210; then, an external force is applied to the diode 300, and the diode 300 and the first connection sleeve 110 are pushed towards the direction close to the second connection sleeve 120, so that the first connection sleeve 110 slides relative to the second connection sleeve 120 against the elastic force of the elastic member 130; when the first connection sleeve 110 slides to a preset position, the first connection sleeve 110 is attached to the second connection sleeve 120, and at this time, the thimble 121 contacts with the pin 310 of the diode 300; then, the air cylinder 230 drives the collet 210 to move in the direction of retracting into the fixing sleeve 220, and the fixing sleeve 220 exerts a holding force on the collet 210, so that the collet 210 clamps the diode 300, thereby fixing the relative positions of the diode 300, the first connecting sleeve 110 and the second connecting sleeve 120, maintaining the contact state of the thimble 121 and the pin 310 of the diode 300, and completing the pin operation of the diode 300.

In the diode pin mechanism 100 according to the embodiment of the present invention, the first connection sleeve 110 is provided with the through hole 111, the through hole 111 is provided with the first insertion end 112 and the second insertion end 113 relatively, the first insertion end 112 is used for the pin 310 of the diode 300 to extend into, the first connection sleeve 110 is in sliding fit with the second connection sleeve 120, the second connection sleeve 120 is provided with the thimble 121, the thimble 121 extends into the second insertion end 113, and the thimble 121 can contact with the pin 310 of the diode 300 when the first connection sleeve 110 slides to a preset position relative to the second connection sleeve 120. Compared with the prior art, the diode pin mechanism 100 provided by the invention adopts the through hole 111 arranged on the first connecting sleeve 110 and the thimble 121 arranged on the second connecting sleeve 120, so that the repair process can be simplified, the repair production period can be shortened, the repair production efficiency can be improved, the labor cost and the material cost can be reduced, the defects and damages caused by welding and cutting processes can be avoided, and the recovery rate can be improved. The recycling and repairing device 10 is high in repairing efficiency, practical and reliable.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a diode pin mechanism, its characterized in that, includes first adapter sleeve and second adapter sleeve, the through-hole has been seted up to first adapter sleeve, the through-hole is provided with relatively that the first end and the second of inserting inserts, the first pin that inserts the end and be used for supplying the diode stretches into, first adapter sleeve with second adapter sleeve sliding fit, the second adapter sleeve is provided with the thimble, the thimble stretches into the second inserts the end, the thimble can first adapter sleeve for the second adapter sleeve slide to when presetting the position with the pin contact of diode.

2. The diode pin mechanism according to claim 1, wherein the first connection sleeve includes a sleeve body and a sliding table, the sliding table is fixedly connected to the sleeve body, the through hole is formed in the sleeve body, the second connection sleeve is provided with a sliding guide groove, and the sliding table extends into the sliding guide groove and is in sliding fit with the sliding guide groove.

3. The diode pin mechanism of claim 2, further comprising an elastic member disposed in the sliding guide slot, wherein one end of the elastic member is connected to the bottom wall of the sliding guide slot, and the other end of the elastic member is connected to the sliding table.

4. The diode pin mechanism according to claim 3, wherein the guide groove is stepped, the guide groove includes a first groove section and a second groove section, the first groove section is communicated with the second groove section, the diameter of the first groove section is greater than that of the second groove section, the sliding table is slidably disposed in the first groove section, one end of the elastic member, which is far away from the sliding table, is connected to the bottom wall of the second groove section, and the second groove section is used for limiting the extending direction of the elastic member.

5. The diode pin mechanism according to claim 2, wherein a limiting hole is formed in a side wall of the guide sliding groove, a limiting pin is radially disposed on the sliding table, and the limiting pin extends into the limiting hole and is slidably engaged with the limiting hole.

6. The diode pin mechanism according to claim 5, wherein the number of the limiting holes is two, two of the limiting holes are oppositely disposed on the side wall of the guide chute, the limiting pin is disposed through the sliding table, one end of the limiting pin is slidably engaged with one of the limiting holes, and the other end of the limiting pin is slidably engaged with the other limiting hole.

7. The diode pin mechanism of claim 2, wherein the sliding table is disposed in the middle of the sleeve body, and an axis of the sliding table is spaced from and parallel to an axis of the through hole.

8. A recycling and repairing device, comprising a clamping mechanism and the diode pin mechanism according to any one of claims 1 to 7, wherein the second connecting sleeve is installed in the clamping mechanism, and the clamping mechanism is used for clamping the diode when the first connecting sleeve slides to a preset position relative to the second connecting sleeve so as to fix the relative positions of the diode, the first connecting sleeve and the second connecting sleeve.

9. The recycling and repairing device of claim 8, wherein the clamping mechanism comprises a chuck, a fixing sleeve, an air cylinder and a switching column, the second connecting sleeve is arranged in the chuck and abuts against the chuck, the fixing sleeve is sleeved outside the chuck, the air cylinder is connected with the chuck through the switching column, and the air cylinder can drive the chuck to move in a direction of retracting into the fixing sleeve through the switching column, so that the chuck can clamp the diode under the abutting action of the fixing sleeve.

10. The recycling and repairing device as claimed in claim 9, wherein the chuck is provided with a plurality of clamping arms, the plurality of clamping arms are arranged at intervals and jointly define a clamping cavity, the first connecting sleeve and the second connecting sleeve are both arranged in the clamping cavity, the diode partially extends into the clamping cavity, and the plurality of clamping arms are all used for abutting against the fixed sleeve to clamp the diode.

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