CN216832203U - Linkage type heating tool for thermal shrinkage of optical communication products - Google Patents

Abstract

The utility model discloses a coordinated type heating frock for pyrocondensation of optical communication product relates to optical communication product processing technology field. The device comprises a reciprocating motor arranged on one side of a first L-shaped plate, a speed reducer arranged on one side of the reciprocating motor, and a first rotating rod arranged on one side of the speed reducer. According to the invention, through the work of the servo motor, the second gear can drive the first gear to rotate, so that the first connecting rod connected to one side of the first gear can drive the optical communication product clamped by the sleeve, the sleeve rod, the second connecting rod and the second mounting plate to rotate, thereby facilitating uniform thermal shrinkage on the surface of the product, meanwhile, the second gear can drive the extrusion rod to rotate when rotating, the extrusion rod can drive the third gear and the ball screw on one side of the fixed rod to rotate when rotating to a specified position, so that the ball nut on the surface of the ball screw can drive the first L-shaped plate and the like to move, thereby facilitating reciprocating thermal shrinkage on the position where the optical communication product needs thermal shrinkage, and improving the processing efficiency.

Description

Linkage type heating tool for thermal shrinkage of optical communication products

Technical Field

The utility model relates to an optical communication product processing technology field especially relates to a coordinated type heating frock for optical communication product pyrocondensation.

Background

Optical communication is a communication mode using light waves as carriers, and there are two methods for increasing the bandwidth of an optical path: firstly, the single channel transmission rate of the optical fiber is improved; the optical fiber jumper is used as a jumper wire from equipment to an optical fiber wiring link, has a thicker protective layer, is generally used for connecting equipment at two ends, is applied to the fields of optical fiber communication systems, optical fiber access networks, optical fiber data transmission, local area networks and the like, and is one of optical communication products.

It is when using that current optical communication product heating frock is generally processed the optical communication product through the handheld hot-blast rifle round trip movement of personnel, and personnel's manual work of processing, leads to the pyrocondensation of optical communication product not enough even easily, and long-time work makes personnel's hand tired easily simultaneously, and the hot-blast rifle air outlet also is possible because of the maloperation scalds operating personnel hand, and the practicality is lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving current optical communication product heating frock it when using, generally all be through the handheld hot-blast rifle round trip movement of personnel to the optical communication product processing, and personnel's manual work of processing, lead to the pyrocondensation of optical communication product not enough even easily, long-time work makes personnel's hand fatigue easily simultaneously, hot-blast rifle air outlet also is possible because of the maloperation scalds operating personnel hand, the lower shortcoming of practicality, and the coordinated type heating frock that is used for the pyrocondensation of optical communication product that proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a linkage type heating tool for thermal shrinkage of an optical communication product comprises a workbench, wherein a first L-shaped plate is connected to the top end of the workbench, a reciprocating motor is connected to the top end of the first L-shaped plate, a speed reducer is connected to one side of the reciprocating motor, a first rotating rod is connected to one side of the speed reducer, a first bevel gear is connected to the surface of the first rotating rod, a second bevel gear is connected to the surface of the first bevel gear, a second rotating rod is connected to one side of the second bevel gear and is in rotating connection with one side of the first L-shaped plate, a rotating plate is connected to the second rotating rod through the first L-shaped plate, a first movable shaft is connected to the surface of the rotating plate, a connecting rod is connected to the surface of the first movable shaft, a second movable shaft is connected to the other end of the connecting rod, and the second movable shaft is connected to one side of the first L-shaped plate, one side of the connecting rod is connected with a hot air gun, one side of the first L-shaped plate is connected with a guide pipe, and the hot air gun is movably sleeved with the inner part of the guide pipe;

two sides of the top end of the workbench are respectively connected with a vertical plate, one side of each vertical plate is rotatably connected with a first connecting rod, one end of each first connecting rod is connected with a first gear, and the other end of each first connecting rod is connected with a sleeve;

the bottom end of the sleeve is connected with a first mounting plate, a loop bar is connected inside the sleeve, the other end of the loop bar is connected with a second connecting rod, and the other end of the second connecting rod is connected with a second mounting plate;

the bottom end of the workbench is connected with a third mounting plate, the top end of the third mounting plate is connected with a servo motor, one side of the servo motor is connected with a rotating shaft, the other side of the rotating shaft is connected with a third rotating rod, the surface of the third rotating rod is connected with a second gear, and one side of the second gear is connected with an extrusion rod;

the top end of the workbench is connected with a first sliding groove in an embedded mode, a first sliding block is connected inside the first sliding groove in a sliding mode, and the top end of the workbench is connected with an installation groove in an embedded mode;

the bottom of third mounting panel is connected with second L template, and one side of second L template is connected with ball, ball's surface is connected with ball nut, and ball's fixed surface is connected with the third gear, one side of third gear is connected with the dead lever.

As a further description of the above technical solution:

be fixed connection between the bottom of ball nut and first L template, be sliding connection between the inside of ball nut and mounting groove, and ball passes and be connected between the inner wall one side of workstation and mounting groove, be connected for relatively between the surface of extrusion stem and dead lever, be connected for the meshing between first gear and the second gear.

As a further description of the above technical solution:

the utility model discloses a telescopic pipe, including sheathed tube inner wall, telescopic pipe, the top of first mounting panel, and first bolt pass first mounting panel and rotate and be connected with the baffle, the sheathed tube inner wall one side is connected with the second spout, and the inside sliding connection of second spout has the second slider, the shifting chute has been seted up to sheathed tube one side, one side of loop bar is connected with T type pole, and the surface activity of T type pole has cup jointed the arc, one side of arc is connected with the stopper, sheathed tube one side gomphosis is connected with the spacing groove, the top threaded connection of first mounting panel has first bolt, and first bolt passes first mounting panel and rotate and be connected with the baffle, the bottom of baffle is connected with the spring, and the bottom of spring is connected with first limiting plate.

As a further description of the above technical solution:

be fixed connection between one side of second slider and loop bar, be swing joint between the inside of T type pole and shifting chute, be the block connection between the inside of stopper and spacing groove, be sliding connection between one side of baffle and first mounting panel.

As a further description of the above technical solution:

the utility model discloses a camera, including workstation, camera, first mounting panel, second mounting panel, third L template, fourth limiting plate, control panel, camera, control panel, the top of first L template is connected with the bull stick, and the bull stick passes the second mounting panel and is connected with the fourth gear, the bottom of fourth gear is connected with first rack, and the bottom of first rack is connected with third L template, the surperficial gomphosis of third L template is connected with the butt joint groove, and one side of third L template is connected with the second limiting plate, the top of fourth gear is connected with the second rack, and the top of second rack is connected with fourth L template, the surface connection of fourth L template has the butt joint piece, and one side of fourth L template is connected with the third limiting plate, the control panel is installed to one side of workstation, the camera is installed on the top of first L template.

As a further description of the above technical solution:

and the third L-shaped plate and the fourth L-shaped plate are respectively in sliding connection with the bottom end inside the second mounting plate, the rotating rod is rotatably connected with the bottom end of the second mounting plate, and the butt joint block is connected with the inside of the butt joint groove in a clamping manner.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, work through servo motor, can make the second gear drive first gear revolve, thereby can make the head rod that first gear one side is connected drive the sleeve pipe, the loop bar, the optical communication product of second connecting rod and second mounting panel one side centre gripping rotates, thereby be convenient for carry out even pyrocondensation to the surface of product, the second gear can drive the stripper bar when rotating simultaneously and rotate, the stripper bar contacts with the dead lever rotating appointed position, thereby can drive the third gear and the ball rotation of dead lever one side, the ball nut on the ball surface of being convenient for drives first L template and hot-blast rifle etc. and removes, be convenient for carry out reciprocal pyrocondensation to the place that optical communication product needs the pyrocondensation, can improve its machining efficiency.

2. The utility model discloses in, the loop bar can drive second mounting panel etc. through second slider and second spout and remove, is convenient for adjust the position of the required centre gripping of second mounting panel according to the length of optical communication product, and stopper and spacing groove are connected can carry on spacingly to loop bar and second mounting panel etc. be convenient for process the optical communication product of second mounting panel one side centre gripping.

3. The utility model discloses in, through rotating first bolt, can make the baffle that its bottom is connected drive spring and first limiting plate and remove, be convenient for through first limiting plate with unnecessary optical communication product centre gripping on sheathed tube surface, prevent to rotate the optical communication product man-hour adding, the condition that the winding is in the same place appears in unnecessary optical communication product.

4. The utility model discloses in, through rotating the bull stick, the fourth gear that can make its connect drives first rack, the second rack, third L template and fourth L template remove, be convenient for carry out the centre gripping to the optical communication product through the second limiting plate and the third limiting plate of third L template and fourth L template one side, it is convenient to process it, third L template and third L template are when removing simultaneously, can make butt joint piece and be connected to the butt joint groove, it is spacing to be convenient for, prevent to rotate in the processing, the phenomenon such as rock or skew appears in the optical communication product, influence its machining efficiency.

5. The utility model discloses in, through work such as reciprocating motor, speed reducer, first dwang, first bevel gear, second dwang, rotor plate, first loose axle, connecting rod and second loose axle, can make hot-blast rifle reciprocating motion work, be convenient for carry out the pyrocondensation to the optical communication product, also can prevent simultaneously that operating personnel maloperation from being taken place by the possibility of hot-blast rifle air outlet scald.

Drawings

FIG. 1 is a schematic structural view of a linkage type heating tool for thermal shrinkage of optical communication products according to the present invention;

FIG. 2 is a side view of a portion of the table of the present invention;

FIG. 3 is a schematic top view of a table portion of the present invention;

FIG. 4 is an enlarged view of the structure at B in FIG. 3;

FIG. 5 is an enlarged view of the structure at A in FIG. 1;

FIG. 6 is a schematic top view of the sleeve of the present invention;

fig. 7 is a top view of the second mounting plate portion of the present invention.

Illustration of the drawings:

1. a first L-shaped plate; 2. a reciprocating motor; 3. a speed reducer; 4. a first rotating lever; 5. a first bevel gear; 6. a second bevel gear; 7. a second rotating lever; 8. a rotating plate; 9. a first movable shaft; 10. a connecting rod; 11. a second movable shaft; 12. a hot air gun; 13. a conduit; 14. a work table; 15. a vertical plate; 16. a first connecting rod; 17. a first gear; 18. a sleeve; 19. a first mounting plate; 20. a loop bar; 21. a second connecting rod; 22. a second mounting plate; 23. a third mounting plate; 24. a servo motor; 25. a rotating shaft; 26. a third rotating rod; 27. a second gear; 28. an extrusion stem; 29. a first chute; 30. a first slider; 31. mounting grooves; 32. a second L-shaped plate; 33. a ball screw; 34. a ball nut; 35. a third gear; 36. fixing the rod; 37. a second chute; 38. a second slider; 39. a moving groove; 40. a T-shaped rod; 41. an arc-shaped plate; 42. a limiting block; 43. a limiting groove; 44. a first bolt; 45. a baffle plate; 46. a spring; 47. a first limit plate; 48. a rotating rod; 49. a fourth gear; 50. a first rack; 51. A third L-shaped plate; 52. a butt joint groove; 53. a second limiting plate; 54. a second rack; 55. a fourth L-shaped plate; 56. a butt joint block; 57. a third limiting plate; 58. a control panel; 59. a camera is provided.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-7, a linkage type heating tool for thermal shrinkage of optical communication products comprises a workbench 14, a first L-shaped plate 1 is connected to the top end of the workbench 14, a reciprocating motor 2 is connected to the top end of the first L-shaped plate 1, a speed reducer 3 is connected to one side of the reciprocating motor 2, a first rotating rod 4 is connected to one side of the speed reducer 3, a first bevel gear 5 is connected to the surface of the first rotating rod 4, a second bevel gear 6 is connected to the surface of the first bevel gear 5, a second rotating rod 7 is connected to one side of the second bevel gear 6, the second rotating rod 7 is rotatably connected to one side of the first L-shaped plate 1, the second rotating rod 7 penetrates through the first L-shaped plate 1 and is connected to a rotating plate 8, a first movable shaft 9 is connected to the surface of the rotating plate 8, a connecting rod 10 is connected to the surface of the first movable shaft 9, and a second movable shaft 11 is connected to the other end of the connecting rod 10, the second movable shaft 11 is connected with one side of the first L-shaped plate 1, one side of the connecting rod 10 is connected with a hot air gun 12, one side of the first L-shaped plate 1 is connected with a guide pipe 13, and the hot air gun 12 is movably sleeved with the inside of the guide pipe 13;

two sides of the top end of the workbench 14 are respectively connected with a vertical plate 15, one side of the vertical plate 15 is rotatably connected with a first connecting rod 16, one end of the first connecting rod 16 is connected with a first gear 17, and the other end of the first connecting rod 16 is connected with a sleeve 18;

the bottom end of the sleeve 18 is connected with a first mounting plate 19, a loop bar 20 is connected inside the sleeve 18, the other end of the loop bar 20 is connected with a second connecting rod 21, and the other end of the second connecting rod 21 is connected with a second mounting plate 22;

the bottom end of the workbench 14 is connected with a third mounting plate 23, the top end of the third mounting plate 23 is connected with a servo motor 24, one side of the servo motor 24 is connected with a rotating shaft 25, the other side of the rotating shaft 25 is connected with a third rotating rod 26, the surface of the third rotating rod 26 is connected with a second gear 27, and one side of the second gear 27 is connected with an extrusion rod 28;

the top end of the workbench 14 is connected with a first sliding chute 29 in an embedded manner, a first sliding block 30 is connected inside the first sliding chute 29 in a sliding manner, and a mounting groove 31 is connected at the top end of the workbench 14 in an embedded manner;

the bottom end of the third mounting plate 23 is connected with a second L-shaped plate 32, one side of the second L-shaped plate 32 is connected with a ball screw 33, the surface of the ball screw 33 is connected with a ball nut 34, the surface of the ball screw 33 is fixedly connected with a third gear 35, one side of the third gear 35 is connected with a fixed rod 36, the servo motor 24 can control the speed and position accuracy, can convert a voltage signal into a torque and a rotating speed to drive a control object, the rotating speed of a rotor of the servo motor 24 is controlled by an input signal and can quickly react, the servo motor 24 is used as an executing element in an automatic control system and has the characteristics of small electromechanical time constant, high linearity and the like, the received electric signal can be converted into an angular displacement or an angular speed output on a motor shaft, the first rotating rod 4 and the first bevel gear 5 can be driven to rotate through the operation of the reciprocating motor 2, and the second bevel gear 6 on one side of the first bevel gear 5 can drive the second rotating rod 7 and the rotating plate 8, the connecting rod 10, the first movable shaft 9 and the second movable shaft 11 can make the heat gun 12 move back and forth in the duct 13, which is convenient for processing the optical communication product.

Furthermore, the ball nut 34 is fixedly connected with the bottom end of the first L-shaped plate 1, the ball nut 34 is slidably connected with the inside of the mounting groove 31, the ball screw 33 passes through the worktable 14 and is connected with one side of the inner wall of the mounting groove 31, the extruding rod 28 is relatively connected with the surface of the fixing rod 36, the first gear 17 is in meshed connection with the second gear 27, the ball nut 34 on the surface can drive the first L-shaped plate 1 to move inside the first sliding groove 29 through the first slider 30 by the rotation of the ball screw 33, so that the heat gun 12 can move left and right to perform heat shrinkage processing on an optical communication product, the extruding rod 28 on the surface can rotate by the rotation of the second gear 27, and when the extruding rod 28 rotates to contact with the fixing rod 36, the third gear 35 and the ball screw 33 connected with one side of the fixing rod 36 can be driven to rotate, the second gear 27 rotates to drive the first gear 17 engaged with and connected to the top end of the first gear 17 to rotate the optical communication product clamped by the first connecting rod 16, the sleeve 18, the loop bar 20, the second connecting rod 21 and the second mounting plate 22 on one side of the first gear 17, so as to facilitate the thermal shrinkage processing of the surface of the optical communication product.

Further, one side of the inner wall of the sleeve 18 is connected with a second chute 37, the interior of the second chute 37 is connected with a second slider 38 in a sliding manner, one side of the sleeve 18 is provided with a moving groove 39, one side of the sleeve 20 is connected with a T-shaped rod 40, the surface of the T-shaped rod 40 is movably sleeved with an arc plate 41, one side of the arc plate 41 is connected with a limiting block 42, one side of the sleeve 18 is embedded and connected with a limiting groove 43, the top end of the first mounting plate 19 is connected with a first bolt 44 in a threaded manner, the first bolt 44 penetrates through the first mounting plate 19 and is rotatably connected with a baffle 45, the bottom end of the baffle 45 is connected with a spring 46, the bottom end of the spring 46 is connected with a first limiting plate 47, and the second slider 38 moves in the second chute 37, so that the second slider 38 drives the optical communication product clamped by one side of the sleeve 20, the second connecting rod 21 and the second mounting plate 22 to move, the position of the optical communication product can be conveniently adjusted according to the length of the optical communication product.

Furthermore, the second slider 38 is fixedly connected with one side of the sleeve rod 20, the T-shaped rod 40 is movably connected with the inside of the moving groove 39, the limiting block 42 is connected with the inside of the limiting groove 43 in a clamping manner, the baffle 45 is connected with one side of the first mounting plate 19 in a sliding manner, the sleeve rod 20 can drive the T-shaped rod 40 connected with one side of the sleeve rod to move inside the moving groove 39 when moving, the arc-shaped plate 41 can move on the surface of the T-shaped rod 40 through movable sleeving between the arc-shaped plate 41 and the T-shaped rod 40, the limiting block 42 on the arc-shaped plate 41 can be conveniently moved into the limiting groove 43 on one side of the sleeve 18, and therefore the sleeve rod 20 and the like can be conveniently limited and fixed.

Further, the top end of the second mounting plate 22 is connected with a rotating rod 48, the rotating rod 48 penetrates through the second mounting plate 22 to be connected with a fourth gear 49, the bottom end of the fourth gear 49 is connected with a first rack 50, the bottom end of the first rack 50 is connected with a third L-shaped plate 51, the surface of the third L-shaped plate 51 is connected with a butt joint groove 52 in a matching mode, one side of the third L-shaped plate 51 is connected with a second limiting plate 53, the top end of the fourth gear 49 is connected with a second rack 54, the top end of the second rack 54 is connected with a fourth L-shaped plate 55, the surface of the fourth L-shaped plate 55 is connected with a butt joint block 56, one side of the fourth L-shaped plate 55 is connected with a third limiting plate 57, one side of the workbench 14 is provided with a control plate 58, the top end of the first L-shaped plate 1 is provided with a camera 59, the surface of the control plate 58 is provided with a switch, but the device can carry out single working or multiple working operations, the camera 59 can be processed by recognizing the optical communication product.

Further, third L template 51, fourth L template 55 is sliding connection between the inside bottom of second mounting panel 22 respectively, and be connected for rotating between the bottom of bull stick 48 and second mounting panel 22, be block connection between butt joint block 56 and the inside of butt joint groove 52, rotation through bull stick 48, can make it drive fourth gear 49 and rotate, thereby can make the first rack 50 that fourth gear 49 connects, second rack 54, third L template 51 and fourth L template 55 remove in the inside bottom of second mounting panel 22, accessible second limiting plate 53 and third limiting plate 57 carry out the centre gripping to the light communication product, be convenient for follow-up carry out pyrocondensation processing to it.

The working principle is as follows:

the optical communication product in the embodiment takes an optical fiber jumper as a main product;

when in use, the positions of the second limit plate 53 and the third limit plate 57 are firstly adjusted according to the length of the optical communication product, the loop bar 20 can move in the second chute 37 through the second slider 38, the loop bar 20 can drive the second connecting rod 21 and the second mounting plate 22 to move, after moving to a proper position, the arc plate 41 can move on the surface of the T-shaped rod 40, the limit block 42 on the surface can move into the limit groove 43 on one side of the sleeve 18, so that the loop bar 20 and the like can be conveniently limited, the optical communication product is placed between the second limit plate 53 and the third limit plate 57, the fourth gear 49 connected with the bottom end of the rotating rod 48 can drive the first rack 50, the second rack 54, the third L-shaped plate 51 and the fourth L-shaped plate 55 to move by rotating the rotating rod 48, so that the second limit plate 53 and the third limit plate 57 can move, when the third L-shaped plate 51 and the fourth L-shaped plate 55 move, the butt-joint block 56 on the surface of the third L-shaped plate is connected with the butt-joint groove 52 to limit the optical communication product, after the optical communication product is clamped, the servo motor 24 can be operated by opening the switch, so that the third rotating rod 26 can drive the second gear 27 to rotate, the second gear 27 can be rotated, the first gear 17 meshed and connected with the second rotating rod can drive the optical communication product clamped on one side of the first connecting rod 16, the sleeve 18, the sleeve 20, the second connecting rod 21 and the second mounting plate 22 to rotate, and simultaneously, the first rotating rod 4 can drive the first bevel gear 5 to rotate by the operation of the reciprocating motor 2, the second bevel gear 6 meshed and connected with the first bevel gear 5 can drive the second rotating rod 7 to rotate, so that the rotating plate 8 on one side of the second rotating rod 7 can be rotated, the hot air gun 12 can be moved in the conduit 13 through the first movable shaft 9, the connecting rod 10 and the second movable shaft 11 on one side of the rotating plate 8, so as to facilitate the thermal shrinkage processing of the clamped optical communication product, at the same time, the extrusion rod 28 on one side can be rotated through the rotation of the second gear 27, after the extrusion rod 28 is rotated to a specified position, the extrusion rod 28 is contacted with the fixed rod 36 and drives the fixed rod 36 and the third gear 35 to rotate, the rotation of the third gear 35 can rotate the ball screw 33 connected with the third gear, so that the ball nut 34 on the surface thereof can drive the first L-shaped plate 1 on the top end to move in the first chute 29 through the first sliding block 30, so as to facilitate the movement of the hot air gun 12, so that the hot air gun 12 can move left and right to perform the thermal shrinkage processing of the optical communication product, the processing efficiency of the optical communication product can be improved.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a coordinated type heating frock for pyrocondensation of optical communication product, includes workstation (14), its characterized in that: the top end of the workbench (14) is connected with a first L-shaped plate (1), the top end of the first L-shaped plate (1) is connected with a reciprocating motor (2), one side of the reciprocating motor (2) is connected with a speed reducer (3), one side of the speed reducer (3) is connected with a first rotating rod (4), the surface of the first rotating rod (4) is connected with a first bevel gear (5), the surface of the first bevel gear (5) is connected with a second bevel gear (6), one side of the second bevel gear (6) is connected with a second rotating rod (7), the second rotating rod (7) is rotatably connected with one side of the first L-shaped plate (1), the second rotating rod (7) penetrates through the first L-shaped plate (1) to be connected with a rotating plate (8), the surface of the rotating plate (8) is connected with a first movable shaft (9), the surface of the first movable shaft (9) is connected with a connecting rod (10), the other end of the connecting rod (10) is connected with a second movable shaft (11), the second movable shaft (11) is connected with one side of the first L-shaped plate (1), one side of the connecting rod (10) is connected with a hot air gun (12), one side of the first L-shaped plate (1) is connected with a guide pipe (13), and the hot air gun (12) is movably sleeved with the inside of the guide pipe (13);

two sides of the top end of the workbench (14) are respectively connected with a vertical plate (15), one side of each vertical plate (15) is rotatably connected with a first connecting rod (16), one end of each first connecting rod (16) is connected with a first gear (17), and the other end of each first connecting rod (16) is connected with a sleeve (18);

the bottom end of the sleeve (18) is connected with a first mounting plate (19), a sleeve rod (20) is connected inside the sleeve (18), the other end of the sleeve rod (20) is connected with a second connecting rod (21), and the other end of the second connecting rod (21) is connected with a second mounting plate (22);

the bottom end of the workbench (14) is connected with a third mounting plate (23), the top end of the third mounting plate (23) is connected with a servo motor (24), one side of the servo motor (24) is connected with a rotating shaft (25), the other side of the rotating shaft (25) is connected with a third rotating rod (26), the surface of the third rotating rod (26) is connected with a second gear (27), and one side of the second gear (27) is connected with an extrusion rod (28);

the top end of the workbench (14) is connected with a first sliding chute (29) in an embedded mode, a first sliding block (30) is connected inside the first sliding chute (29) in a sliding mode, and the top end of the workbench (14) is connected with a mounting groove (31) in an embedded mode;

the bottom of third mounting panel (23) is connected with second L template (32), and one side of second L template (32) is connected with ball (33), the surface connection of ball (33) has ball nut (34), and the fixed surface of ball (33) is connected with third gear (35), one side of third gear (35) is connected with dead lever (36).

2. The linkage type heating tool for the thermal shrinkage of optical communication products according to claim 1, characterized in that: be fixed connection between ball nut (34) and the bottom of first L template (1), be sliding connection between the inside of ball nut (34) and mounting groove (31), and ball (33) pass and be connected between the inner wall one side of workstation (14) and mounting groove (31), be connected relatively between the surface of extrusion stem (28) and dead lever (36), be connected for the meshing between first gear (17) and second gear (27).

3. The linkage type heating tool for the heat shrinkage of the optical communication product as claimed in claim 1, wherein: inner wall one side of sleeve pipe (18) is connected with second spout (37), and the inside sliding connection of second spout (37) has second slider (38), shifting chute (39) have been seted up to one side of sleeve pipe (18), one side of loop bar (20) is connected with T type pole (40), and the surface activity of T type pole (40) has cup jointed arc (41), one side of arc (41) is connected with stopper (42), one side gomphosis of sleeve pipe (18) is connected with spacing groove (43), the top threaded connection of first mounting panel (19) has first bolt (44), and first bolt (44) pass first mounting panel (19) and rotate and be connected with baffle (45), the bottom of baffle (45) is connected with spring (46), and the bottom of spring (46) is connected with first limiting plate (47).

4. The linkage type heating tool for the thermal shrinkage of the optical communication product according to claim 3, wherein: be fixed connection between one side of second slider (38) and loop bar (20), be swing joint between the inside of T type pole (40) and shifting chute (39), be the block connection between the inside of stopper (42) and spacing groove (43), be sliding connection between one side of baffle (45) and first mounting panel (19).

5. The linkage type heating tool for the heat shrinkage of the optical communication product as claimed in claim 1, wherein: the top of second mounting panel (22) is connected with bull stick (48), and bull stick (48) passes second mounting panel (22) and is connected with fourth gear (49), the bottom of fourth gear (49) is connected with first rack (50), and the bottom of first rack (50) is connected with third L template (51), the surperficial gomphosis of third L template (51) is connected with butt joint groove (52), and one side of third L template (51) is connected with second limiting plate (53), the top of fourth gear (49) is connected with second rack (54), and the top of second rack (54) is connected with fourth L template (55), the surface of fourth L template (55) is connected with butt joint piece (56), and one side of fourth L template (55) is connected with third limiting plate (57), control panel (58) is installed to one side of workstation (14), and a camera (59) is installed at the top end of the first L-shaped plate (1).

6. The linkage type heating tool for the thermal shrinkage of the optical communication product according to claim 5, wherein: third L template (51), fourth L template (55) are sliding connection respectively with the inside bottom of second mounting panel (22) between, and is connected for rotating between the bottom of bull stick (48) and second mounting panel (22), be connected for the block between butt joint piece (56) and the inside of butt joint groove (52).

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