CN214568250U - Fuse transmission structure - Google Patents

Abstract

The utility model relates to a fuse conveying structure, which comprises a first feeding strip; the storage rack is provided with a fuse main body at the input end of the first conveying strip; a first conveying strip gap is longitudinally arranged on the first conveying strip, and a first conveying processing notch is arranged on the first conveying strip; conveying first processing gaps are positioned on two sides of a first strip conveying gap; the storage rack longitudinally conveys the fuse main bodies to the first V-shaped conveying bases one by one and is positioned above the first conveying strip gap; a second conveying belt is connected to the process of conveying the output end of the first feeding strip; the utility model relates to a rationally, compact structure and convenient to use.

Description

Fuse transmission structure

Technical Field

The utility model relates to a detonator conveying structure.

Background

The fuze is an important component in the missile, is a final execution device for the missile to exert the terminal effect, and directly determines the success or failure of the missile system and the target confrontation. The structural design of the fuse is mainly to firmly connect all components of the fuse into a whole, so that the fuse forms a good aerodynamic shape, has enough strength, rigidity and stability, and can bear and transmit various loads which can be met in the whole life cycle of the missile. At present, the structural design of the fuse mainly adopts the steps of fastening all components of the fuse on a frame and then installing and fastening the frame in a cabin body. Although the design method according to the existing fuze structure can also meet the function of the fuze, the space utilization rate is not high under the constraint of the same pneumatic appearance condition; on the contrary, under the condition of meeting the same function, the volume is inevitably increased, thereby leading to the increase of the mass. The structural form cannot adapt to the development direction of miniaturization, light weight, high performance and modularization of the modern weapon system.

How to provide a millimeter wave fuze, it has locking quick installation and becomes the technical problem that the solution is badly needed, how to realize the quick firm locking installation of millimeter wave fuze, how to realize the automatic installation equipment of each part and become the technical problem that the solution is badly needed. How to realize changing the fuse main body of vertical conveying into horizontal conveying becomes the technical problem that needs to solve urgently, realizes linking up of each process becomes the technical problem that needs to solve urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a detonator conveying structure is provided overall.

In order to solve the above problems, the utility model adopts the following technical proposal:

a fuze conveying structure comprises a first feeding strip; the storage rack is provided with a fuse main body at the input end of the first conveying strip; a first conveying strip gap is longitudinally arranged on the first conveying strip, and a first conveying processing notch is arranged on the first conveying strip; conveying first processing gaps are positioned on two sides of a first strip conveying gap;

the storage rack longitudinally conveys the fuse main bodies to the first V-shaped conveying bases one by one and is positioned above the first conveying strip gap;

and a second conveying belt is connected to the first conveying strip output end in the conveying process.

As a further improvement of the above technical solution:

second V-shaped conveying seats are transversely distributed on the second conveying belt to receive and convey the fuse main body output by the first feeding belt;

a second feeding station, a second connecting station, a second stopping station, a second element mounting part, a second detection station, a second waste discharge station, a second code spraying station and a second output station are distributed on the second conveyor belt;

the fuse main bodies are longitudinally placed on the first V-shaped conveying base one by one, and the first conveying strip is conveyed to convey the fuse main bodies to the first conveying strip output end; the fuse main body is fed to a second feeding station for conveying a second V-shaped seat, transversely placed and conveyed at each station;

a manipulator or a manual worker is arranged at the second transmission connecting station, the pointed cone cap body is inserted into the left end of the fuse main body, and the back nut is arranged at the threaded part;

a manipulator or a worker is arranged at the second conveying stopping station, and a stopping piece is arranged on the stopping groove;

a manipulator or a manual worker is arranged on the second element mounting part, and the corresponding accessory of the fuse is loaded into the inner cavity of the main body from the tail end of the fuse main body;

a detection device or an inspector is arranged at the second detection station, and the millimeter wave fuse is subjected to parameter detection according to drawings and process requirements;

a manipulator or a manual work is arranged at the second waste discharge station, and the unqualified millimeter wave fuze to be detected is stored;

a cleaning machine and an ink-jet printer are arranged at the second ink-jet printing station, and the outer surface of the fuse main body is cleaned and subjected to ink-jet coding;

at a second output station; and a mechanical arm or a manual work is arranged to output the millimeter wave fuze to the next procedure.

A fuse accessory auxiliary transfer tool is arranged between the output end of the first feeding strip and the input end of the second conveying belt; the tool comprises a conveying transfer lifting guide rail which is vertically arranged below a conveying first feeding strip output end with a conveying first strip gap and a conveying first V-shaped base; a conveying transfer lifting seat is arranged on the conveying transfer lifting guide rail in a vertically-extending mode, a conveying transfer hinge joint is arranged at the top of the conveying transfer lifting seat, and a conveying lifting V seat transversely swings above the conveying transfer hinge joint;

a conveying support rear baffle in a vertical state is arranged on the transverse back side of the conveying lifting V seat in an extending mode, a conveying support front inclined plane is arranged on the transverse front side of the conveying lifting V seat, a conveying rear swing balance weight is arranged on the back surface of the conveying support rear baffle, a conveying extension direction changing plate lower than the conveying support front inclined plane is horizontally arranged in front of the conveying support front inclined plane, and a conveying upper stroke baffle rod and a conveying lower stroke baffle rod are respectively arranged at the upper end and the lower end of the stroke of the conveying extension direction changing plate;

the conveying lifting V-shaped base penetrates through the conveying first strip gap to be longitudinally arranged on the fuse main body of the conveying first V-shaped base to be lifted and laterally rotated for outputting.

The conveying lifting V seats are two in parallel arrangement; the lower end of the transfer lifting seat is connected with a lifting rod;

conveying first processing gaps are arranged on two sides of the conveying first strip gap;

the conveying transfer lifting seat rises along the conveying transfer lifting guide rail, and after the upper top of the conveying lengthened turning plate is contacted with the conveying upper stroke stop lever, the conveying lifting V seat is turned over and output at the side, and the fuse body is turned over and output at the side; the conveying transfer lifting seat descends along the conveying transfer lifting guide rail, and under the action of the conveying back swing counterweight, the conveying lengthened turning plate descends to contact with the conveying lower stroke stop lever and enables the conveying lifting V seat to turn over and reset laterally.

The utility model relates to a rationally, low cost, durable, safe and reliable, easy operation, labour saving and time saving, saving fund, compact structure and convenient to use.

Drawings

Fig. 1 is a schematic diagram of a local fuse transmission structure of the present invention.

Fig. 2 is a schematic diagram of the fuze transmission structure of the present invention.

Fig. 3 is a schematic diagram of the fuse using structure of the present invention.

Wherein: 1. a pointed cone cap body; 2. a fuse body; 3. a back female member; 4. a backstop member; 5. a positioning step outside the cap; 6. a firing pin loop bar; 7. the end of the firing pin; 8. a backstop groove; 9. the firing pin cavity; 10. a main body inner bore; 11. a body end inner spigot; 12. a main body inner cavity; 13. an outer sidewall trench; 14. an open elastic ring sheet; 15. an open splayed contact plate; 16. a fuze transfer structure; 21. conveying a first incoming web; 22. conveying the first tape gap; 23. conveying the first machining gap; 24. conveying the first V-shaped base; 25. transferring the lifting guide rail; 26. heightening the arm after transmission; 27. a transfer lifting seat; 28. a transfer link; 29. conveying and lifting the V seat; 30. conveying a support rear bumper; 31. transferring the back swing balance weight; 32. a transfer support front bevel; 33. conveying the lengthened turning plate; 34. conveying the upper travel stop lever; 35. conveying the lower travel stop lever; 36. conveying a second conveyor belt; 37. conveying the second V-shaped seat; 38. conveying a second feeding station; 39. conveying a second connecting station; 40. conveying a second backstop station; 41. a second element mounting portion; 42. a second detection station; 43. a second waste discharge station; 44. a second code spraying station; 45. a second output station.

Detailed Description

As shown in fig. 1, the millimeter wave fuse end structure of the present embodiment includes a fuse main body 2 and a pointed cone cap 1 installed at the left end of the fuse main body 2; the tail part of the sharp cone cap body 1 is positioned in a main body inner cavity 12 of the fuse main body 2 and is connected through a back female part 3;

the right part of the pointed cone cap body 1 is connected with an outer cap positioning step 5, the right end of the outer cap positioning step 5 is provided with a firing pin loop bar 6, the right end of the firing pin loop bar 6 is provided with a firing pin end 7, the firing pin loop bar 6 is provided with a threaded part, and a backstop groove 8 is arranged on the firing pin end 7 and positioned on the right side of the threaded part;

a main body inner hole 10 is formed at the left end of the main body inner cavity 12, and a main body end inner spigot 11 is arranged at the left end of the main body inner hole 10;

the cap outer positioning step 5 is positioned in the main body end inner spigot 11, after the firing pin loop bar 6 passes through the main body inner hole 10, the thread part is exposed from the right side of the main body inner hole 10 and connected with the back female part 3;

the positioning step 5 outside the cap and the inner spigot 11 of the main body end are both hexagonal, triangular or square;

the back female element 3 is provided with a retaining element 4 which is arranged in the inner cavity 12 of the main body and is arranged on the retaining groove 8 in the inner cavity 12 of the main body.

The left end of the sharp-cone cap body 1 is of a conical structure and is matched with a fire cap;

a firing pin inner cavity 9 is arranged in the firing pin loop bar 6 to place a firing pin point;

an outer side wall groove 13 is distributed on the outer side wall of the back female piece 3;

the backstop 4 comprises an open elastic ring piece 14 with an oblique opening, and the left side of the open elastic ring piece 14 is provided with the root of an open splayed contact piece 15; the opening elastic ring piece 14 is provided with jacks positioned at two sides of the inclined opening;

the opening splayed contact piece 15 is arranged in an apron manner, and the left end of the opening splayed contact piece 15 is used for being in pressure contact with the right side surface of the outer side wall groove 13 or being inserted into the outer side wall groove 13.

As shown in fig. 1-3, the fuze conveyance structure 16 of the present embodiment includes a conveyance first in-feed strip 21; a storage rack provided with a fuse body 2 at the input end of the first feeding strip 21; a first conveying strip gap 22 is longitudinally arranged on the first conveying feeding strip 21, and a first conveying processing notch 23 is arranged on the first conveying feeding strip 21; the conveying first processing gap 23 is positioned at both sides of the conveying first strip gap 22;

the first V-shaped conveying bases 24 are longitudinally distributed on the first conveying feeding strip 21, and the storage rack conveys the fuse main bodies 2 to the first V-shaped conveying bases 24 one by one longitudinally and is positioned above the first conveying strip gap 22;

a second conveyor 36 is connected to the output end of the first feeding belt 21.

Second V-shaped conveying seats 37 are transversely distributed on the second conveying belt 36 to receive the fuse main body 2 for conveying the output of the first feeding strip 21;

a second conveying station 38, a second connecting station 39, a second stopping station 40, a second element mounting part 41, a second detection station 42, a second waste discharge station 43, a second code spraying station 44 and a second output station 45 are distributed on the second conveyor belt 36;

the fuse main bodies 2 are longitudinally placed on the first V-shaped conveying base 24 one by one, the first feeding strip 21 is conveyed, and the fuse main bodies 2 are fed to the output end of the first feeding strip 21; the fuse body 2 is fed to the conveying second feeding station 38 which conveys the second V-shaped seat 37 and is laterally placed and conveyed at each station;

at the second connecting station 39, a manipulator or a manual work is arranged, the pointed cone cap body 1 is inserted into the left end of the fuse main body 2, and the back female part 3 is arranged at the threaded part;

a manipulator or a worker is arranged at the second conveying stopping station 40, and the stopping piece 4 is arranged on the stopping groove 8;

a manipulator or a manual work is provided to the second component mounting portion 41, and a corresponding accessory of the fuse is loaded into the main body cavity 12 from the tail end of the fuse main body 2;

a second detection station 42 is provided with detection equipment or an inspector, and the millimeter wave fuse is subjected to parameter detection according to drawings and process requirements;

a manipulator or a manual work is arranged at the second waste discharge station 43, and the millimeter wave fuzes which are detected to be unqualified are stored;

a cleaning machine and an ink-jet printer are arranged at the second ink-jet printing station 44, and the outer surface of the fuse main body 2 is cleaned and is sprayed with codes;

at a second outfeed station 45; and a mechanical arm or a manual work is arranged to output the millimeter wave fuze to the next procedure.

An auxiliary transfer tool for fuse accessories is arranged between the output end of the first conveying belt 21 and the input end of the second conveying belt 36; the tool comprises a conveying transfer lifting guide rail 25 which is vertically arranged below the output end of a conveying first feeding strip 21 with a conveying first strip gap 22 and a conveying first V-shaped base 24; a conveying rear heightening arm 26 is arranged on the transverse back side of the conveying transfer lifting guide rail 25 in an upward extending mode, a conveying transfer lifting seat 27 is lifted on the conveying transfer lifting guide rail 25, a conveying transfer hinge joint 28 is arranged at the top of the conveying transfer lifting seat 27, and a conveying lifting V seat 29 is arranged above the conveying transfer hinge joint 28 in a transverse swinging mode;

a vertical conveying support rear baffle 30 is arranged on the transverse back side of the conveying lifting V seat 29 in an extending mode, a conveying support front inclined surface 32 is arranged on the transverse front side of the conveying lifting V seat 29, a conveying rear swing counterweight 31 is arranged on the back surface of the conveying support rear baffle 30, a conveying extension direction changing plate 33 lower than the conveying support front inclined surface 32 is horizontally arranged in front of the conveying support front inclined surface 32, and a conveying upper stroke stop lever 34 and a conveying lower stroke stop lever 35 are respectively arranged at the upper end and the lower end of the stroke of the conveying extension direction changing plate 33;

the conveying lifting V-shaped seat 29 penetrates through the conveying first strip gap 22 to lift the fuse main body 2 longitudinally arranged on the conveying first V-shaped base 24 and output the fuse main body in a side-turning mode.

The conveying lifting V seats 29 are arranged in parallel; the lower end of the transfer lifting seat 27 is connected with a lifting rod;

conveying first processing gaps 23 are arranged on two sides of the conveying first strip gap 22;

the transmission transfer lifting seat 27 rises along the transmission transfer lifting guide rail 25, and after the upper top of the transmission lengthened diversion plate 33 is contacted with the transmission upper stroke stop lever 34, the transmission lifting V seat 29 is turned over and output, and the fuse main body 2 is turned over and output; the transfer elevating base 27 descends along the transfer elevating guide rail 25, and under the action of the balance weight of the transfer after-swinging balance weight 31, the transfer lengthening diversion plate 33 descends to contact with the transfer after-stroke stop lever 35 and enables the transfer lifting V-shaped base 29 side to be rotated and reset.

The process of the present embodiment, the millimeter wave fuze assembling step and/or the step of transferring the transmission fuze body 2 through the fuze transfer structure 16.

Firstly, inserting a pointed cone cap body 1 into a fuse main body 2; then, the back female member 3 is mounted on the screw thread portion of the striker rod 6 through the body cavity 12; thirdly, feeding the retaining pieces 4 one by one; then, the retainer 4 is mounted to the outer side wall groove 13, and the left end of the splayed contact piece 15 is opened for pressure contact with the right side surface of the outer side wall groove 13 or entering into the outer side wall groove 13.

Assembling the millimeter wave fuze by the following steps;

first, the fuse body 2 is transferred and conveyed between the respective processes by the fuse transfer structure 16; then, inserting the pointed cone cap body 1 into the fuse main body 2 through the pipe fitting assembly device; then, the back female member 3 is mounted on the screw thread portion of the striker rod 6 through the body cavity 12; thirdly, feeding the retaining pieces 4 one by one; then, the retainer 4 is mounted to the outer side wall groove 13, and the left end of the splayed contact piece 15 is opened for pressure contact with the right side surface of the outer side wall groove 13 or entering into the outer side wall groove 13.

The steps of transferring the transfer fuse body 2 by the fuse transfer structure 16 are as follows;

firstly, the fuse body 2 is longitudinally placed on a first V-shaped conveying base 24 and conveyed to the output end of a first conveying feeding strip 21; then, the conveying transfer lifting seat 27 ascends along the conveying transfer lifting guide rail 25, the upper top of the conveying lengthened diversion plate 33 contacts with the conveying upper stroke stop lever 34, the conveying lifting V-shaped seat 29 is turned over and output, and the fuse main body 2 is turned over and output to the conveying second V-shaped seat 37 positioned at the conveying second feeding station 38; secondly, the transfer lifting seat 27 descends along the transfer lifting guide rail 25, and under the action of the balance weight of the transfer rear swing balance weight 31, the transfer lengthened diversion plate 33 descends to contact with the transfer lower travel stop lever 35 and enable the transfer lifting V seat 29 side to be rotated and reset; again, the second conveyor belt 36 carries and conveys the fuse bodies 2 arranged transversely on the conveying second V-shaped seat 37 successively through the various stations:

at a second conveying connecting station 39, inserting the pointed cone cap body 1 into the left end of the fuse main body 2 and installing the back female part 3 on the threaded part, and at a second conveying stopping station 40, installing a stopping piece 4 on the stopping groove 8; in the second component mounting portion 41, the corresponding accessory of the fuse is inserted into the body cavity 12 from the tail end of the fuse body 2; at a second detection station 42, parameter detection is carried out on the millimeter wave fuse according to the drawing and the process requirements; a manipulator or a manual work is arranged at the second waste discharge station 43, and the millimeter wave fuzes which are detected to be unqualified are stored; cleaning the outer surface of the fuse main body 2 and spraying codes at a second code spraying station 44; at the second output station 45, the millimeter wave fuze is output to the next process.

There is locking clearance big to current fuze, the easy not hard up technical problem, the utility model provides a set of scheme realizes locking, the pointed cone cap body 1 realizes the end-face mounting on fuze main part 2, back of the body female member 3 realizes the screw-thread fastening, locking processing is realized to stopping piece 4, body end internal spigot 11 adopts noncircular structures such as hexagonal with the outer location step 5 of cap, realize location and locking rotation, firing pin loop bar 6 plays the connection effect, firing pin end 7 realizes the direction, stopping slot 8 realizes installation stopping piece 4, realize locking, through main part inner chamber 12, the installation article is realized to firing pin inner chamber 9. The main part hole 10 realizes that the direction is fixed, and is convenient locking, thereby opening elasticity ring piece 14 has elasticity, and opening splayed contact 15 realizes the butt, and when its and back end face contact, it is locking to realize the axial through the draw-in groove, and when realizing the locking card through lateral wall slot 13 and die, when its axial displacement to make the shell fragment constantly expand, thereby increase elasticity has realized that elasticity is locking.

The utility model discloses improve fuze head structure to simplify the structure appearance, guaranteed that the product has good locking effect, had good manufacturability, simple to operate.

The transfer is accomplished by the fuze transfer structure 16 to effect engagement with the parts stations to complete the basic assembly. The first feeding belt 21 can be a conventional belt, the first conveying belt gap 22 and the first conveying processing notch 23 are added to facilitate upward pushing to separate the workpiece from the first conveying V-shaped base 24, the conveying transfer lifting guide rail 25 realizes linear conveying, the rear conveying heightening arm 26 avoids backward swinging of the V-shaped base, the process is reasonable, the conveying transfer lifting base 27 moves in a lifting mode, the conveying transfer hinge joint 28 realizes automatic swinging due to gravity or carrying objects, the conveying lifting V-shaped base 29 realizes alignment lifting and side swinging, the conveying support rear baffle 30 is preferably in a vertical state to prevent backward overturning, meanwhile, the center of gravity is enabled to be forward, forward swinging is facilitated to realize forward swinging rolling-out of the V-shaped base, the conveying rear swinging counter weight 31 realizes automatic return of an empty V-shaped base, the conveying support front inclined plane 32 realizes transverse rolling-out of the workpiece, the conveying lengthened diversion plate 33 and the conveying upper stroke baffle rod 34, the transmission lower stroke stop lever 35 is matched with the transmission lower stroke stop lever to realize the swinging and returning of the V seat.

The utility model discloses a vertical conveying and the side direction output of work piece are realized to the conveyer belt, compare in traditional output, and the output structure is simplified, controls the convenience, has reduced power component, has reduced the center height that the main part conveying was placed.

And a second conveying belt 36 is conveyed to be matched with assembling equipment of accessories at each station, and a second V-shaped seat 37 is conveyed to realize transverse support fuse body exposure so as to transfer and feed materials. The second feeding station 38 is conveyed to realize feeding, the second connecting station 39 is conveyed, the second stopping station 40, the second element mounting part 41, the second detection station 42, the second waste discharge station 43, the second code spraying station 44 and the second output station 45 are conveyed, and the corresponding process is finished because the outsourcing complete equipment can be used manually, so that no drawing is drawn.

The utility model discloses a conveyer belt has realized that each process links up, through station rational arrangement, realizes the equipment to the product.

The present invention has been fully described for a clear disclosure, and is not further described in detail in the prior art.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; it is obvious to those skilled in the art that a plurality of embodiments of the present invention may be combined. Such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (4)

1. A fuze conveying structure, characterized in that: it comprises conveying a first feeding strip (21); a storage rack provided with a fuse body (2) at the input end of the first feeding strip (21); a first conveying strip gap (22) is longitudinally arranged on the first conveying feeding strip (21), and a first conveying processing notch (23) is arranged on the first conveying feeding strip (21); conveying first machining gaps (23) are positioned on two sides of the conveying first strip gap (22);

the first V-shaped conveying bases (24) are longitudinally distributed on the first conveying feeding strip (21), and the storage rack is used for longitudinally conveying the fuse main bodies (2) to the first V-shaped conveying bases (24) one by one and is positioned above the first conveying strip gap (22);

the second conveying belt (36) is connected with the output end of the first feeding belt (21).

2. The fuze conveying structure of claim 1, wherein: second V-shaped conveying seats (37) are transversely distributed on the second conveying belt (36) to receive the fuse main body (2) for conveying the output of the first feeding strip (21);

a second conveying station (38), a second connecting station (39), a second stopping station (40), a second element mounting part (41), a second detection station (42), a second waste discharge station (43), a second code spraying station (44) and a second output station (45) are distributed on the second conveyor belt (36);

the fuse main bodies (2) are longitudinally placed on the first V-shaped conveying base (24) one by one, the first conveying feeding strip (21) is conveyed, and the fuse main bodies (2) are conveyed to the output end of the first conveying feeding strip (21); the fuse body (2) is sent to a second conveying feeding station (38) for conveying a second V-shaped seat (37), is transversely placed and is conveyed at each station;

a manipulator or a manual work is arranged at the second conveying connecting station (39), the pointed cone cap body (1) is inserted into the left end of the fuse main body (2), and the back female part (3) is installed on the threaded part;

a manipulator or a manual work is arranged at the second conveying stopping station (40), and a stopping piece (4) is arranged on the stopping groove (8);

a manipulator or a manual work is arranged on the second element mounting part (41) and a corresponding accessory of the fuse is loaded into the inner cavity (12) of the main body from the tail end of the fuse main body (2);

a second detection station (42) is provided with detection equipment or an inspector, and the millimeter wave fuse is subjected to parameter detection according to drawing and process requirements;

a manipulator or a manual work is arranged at the second waste discharge station (43) to store the unqualified millimeter wave fuze;

a cleaning machine and an ink-jet printer are arranged at the second ink-jet printer station (44) to clean the outer surface of the fuse main body (2) and jet-encode;

at a second outfeed station (45); and a mechanical arm or a manual work is arranged to output the millimeter wave fuze to the next procedure.

3. The fuze conveying structure of claim 1, wherein: a fuse accessory auxiliary transfer tool is arranged between the output end of the first conveying belt (21) and the input end of the second conveying belt (36); the tool comprises a conveying transfer lifting guide rail (25) which is vertically arranged below an output end of a conveying first feeding strip (21) with a conveying first strip gap (22) and a conveying first V-shaped base (24); a conveying rear heightening arm (26) is arranged on the transverse back side of the conveying transfer lifting guide rail (25) in an upward extending mode, a conveying transfer lifting seat (27) is lifted on the conveying transfer lifting guide rail (25), a conveying transfer hinge joint (28) is arranged at the top of the conveying transfer lifting seat (27), and a conveying lifting V seat (29) is arranged above the conveying transfer hinge joint (28) in a transverse swinging mode;

a conveying supporting rear baffle (30) in a vertical state is arranged on the transverse back side of the conveying lifting V seat (29) in an extending mode, a conveying supporting front inclined surface (32) is arranged on the transverse front side of the conveying lifting V seat (29), a conveying swinging counter weight (31) is arranged on the back surface of the conveying supporting rear baffle (30), a conveying extending change plate (33) lower than the conveying supporting front inclined surface (32) is horizontally arranged in front of the conveying supporting front inclined surface (32), and a conveying upper stroke stop lever (34) and a conveying lower stroke stop lever (35) are respectively arranged at the upper end and the lower end of the stroke of the conveying extending change plate (33);

the conveying lifting V-shaped seat (29) penetrates through the conveying first strip gap (22) to be longitudinally arranged on the fuse main body (2) of the conveying first V-shaped base (24) to be lifted and output in a side-overturning manner.

4. The fuze conveying structure of claim 3, wherein: the conveying lifting V seats (29) are arranged in parallel; the lower end of the transfer lifting seat (27) is connected with a lifting rod;

conveying first processing gaps (23) are arranged on two sides of the conveying first strip gap (22);

the conveying transfer lifting seat (27) rises along the conveying transfer lifting guide rail (25), and after the upper top of the conveying lengthened turning plate (33) is contacted with the conveying upper stroke stop lever (34), the conveying lifting V seat (29) is turned over and output, and the fuze main body (2) is turned over and output; the conveying transfer lifting seat (27) descends along the conveying transfer lifting guide rail (25), and under the action of a conveying back swing counter weight (31), the conveying lengthening diversion plate (33) descends to contact with the conveying lower stroke stop lever (35) and enables the conveying lifting V seat (29) to laterally rotate and reset.

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