CN207095418U - A kind of constraint formula interrupter based on inertial elements part - Google Patents

Abstract

The utility model discloses a kind of constraint formula interrupter based on inertial elements part, belong to fuze safety mechanism technical field.The interrupter includes the body that center is provided with rotor hole, and coaxial sleeve insertion rotor hole in can opposing body rotate rotor, accommodating inertial elements part is offered on rotor and body, passes the corresponding hole of fiery part and detonation transmission part, by the position relationship for optimizing hole, make interrupter that there is larger releasing isolation corner, and the setting of insurance institution and locking mechanism enables safe condition and arm-to-arm interrupter to be locked in corresponding position.On the one hand the utility model optimizes the arrangement of parts form of interrupter by above-mentioned setting, reduce the bulk of interrupter, improves the applicability of interrupter；On the other hand, the insurance institution under safe condition can effectively improve the security of interrupter, and the locking mechanism under arm-to-arm, which can be effectively ensured, ignites aligning for sequence, greatly improves ignition efficiency.

Description

A kind of constraint formula interrupter based on inertial elements part

Technical field

The utility model belongs to fuze safety mechanism technical field, and in particular to a kind of constraint based on inertial elements part Formula interrupter.

Background technology

Priming system is equipped with gunpowder or explosive, burning or blast is produced after by environmental stimuli, with the gunpowder that ignites, ignition charge Or do the disposable component of mechanical work and the general name of device.Interrupter is usually provided with priming system, it is made With being sensitive firer's element in Explosive sequence usually with next stage firer's element separation, is ensured that fuse is accidental in its priming system Misfire during preact, so as to avoid ammunition premature burst so that jeopardizing the safety of personnel and equipment.

The security of fuse be related to the demonstration of fuse, design, manufacture, inspection and acceptance, experiment, duties processing, using and The life cycle managements such as explosive disposal.In safety period life-cycle of fuse, the effect of interrupter is to ensure fuse right Arm-to-arm is in effective short-term/space of interacting goals, is safe condition in the case of remaining.

At present, conventional interrupter mechanism has slide block mechanism, lever type mechanisms and isolation rotor mechanism, wherein being turned with level Minor interrupter is relatively conventional.Under normal circumstances, horizontal rotor formula interrupter utilizes torsion spring, clockwork spring (disc spring) or other Motive power of the spring as mechanism kinematic, there is less axial dimension, be adapted to the small occasion of axial dimension requirement, and it is horizontal Rotator type interrupter has larger releasing isolation corner, can ensure that flame proof security generally.It is but existing Horizontal rotor formula interrupter there is also it is certain the defects of, its defect be mainly grouped as it is following some.First, when interrupter is protected After danger releases and moved in place, interrupter does not have lock function, under vibration, easily causes interrupter dislocation, Explosive train is ultimately resulted in align not exclusively；Secondly, the two-stage safety piece Heterogeneous Permutation of horizontal rotor formula interrupter, can cause Mechanism size is larger, unreasonable to space utilization；Again, horizontal rotor formula interrupter usually not effectively utilizes the ring on bullet Environment information (such as fly overload, centrifugal force, Aerodynamic Heating), and the driving of two-stage safety piece needs to consume fuse or missile power supply, Energy dissipation is caused, and security is relatively low.Drawbacks described above causes the application of horizontal rotor formula interrupter to be subject to certain restrictions, The security and practicality of interrupter are had a certain impact, can not fully meet the safe handling of fuse.

Utility model content

For the disadvantages described above or Improvement requirement of prior art, the utility model provides one kind and is based on inertial elements part Constraint formula interrupter, wherein by using inertial elements part locked secure state, be provided with larger releasing isolation and turn Angle, it is ensured that flame proof security usually, and interrupter has lock function after motion in place, can ensure that and locates under vibration In state in place, ensure the reliability detonated, lift the security and practicality of fuze mechanism.

To achieve the above object, the utility model provides a kind of constraint formula interrupter based on inertial elements part, bag The center of including is provided with the body of rotor hole, and can the rotor that rotates of opposing body in coaxial sleeve insertion rotor hole, it is characterised in that

The end face of respective rotor offers first blind hole of accommodating inertial elements part one end and for holding on the body Put the propagation of explosion hole of detonation transmission part；

Offered on the rotor for the accommodating flash hole for passing fiery part, in the secure state with the first blind hole position pair Answer to be used for the inertial elements part other end accommodating wherein to lock the 3rd blind hole of the safe condition and under arm-to-arm It is corresponding with first blind hole to be housed wherein for described inertial elements part one end to lock the pin hole of the arm-to-arm.

As further improvement of the utility model, arc groove is offered on the rotor, for for rotor rotation side To being oriented to and limit the rotational angle of rotor.

As further improvement of the utility model, the company at the arc groove both ends and rotor hole center on cross section The angle that the angle that line is formed need to rotate when being converted to arm-to-arm from safe condition with rotor is identical.

As further improvement of the utility model, the company at the arc groove both ends and rotor hole center on cross section The angle that line is formed is 75 °~135 °.

As further improvement of the utility model, the inertial elements part includes inertia cylinder and inertial spring, described One end of inertia cylinder offers the groove for fixing described inertial spring one end.

In general, by the contemplated above technical scheme of the utility model compared with prior art, have with following Beneficial effect：

(1) in the constraint formula interrupter of the present utility model based on inertial elements part, by using inertial elements portion Part ensures that the rotor of interrupter does not rotate in the secure state, reduced unexpected as the insurance institution under safe condition The occurrence of ignition, improve the security of interrupter；

(2) in the constraint formula interrupter of the present utility model based on inertial elements part, when interrupter is in pending During state, inertial elements part locks it in arm-to-arm as locking mechanism, ensures interrupter under arm-to-arm not Generating mechanism misplaces, and especially reduces the component dislocation of interrupter under vibration environment, largely avoided explosive train and align not The problem of complete；

(3) in the constraint formula interrupter of the present utility model based on inertial elements part, by arc groove and alignment pin Rotor rotation direction and angle are defined, and the releasing isolation corner set is larger, and interrupter can be effectively ensured and exist Component aligns during State Transferring, and greatly promotes the daily flame proof security of fuze mechanism；

(4) the constraint formula interrupter of the present utility model based on inertial elements part, the Arming Assembly under safe condition Optimized the arrangement of with the Arming Assembly under arm-to-arm, inertial elements part when enabling safe condition as insurance institution is pending Arm-to-arm locking is carried out as locking mechanism under state, by rationally designing hole location, makes full use of hole location, so as to The bulk of interrupter can be greatly reduced；

(5) the constraint formula interrupter of the present utility model based on inertial elements part, its insurance institution can be utilized respectively Environmental information and control system instruction on bullet, the security of interrupter can be substantially improved.

Brief description of the drawings

Fig. 1 is the overall structure signal of the constraint formula interrupter based on inertial elements part of the utility model embodiment Figure；

Fig. 2 is the rotor structure side view of the interrupter of the utility model embodiment；

Fig. 3 is the rotor structure top view of the interrupter of the utility model embodiment；

Fig. 4 is the driving part structure sectional view of the interrupter of the utility model embodiment；

Fig. 5 is the driving part structure dismounting figure of the interrupter of the utility model embodiment；

Fig. 6 is the inertial elements modular construction sectional view of the interrupter of the utility model embodiment；

Fig. 7 is the biography fire modular construction sectional view of the interrupter of the utility model embodiment；

Fig. 8 is the locking member structure sectional view of the interrupter of the utility model embodiment；

Fig. 9 is the body construction top view of the interrupter of the utility model embodiment；

Figure 10 is the body construction side view of the interrupter of the utility model embodiment.

In all of the figs, same reference represents identical technical characteristic, is specially：1. rotor, 101. torsion springs Groove, 102. shaft holes, 103. flash holes, 104. the 4th blind holes, 105. the 5th blind holes, 106. the 3rd blind holes, 107. pin holes, 108. lock hole, 109. dead axle holes, 1010. arc grooves；2. driving part, 201. torsion springs, 202. rotating shafts, 203. axis of rolling Hold, 204. pressing plates；3. inertial elements part, 301. inertia cylinders, 302. inertial springs；4. fiery part is passed, 401. flame detonators, 402. shells, 403. beams；5. locking member, 501. ball pins, 502. Lock springs, 503. pressure spiral shells；6. guide finger, 7. propagation of explosions Part, 8. bodies, 801. rotor holes, 802. shaft holes, 803. first blind holes, 804. second blind holes, 805. ball pin holes, 806. spiral shells Pit, 807. side position holes, 808. propagation of explosion holes；9. gunpowder pin removal.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only explaining this Utility model, it is not used to limit the utility model.

As long as in addition, technical characteristic involved in each embodiment of the utility model disclosed below each other it Between do not form conflict can be mutually combined.

Fig. 1 is the overall structure signal of the constraint formula interrupter based on inertial elements part of the utility model embodiment Figure；Fig. 2 is the rotor structure side view of the interrupter of the utility model embodiment；Fig. 3 be the utility model embodiment every Disembark the rotor structure front view of structure；Fig. 4 is the driving part structure sectional view of the interrupter of the utility model embodiment；Figure 5 be the driving part structure dismounting figure of the interrupter of the utility model embodiment；Fig. 6 is the isolation of the utility model embodiment The inertial elements modular construction sectional view of mechanism；Fig. 7 is that the biography fire modular construction of the interrupter of the utility model embodiment is cutd open View；Fig. 8 is the locking member structure sectional view of the interrupter of the utility model embodiment；Fig. 9 is that the utility model is implemented The body construction front view of the interrupter of example；Figure 10 is the body construction side view of the interrupter of the utility model embodiment Figure.

As shown in accompanying drawing 1~10, interrupter in a preferred embodiment of the present utility model mainly include rotor 1, Driving part 2, inertial elements part 3, biography fiery part 4, locking member 5, guide finger 6, detonation transmission part 7, body 8 and gunpowder are pulled pin Device 9.

Wherein, rotor 1 is the core component of interrupter, is offered in its both ends of the surface and accommodates interrupter critical piece Hole or cell body；Driving part 2 is mainly used in driving rotor 1 to move, and rotor 1 is switched in arm-to-arm and safe condition, Driving part 2 mainly includes torsion spring 201, the rotating shaft 202 for transmission, the rolling bearing 203 of accessory drive for providing driving force And the pressing plate 204 for fixed drive part 2；Inertial elements part 3 is one of main securing member of interrupter, and it is led To be made up of inertia cylinder 301 and inertial spring 302；It is one of critical piece that fuse is used for ignition to pass fiery part 4, and it is mainly wrapped Include flame detonator 401, shell 402 and beam 403；Locking member 5 is mainly used in when rotor 1 is in arm-to-arm, to turning The location status of son 1 is locked, and ensures that interrupter occurs without the situation of dislocation；Guide finger 6 is mainly used in controlling rotor 1 The anglec of rotation, ensure the angle of the rotation of rotor 1 within certain control range, so that associated components occur without before and after rotation Dislocation；Detonation transmission part 7 is mainly used in igniting priming system with passing the fiery mating reaction of part 4；Body 8 is the main body machine of interrupter One of structure, the hole or cell body for accommodating interrupter critical piece are offered in its both ends of the surface；Gunpowder pin removal 9 is interrupter One of securing member, for rotor 1 to be locked in into safe condition.

Further, rotor 1 and body 8 are in cylindrical structural, are offered on the one end side of body 8 and accommodate rotor 1 Rotor hole 801, rotor hole 801 is blind cylindrical hole, the coaxial sleeve of rotor 1 in rotor hole 801, and can opposing body 8 enter Row rotates, and the height of rotor 1 and the depth of rotor hole 801 are preferably identical.

Specifically, as shown in figures 2-3, the side end face for deviating from the bottom of rotor hole 801 using rotor 1 is turning as its upper surface On the upper surface of son 1, the torsional spring slot 101 for placing torsion spring 201 in driving part 2 is offered, torsional spring slot 101 is annular groove, It is centrally located on the axis of rotor 1, and the bar shaped for being further opened with matching with the protruding end on torsion spring 201 on torsional spring slot 101 is recessed Groove, the both sides of torsional spring slot 101 are further opened with branch ear slot, and for placing the both sides journal stirrup of pressing plate 204, the depth of torsional spring slot 101 is excellent Choosing is slightly below the thickness sum of pressing plate 204 and torsion spring 201, and its upper surface can protrude the upper end of rotor 1 after guarantee pressing plate 204 is fixed Face.It is further opened with connecting the through hole of the both sides end face of rotor 1 on rotor 1, the shaft hole as the rotating shaft 202 of arrangement driving part 2 102, the axis of shaft hole 102 overlaps with the axis of rotor 1.

Further, the arc groove 1010 for placing guide finger 6 is further opened with the upper surface of rotor 1, arc is recessed Groove 1010 is connects the intercommunicating pore of the both ends of the surface of rotor 1, and the center of circle of groove is located on the axis of rotor 1, i.e. arc groove 1010 The each section of distance away from the axis of rotor 1 is all equal.In a preferred embodiment, guide finger 6 is fixedly installed on arc groove 1010 are fixed on body 8 close to one end of pin hole 107, the bottom of guide finger 6；Rotor 1 under the limitation of guide finger 6, Rotated in one fixed angle, this angle corresponds to the angle of arc groove 1010.The both ends respective rotor 1 of arc groove 1010 The angle in the end face center of circle is in a preferred embodiment 90 °, and certainly, the angle of arc groove 1010 also can be as the case may be Select other numerical value, such as 75 °, 85 °, 105 °, 135 ° etc., in a preferred embodiment, the angle model of arc groove 1010 Enclose for 75 °~135 °.

Correspondingly, using rotor 1 close to a side end face of the bottom of rotor hole 801 as its lower surface, in the lower surface of rotor 1 On, flash hole 103 is offered, flash hole 103 is shoulder hole, and fiery part 4 is passed for fixed；Also opened on the lower surface of rotor 1 Provided with the 4th blind hole 104, the 4th blind hole 104 is also shoulder hole, for installing locking member 5；In addition, on the lower surface of rotor 1 Three shrinkage pools are further opened with, three shrinkage pools are preferably internal diameter identical blind hole, and the diameter of shrinkage pool is not specifically limited, can basis Concrete condition selects, and three shrinkage pools are respectively to be used to place the 3rd blind hole 106 of inertial elements part 3, corresponding detonation transmission part 7 5th blind hole 105, and for pin hole 107 corresponding with the latch ends of gunpowder pin removal 9.Above-mentioned shoulder hole and shrinkage pool are opened If position is not specifically limited, can decision design as the case may be, but the position relationship of shoulder hole and shrinkage pool must be with Corresponding hole location correspondingly opens up on body 8, the distance and arc groove of the shoulder hole center of circle and the shrinkage pool center of circle with the center of circle of rotor 1 1010 distances away from the center of circle are identical, and the center of circle of center of circle respective rotor 1 of flash hole 103, the 5th blind hole 105 angle must and arc The angle of connected in star 1010 is identical, the folder that the 3rd blind hole 106, two centers of circle of pin hole 107 are formed with the line in the center of circle of rotor 1 Angle is also identical with the angle of arc groove 1010.

Body 8 corresponding with rotor 1, being shown such as Fig. 9~10 in a preferred embodiment, respective rotor 1 on body 8 Offer corresponding hole slot.Specifically, the overall preferably cylindrical structure of body 8, the shape that its upper surface corresponds to rotor 1 are set Rotor hole 801 corresponding with the size of rotor 1 is equipped with, i.e. rotor hole 801 is the cylindrical shrinkage pool with certain depth and diameter； Dead axle hole 109 on the lower surface of the bottom end face center respective rotor 1 of rotor hole 801 offers shaft hole 802, shaft hole 802 essentially cylindrical blind holes, its side offer vertical bar connected in star, for fixed rotating shaft 202；The two of shaft hole 802 Side is correspondingly disposed with two blind holes, i.e. the first blind hole 803 and the second blind hole 804.Wherein, the first blind hole 803 is used to house inertia One end of securing member 3, the second blind hole 804 are used to house gunpowder pin removal 9, and further, two blind hole centers of circle are for body 8 The distance of axis is identical with distance of the arc groove 1010 away from axis on rotor 1, and two blind hole centers of circle and rotor hole 801 The angle that bottom surface circle center line connecting is formed is identical with the angle of arc groove 1010, that is, ensures that fuze mechanism is in a safe condition When, the first blind hole 803 aligns with the 3rd blind hole 106 on the lower surface of rotor 1, the second blind hole 804 and inserting on the lower surface of rotor 1 Pin-and-hole 107 aligns, so as to ensure that the insurance of the two-stage of interrupter can lock rotor 1 in the secure state when initial.

Further, the 4th blind hole 104 on the bottom surface of rotor hole 801 in respective rotor 1 is provided with ball pin hole 805, is used for When ensureing that fuze mechanism is in arm-to-arm, the locking member 5 on rotor 1 can align therewith；It is corresponding on the bottom surface of rotor hole 801 The guide finger 6 arranged on rotor 1 is provided with screwed hole 806, the bottom spiral for being directed to pin 6 is fixed on screwed hole 806 In, rotor 1 is limited within certain slewing area indirectly.Side position hole 807 is further opened with the side of body 8, it is opened up Position is that lock hole 108 and the side position hole 807 of rotor 1 align when ensureing that fuze mechanism is in a safe condition；Further, exist The propagation of explosion hole 808 for placing detonation transmission part 7 is offered on the lower surface of body 8, the depth in propagation of explosion hole 808 is preferably from body 8 Lower surface connection rotor hole 801 bottom surface, the internal diameter in propagation of explosion hole 808 is not especially limited, can be preferred as the case may be Design, but fuze mechanism is must assure that in arm-to-arm, the flash hole 103 above rotor 1 must align with propagation of explosion hole 808, Ensure that passing fiery part 4 can align with detonation transmission part 7, so as to ensure that Explosive sequence can align.

Further, be as shown in Figures 4 and 5 the driving part 2 in a preferred embodiment, its mainly include torsion spring 201, Rotating shaft 202, rolling bearing 203 and pressing plate 204, torsion spring 201 are mainly that the rotation of rotor 1 provides driving force, and its driving force is not Required driving force when being rotate in place less than rotor 1；Rotating shaft 202 is multi-diameter shaft, following table of the less one end of its diameter of axle from rotor 1 Face passes through and passed from the shaft hole 102 on the upper surface of rotor 1, connects the part of upper level；It is further preferred that pressing plate 204 are fixed on the upper surface of rotor 1, prevent torsion spring 201 from throwing away, and its upper surface protrudes the upper surface of rotor 1, is easy to 1 turn of rotor When dynamic, the only upper surface of pressing plate 204 and upper level component contact, and the upper surface of rotor 1 is reduced not with upper level component contact CONTACT WITH FRICTION area, reduce the rotary resistance of rotor 1；In order to further reduce the pivoting friction resistance of rotor 1, in rotating shaft Rolling bearing 203 is provided between 202 and the lower surface of rotor 1, rolling bearing 203 is set in one that rotating shaft 202 passes through rotor 1 End, and in the dead axle hole 109 being arranged on the lower surface of rotor 1；In addition, the bottom of rotating shaft 202 is fixed on the rotating shaft among body 8 Among hole 802, in order to prevent rotating shaft 202 from being rotated in shaft hole 802, the side of the bottom fixing end of rotating shaft 202 is provided with one Individual perpendicular strip bulge, shaft hole 802 is correspondingly arranged on a groove, and after rotating shaft 202 is put into shaft hole 802, rotating shaft 202 is relative Do not rotated in body 8.

The inertial elements part 3 being illustrated in figure 6 in a preferred embodiment, it is mainly by inertia cylinder 301 and inertia spring 302 compositions, one end of inertia cylinder 301 offers the groove of fixed one end of inertial spring 302.In the secure state, inertia cylinder 301 It is placed in the 3rd blind hole 106 on the side end face of rotor 1 one, insert depth is preferably 2~3mm, the other end of inertial spring 302 It is placed in the first blind hole 803 on body 8；Rotor 1 is during safe condition turns to arm-to-arm, inertial spring 302 In compressive state and overall embedded first blind hole 803 of inertial elements part 3；When rotor 1 turns to arm-to-arm, first is blind Hole 803 is aligned with the pin hole 107 on rotor 1, and inertia cylinder 301 is embedded in pin hole 107 to lock the arm-to-arm.

The biography fire part 4 being illustrated in figure 7 in a preferred embodiment, it is mainly by flame detonator 401, the and of shell 402 Beam 403 forms, and screw thread is preferably offered on shell 402, and coordinate the flash hole 103 for being fixed on rotor 1 by screw thread In, pass the lower surface that its lower end after fiery part 4 is fixed does not protrude rotor 1；Further, the bottom beam 403 of fiery part 4 is passed Preferably red copper pad, for buffer protection flame detonator 401, prevent the unexpected triggering flame detonator 401 that clashes.

The locking member 5 being illustrated in figure 8 in a preferred embodiment, it is mainly by ball pin 501, the and of Lock spring 502 Pressure spiral shell 503 forms, and presses and offers screw thread on the outer peripheral face of spiral shell 503, for locking member 5 to be arranged on the lower surface of rotor 1 In 4th blind hole 104, and press the lower surface of the not prominent rotor 1 in lower surface of spiral shell 503；The upper end of Lock spring 502 is placed on pressure spiral shell In 503, its lower end is placed in the upper recess of ball pin 501, and when fuse is in a safe condition, Lock spring 502 is in pressure Contracting state, the bottom of ball pin 501 contact with body 8.When rotor 1 turns to arm-to-arm from safe condition, locking member 5 Aligned with the ball pin hole 805 on body 8, the Lock spring 502 in compressive state promotes ball pin 501 to be embedded into ball pin hole 805 In, the position of rotor 1 is locked in state in place.

In the interrupter of a preferred embodiment, when it is in initial safe state, the first blind hole on body 8 803 align with the 3rd blind hole 106 on the lower surface of rotor 1 to house inertial elements part 3, house the second of gunpowder pin removal 9 Blind hole 804 aligns with the pin hole 107 on the lower surface of rotor 1, i.e., the inertia cylinder 301 of inertial elements part 3 is embedded in the 3rd blind hole In 106, the inertial spring 302 of the other end is embedded in the first blind hole 803, and as the level of safety of interrupter, and gunpowder is pulled pin In the latch ends insertion pin hole 107 of device 9, as the other level of safety of interrupter, two-stage insures collective effect by rotor 1 The home position of safe condition is locked in, driving part 2 can not drive rotor 1 to rotate, and now, pass fiery part 4 away from propagation of explosion portion Part 7, even if passing the fiery accidental action of part 4, detonation transmission part 7 will not be also ignited, fully ensures that the security of fuze mechanism；Work as fuse When mechanism is transformed into arm-to-arm by safe condition, i.e., when interrupter experiences lasting environment overload, inertial elements part 3 Inertia cylinder 301 under sustained overload effect, move by compression inertial spring 302, threeth blind hole of the inertia cylinder 301 from embedded rotor 1 Depart from 106, inertial elements part 3 releases the constraint to rotor 1.Meanwhile control system is assigned power supply to gunpowder pin removal 9 and referred to Order so that the latch ends of gunpowder pin removal 9 depart from from pin hole 107, release the constraint to rotor 1.Now, rotor 1 is driving Under the twisting resistance driving of the torsion spring 201 of dynamic component 2, arm-to-arm, in this course, driving part are rotated to by safe condition 2 driving force of torsion spring 201 otherwise required driving force when being rotate in place less than rotor 1, guide finger 6 plays in this course leads To effect and position-limiting action, ensure that rotor 1 can turn to correspondence position, and the position can be limited to.When fuze mechanism is changed To during arm-to-arm, in ball pin hole 805 corresponding to the insertion of ball pin 501 of locking member 5, accordingly, gunpowder pin removal 9 disconnects electricity Source, the first blind hole 803 now with the lower surface of original rotor 1 be used for house the latch ends of gunpowder pin removal 9 pin hole 107 it is right Just, then the inertia cylinder 301 of inertial elements part 3 is embedded in pin hole 107 to lock the arm-to-arm, i.e. now locking member 5 and inertial elements part 3 under arm-to-arm interrupter carry out state locking.Further, the biography fire under arm-to-arm Part 4 aligns with detonation transmission part 7, when primary priming system acts on, ignites and passes fiery part 4, then ignites detonation transmission part 7, finally Complete the ignition of whole priming system.

As it will be easily appreciated by one skilled in the art that preferred embodiment of the present utility model is the foregoing is only, not To limit the utility model, any modification of all made within spirit of the present utility model and principle, equivalent substitution and change Enter, should be included within the scope of protection of the utility model.

Claims (5)

1. a kind of constraint formula interrupter based on inertial elements part, including center are provided with the body (8) of rotor hole (801), And can the rotor (1) that rotates of opposing body (8) in coaxial sleeve insertion rotor hole (801), it is characterised in that

The end face of respective rotor (1) offers first blind hole of accommodating inertial elements part (3) one end on the body (8) (803) and for housing the propagation of explosion hole (808) of detonation transmission part (7)；

Offered on the rotor (1) for the accommodating flash hole (103) for passing fiery part (4), blind with first in the secure state Inertial elements part (3) other end that is used for of hole (803) position correspondence is housed wherein to lock the 3rd blind hole of the safe condition (106) it is corresponding with first blind hole (803) and under arm-to-arm to be used for described inertial elements part (3) one end and hold Put wherein to lock the pin hole of the arm-to-arm (107).

2. the constraint formula interrupter according to claim 1 based on inertial elements part, wherein, on the rotor (1) Arc groove (1010) is offered, is oriented to for turning to arm-to-arm from safe condition for rotor (1) and limits rotor (1) Rotational angle.

3. the constraint formula interrupter according to claim 2 based on inertial elements part, wherein, it is described on cross section The angle that the line at arc groove (1010) both ends and rotor hole (801) center is formed is changed with rotor (1) from safe condition It is identical for the angle that need to be rotated during arm-to-arm.

4. the constraint formula interrupter according to claim 2 based on inertial elements part, wherein, the arc groove (1010) angle between both ends and rotor (1) axis is 75 °~135 °.

5. the constraint formula interrupter according to claim 1 or 2 based on inertial elements part, wherein, the inertia is protected Dangerous part (3) includes inertia cylinder (301) and inertial spring (302), and one end of the inertia cylinder (301), which offers, fixes described be used to The groove of property spring (302) one end.