CN108609204A - A kind of gunpowder constraint formula separation actuator and its manufacturing method - Google Patents

Abstract

A kind of gunpowder constraint formula separation actuator and its manufacturing method, belong to Actuator technique field.The present invention includes ontology, transfer bar mechanism, steel ball, driving spring, distribution, pressure spiral shell, presses spiral shell, gunpowder pin removal greatly.Gunpowder pin removal, two steel balls, transfer bar mechanism, two steel balls and distribution are sequentially distributed on ontology from side to the other side.After the energization of gunpowder pin removal is pulled out back, the locking to distribution is released, driving spring drives sales promotion campaign, realizes actuator function.Transfer bar mechanism carries out effective attenuation when the driving force of spring will be driven to be transmitted to gunpowder pin removal, and the frictional force being subject to when gunpowder pin removal being made to move is substantially reduced.The present invention has many advantages, such as that driving force is big, stroke is big, simple in structure, at low cost.The present invention also uses Seal Design, and inner body is metal, has the advantages that service life is high.

Description

A kind of gunpowder constraint formula separation actuator and its manufacturing method

Technical field

The invention belongs to Actuator technique field, more particularly to a kind of gunpowder constraint formula separation actuator and its manufacturer Method has many advantages, such as that driving force is big, stroke is big, simple in structure, at low cost.

Background technology

With the fast development of aeronautical and space technology, spatial operation task tends to diversification and complicates, more and more Spacecraft needs to complete On-orbit release and separation, such as satellite and the rocket separation, inter-satellite separation, the release of special payload etc..Space Isolation technics has become the research hotspot of aerospace field, is directly related to the completion of follow-up space tasks.

The actuator in spacecraft for separation is mainly propellant actuated device at present.The separation actuator of gunpowder driving is main Gas driven piston is generated using powder burning to do work, the usual stroke of propellant actuated device is smaller, and when driving force is larger, impact carries Lotus is also larger, in addition, being influenced by factors such as structure, gas pressure direction of transfer and sealings, there is reliabilities for propellant actuated device Low, the problems such as energy conversion efficiency is low, safety is poor.

Invention content

For the disadvantages described above or Improvement requirement of the prior art, the present invention provides a kind of gunpowder constraint formula separation actuator, The separation actuator is different by selecting using transfer bar mechanism as damping mechanism using gunpowder pin removal as constraint mechanism The driving spring of parameter can meet the different power outputs requirement of separation actuator, and the present invention is big with driving force, stroke is big, impact The advantages that load is small, simple in structure, at low cost.

The present invention a kind of gunpowder constraint formula detach actuator, including ontology, transfer bar mechanism, steel ball, driving spring, distribution, Press spiral shell, big pressure spiral shell and gunpowder pin removal, it is characterised in that：

Ontology is a stair-stepping cube structure, and material is intensity and the preferable 35CrMnSiA of hardness, body interior With ladder big hole and ladder small sircle hole, the side wall of ladder big hole and ladder small sircle hole is smooth, roughness 0.4, ladder Gunpowder pin removal and pressure spiral shell are placed in small sircle hole, and driving spring is placed in ladder big hole, promotes and presses spiral shell greatly, the side of ontology is also The through-hole of the other side is extended through there are one having from side, also there is the stepped groove for placing transfer bar mechanism on ontology；

The transfer bar mechanism includes mounting base and N number of push rod, and 2≤N≤7, the mounting base cross section is "U" shaped, Mounting base bottom is provided with through-hole, and through-hole diameter is more than the diameter of steel ball, and N number of push rod is loaded on the mounting base by axis pin respectively Between left and right sidewall, N number of putter shape is wedge-shaped cylinder, and N number of push rod all has bottom surface and the work relative to inclined bottom surface There is chamfering, the first push rod big end to be located at through-hole side, are loaded on by axis pin for face, N number of push rod bottom surface and push rod small end intersection edges Corresponding with the lead to the hole site in the middle part of the first push rod between the left and right sidewall of the mounting base, the first push rod working face is towards institute Through-hole is stated, the first push rod bottom surface and the through-bore axis are vertical, and it is another that the second push rod big end with respect to the first push rod big end is located at through-hole Side, by the way that between left and right sidewall of the axis pin loaded on the mounting base, the second push rod working face and the first push rod small end fall Angular contact, contact point are located in the middle part of the second push rod between axis pin, and the second push rod bottom surface and the through-bore axis are vertical, remaining The position relationship of N-2 push rod and so on, the ladder big hole of the through-hole direction installation distribution of the transfer bar mechanism, and push away The through-hole of linkage and the through-hole of the ontology are coaxial, axis pin and installation bore transition cooperation, the interporal lacuna of axis pin and N number of push rod Cooperation；

N number of push rod constitutes lever mechanism, according to lever principle, the arm of force ratio L of N number of push rod as transmission mechanism executive item =L1L2LN, wherein L1 are the arm of force ratio of the first push rod, and value is the contact point of the first push rod and steel ball to first Push rod is at a distance from the second push rod contact point；L2 is the arm of force ratio of the second push rod, and value is connecing for the second push rod and the first push rod Contact to the second push rod at a distance from third push rod contact point, remaining and so on, transfer bar mechanism is by previous stage movement load When being transmitted to next stage, the movement load that next stage is subject to can decay to the 1/L of upper level movement load, N number of push rod structure At the displacement equations multiple of transfer bar mechanism can be determined using trajectory tangential method by geometric construction；

The trajectory tangential method is both that, since each push rod is rigid member, previous push rod is around axis pin rotary motion When, push subsequent push rod around respective axis pin rotary motion successively, and the contact point of previous push rod and the latter push rod is rear It is moved on the working face of one push rod, is based on this, the movement locus of N number of push rod can be obtained by the geometry technique of painting；

The distribution is made of big cylinder, cylinder and small column, and the side wall of the big cylinder, cylinder and small column is smooth, Roughness is 0.4, and the material of distribution is intensity and the preferable 35CrMnSiA of hardness, and big cylinder circumferentially has big groove, cylinder End has little groove, and the depth of the big groove is 1.5mm~2mm, and the upper and lower ends of big groove have inclined-plane, two inclined-planes 70 °~85 ° of the angle of composition, the angle on two inclined-planes is identical, the inclined-plane of big groove upper and lower ends and big cylindrical side transition Position height 3mm~3.5mm, and the position rounded corner R0.5 of transition also have in distribution threaded hole, threaded hole outer for connecting Portion's driven device；

The gunpowder pin removal is that common gunpowder drives the principle of piston reverse movement to be made, and belongs to common skill Art, details are not described herein.It is constrained and is promoted as constraint mechanism using gunpowder pin removal, so set, gunpowder pin removal is in very little Stroke under, so that it may to realize operative constraint to distribution, and due to the presence of transfer bar mechanism, gunpowder pin removal is with the drive of very little Power can drive.

Usually, gunpowder pin removal locking steel ball and transfer bar mechanism, distribution are constrained on reset condition, when gunpowder pin removal is logical After electricity, armature overcomes drag and steel ball the rubbing to the frictional force and armature of armature and the ladder small sircle hole of ontology of resetting spring It wipes power to move downward, armature releases the locking to steel ball and transfer bar mechanism, promotes at this point, the driving spring in compressive state pushes Movement, the decline of pressure that transfer bar mechanism can will drive spring to be transmitted to gunpowder pin removal, so so that the installation of gunpowder pin removal is smaller Gunpowder, under smaller driving force can reliably working, avoid entire mechanism have big powder volume, improve entire machine The safety of structure.

Further, the depth dimensions range phase of 1/6~1/3 size of the steel ball size and the big groove of distribution Together, and the size in steel ball insertion big groove is 0.6mm~1mm.So set, being because gunpowder constraint formula separation actuator exists In use, it would generally be subjected to violent vibration environment, since the driving force of driving spring is big, under vibration, steel ball and distribution The position of contact usually will appear impression or pit.If the dogging beam of steel ball is too small, it is possible to will appear steel ball and can't lock distribution The case where, if the dogging beam of steel ball is too big, sometimes also will appear steel ball cannot reliably release to promoting the case where locking.Pass through It is 300m/s to carry out overload quantity to 10 hair increments², duration 3s analog vibration experiment, steel ball insertion promote big groove in Dogging beam when being 0.6mm~1mm, steel ball is best, reliability to the locking of distribution and the functional reliability to unlock It is 100%.When dogging beam is 0.5mm, occur the case where 1 hair accidental action in vibration processes, when dogging beam is 1.1mm, , there is the case where 1 hair does not act in function reliability experiment after vibration.With the increase of dogging beam, response time when effect It is corresponding to extend, it is contemplated that assembly and mismachining tolerance, dogging beam select 0.6mm~1mm.

Further, gasket and small pressure spiral shell are also installed in the both sides through-hole end face of the ontology, are put in the little groove of distribution When setting sealing ring, pressure spiral shell and big pressure spiral shell installation, flank applies fluid sealant.

Further, a kind of gunpowder constraint formula separation actuator is manufactured to include the following steps：

(a) transfer bar mechanism is first installed on the body, there is the mounting base of transfer bar mechanism one end of through-hole to be directed toward installation driving The side of spring；

(b) two steel balls of installation gunpowder pin removal side, while locking two steel balls and transfer bar mechanism, lock pin with lock pin One end there is the screw thread to match with the threaded hole at the through-hole both ends of ontology, and distance x of the lock pin other end apart from steel ball with There is on transfer bar mechanism between N number of push rod following relationship：

A ＜ x≤b

Wherein a be distance of N number of push rod in reset condition, b be N number of push rod when by external force, according to trajectory tangential Method, N number of push rod are distance when will be disengaged from contacting with each other；

(c) on ontology will there is the side of lock pin to place downwards in step (b), the setting of step (b) ensures steel ball and pushes away When being moved to lock pin direction, the sequence of push rod will not be upset the push rod of linkage, can reform into the state of step (b). Two steel balls are installed from another side through hole of ontology, ontology is pointed up according to the circular hole of installation driving spring and is placed, together When should keep installation two steel balls also in the through-hole of ontology；

(d) driving spring, distribution and sealing ring are installed together, are compressed in place with forcing press, is driven due to being placed on ontology The circular hole of dynamic spring, distribution and sealing ring is stepped hole, can guarantee that distribution is pressed in the central axes of groove and the through-hole of ontology Axis overlaps, another lock pin is installed in the other side of through-hole, this lock pin is embedded into the groove of distribution, and embedded quantity is more than 1mm, After this lock pin is installed in place, forcing press is removed；

(e) lock pin of gunpowder pin removal side is pointed up, then removes the lock pin of gunpowder pin removal side, installed Gunpowder pin removal and pressure spiral shell, finally remove the lock pin of the other side, gasket and small pressure spiral shell are installed respectively at the through-hole both ends of ontology.

Beneficial effects of the present invention are embodied in：

A) use gunpowder pin removal as constraint mechanism, gunpowder pin removal can be with the stroke and driving force of very little It realizes that the constraint of the distribution to big stroke and large driving force, gunpowder pin removal can reliably be driven with seldom gunpowder, improves The safety of entire mechanism；

B) transfer bar mechanism is set, when the driving force of spring can will be driven to be transmitted to gunpowder pin removal, carry out effective attenuation, from And gunpowder pin removal can reliably be driven with the driving force of very little；

C) it uses steel ball as transmission mechanism, further decreases friction factor, while the work for improving entire mechanism can By property.

Description of the drawings

Fig. 1 is that gunpowder of the present invention constrains formula separation actuator original state structural schematic diagram；

Fig. 2 is the original state structural schematic diagram that gunpowder of the present invention constrains that formula detaches actuator (being free of ontology)；

Fig. 3 is that gunpowder of the present invention constrains formula separation actuator work status architecture schematic diagram in place；

Fig. 4 is the body construction schematic diagram that gunpowder of the present invention constrains that formula detaches actuator；

Fig. 5 is the transfer bar mechanism structural schematic diagram that gunpowder of the present invention constrains that formula detaches actuator；

Fig. 6 is the distribution structural schematic diagram that gunpowder of the present invention constrains that formula detaches actuator；

Fig. 7 is the detent configuration schematic diagram that gunpowder of the present invention constrains that formula detaches actuator.

Specific implementation mode

In order to make the purpose , technical scheme and advantage of the present invention be clearer, below in conjunction with attached drawing and specific implementation Example, invention is further described in detail.It should be appreciated that specific embodiment described herein is only used to explain this hair It is bright, it is not intended to limit the present invention.In addition, technical characteristic involved in the various embodiments of the present invention described below It can be combined with each other as long as they do not conflict with each other.

A kind of gunpowder constraint formula of the present invention detaches actuator better embodiment, structure and component relationship such as Fig. 1 and Fig. 2 It is shown, including：Ontology 1, steel ball 3, driving spring 4, promotes 5, pressure spiral shell 7, big pressure spiral shell 8 and gunpowder pin removal 11 at transfer bar mechanism 2, It is characterized in that：

Ontology 1 is as shown in figure 4, be a stair-stepping cube structure, material is that intensity and hardness are preferable 35CrMnSiA, 1 inside of ontology have ladder big hole 1-1 and ladder small sircle hole 1-2, ladder big hole 1-1 and ladder small sircle hole The side wall of 1-2 is smooth, roughness 0.4, and gunpowder pin removal 11 and pressure spiral shell 7, ladder big hole 1- are placed in ladder small sircle hole 1-2 Place driving spring 4 in 1, promote 5 and big pressure spiral shell 8, the side of ontology 1 also have there are one the through-hole 1- of the other side is extended through from side 3, also there is on ontology 1 the stepped groove 1-4 for placing transfer bar mechanism 2；

The transfer bar mechanism 2 as shown in figure 5, including I 2-1 of mounting base 2-5 and push rod, II 2-2 of push rod, III 2-3 of push rod, The cross sections the mounting base 2-5 are "U" shaped, and the bottoms mounting base 2-5 are provided with through-hole, and through-hole diameter is more than the diameter of steel ball 3, pushes away I 2-1 of bar, II 2-2 of push rod and III 2-3 of push rod are respectively by between left and right sidewalls of the axis pin 2-4 loaded on the mounting base 2-5, pushing away The shape of III 2-3 of I 2-1 of bar, II 2-2 of push rod and push rod is wedge-shaped cylinder, and I 2-1 of push rod, push rod II 2-2 and III 2-3 of push rod are equal Working face with bottom surface and relative to inclined bottom surface, I 2-1 of push rod, II 2-2 of push rod and III bottom surfaces 2-3 of push rod and push rod small end There is intersection edges chamfering, III 2-3 big ends of push rod to be located at through-hole side, and the left and right sides of the mounting base 2-5 is loaded on by axis pin 2-4 Corresponding with the lead to the hole site in the middle part of push rod III 2-3 between wall, III 2-3 working faces of push rod are towards the through-hole, III 2-3 of push rod Bottom surface and the through-bore axis are vertical, and II 2-2 big ends of push rod are located at the through-hole other side with respect to III 2-3 big ends of push rod, pass through axis pin Between left and right sidewalls of the 2-4 loaded on the mounting base 2-5, II 2-2 working faces of push rod and the small chamfers of III 2-3 of the push rod connect It touches, contact point is located in the middle part of II 2-2 of push rod between axis pin 2-4, and II bottom surfaces 2-2 of push rod and the through-bore axis are vertical, push rod I 2-1 big ends are located at the through-hole other side with respect to II 2-2 big ends of push rod, and the left and right sidewall of the mounting base 2-5 is loaded on by axis pin 2-4 Between, II 2-2 small end chamfer contacts of I 2-1 working faces of push rod and the push rod, contact point is located in the middle part of I 2-1 of push rod and axis pin 2- Between 4, I bottom surfaces 2-1 of push rod and the through-bore axis are vertical, and the ladder of through-hole towards the installation distribution 5 of the transfer bar mechanism 2 is big Circular hole 1-1, and the through-hole of transfer bar mechanism 2 and the through-hole 1-3 of the ontology 1 are coaxial, axis pin 2-4 and mounting base 2-5 hole transition is matched It closes, the interporal lacuna of axis pin 2-4 and III 2-3 of I 2-1 of push rod, II 2-2 of push rod and push rod coordinates；

I 2-1 of push rod, II 2-2 of push rod and III 2-3 of push rod constitute lever mechanism, according to lever as transmission mechanism executive item Principle, the arm of force ratio L=L1L2L3, wherein L1 of III 2-3 of I 2-1 of push rod, II 2-2 of push rod and push rod are the power of III 2-3 of push rod Arm ratio, value be III 2-3 of push rod and steel ball 3 contact point to III 2-3 of push rod at a distance from II 2-2 contact points of push rod, L2 is pushes away The arm of force ratio of II 2-2 of bar, the contact point that value is II 2-2 of push rod and III 2-3 of push rod to II 2-2 of push rod and I 2-1 contact points of push rod Distance, L3 is the arm of force ratio of I 2-1 of push rod, and value is the contact point of I 2-1 of push rod and II 2-2 of push rod to I 2-1 of push rod and the side The distance of 3 contact point of steel ball, transfer bar mechanism 2 by previous stage movement load when being transmitted to next stage, movement that next stage is subject to Load can decay to the 1/L of upper level movement load, the push rod machine that I 2-1 of the push rod, II 2-2 of push rod and III 2-3 of push rod are constituted The displacement equations multiple of structure 2 can be determined by geometric construction using trajectory tangential method；

It is described to promote 5 as shown in fig. 6, be made of big cylinder 5-1, cylinder 5-2 and small column 5-3, the big cylinder 5-1, The side wall of cylinder 5-2 and small column 5-3 are smooth, roughness 0.4, and the material for promoting 5 is that intensity and hardness are preferable Circumferentially there is big groove 5-4, the ends cylinder 5-2 to have little groove 5-5, the big groove 5-4 by 35CrMnSiA, big cylinder 5-1 Depth be 1.5mm, the upper and lower ends of big groove 5-4 have inclined-plane, 80 ° of the angle of two inclined-planes composition, the angle on two inclined-planes Spend identical, the inclined-plane of big groove 5-4 upper and lower ends and the position height 3.5mm of big cylinder 5-1 side transition, and the position of transition Rounded corner R0.5, promoting also has threaded hole 5-6 on 5, threaded hole 5-6 is for connecting external driven device；

Further, 1/6 size of 3 diameter of the steel ball is identical as the depth dimensions of big groove 5-4 for promoting 5, and It is 0.6mm that steel ball 3, which is embedded in the size in big groove 5-4,.

Further, gasket 10 and small pressure spiral shell 9 are also installed in two end faces side through hole 1-3 of the ontology 1, promote 5 it is small Sealing ring 6 is placed in groove 5-5, when pressure spiral shell 7 and big pressure spiral shell 8 are installed, flank applies fluid sealant.

A kind of gunpowder constraint formula of manufacture as described in the embodiment detaches actuator, includes the following steps：

(a) transfer bar mechanism 2 is first installed on ontology 1, there is the mounting base 2-5 of transfer bar mechanism 2 one end of through-hole to be directed toward peace The side of dress driving spring 4；

(b) two steel balls 3 of 11 side of installation gunpowder pin removal, while locking two steel with lock pin 12 as shown in Figure 7 Ball 3 and transfer bar mechanism 2, one end of lock pin 12 has the screw thread that the threaded hole with the both ends through-hole 1-3 of ontology 1 matches, and locks Have between I 2-1 of distance x of 12 other end of pin apart from steel ball 3 and 2 upper push-rod of transfer bar mechanism, III 2-3 of II 2-2 of push rod and push rod Following relationship：

A ＜ x≤b

Wherein a is the distance of I 2-1 of push rod, II 2-2 of push rod and III 2-3 of push rod in reset condition, and b is I 2-1 of push rod, pushes away II 2-2 of bar and III 2-3 of push rod are when by external force, and according to trajectory tangential method, I 2-1 of push rod, II 2-2 of push rod and III 2-3 of push rod are Distance when will be disengaged from contacting with each other；

(c) side with lock pin 12 on ontology in step (b) 1 is placed downwards, the setting of step (b) ensures steel ball 3 And the push rod of transfer bar mechanism 2, when being moved to 12 direction of lock pin, the sequence of push rod will not be upset, and step (b) can be reformed into State.Two steel balls 3 are installed from another side through hole 1-3 of ontology 1, ontology 1 is directed toward according to the circular hole of installation driving spring 4 Fang Jinhang is placed, while two steel balls 3 of installation should be kept also in the through-hole 1-3 of ontology 1；

(d) driving spring 4, distribution 5 and sealing ring 6 are installed together, are compressed in place, due to being put on ontology 1 with forcing press The circular hole for setting driving spring 4, distribution 5 and sealing ring 6 is stepped hole, can guarantee and promotes 5 central axes and the ontologies for being pressed to groove 5-4 The central axes of 1 through-hole 1-3 overlap, and install another lock pin 12 in the other side of through-hole 1-3, this lock pin 12 is embedded into distribution 5 Groove 5-4 in, embedded quantity removes forcing press more than 1mm after this lock pin 12 is installed in place；

(e) lock pin 12 of 11 side of gunpowder pin removal is pointed up, then by the lock pin 12 of 11 side of gunpowder pin removal It removes, installation gunpowder pin removal 11 and pressure spiral shell 7 finally remove the lock pin 12 of the other side, distinguish at the both ends through-hole 1-3 of ontology 1 Gasket 10 and small pressure spiral shell 9 are installed.

Working principle of the present invention is as follows：

Usually, gunpowder pin removal 11 locks steel ball 3 and transfer bar mechanism 2, promotes 5 and is constrained on original shape as shown in Figure 1 State, after gunpowder pin removal 11 is powered, gunpowder pin removal 11 overcomes steel ball 3 to pull pin the frictional force and gunpowder of gunpowder pin removal 11 Device 11 and the frictional force of the ladder small sircle hole 1-2 of ontology 1 move downward, and gunpowder pin removal 11 is released to steel ball 3 and transfer bar mechanism 2 Locking, at this point, in compressive state driving spring 4 push promote 5 movement, transfer bar mechanism 2 can will driving spring 4 be transmitted to gunpowder The decline of pressure of pin removal 11 so that gunpowder pin removal 11 under smaller driving force can reliably working, gunpowder constrains formula point It is as shown in Figure 3 from the state after actuator movement in place.

The above is only a preferred embodiment of the present invention, it should be pointed out that：For the ordinary skill people of the art For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (4)

1. a kind of gunpowder constraint formula detaches actuator, including ontology (1), transfer bar mechanism (2), steel ball (3), driving spring (4), distribution (5), pressure spiral shell (7), greatly pressure spiral shell (8) and gunpowder pin removal (11), it is characterised in that：

Ontology (1) is a stair-stepping cube structure, and material is intensity and the preferable 35CrMnSiA of hardness, and ontology (1) is interior Portion has ladder big hole (1-1) and ladder small sircle hole (1-2), the side wall of ladder big hole (1-1) and ladder small sircle hole (1-2) Smooth, roughness 0.4, ladder small sircle hole (1-2) is interior to place gunpowder pin removal (11) and pressure spiral shell (7), ladder big hole (1-1) Interior placement driving spring (4) promotes (5) and big pressure spiral shell (8), the side of ontology (1) also have there are one from side extend through the other side Through-hole (1-3), also there is on ontology (1) the stepped groove (1-4) for placing transfer bar mechanism (2)；

The transfer bar mechanism (2) includes mounting base (2-5) and N number of push rod, and 2≤N≤7, mounting base (2-5) cross section is "U" shaped, the bottom mounting base (2-5) are provided with through-hole, and through-hole diameter is more than the diameter of steel ball (3), and N number of push rod passes through axis pin respectively Between the left and right sidewall of (2-4) loaded on the mounting base (2-5), N number of putter shape is wedge-shaped cylinder, and N number of push rod all has Bottom surface and working face relative to inclined bottom surface, N number of push rod bottom surface and push rod small end intersection edges have chamfering, the first push rod big end It positioned at through-hole side, is loaded on by axis pin (2-4) between the left and right sidewall of the mounting base (2-5), the first push rod middle part and institute Lead to the hole site correspondence is stated, for the first push rod working face towards the through-hole, the first push rod bottom surface and the through-bore axis are vertical, and second Push rod big end is located at the through-hole other side with respect to the first push rod big end, and the left and right of the mounting base (2-5) is loaded on by axis pin (2-4) Between side wall, the second push rod working face and the first push rod small end chamfer contact, contact point is located in the middle part of the second push rod and pin Between axis (2-4), the second push rod bottom surface and the through-bore axis are vertical, the position relationship of remaining N-2 push rod and so on, The through-hole of the transfer bar mechanism (2) promotes the ladder big hole (1-1) of (5), and the through-hole of transfer bar mechanism (2) and institute towards installation State the through-hole (1-3) of ontology (1) coaxially, axis pin (2-4) coordinates with the hole mounting base (2-5) transition, axis pin (2-4) and N number of push rod Interporal lacuna cooperation；

N number of push rod constitutes lever mechanism, according to lever principle, the arm of force ratio L=of N number of push rod as transmission mechanism executive item L1L2 ... LN, wherein L1 are the arm of force ratio of the first push rod, and value is the contact point of the first push rod and steel ball (3) to the first push rod At a distance from the second push rod contact point；L2 is the arm of force ratio of the second push rod, and value is the contact point of the second push rod and the first push rod To the second push rod at a distance from third push rod contact point, remaining and so on, transfer bar mechanism (2) is passed by previous stage movement load When being delivered to next stage, the movement load that next stage is subject to can decay to the 1/L of upper level movement load, and N number of push rod is constituted The displacement equations multiple of transfer bar mechanism (2) can be determined using trajectory tangential method by geometric construction；

The distribution (5) is made of big cylinder (5-1), cylinder (5-2) and small column (5-3), the big cylinder (5-1), cylinder The side wall of (5-2) and small column (5-3) is smooth, roughness 0.4, and the material for promoting (5) is that intensity and hardness are preferable 35CrMnSiA, big cylinder (5-1) circumferentially have big groove (5-4), and the end cylinder (5-2) has little groove (5-5), described The depth of big groove (5-4) is 1.5mm~2mm, and the upper and lower ends of big groove (5-4) have inclined-plane, the angle of two inclined-planes composition 70 °~85 ° of degree, the angle on two inclined-planes is identical, inclined-plane and big cylinder (5-1) side transition of big groove (5-4) upper and lower ends Position height 3mm~3.5mm, and the position rounded corner R0.5 of transition, promoting also has threaded hole (5-6), threaded hole on (5) (5-6) is for connecting external driven device；

Usually, gunpowder pin removal (11) locking steel ball (3) and transfer bar mechanism (2) promote (5) and are constrained on reset condition, work as fire After medicine pin removal (11) energization action, gunpowder pin removal (11) overcomes frictional force and fire of the steel ball (3) to gunpowder pin removal (11) Medicine pin removal (11) and the frictional force of the ladder small sircle hole (1-2) of ontology (1) move downward, and gunpowder pin removal (11) is released to steel The locking of ball (3) and transfer bar mechanism (2), at this point, the driving spring (4) in compressive state, which pushes, promotes (5) movement, transfer bar mechanism (2) decline of pressure that spring (4) can will be driven to be transmitted to gunpowder pin removal (11) so that gunpowder pin removal (11) is in smaller driving It can reliably working under power.

2. a kind of gunpowder constraint formula as described in claim 1 detaches actuator, it is characterised in that：

1/6~1/3 size of steel ball (3) diameter is identical as the depth dimensions range of big groove (5-4) of distribution (5), And the size in the embedded big groove (5-4) of steel ball (3) is 0.6mm~1mm.

3. a kind of gunpowder constraint formula as described in claim 1 detaches actuator, it is characterised in that：

Gasket (10) and small pressure spiral shell (9) are also installed in end face two side through hole (1-3) of the ontology (1), promote the little groove of (5) Sealing ring (6) is placed in (5-5), when pressure spiral shell (7) and big pressure spiral shell (8) are installed, flank applies fluid sealant.

4. manufacturing a kind of gunpowder constraint formula as described in claim 1 or 3 detaches actuator, which is characterized in that including following step Suddenly：

(a) transfer bar mechanism (2) is first installed on ontology (1), there is the mounting base (2-5) of transfer bar mechanism (2) one end of through-hole to refer to To the side of installation driving spring (4)；

(b) two steel balls (3) of gunpowder pin removal (11) side are installed, while locking two steel balls (3) with lock pin (12) and pushing away Linkage (2), one end of lock pin (12) has the screw thread that the threaded hole with both ends through-hole (1-3) of ontology (1) matches, and locks Selling has following relationship between N number of push rod on distance x of (12) other end apart from steel ball (3) and transfer bar mechanism (2)：

A ＜ x≤b

Wherein a be distance of N number of push rod in reset condition, b be N number of push rod when by external force, according to trajectory tangential method, N A push rod is distance when will be disengaged from contacting with each other；

(c) side with lock pin (12) on ontology in step (b) (1) is placed downwards, the setting of step (b) ensures steel ball (3) and the push rod of transfer bar mechanism (2) to lock pin (12) direction when moving, and the sequence of push rod will not be upset, and can reform into The state of step (b) installs two steel balls (3) from another side through hole (1-3) of ontology (1), and ontology (1) is driven according to installation The circular hole of spring (4), which points up, to be placed, while two steel balls (3) of installation should be kept also in the through-hole (1- of ontology (1) 3) in；

(d) driving spring (4), distribution (5) and sealing ring (6) are installed together, are compressed in place, due to ontology (1) with forcing press The upper circular hole placed driving spring (4), promote (5) and sealing ring (6) is stepped hole, can guarantee that distribution (5) is pressed to groove (5-4) Central axes overlapped with the central axes of the through-hole (1-3) of ontology (1), another lock pin is installed in the other side of through-hole (1-3) (12), this lock pin (12) is embedded into the groove (5-4) of distribution (5), and embedded quantity is more than 1mm, after this lock pin (12) is installed in place, Remove forcing press；

(e) lock pin (12) of gunpowder pin removal (11) side is pointed up, then by the lock pin of gunpowder pin removal (11) side (12) it removes, installation gunpowder pin removal (11) and pressure spiral shell (7) finally remove the lock pin (12) of the other side, the through-hole in ontology (1) The both ends (1-3) are installed by gasket (10) and small pressure spiral shell (9) respectively.