CN2869753Y - Pull-plug pressure-spring type firing system for gun - Google Patents

Abstract

The utility model relates to a poking-fork and compressed-spring typed triggering system applied in a gun, which comprises a gun body, a sleeve, a firing pin, a return spring of the firing pin, a drive hammer, a drive hammer spring, a duck-mouth typed spring, a sleeve cap, sleeve-typed poking fork, a sleeve-typed return spring of the poking fork, a trigger, a return spring of the trigger, a locating stud of the trigger and a locating spring of the trigger. The concentric loop of the gun body is positioned in front of the sleeve, wherein a deep groove is arranged in the bottom axis direction of the front part of the sleeve, the return spring of the firing pin is arranged within the front part of the sleeve, the firing pin is arranged together with the return spring of the firing pin, the hammer and the hammer spring are arrange behind the return spring of the firing pin, the duck-mouth typed spring is embedded into the open groove which is positioned underside the hammer and the back-end sleeve is connected with the sleeve cap so as to enclose the system as a whole. The outside sleeve is positioned in the return spring of the loop-shaped poking fork that is arranged together with the back-end of the gun body, wherein the coaxial line has the sleeve-typed poking fork after the outside sleeve and the sector-shaped baffle is arranged within the outside sleeve. The duck-mouth typed spring, sleeve-typed poking fork and trigger are fit with each other. Featuring the secure performance and extensive application, the structure of the utility model is simple and rational in particular to be suitable for arranging the firearm with the cylindrical structure in the narrow space.

Description

Pull-fork spring-pressing trigger system for gun

Technical field

The utility model relates to the rifle trigger system, particularly a kind of pull-fork spring-pressing trigger system for gun.

Background technology

At present, owing to the function of use difference of various firearms, the rifle trigger system of many different operating principles, different structure appearred.The complex structural designs that existing firearms trigger system has, the serviceability that has is not good enough.Can be in tubular firearms structure the rifle of operate as normal then rare with trigger system.Because the division of firearms purposes is more and more thinner, serviceability requires more and more higher; Therefore, develop in safe and reliable, as the to be adapted at tubular structure small space can operate as normal rifle just become difficult problem that needs to be resolved hurrily in this field with trigger system.

The utility model content

The purpose of this utility model is to overcome above-mentioned weak point, provide a kind of simple in structure, easy to use, percussion is smooth and easy, performance is safe and reliable and the pull-fork spring-pressing trigger system for gun that is suitable for being provided with in the firearms tubular structure small space.

The technical scheme that the utility model adopted is for achieving the above object: a kind of pull-fork spring-pressing trigger system for gun is characterized in that this system comprises: gunlock body, sleeve, firing pin, firing pin return spring, hammer, hammer spring, duck-beak type spring, sleeve cap, shell-like shift fork, shell-like shift fork return spring, trigger, trigger return spring, trigger alignment pin, trigger locating pin spring; Described gunlock body concentric locking collar is located at the front end of sleeve, sleeve has a profound groove near the lower end of gunlock body portion is coaxial, be provided with the firing pin return spring in the corresponding gunlock body barrel forward end, sheathed firing pin in this firing pin return spring, be provided with hammer and hammer spring thereafter, be embedded the duck-beak type spring in the fluting of hammer downside, the rear end branch sleeve cap and the enclosed shape of sleeve are integral; The sleeve outside is positioned at gunlock body rear end sheathed shell-like shift fork return spring, and coaxial line is provided with the shell-like shift fork thereafter, and shell-like declutch shift shaft inner underside to the back-end is provided with fan shape baffle, and the part front end of upspringing of duck-beak type spring touches mutually with this fan shape baffle; And the profound groove back edge of sleeve is when the duck-beak type spring moves backward, the part of upspringing of duck-beak type spring formed stop and with its downward extruding; Lower end, the shell-like shift fork outside is provided with the trigger dowel hole perpendicular to shell-like shift fork axis, and trigger alignment pin hole wall lower end has a groove perpendicular to trigger dowel hole axis, is provided with trigger locating pin spring and trigger alignment pin in the trigger dowel hole; Trigger is

Shape, the parallel correspondence in middle part is provided with the twice beam, the front end face of beam vertically downward, the rear end face of beam vertically upward, have via hole on the rear end face of beam and be placed on the sleeve outside, the trigger return spring places between trigger rear end face and the sleeve cap, and the lateral separation correspondence respectively is provided with two dovetail grooves on the twice beam of trigger, and two wing structures of the interior trigger alignment pin of trigger dowel hole cooperate in relative positioned alternate in service with the dovetail groove that trigger is provided with on the shell-like shift fork.

The beneficial effects of the utility model are: this system efficiently solves the problem of how smooth and easy percussion with above-mentioned simple structure in the small space of gunlock body tubular structure.For different firearms provide a kind of simple and reasonable, manufacture craft is simple and direct, and is easy to use, with low cost, the pull-fork spring-pressing trigger system for gun that performance is safe and reliable, applied widely.

Description of drawings

Fig. 1 is the structural representation of the utility model when being in locking states;

Fig. 2 is that the utility model is in the structural representation in the time of can pulling the trigger state;

Fig. 3 is that the utility model is in the percussion structural representation of preceding moment;

Fig. 4 is the structural representation that the utility model is in moment when pulling the trigger;

Fig. 5 is that the utility model is in the structural representation when resetting after the percussion;

Fig. 6 is a tube-in-tube structure generalized section of the present utility model;

Fig. 7 is a tube-in-tube structure elevational schematic view of the present utility model;

Fig. 8 is a tube-in-tube structure side-looking generalized section of the present utility model;

Fig. 9 is a sleeve cap structural profile schematic diagram of the present utility model;

Figure 10 is a sleeve cap structure schematic side view of the present utility model;

Figure 11 is a hammer structural representation of the present utility model;

Figure 12 is a hammer structure top cross-sectional view of the present utility model;

Figure 13 is a hammer structure side-looking generalized section of the present utility model;

Figure 14 is a shell-like shift fork structural profile schematic diagram of the present utility model;

Figure 15 is a shell-like shift fork structure elevational schematic view of the present utility model;

Figure 16 is a shell-like shift fork structure side-looking generalized section of the present utility model;

Figure 17 is a duck-beak type spring structure schematic diagram of the present utility model;

Figure 18 is a duck-beak type spring structure schematic top plan view of the present utility model;

Figure 19 is a trigger configuration schematic diagram of the present utility model;

Figure 20 is a trigger configuration schematic side view of the present utility model;

Figure 21 is a trigger configuration schematic top plan view of the present utility model;

Figure 22 is a trigger locating pin structure schematic diagram of the present utility model;

Figure 23 is a trigger locating pin structure schematic top plan view of the present utility model.

The specific embodiment

Below in conjunction with accompanying drawing and preferred embodiment, details are as follows to the specific embodiment, structure, feature that foundation the utility model provides:

As Fig. 1～shown in Figure 23, a kind of pull-fork spring-pressing trigger system for gun is characterized in that this system comprises: gunlock body 1, sleeve 2, firing pin 3, firing pin return spring 4, hammer 5, hammer spring 6, duck-beak type spring 7, sleeve cap 8, shell-like shift fork 9, shell-like shift fork return spring 10, trigger 11, trigger return spring 12, trigger alignment pin 13, trigger locating pin spring 14.Gunlock body 1 concentric locking collar is located at the front end of sleeve 2 as described in (as Fig. 1～shown in Figure 5), sleeve 2 has a profound groove 15 near the lower end of gunlock body 1 parts is coaxial, be provided with firing pin return spring 4 and sheathed firing pin 3 in firing pin return spring 4 in corresponding gunlock body 1 sleeve 2 front ends, be provided with hammer 5 and hammer spring 6 thereafter, be embedded duck-beak type spring 7 in the fluting 16 of hammer 5 downsides, the rear end branch sleeve cap 8 (as Fig. 9, shown in Figure 10) and the enclosed shape of sleeve 2 are integral.Sleeve 2 outsides are positioned at gunlock body 1 rear end sheathed shell-like shift fork return spring 10, and coaxial line is provided with shell-like shift fork 9 thereafter, in the shell-like shift fork 9 center trepannings lower end establish one with duck-beak type spring 7 fan shape baffle 17 that the part front end cooperates of upspringing; Be that shell-like shift fork 9 axial rearward end inner undersides are provided with fan shape baffle 17, the part front end of upspringing of duck-beak type spring 7 touches mutually with this fan shape baffle 17.Lower end, shell-like shift fork 9 outside is provided with the trigger dowel hole 18 perpendicular to shell-like shift fork 9 axis, trigger dowel hole 18 wall lower ends have a groove 22 perpendicular to trigger dowel hole 18 axis, are provided with trigger locating pin spring 14 and trigger alignment pin 13 in its trigger dowel hole 18; Trigger 11 is

Shape, the parallel correspondence in middle part is provided with the twice beam, the front end face of beam vertically downward, the rear end face of beam vertically upward, have via hole 19 on the rear end face of beam and be placed on sleeve 2 outsides, trigger return spring 12 places between trigger 11 rear end faces and the sleeve cap 8, and the lateral separation correspondence respectively is provided with two dovetail grooves 20 on the twice beam of trigger 11, and two wing structures 23 of trigger dowel hole 18 interior trigger alignment pins 13 cooperate in relative positioned alternate in service with the dovetail groove 20 that trigger 11 is provided with on the shell-like shift fork 9.

Described sleeve 2 connects as one with gunlock body 1 tight fit.

Described trigger alignment pin 13 lower ends that cooperate with groove 22 location of dovetail groove 20 and trigger dowel hole 18 walls are two wing structures of parallel symmetry.

More particularly, sleeve 2 downsides that firing pin 3 and hammer 5 be housed at the same time have one section profound groove 15 (as Fig. 6, Fig. 7, shown in Figure 8), one firing pin return spring 4 is housed between firing pin 3 and the sleeve 2, establish a fluting 16 (as Figure 11 at hammer 5 downsides, Figure 12, shown in Figure 13), embed 7 (as shown in figure 17) of duck-beak type spring in the fluting 16, the connection termination of duck-beak type spring 7 embeds in the through hole 21 at hammer 5 flutings 16 rear portions, the hammer spring 6 that hammer 5 rear portions are provided with is sheathed on hammer 5 rear ends, the rear end of hammer spring 6 is hindered by sleeve cap 8, have the front end of profound groove 15 parts outside sleeve 2, the shell-like shift fork 9 that the profound groove 15 corresponding fan shape baffles 17 on that be provided with the part segment length in it and the sleeve 2 are housed is (as Figure 14, Figure 15, shown in Figure 16).In the use, press and be connected the trigger alignment pin 13 in the trigger dowel hole 18 on the shell-like shift fork 9, make trigger alignment pin 13 two wing structures 23 (as Figure 22, shown in Figure 23) disengaging trigger 11 prelocalization dovetail grooves 20, be that latching slot is (as Figure 19, Figure 20, shown in Figure 21), enter in the groove 22 of trigger dowel hole 18 walls on the shell-like shift fork 9 (as Figure 14, Figure 15, shown in Figure 16), trigger 11 breaks away from the restriction of trigger alignment pin 13, under 12 effects of trigger return spring, trigger 11 is ejected to the operating position, two wing structures 23 of trigger alignment pin 13 are under the effect of trigger locating pin spring 14, from shell-like shift fork 9, eject the groove 22 of trigger dowel hole 18 walls voluntarily, locate dovetail groove 20 and enter trigger 11 backs that are in ejection process, be that work nest is (as Figure 19, Figure 20, shown in Figure 21), trigger 11 is re-positioned at (as shown in Figure 2) on the shell-like shift fork 9, cocking 11, trigger 11 is by trigger alignment pin 13, driving shell-like shift fork 9 is moving after by forward direction on profound groove 15 positions of sleeve 2, the fan shape baffle 17 of shell-like shift fork 9 promotes duck-beak type spring 7 (as Figure 17, shown in Figure 180), drive hammer 5 motion backward simultaneously, and compression hammer spring 6, duck-beak type spring 7 is in the process of motion backward, its part of upspringing is stopped by profound groove 15 back edges of sleeve 2 and is subjected to downward extruding, when shell-like shift fork 9 moves to certain position, fan shape baffle 17 position contacting of upspring the part front end and the shell-like shift fork 9 of duck-beak type spring 7 move down until disengaging (as shown in Figure 3) thereupon, when contact breaks away from, the power pop-off that duck-beak type spring 7 is pushed rearward, and forwards the obstruction to motion also disappears simultaneously, is promoted by duck-beak type spring 7 and hammer 5 that WKG working moves backward forwards also disappears (as shown in Figure 3) simultaneously to the obstruction of motion; Like this, hammer 5 is under the promotion of compressed hammer spring 6, moment is driving duck-beak type spring 7 and is travelling forward, hammer 5 impacts firing pin 3 in this motion later stage, firing pin 3 percussion ammunitions (as shown in Figure 4), thereby finish firing action, firing pin 3 is got back to the position before the percussion under the effect of firing pin return spring 4, shell-like shift fork 9 is under the effect of trigger return spring 14, travel forward with trigger 11, crossing the upspringing during part of hammer 5 and duck-beak type spring 7, its inertia drives its compression shell-like shift fork return spring 10, after it travels forward and finishes (as shown in Figure 5), the part front end of upspringing of duck-beak type spring 7 is higher than fan shape baffle 17 lower ends of shell-like shift fork 9 again, under the effect of shell-like shift fork return spring 10, shell-like shift fork 9 moves backward and returns to initial contact condition (as shown in Figure 2) with the duck-beak type spring 7 part front end of upspringing again until its fan shape baffle 17.Press trigger alignment pin 13 once more, make two wing structures 23 of trigger alignment pin 13 break away from the work nest that trigger is located one of dovetail groove 20, enter in the groove 22 in trigger dowel hole 18 walls on the shell-like shift fork 9, trigger 11 breaks away from the restriction of trigger alignment pin 13, while cocking 11, two wing structures 23 of trigger alignment pin 13 are under the effect of trigger locating pin spring 14, from the latching slot that is advanced into trigger 11 another location dovetail grooves 20 in advancing, trigger 11 is re-positioned on the shell-like shift fork 9, and trigger 11 also is in locking states (as shown in Figure 1) again.

Above-mentioned with reference to embodiment to the detailed description that this pull-fork spring-pressing trigger system for gun carries out, be illustrative rather than determinate, therefore, should belong within the protection domain of the present utility model in the variation and the modification that do not break away under the utility model general plotting.

Claims (3)

1. a pull-fork spring-pressing trigger system for gun is characterized in that this system comprises: gunlock body, sleeve, firing pin, firing pin return spring, hammer, hammer spring, duck-beak type spring, sleeve cap, shell-like shift fork, shell-like shift fork return spring, trigger, trigger return spring, trigger alignment pin, trigger locating pin spring; Described gunlock body concentric locking collar is located at the front end of sleeve, sleeve has a profound groove near the lower end of gunlock body portion is coaxial, be provided with the firing pin return spring in the corresponding gunlock body barrel forward end, sheathed firing pin in this firing pin return spring, be provided with hammer and hammer spring thereafter, be embedded the duck-beak type spring in the fluting of hammer downside, the rear end branch sleeve cap and the enclosed shape of sleeve are integral; The sleeve outside is positioned at gunlock body rear end sheathed shell-like shift fork return spring, and coaxial line is provided with the shell-like shift fork thereafter, and shell-like declutch shift shaft inner underside to the back-end is provided with fan shape baffle, and the part front end of upspringing of duck-beak type spring touches mutually with this fan shape baffle; And the profound groove back edge of sleeve is when the duck-beak type spring moves backward, the part of upspringing of duck-beak type spring formed stop and with its downward extruding; Lower end, the shell-like shift fork outside is provided with the trigger dowel hole perpendicular to shell-like shift fork axis, and trigger alignment pin hole wall lower end has a groove perpendicular to trigger dowel hole axis, is provided with trigger locating pin spring and trigger alignment pin in the trigger dowel hole; Trigger is

Shape, the parallel correspondence in middle part is provided with the twice beam, the front end face of beam vertically downward, the rear end face of beam vertically upward, have via hole on the rear end face of beam and be placed on the sleeve outside, the trigger return spring places between trigger rear end face and the sleeve cap, and the lateral separation correspondence respectively is provided with two dovetail grooves on the twice beam of trigger, and two wing structures of the interior trigger alignment pin of trigger dowel hole cooperate in relative positioned alternate in service with the dovetail groove that trigger is provided with on the shell-like shift fork.

2. pull-fork spring-pressing trigger system for gun according to claim 1 is characterized in that described sleeve and gunlock body tight fit connect as one.

3. pull-fork spring-pressing trigger system for gun according to claim 1 is characterized in that the described trigger alignment pin lower end that cooperates with the groove location of dovetail groove and trigger alignment pin hole wall is two wing structures of parallel symmetry.

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