CN110057239B - Split injection moulding transparent tubeless light electromagnetic analog long gun shooting signal device - Google Patents

Abstract

The utility model provides a transparent tubeless light electromagnetic simulation long rifle shooting annunciator of components of a whole that can function independently, including novel light electromagnetic simulation shooting device and simulation long rifle stock improvement device two major portions, wherein, the last border of wood guard mounting base is equipped with the draw-in groove, and the lower border correspondence of lamina tecti is equipped with down the draw-in groove, goes up the transparent wallboard of clamping between draw-in groove and the draw-in groove down, lamina tecti, wood guard mounting base respectively with inside lining locating support with the screw rod connection, wood guard mounting base, lamina tecti, transparent wallboard, inside lining installation locating support components of a whole that can function independently shaping is connected, constitutes obvious transparent installation space that does not have barrel part structure. The split injection transparent tubeless photo-electromagnetic simulation long gun shooting annunciator provided by the invention thoroughly removes the structure similar to a simulation gun barrel by using the novel attractive appearance of obvious non-guns such as split injection, transparent tubeless and the like, eliminates suspicion of the simulation gun, and has more comprehensive, finer and stronger functions.

Description

Split injection moulding transparent tubeless light electromagnetic analog long gun shooting signal device

Technical Field

The invention relates to the technical field of simulated shooting electronic training equipment, in particular to a split injection molding transparent tubeless photo-electromagnetic simulated long gun shooting annunciator.

Background

The existing series of photo-electromagnetic simulated rifle shooting annunciators are difficult to break away from suspicion of the appearance simulation rifle because of the metal 'frame tube' structure similar to a gun barrel of the simulated rifle body.

Disclosure of Invention

Aiming at the problems existing in the prior art, the invention provides a split injection transparent tubeless photo-electromagnetic simulation long gun shooting annunciator, which thoroughly removes the structure similar to a simulation gun barrel, eliminates suspicion of the simulation gun and has more comprehensive, finer and stronger functions by novel and attractive appearance of obvious non-guns such as split injection, transparent tubeless and the like.

In order to achieve the above object, the present invention provides the following technical solutions:

The utility model provides a transparent tubeless light electromagnetism simulation long rifle shooting annunciator of components of a whole that can function independently, includes novel light electromagnetism simulation shooting device and simulation long rifle stock improvement device, wherein, novel light electromagnetism simulation shooting device includes: the device comprises a lining positioning bracket, a trigger device, an induction device, a simulated loading and waiting device, a simulated continuous firing device, a simulated firing device and a sighting device; the simulated long gun stock improvement device comprises: the wood guard mounting base and the bracket belt ring support the hand plate and the cheek pasting part; the bracket belt ring hand plate is connected to the bottom of the wood guard mounting base and positioned in front of the trigger device; the cheek pasting part is connected to the rear end of the novel photo-electromagnetic simulated shooting device; the novel light electromagnetic simulated shooting device further comprises a top cover plate and a transparent wallboard, wherein an upper clamping groove is formed in the upper edge of the wood guard mounting base, a lower clamping groove is correspondingly formed in the lower edge of the top cover plate, the transparent wallboard is clamped between the upper clamping groove and the lower clamping groove, and the top cover plate, the wood guard mounting base and the lining positioning support are connected through a screw rod to form a barrel-free mounting space; the trigger device is provided with a trigger lever which extends backwards and presses the sensing device arranged above the trigger lever; the simulated loading waiting device is arranged at the top of the top cover plate and is provided with a movable cover box, a waiting switch and a socket wiring board, wherein the movable cover box is movable relative to the top cover plate, and the waiting switch and the socket wiring board are arranged in the movable cover box; the simulated continuous firing device is arranged in the installation space and is positioned in front of the simulated loading waiting device; the simulated firing device is arranged in the installation space and is positioned in front of the simulated continuous firing device; the sighting device is provided with a base and a chute clamping plate, so that the locating screw and the buckling edge arranged at the top of the top cover plate form wrapping and clamping locating.

Further, the wood guard mounting base, the top cover plate, the transparent wallboard and the lining mounting and positioning bracket are formed by split injection molding.

Furthermore, the wood guard mounting base is provided with a hole and a hollowed-out opening for mounting the photoelectric shooting device and mounting a compatible sports rifle.

Further, the sensing device is provided with a sensing piece, and the sensing piece is provided with a plurality of jacking screws with different intervals so as to adjust the adjustment range of the gravitation of the trigger.

Further, a rotating pin free hammer piece is arranged on the rear end wallboard of the movable cover box, and the rotating pin free hammer piece can be pushed and accommodated in the cocking switch forward to simulate the action of loading cocking, and can be inverted upwards to simulate the opening of a gun stock.

Further, the simulation continuous hair device comprises a mounting bracket, a continuous hair pressing piece, a pressing piece spring and a positioning screw rod, wherein the continuous hair pressing piece is connected to the mounting bracket through the positioning screw rod, and the pressing piece spring is pressed between the continuous hair pressing piece and the mounting bracket.

Further, the bottom of the simulated firing device is provided with an electromagnet impact distance adjusting screw, and the top of the simulated firing device is provided with an impact sound adjusting top cover.

Further, the bracket belt ring holds in palm the hand plate, including bracket stand, standing position hold in palm the hand plate and lie kneel and hold in palm the hand plate, standing position hold in palm the hand plate with lie kneel and hold in palm the hand plate and can go on the lift and remove the location on the bracket stand, standing position holds in palm the hand plate and establishes and holds in palm the hand locator.

Further, the cheek comprises a lifting rod, a track screw pin and a lifting jump pin, one side of the lifting rod is provided with a track groove which is matched with the track screw pin to directionally slide, and the other side of the lifting rod is provided with a scale concave hole which is matched with the lifting jump pin to generate jumping sound.

Furthermore, the wood guard mounting base is provided with a moving rifle exchange mounting structure, and an import moving rifle and a domestic moving rifle can be interchangeably mounted.

The invention has the beneficial effects that:

The invention provides a split injection molding transparent tubeless photo-electromagnetic simulation long gun shooting annunciator, which comprises two parts, namely a novel photo-electromagnetic simulation shooting device and a simulation long gun stock improvement device, wherein an upper clamping groove is formed in the upper edge of a wood guard mounting base, a lower clamping groove is correspondingly formed in the lower edge of a top cover plate, a transparent wallboard is clamped between the upper clamping groove and the lower clamping groove, the top cover plate and the wood guard mounting base are respectively connected with a lining positioning bracket through screws, and the wood guard mounting base, the top cover plate, the transparent wallboard and the lining positioning bracket are split molding connected to form a transparent mounting space with obvious no gun barrel part structure, so that the suspected simulation gun is eliminated, and the internal mounting, overhauling and debugging of the transparent wallboard are conveniently and rapidly opened; in addition, the trigger device is provided with a trigger lever which extends backwards and presses a sensing device arranged above the trigger lever; the simulated loading standby device is arranged at the top of the top cover plate and is provided with a movable cover box, a standby switch and a socket wiring board, the movable cover box is movable relative to the top cover plate, and the standby switch and the socket wiring board are arranged in the movable cover box, so that the operation of internal and external wiring is facilitated; the simulated continuous firing device is arranged in the installation space and positioned in front of the simulated loading waiting device, and is transparent and visible; the simulated firing device is arranged in the installation space, is positioned in front of the simulated continuous firing device, and is transparent and visible; the sighting device is provided with the base and the chute clamping plate, so that the locating screw and the buckling edge arranged at the top of the top cover plate form wrapping and clamping locating, the locating strength can be increased, the damage of the top cover plate made of plastics is reduced, and the plastic material strength of the top cover plate is adapted. The split injection transparent tubeless photo-electromagnetic simulation long gun shooting annunciator provided by the invention thoroughly removes the structure similar to a simulation gun barrel by using the novel attractive appearance of obvious non-guns such as split injection, transparent tubeless and the like, eliminates suspicion of the simulation gun, and has more comprehensive, finer and stronger functions.

Drawings

FIG. 1 is a schematic diagram showing the assembly of a split injection transparent tubeless photo-electromagnetic analog long gun firing annunciator according to an embodiment.

FIG. 2 is a schematic diagram showing the connection and installation of the wood guard mounting base, top cover plate, transparent wallboard, lining positioning bracket and other structures and the split joint parts of the split injection transparent tubeless photo-electromagnetic simulation long gun shooting signal device.

FIG. 3 is a schematic view of various mounting holes, openings and hollowed-out grooves on a wood guard mounting base of an embodiment split injection transparent tubeless photo-electromagnetic analog long gun shooting annunciator.

FIG. 4 is an assembled schematic view of the trigger device and the sensing device of the split injection transparent tubeless photo-electromagnetic simulated long gun firing signal device according to the embodiment.

FIG. 5 is a schematic diagram of the installation of a simulated loading priming device for a split injection transparent tubeless photo-electromagnetic simulated long gun firing annunciator in an embodiment.

FIG. 6 is a schematic diagram of the installation of a simulated burst device of an embodiment of a split injection transparent tubeless photo-electromagnetic simulated long gun firing annunciator.

FIG. 7 is a schematic diagram of the installation of a simulated firing device of an embodiment of a split injection transparent tubeless photo-electromagnetic simulated long gun firing annunciator.

FIG. 8 is a schematic diagram showing the positioning and installation of the aiming device of the split injection transparent tubeless photo-electromagnetic simulation long gun shooting annunciator.

FIG. 9 is a schematic diagram of the installation of a bracket belt loop hand plate for a split injection molded transparent tubeless photo-electromagnetic analog long gun firing signal.

FIG. 10 is a schematic diagram showing the installation of a lifter on the cheek of a split injection transparent tubeless photo-electromagnetic simulated long gun firing annunciator.

FIG. 11 is a schematic diagram of the mounting of a pull rod at the bottom of a support for a split injection molded transparent tubeless photo-electromagnetic analog long gun firing annunciator.

FIG. 12 is a schematic view of the mounting of the pallet track connection of the split injection transparent tubeless photo-electromagnetic analog long gun firing signal according to the embodiment.

FIG. 13 is a schematic view of an exemplary transparent tubeless photo-electromagnetic analog long gun firing signal protector mounting base interchangeably mounted with an import sports rifle.

FIG. 14 is a schematic view of a wood guard mounting base of a split injection molded transparent tubeless photo-electromagnetic analog long gun firing signal for interchangeable mounting of a domestic sporting rifle.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment provides a split injection transparent tubeless photo-electromagnetic simulation long gun shooting annunciator, belongs to the technical field of simulation shooting electronic training equipment, and aims to thoroughly remove a structure similar to a simulation gun barrel by novel attractive appearance of obvious non-guns such as split injection, transparent tubeless and the like, eliminate suspicion of the simulation gun and have more comprehensive, finer and more powerful functions.

As shown in fig. 1, the split transparent tubeless photo-electromagnetic simulated motion rifle shooting annunciator in the embodiment consists of a novel photo-electromagnetic simulated shooting device and a simulated long gun stock improvement device; wherein, novel light electromagnetism simulation shooting device includes: the device comprises a top cover plate 2, a transparent wallboard 3, a lining positioning bracket 4, a trigger device 5, an induction device 6, a simulated bullet loading and waiting device 7, a simulated continuous firing device 8, a simulated firing device 9, a sighting device 10, a laser device 15, a mode switching device 16, a circuit module device 17, a battery box device 18, a transformation module device 19, a simulated gunshot device 20 and a counterweight device 21; the improved device for simulating the gun stock of the long gun comprises: the wood guard mounting base 1, a bracket belt ring hand supporting plate 11, a cheek pasting part 12, a supporting bottom plate stretching part 13, a supporting bottom plate rail connecting part 14, a rotary pin gun neck 22, a supporting body swinging rod part 23, a supporting shoulder part 24 and a handle guard ring part 25.

The implementation of the overall operation of the annunciator is as follows: after the annunciator, an external related display, a photoelectric target and other devices are installed and started, a shooter can select corresponding circuit operation modes according to shooting projects to be performed, and the selectable circuit operation modes comprise: simulating a single-shot filling waiting mode; simulating a single-shot semi-automatic waiting mode; simulating a continuous-sending automatic waiting mode; visible light aims at four kinds of reference modes. Before shooting, a shooter can select a visible light aiming reference mode, turn on a visible laser spot, check and correct the laser shooting of aiming hit precision of factory setting of the laser device 15, turn off the visible light mode after correction, and select a circuit mode required by shooting projects.

Then, the shooter can utilize the relevant debugging structures of the trigger device 5 and the mode switch device 16 to set the delivery setting of the stroke gravitation of the first fire and the second fire of the trigger, and then perform the trigger stroke and gravitation adjustment which meets the requirement of shooting rules and is suitable for the habit of pressing the trigger of the shooter, and all program parameters are set on a liquid crystal screen of the mode switch device 16 and an external computer display. For example, setting the parameters of the firing attraction of the two fires, setting the single shot or continuous shooting mode of the training match, setting the target scoring sound and the number of the playing display, etc. Then, the shooter uses each adjusting device of the gun stock of the simulated rifle to make structural state adjustment which meets the requirement of shooting rules and is suitable for the action habit of the shooting posture of the shooter, for example, the swinging rod part 23 of the support body and the stretching part 13 of the support bottom plate are adjusted to enable the gun stock to reach the length and the height which are most suitable for the shouldering of the gun of hand saw; the cheek pasting part 12 is adjusted to the position height of the most comfortable cheek pasting; the aiming hole of the aiming device 10 is adjusted to the sight height which is most suitable for comfortable cheek pasting, the shoulder 24 is adjusted to the shape angle which is most suitable for shoulder pasting, the bracket belt is looped on the hand supporting plate of the hand supporting plate 11, and the structure position state of the pedal stable gun which is most suitable for shooting posture is adjusted.

After the posture is adjusted, the following simulated shooting mode can be implemented: the trigger handle with the trigger device 5 which is electrically connected is pulled, the trigger pressing rod is electrically connected and screwed upwards to press the sensing device 6 and conduct current, the sensing piece of the sensing device 6 is about to receive trigger pressing force and current to convert into a current sensing signal, the current sensing signal is transmitted to the circuit module device 17 through a lead, a computer singlechip of the circuit module device 17 analyzes and calculates the deformation current sensing signal and forwards a calculation result to three aspects as a current instruction signal, on one hand, the circuit module device 17 transmits the current of the pre-pressing trigger to the laser device 15, infrared laser light of the laser device 15 emits infrared laser light for displaying a gun shaking track to the photoelectric target, the photoelectric target converts the received infrared laser signal into a radio signal to be transmitted to the panel computer display, and the panel computer converts the radio signal into an image for displaying the gun shaking track through software program calculation. On the other hand, the circuit module device 17 converts the trigger pressure sensing signal into a radio signal and sends the radio signal to the display of the tablet computer, and the tablet computer displays the curve image of the trigger pressure change through the program computer. On the other hand, when the trigger pressure data reach the trigger gravitation parameter standard preset by the mode switch device 16, the circuit module device 17 transmits a single (or continuous) current signal to the analog firing device 9, the laser device 15, the analog gunshot device 20, and the like according to the preset transmitting circuit mode of the mode switch device 16, thereby bringing the performance display of photoelectric targeting and the shooting sensory effect of analog gunshot vibration.

In this embodiment, the following structural designs remain the original structural designs, so that details are not repeated in this embodiment, and are respectively: the laser device 15, the mode switch device 16, the circuit module device 17, the battery box device 18, the voltage transformation module device 19, the simulated gunshot device 20, the counterweight device 21, the rotary pin gun neck 22, the support body swing rod part 23, the supporting shoulder part 24 and the handle guard ring part 2 5. The split injection molding transparent tube-free photoelectric magnetic simulation long gun shooting signal device provided by the embodiment is based on innovation and improvement of CN 201621167223.8, CN 201610995647.1, CN 201710367067.2 and other series of patents.

Referring specifically to fig. 2, in this embodiment, the wood guard mounting base 1, the top cover plate 2, the transparent wallboard 3, the lining positioning bracket 4 are assembled and mounted between the split structures, the wood guard mounting base 1, the top cover plate 2, the transparent wallboard 3, and the lining positioning bracket 4 are formed by split injection molding, and then are connected in the form of a threaded pin clamping plate, and the wood guard mounting base 1 specifically includes: the wood guard middle substantial layer 101, the wood guard upper layer mounting groove 102, the wood guard upper edge wallboard clamping groove 103, the wood guard lower layer mounting sliding groove 104, the wood guard bottom opening buckling edge 105, the wood guard front section split joint substantial layer backward convex 106, the wood guard rear section split joint substantial layer periphery backward concave 107, the wood guard split joint front and back connecting screw 108 and the wood guard split joint front and back connecting screw 109; the top cover plate 2 specifically includes: the middle substantial layer 201 of the top cover plate, the top cover top buckling edge 202, the top cover top sliding groove 203, the top cover lower edge wallboard clamping groove 204, the top cover connecting clamping plate 205 and the connecting clamping plate fixing screw 206; the transparent wallboard 3 specifically includes: a left front transparent wall plate 301, a left rear transparent wall plate 302, a right front transparent wall plate 303, and a right rear transparent wall plate 304; the lining positioning bracket 4 specifically includes:

liner locating bracket top plate 401, liner locating bracket bottom plate 402, liner locating bracket wall plate 403, and locating bracket connecting screw 404.

Preferably, the left front-end transparent wallboard 301, the left rear-end transparent wallboard 302, the right front-end transparent wallboard 303 and the right rear-end transparent wallboard 304 have the same structural shape and size, and can be processed by the same die.

Preferably, the upper edge wallboard clamping groove 103 of the wood guard body, the lower edge wallboard clamping groove 204 of the top cover, the left front end transparent wallboard 301, the left rear end transparent wallboard 302, the right front end transparent wallboard 303 and the right rear end transparent wallboard 304 are all provided with larger left and right fit clearances, the upper and lower edges of the left front end transparent wallboard 301, the left rear end transparent wallboard 302, the right front end transparent wallboard 303 and the right rear end transparent wallboard 304 are arc-shaped, and the transparent wallboards on any side can be pushed out backwards along the clamping groove only by slightly unscrewing the positioning bracket connecting screw 404, so that the internal installation and debugging of the wallboards are conveniently opened.

Preferably, the lining positioning lining frame top plate 401 and the lining positioning lining frame bottom plate 402 are circular arc edges, and the lining positioning lining frame top plate and the lining positioning lining frame bottom plate can be tightly matched with the upper layer installation groove 102 of the wood guard body by slightly screwing the positioning bracket connecting screw 404 during installation.

Preferably, the temporary positioning pin 109 of the split joint part of the wood guard is driven into the temporary positioning pin 109 of the split joint part of the wood guard only after the connecting screw 108 finishes accurate alignment, installation and fixation before and after the split joint part of the wood guard, so that the split joint part is ensured to be accurately aligned and not to loosen for a long time.

Preferably, the top cover connecting clamp plate 205 is manufactured by using the same profile as the counterweight mounting clamp plate, and has the functions of connecting the front top cover plate 3 and the rear top cover plate 3 with the mounting mode switch device 16, and can be inserted and aligned with the half openings of the middle substantive layer 201 of the front top cover and the rear top cover after the mounting of the mode switch device 16, and then the front top cover plate 3 and the rear top cover plate 3 are connected with the mode switch device 16 into a whole by using the connecting clamp plate fixing screw 206, so that the opening damage caused by the mounting of the mode switch device 16 can not be caused by the top cover top buckling edge 202.

The wood guard mounting base 1, the top cover plate 2 and the transparent wallboard 3 are connected in a split molding way, so that convenience is provided for various process applications such as 3D printing and injection molding. In addition, the wood guard mounting base 1, the top cover plate 2 and the transparent wallboard 3 form a transparent tubeless mounting space, so that suspicion of a simulation gun is eliminated, and the internal mounting, overhauling and debugging of the transparent wallboard 3 can be conveniently and rapidly opened.

Referring specifically to fig. 3, various mounting holes, openings, and hollow groove structures provided in the wood guard mounting base 1 of the present embodiment include: the wood guard and gun neck connecting pin through hole 110, the wood guard and liner positioning bracket mounting screw hole 111, the grip guard ring part mounting screw hole 112, the trigger device bracket positioning screw through hole 113, the moving rifle backing plate positioning screw standby hole 114, the inlet moving rifle fixing screw standby hole 115, the domestic moving rifle fixing screw standby hole 116, the simulated continuous shooting bracket positioning screw through hole 117, the continuous shooting switch height adjusting screw hole 118, the simulated firing liner bracket fixing screw through hole 119, the laser shot height adjusting screw through hole 120, the laser shot left and right vertical shaft positioning screw through hole 121, the laser shot left and right adjusting screw through hole 122, the wood guard split combined connecting screw hole 123, the wood guard split combined part positioning pin temporary drilling hole 124, the bracket belt bracket hand plate base braking hole 125, the trigger box standby opening 126, the simulated firing electromagnet mounting opening 127, the laser mounting base occupation hollow 128 and the wood guard weight reducing hollow 129. The implementation preference is as follows:

preferably, the intermediate substantial layer 101 of the wood guard body where the pin through holes 110 are located is locally thickened to ensure the supporting strength of the connection part.

Preferably, the wood guard and gun neck connection pin through holes 110 will allow for connection of different shaped simulated gun stocks.

Preferably, import sports rifle set screw back-up hole 115, domestic sports rifle set screw back-up hole 116, and various other drill openings can be specifically sized and positioned according to current physical installation needs.

Referring specifically to fig. 4, the relevant structure of the trigger device 5 and the sensing device 6 of the present embodiment includes: the trigger handle 501, the trigger handle vertical movement track 502, the trigger handle front and back movement track 503, the trigger pressing rod 504, the trigger rotating pin 505, the trigger wiring screw 506, the trigger fire stroke adjusting screw 507, the trigger fire attraction adjusting screw 508, the pressure sensing piece 601, the sensing piece front end fixing screw 602 and the sensing piece rear end supporting screw 603.

The trigger lever 504 extends backwards, and can apply pressure to a pressure sensing piece 601 arranged above the trigger lever 504, the pressure sensing piece 601 is installed by adopting a plurality of top force screws with different intervals, the pressure required by deformation of the pressure sensing piece 601 can be changed, and the adjustable range of trigger attraction can be enlarged; preferably, the selection of the supporting screw 603 at the rear end of the sensing piece can be performed according to the thickness of the sensing piece and the requirement of the trigger attraction adjusting range required by the simulated shooting project, if the supporting screw at the far end is selected, the deformation sensitivity of the pressure sensing piece 601 can be increased, so that the lighter trigger attraction adjusting range is adapted. Conversely, if the proximal sensor blade rear end support screw 603 is selected, a heavier trigger pull adjustment range is accommodated.

Referring specifically to fig. 5, the structure of the simulated loading priming device 7 of the present embodiment includes: a cocking block 701, a cocking switch 702, a cocking socket 703, a cocking block 704, a cocking hammer rotary pin 705, a cocking hammer 706, a cocking block positioning screw 707, and a cocking block positioning clamp 708.

The cocking switch 702, the cocking socket 703 and the cocking wiring board 704 are installed in a movable cocking cover box 701 arranged at the top of the top cover plate 3, and a cocking hammer 706 installed on a cocking hammer rotary pin 705 of a wallboard at the rear end of the cocking cover box 701 can push the cocking switch 702 forward, can invert upwards and stand upside down, is convenient for internal and external wiring operation, and the cocking hammer 706 can push the cocking switch 702 forward to simulate the action of loading cocking and invert upwards to simulate the opening of a gun. Preferably, the cocking block 701, the cocking block top cover 702, and the cocking block 706 are molded from plastic. In addition, the to-be-sent-out-box positioning clamp 708 is formed by using a profile of a counterweight mounting clamp, and has the same size and shape as the sight glass base positioning clamp 1004 and the scale base positioning clamp 1011.

Referring specifically to fig. 6, the structure of the analog hair relay 8 of the present embodiment includes: continuous hair installing support 801, continuous hair support fixing screw 802, motor installing top cover 803, continuous hair motor 804, continuous hair cam 805, continuous hair pressing piece 806, pressing piece fixing screw 807, pressing piece positioning screw 808, pressing piece spring 809, continuous hair switch 810 and continuous hair switch height adjusting screw 811.

Wherein, the continuous hair preforming 806 passes through preforming positioning screw 808 to be connected on continuous hair installing support 801, and preforming spring 809 is located between continuous hair preforming 806 and the continuous hair installing support 801, can improve the stability that the micro-gap switch was pressed fast to the preforming, effectively protects continuous hair switch 810 not to receive the damage. Preferably, the contact portion between the continuous hair pressing piece 806 and the continuous hair cam 805 is processed into a narrower slope shape, and the slope of the continuous hair pressing piece 806 is compliant with the motor rotation direction of the continuous hair cam. In addition, the positioning screw 808 is installed to control the position and height of the continuous hair pressing plate 806 according to the elastic force of the continuous hair pressing plate 806 and the elastic force of the pressing spring 809 so as to maintain proper friction pressure with the continuous hair cam 805. In addition, the button of the continuous switch 810 is positioned under the proper pressure stroke of the continuous pressing plate 806 by utilizing the continuous switch height adjusting screw 811, so that the continuous switch 810 is ensured not to be damaged due to excessive pressing under normal operation.

Referring specifically to fig. 7, the structure of the simulated firing device 9 of the present embodiment includes: electromagnet 901, electromagnet mounting box 902, electromagnet positioning screw 903, electromagnet bottom bracket 904, electromagnet impact distance adjustment screw 905, acoustic top cover mounting pad 907, top bottom liner bracket connecting screw 908.

Preferably, the impact force of the electromagnet 901 mainly acts on the internal stress device of the electromagnet itself, and the impact force can be adjusted by the impact distance adjusting screw 905 of the electromagnet. Preferably, the electromagnet impacts the acoustic top cover 906 to be an auxiliary stress device for pursuing acoustic effect, and the stroke length of the stress of the auxiliary stress device can be adjusted through the acoustic characteristics of the material and the number of the installation gaskets, so that the appropriate impact acoustic effect is achieved, and the auxiliary stress device is suitable for different requirements of training and entertainment through adjusting the stress acoustic effect. Preferably three, two extension screws penetrate through all the mounting components to form an integral clamping and fixing of the electromagnet 901, and the tension of the top-bottom lining support connecting screw 908 from top to bottom is beneficial to improving the impact strength of the integral structure formed by plastics.

Referring specifically to fig. 8, the positioning structure of the aiming device 10 of the present embodiment includes: the sight glass comprises a sight glass base 1001, a sight glass base front end positioning screw 1002, a sight glass base rear end positioning screw 1003, a sight glass base positioning clamp 1004, a sight glass guard lifting vertical plate 1005, a sight glass vertical plate lifting track opening 1006, a lifting vertical plate front and back jump pin positioning screw 1007, a lifting vertical plate left and right positioning screw 1008, a scale base 1009, a scale base fixing screw 1010, a scale base positioning clamp 1011, a scale left and right adjusting structure 1012, a scale height scale fine adjusting structure 1013, a scale target height adjusting upright 1014 and a scale target height positioning screw 1015.

Preferably, the sight glass base 1001, the sight glass base positioning clamp 1004, the scale base 1009, the scale base positioning clamp 1011, and the like are firmly connected with the sight glass base rear end positioning screw 1003 and the scale base fixing screw 1010, and form a clamping fixation for the top cover top buckling edge 202, so that the positioning strength can be increased, and the damage of the top cover plate 3 made of plastics can be reduced. Preferably, the sight glass base positioning clamp 1004 and the scale base positioning clamp 1011 are the same as the hairstyling case positioning clamp 708 shown in fig. 5 in terms of manufacturing method and size and shape.

Referring specifically to fig. 9, the structure of the cradle belt cradle hand plate 11 of the present embodiment includes: bracket 1101, bracket set screw 1102, bracket post 1103, standing hand support 1104, hand support hoop screw 1105, hand support locator 1106, hand support locator set screw 1107, belt hook 1108, hook hoop screw 1109, lying kneeling hand support 1110, lying kneeling hand support locating splint 1111, lying kneeling hand support locating screw 1112.

Preferably, the belt hook 1108 is provided with a high-low double-layer hook opening, and the hook hoop screw 1109 can be used for lifting and moving and positioning on the shared bracket upright post 1103, so that the belt hook can adapt to the adjustment requirements of any shooter on any different heights of the belt hand device. Preferably, the hand supporting positioner 1106 on the hand supporting plate 1104 can be used for arbitrarily selecting the mounting position by wrapping the hand supporting positioner fixing screw 1107, and has the functions of helping the shooter to improve the consistency of each gun and reducing the sliding force of the hand supporting position. Preferably two, the horizontal kneeling hand supporting plate 1110 can form random clamping and positioning for the opening buckling edge 105 at the bottom of the wood guard by utilizing the horizontal kneeling hand supporting plate positioning clamping plate 1111 and the horizontal kneeling hand supporting plate positioning screw 1112, and the braking for preventing the forward sliding mainly depends on the integral braking action of the bracket positioning screw 1102, so as to be beneficial to improving the comfort of supporting the gun by using the gun belt in the horizontal kneeling position. Preferably three, the horizontal kneeling palm rest positioning splint 1111 may be made of a profile of a weight mounting splint.

Referring specifically to fig. 10, the structure of mounting the lifting lever of the chin 12 of the present embodiment includes: the cheek rest lifting rod 1201, the lifting track groove 1202, the lifting track screw pin 1203, the lifting jump pin scale concave hole 1204, the lifting jump pin spring steel ball 1205, the lifting positioning hoop 1206, the lifting auxiliary positioning screw 1207 and the cheek rest adjusting structure 1208.

Preferably, by matching the lifting track groove 1202 and the lifting track screw 1203, not only the vertical lifting of the cheek lifting rod 1201 can be prevented from rotating and limiting the lifting stroke, but also the lifting jump pin spring steel balls 1205 can be aligned with the lifting jump pin scale concave holes 1204, and dislocation of the steel ball springs caused by excessive lifting of the cheek lifting rod 1201 can be avoided. Preferably, the two parts of the cheek lifting rod 1201 are fixed by the lifting positioning hoop 1206, and the lifting auxiliary positioning screw 1207 only plays a role of auxiliary stable height positioning when necessary. Preferably, the size of each lifting amplitude of the cheek-lifting rod 1201 is mainly based on the memory of the scale marks on the cheek-lifting rod 1201 as the adjustment amplitude, and the jumping sound sensation generated by the lifting jump pin spring steel balls 1205 and the lifting jump pin scale concave holes 1204 only plays a small-range fine adjustment amplitude reference.

Referring specifically to fig. 11, the pull rod structure of the bottom bracket stretching portion 13 of the present embodiment includes a bottom bracket upper pull rod 1301, an upper pull rod extension spare 1302, an upper pull rod anchor screw 1303, an upper pull rod connecting screw hole 1304, a bottom bracket lower pull rod 1305, a lower pull rod anchor screw 1306, and a lower pull rod connecting screw hole 1307. Wherein, above-mentioned pull rod adopts the solid stick pole of same footpath entirely, and mainly in the practicality of asking for, simplify the manufacturing process.

Referring specifically to fig. 12, the structure of the tie-bar connection screw mounting position of the pallet track connection part 14 of the present embodiment includes: the support bottom rail connecting plate 1401, a connecting plate upper opening 1402, an upper opening screw bolt sliding groove 1403, an upper opening holding screw bolt 1404, a lower opening holding screw bolt 1406, a support bottom plate rail column 1407, a rail column rail sliding groove 1408, a rail column and a connecting plate positioning screw 1409. The arrangement of the upper opening 1402 and the lower opening 1405 of the connecting plate can enhance the clamping and fixing effects of the upper opening clamping bolt 1404 and the lower opening clamping bolt 1406 on the upper pull rod 1301 and the lower pull rod 1305 of the bottom plate.

Referring specifically to fig. 13 and 14, the structure of the guard wood mounting base 1 of the present embodiment for interchangeably mounting an import sports rifle and a domestic sports rifle includes: an import sports rifle installation position 131, an import sports rifle barrel 132, an import sports rifle spanner box 133, a standby import sports rifle installation backing plate 134, a standby import sports rifle installation glue pad 135, a standby import sports rifle backing plate positioning screw 136, and a standby import sports rifle installation fixing screw 137; the domestic sports rifle installation position 141, the domestic sports rifle barrel 142, the domestic sports rifle spanner box 143, the standby domestic sports rifle backing plate positioning screw 145, the standby domestic sports rifle installation fixing screw 146.

Preferably, the backup import sports rifle installation backing plate 134 and the backup domestic sports rifle installation backing plate 144 can be designed and manufactured to be suitable for real installation according to the shapes of the existing import sports rifle installation position 131 and domestic sports rifle installation position 141 and the position sizes of the backup import sports rifle installation fixing screw 137 and the backup domestic sports rifle installation fixing screw 146. Preferably two, the sportsman who has the rifle shooting of motion concurrently, can purchase this novel simulation stock part alone to two sets of equipment of photoelectric shooting and rifle of motion are equipped simultaneously to stock of same model, so that exchange adaptation training at ordinary times. Preferably, for the young shooter in the initial stage, the gun stock length swinging rod adjusting device can meet the posture adjusting requirements of the gun stock length swinging rod in different training stages, so that the shooter can use the gun stock adjusting function and the posture adjusting method which are most used by the shooter from small to large.

The invention has the overall beneficial effects that: the weight of the gun is effectively reduced, the range of applicable crowds can be enlarged through balance weight adjustment, the shooting training competition of lying, standing and kneeling can be simulated, and the suspicion of a simulated gun can be eliminated through a split injection molding transparent tubeless structure.

Those skilled in the art can also make appropriate changes and modifications to the above-described embodiments in light of the disclosure and guidance of the above description. Therefore, the present invention is not limited to the above-described embodiments, but some technical modifications and alterations of the product style within the scope of the claims of the present invention should also fall within the scope of protection of the present invention. In addition, although specific terms are used in the present specification, these terms are for convenience of description only and do not limit the present invention in any way.

The above embodiments are only for illustrating the technical solution of the present invention, not for limiting the same, and the present invention is described in detail with reference to the preferred embodiments, and it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the present invention, and all the solutions are intended to be covered by the scope of the claims of the present invention.

Claims (9)

1. The utility model provides a transparent tubeless light electromagnetism simulation long rifle shooting annunciator of components of a whole that can function independently, includes novel light electromagnetism simulation shooting device and simulation long rifle stock improvement device, wherein, novel light electromagnetism simulation shooting device includes: the device comprises a lining positioning bracket, a trigger device, an induction device, a simulated loading and waiting device, a simulated continuous firing device, a simulated firing device and a sighting device; the simulated long gun stock improvement device comprises: the wood guard mounting base and the bracket belt ring support the hand plate and the cheek pasting part; the bracket belt ring hand plate is connected to the bottom of the wood guard mounting base and positioned in front of the trigger device; the cheek pasting part is connected to the rear end of the novel photo-electromagnetic simulated shooting device; the method is characterized in that:

The novel light electromagnetic simulated shooting device further comprises a top cover plate and a transparent wallboard, wherein the wood guard mounting base is formed by split injection molding, an upper clamping groove is formed in the upper edge of the wood guard mounting base, a lower clamping groove is correspondingly formed in the lower edge of the top cover plate, the transparent wallboard is clamped between the upper clamping groove and the lower clamping groove, the transparent wallboard and the upper clamping groove are respectively provided with a left matching gap and a right matching gap, the upper edge and the lower edge of the transparent wallboard are arc-shaped, and a screw rod sequentially penetrates through the top cover plate, the wood guard positioning support is fixed to the wood guard mounting base, so that the top cover plate and the wood guard mounting base are connected with the lining positioning support to form a mounting space without a gun barrel;

The trigger device is provided with a trigger lever which extends backwards and presses the sensing device arranged above the trigger lever;

The simulated loading waiting device is arranged at the top of the top cover plate and is provided with a movable cover box, a waiting switch and a socket wiring board, wherein the movable cover box is movable relative to the top cover plate, and the waiting switch and the socket wiring board are arranged in the movable cover box;

The simulated continuous firing device is arranged in the installation space and is positioned in front of the simulated loading waiting device;

the simulated firing device is arranged in the installation space and is positioned in front of the simulated continuous firing device;

the sighting device is provided with a base and a chute clamping plate, so that the locating screw and the buckling edge arranged at the top of the top cover plate form wrapping and clamping locating.

2. The split injection transparent tubeless photo-electromagnetic analog long gun firing annunciator of claim 1, wherein:

the wood guard mounting base is provided with a drilling hole and a hollowed-out opening for mounting the photoelectric shooting device and mounting a compatible sports rifle.

3. The split injection transparent tubeless photo-electromagnetic analog long gun firing annunciator of claim 1, wherein:

The sensing device is provided with a sensing piece, and the sensing piece is provided with a plurality of jacking screws with different intervals so as to adjust the adjustment range of the gravitation of the trigger.

4. The split injection transparent tubeless photo-electromagnetic analog long gun firing annunciator of claim 1, wherein:

The movable cover box is characterized in that a rotating pin free hammer is arranged on a rear end wallboard of the movable cover box, and the rotating pin free hammer can push the cocking switch forwards to simulate loading cocking action, and can reversely stand upside down to simulate opening a gun bolt.

5. The split injection transparent tubeless photo-electromagnetic analog long gun firing annunciator of claim 1, wherein:

the simulation continuous hair device comprises a mounting bracket, a continuous hair pressing piece, a pressing piece spring and a positioning screw rod, wherein the continuous hair pressing piece is connected to the mounting bracket through the positioning screw rod, and the pressing piece spring is pressed between the continuous hair pressing piece and the mounting bracket.

6. The split injection transparent tubeless photo-electromagnetic analog long gun firing annunciator of claim 1, wherein:

The bottom of the simulated firing device is provided with an electromagnet impact distance adjusting screw, and the top of the simulated firing device is provided with an impact sound adjusting top cover.

7. The split injection transparent tubeless photo-electromagnetic analog long gun firing annunciator of claim 1, wherein:

The bracket belt ring hand supporting plate comprises a bracket upright post, a standing hand supporting plate and a lying hand supporting plate, wherein the standing hand supporting plate and the lying hand supporting plate can be lifted and moved to position on the bracket upright post, and the standing hand supporting plate is provided with a hand supporting positioner.

8. The split injection transparent tubeless photo-electromagnetic analog long gun firing annunciator of claim 1, wherein:

the cheek pasting part comprises a lifting rod, a track screw pin and a lifting jump pin, wherein one side of the lifting rod is provided with a track groove which is matched with the track screw pin to directionally slide, and the other side of the lifting rod is provided with a scale concave hole which is matched with the lifting jump pin to generate jumping sound.

9. The split injection transparent tubeless photo-electromagnetic analog long gun firing annunciator of any one of claims 1-8, wherein:

the wood guard mounting base is provided with a moving rifle exchange mounting structure, and can exchange and mount an import moving rifle and a domestic moving rifle.