CN219607861U - Triggering type composite training device - Google Patents

Triggering type composite training device Download PDF

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Publication number
CN219607861U
CN219607861U CN202320382418.8U CN202320382418U CN219607861U CN 219607861 U CN219607861 U CN 219607861U CN 202320382418 U CN202320382418 U CN 202320382418U CN 219607861 U CN219607861 U CN 219607861U
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CN
China
Prior art keywords
telescopic
main support
target
traction
swing target
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CN202320382418.8U
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Chinese (zh)
Inventor
张宏
赵彬彬
余帅
刁树贺
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BEIJING MUNICIPAL PUBLIC SECURITY BUREAU
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BEIJING MUNICIPAL PUBLIC SECURITY BUREAU
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Priority to CN202320382418.8U priority Critical patent/CN219607861U/en
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Abstract

The utility model provides a trigger type compound trainer, comprising: the device comprises a main bracket, a swing target and a traction mechanism; the main bracket is of a bracket body structure; the swing target is in a rod-shaped structure and is hinged with the main support through a pin shaft; the length of the swing target positioned inside the main support is smaller than the length of the swing target positioned outside the main support; the weight of the swing target positioned in the main support is higher than that of the swing target positioned in the main support; one end of the traction mechanism is arranged on the main support, and the other end of the traction mechanism is connected with the swing target; the swing target deflects based on the traction force provided by the traction mechanism; when the traction mechanism is separated from the swing target, the swing target rotates along the pin shaft based on the gravity provided by the swing target. According to the trigger type composite trainer provided by the utility model, the traction mechanism is designed by the training personnel, so that the swing target rotates along the pin shaft to perform pendulum motion, and the training personnel captures and shoots the swing target on the swing target, so that the operation is simple and convenient, and the failure rate is low.

Description

Triggering type composite training device
Technical Field
The utility model relates to the technical field of training instruments, in particular to a trigger type composite training device.
Background
In the rapid shooting training of police, a few purely mechanical small targets are often required to be arranged according to shooting training requirements so as to simulate various different training target characteristics and provide training conditions for rapid shooting and accurate shooting under close range conditions. The existing shooting training targets adopt iron and hard plastic, and cannot meet the training requirements of composite training of fine targets and swing targets.
Disclosure of Invention
In order to solve the problem that the existing shooting training target cannot meet the training requirements of composite training of a fine target and a swing target, the utility model provides a trigger type composite training device, which comprises: the device comprises a main bracket, a swing target and a traction mechanism;
the main support is of a support body structure;
the swing target is of a rod-shaped structure and is hinged with the main support through a pin shaft;
the length of the swing target positioned inside the main support is smaller than the length of the swing target positioned outside the main support;
the weight of the swing target positioned in the main support is higher than that of the swing target positioned in the main support;
one end of the traction mechanism is arranged on the main support, and the other end of the traction mechanism is connected with the swing target;
the swing target deflects based on the traction force provided by the traction mechanism;
when the traction mechanism is separated from the swing target, the swing target rotates along the pin shaft based on the gravity provided by the swing target.
Preferably, the swing target comprises a target core plate, a supporting rod and a balancing weight which are sequentially arranged from top to bottom;
the bullnose plate and the balancing weight are respectively and fixedly arranged at two ends of the supporting rod;
the supporting rod is hinged with the main support through the pin shaft;
the balancing weight is positioned in the main support;
the bulls-eye plate is located above the main support.
Preferably, the traction mechanism comprises a traction unit and a traction rope;
the traction unit is provided with a telescopic structure and is arranged on the main bracket;
one end of the traction rope is wound on the end part of the telescopic structure, and the other end of the traction rope is wound on the balancing weight;
when the telescopic structure is contracted, the traction rope is separated from the traction unit or the traction rope is disconnected, the swing target rotates along the pin shaft.
Preferably, the traction unit comprises a telescopic rod, a telescopic sleeve and a telescopic spring;
the telescopic sleeve is arranged on the main bracket;
the telescopic rod is sleeved in the telescopic sleeve;
the telescopic spring is arranged in the telescopic sleeve and sleeved on the telescopic rod;
the two ends of the telescopic spring are respectively and elastically connected with the telescopic rod and the telescopic sleeve;
the traction rope is wound on the end part of the telescopic spring, which is positioned outside the telescopic sleeve.
Preferably, the traction unit further comprises a separating ring;
the separating ring is arranged on the side surface of the telescopic sleeve, which faces the traction rope;
the separating ring is sleeved on the telescopic rod;
the thickness of the separating ring is higher than the length of the telescopic rod outside the telescopic sleeve.
Preferably, a telescopic pulling plate is arranged at the end part of the telescopic rod, which is positioned in the telescopic sleeve;
the end part of the telescopic spring is elastically connected with the telescopic pulling plate.
Preferably, the telescopic sleeve and the telescopic pulling plate are both square structures;
the telescopic pulling plate is attached to the inner wall of the telescopic sleeve.
Preferably, the traction unit further comprises an anti-drop plate located at an end outside the telescopic sleeve;
the telescopic rod is arranged on the anti-falling plate in a penetrating way;
the size of the anti-drop plate is smaller than the inner size of the separation ring;
the distance between the anti-falling plate and the telescopic sleeve is greater than the length of the telescopic rod penetrating through the anti-falling plate.
Preferably, the balancing weight is provided with an annular groove;
the traction rope is wound in the annular groove.
Compared with the prior art, the utility model has the beneficial effects that:
the utility model provides a trigger type compound trainer, comprising: the device comprises a main bracket, a swing target and a traction mechanism; the main support is of a support body structure; the swing target is of a rod-shaped structure and is hinged with the main support through a pin shaft; the length of the swing target positioned inside the main support is smaller than the length of the swing target positioned outside the main support; the weight of the swing target positioned in the main support is higher than that of the swing target positioned in the main support; one end of the traction mechanism is arranged on the main support, and the other end of the traction mechanism is connected with the swing target; the swing target deflects based on the traction force provided by the traction mechanism; when the traction mechanism is separated from the swing target, the swing target rotates along the pin shaft based on the gravity provided by the swing target. According to the trigger type composite trainer provided by the utility model, the traction mechanism is designed by the training personnel, so that the swing target rotates along the pin shaft to perform pendulum motion, and the training personnel captures and shoots the swing target on the swing target, so that the operation is simple and convenient, and the failure rate is low.
Drawings
FIG. 1 is a schematic diagram of the trigger-type compound trainer of the present utility model;
FIG. 2 is a schematic diagram of the structure of the oscillating target of the present utility model;
FIG. 3 is a cross-sectional view of the oscillating target of the present utility model along its height;
fig. 4 is an enlarged view of a portion a of fig. 1;
fig. 5 is a sectional structural view of the traction unit of the present utility model in the height direction.
Wherein, 1, a main bracket; 11. a rectangular ring frame; 12. support legs; 2. swinging the target; 21. a target plate; 22. a support rod; 23. balancing weight; 3. a traction mechanism; 31. a traction rope; 32. a traction unit; 321. a telescopic rod; 322. a telescoping sleeve; 323. a telescopic spring; 324. a separating ring; 325. a telescopic pulling plate; 326. and an anti-falling plate.
Detailed Description
For a better understanding of the present utility model, reference is made to the following description, drawings and examples.
The utility model provides a trigger type composite trainer, which enables a swinging target to rotate along a pin shaft through a traction mechanism designed by a training personnel, so as to perform pendulum motion, and the training personnel captures and shoots the swinging target on the swinging target, so that the device is simple and convenient to operate and low in failure rate.
Examples:
a triggered complex trainer, as shown in fig. 1, comprising: a main support 1, a swing target 2 and a traction mechanism 3; the main bracket 1 is of a bracket body structure; the swing target 2 is in a rod-shaped structure and is hinged with the main bracket 1 through a pin shaft; the length of the swing target 2 positioned inside the main support 1 is smaller than the length of the swing target 2 positioned outside the main support 1; the weight of the swinging target 2 positioned in the main support 1 is higher than that of the swinging target 2 positioned in the main support 1; one end of a traction mechanism 3 is arranged on the main support 1, and the other end is connected with the swing target 2; the swing target 2 deflects based on the traction force provided by the traction mechanism 3; when the traction mechanism 3 is separated from the swing target 2, the swing target 2 rotates along the pin shaft based on the gravity provided by the swing target 2.
The main support 1 comprises a rectangular annular frame 11 positioned above and supporting legs 12 positioned at four end corners of the rectangular annular frame 11 and placed in the vertical direction, bearings are mounted in the middle of the inner side face of the long side of the rectangular annular frame 11, the swing target 2 is fixedly connected with a pin shaft, and two ends of the pin shaft are respectively penetrated in the two bearings. A mounting seat for mounting the traction mechanism 3 is mounted between two support legs 12 at one end of the rectangular ring frame 11. In this embodiment, the mount pad is T style of calligraphy member, and the mount pad includes first horizontal pole and second horizontal pole, and the tip of second horizontal pole is installed perpendicularly in the middle part of first horizontal pole. The two ends of the first cross rod are fixedly installed with two supporting legs 12 positioned at one end of the rectangular annular frame 11 respectively, and the traction mechanism 3 is installed on the second cross rod.
As shown in fig. 2 and 3, the oscillating target 2 includes a target core plate 21, a support rod 22 and a weight 23 which are sequentially arranged from top to bottom; the target plate 21 and the balancing weight 23 are respectively fixedly arranged at two ends of the supporting rod 22; the strut 22 is hinged with the main support 1 through a pin shaft; the balancing weight 23 is positioned in the main bracket 1; the target plate 21 is located above the main support 1. In this embodiment, the target plate 21 is a training target, and the specific material of the counterweight 23 is not limited, so that the required functions of this embodiment can be realized. In this embodiment, the distance between the target plate 21 and the pin is the same as the product of the weight of the target plate 21 and the distance between the counter weight 23 and the pin is the same as the product of the weight of the counter weight 23, and the time for swinging the swinging target 2 is increased.
The traction mechanism 3 comprises a traction unit 32 and a traction rope 31; the traction unit 32 has a telescopic structure and is mounted on the main support 1; one end of the traction rope 31 is wound on the end part of the telescopic structure, and the other end of the traction rope is wound on the balancing weight 23; when the telescopic structure is contracted, the traction rope 31 is separated from the traction unit 32 or the traction rope 31 is disconnected, the swing target 2 rotates along the pin shaft. In this embodiment, the traction rope 31 may be a normal rope or a steel wire rope, which is required for practical training. When both ends of the pulling rope 31 are connected to the swing target 2 and the pulling unit 32, the pulling rope 31 is in a tensioned state.
As shown in fig. 4 and 5, the traction unit 32 includes a telescopic rod 321, a telescopic sleeve 322, and a telescopic spring 323; the telescopic sleeve 322 is arranged on the main support 1; the telescopic rod 321 is sleeved in the telescopic sleeve 322; the telescopic spring 323 is arranged in the telescopic sleeve 322 and sleeved on the telescopic rod 321; two ends of the telescopic spring 323 are respectively and elastically connected with the telescopic rod 321 and the telescopic sleeve 322; the traction rope 31 is wound around the end of the expansion spring 323 located outside the expansion sleeve 322. In this embodiment, the traction spring is a tension spring.
Traction unit 32 also includes a split ring 324; the separating ring 324 is mounted on the side of the telescopic sleeve 322 facing the traction rope 31; the separating ring 324 is sleeved on the telescopic rod 321; the thickness of split ring 324 is greater than the length of telescoping rod 321 outside telescoping sleeve 322. When the person to be trained shoots the end of the telescopic rod 321, the telescopic rod 321 is contracted inwards to the telescopic sleeve 322, and meanwhile, the traction rope 31 is separated from the telescopic rod 321 based on interference of the separation ring 324.
The end of the telescopic rod 321 positioned in the telescopic sleeve 322 is provided with a telescopic pulling plate 325; the end of the expansion spring 323 is elastically connected to the expansion plate 325. The telescopic sleeve 322 and the telescopic pull plate 325 are square structures; the telescoping pull plate 325 is attached to the inner wall of the telescoping sleeve 322. The telescopic sleeve 322 and the telescopic pull plate 325 with square structures are matched with each other, so that the telescopic sleeve 322 and the telescopic pull plate 325 cannot rotate relatively, and therefore, the telescopic rod 321 and the telescopic sleeve 322 cannot rotate relatively, and when the hauling cable pulls the balancing weight 23, the swing target 2 swings. In the embodiment, the balancing weight 23 is provided with an annular groove; the traction rope 31 is wound in the annular groove.
Traction unit 32 also includes a release plate 326 at the outer end of telescoping sleeve 322; the telescopic rod 321 is arranged on the anti-falling plate 326 in a penetrating way; the size of the anti-slip plate 326 is smaller than the inner size of the separating ring 324; the distance between the escape prevention plate 326 and the telescopic sleeve 322 is greater than the length of the telescopic rod 321 passing through the escape prevention plate 326. In this embodiment, when the person to be trained directly shoots the telescopic rod 321, the anti-falling plate 326 is used to prevent the telescopic rod 321 from moving too much after receiving the impact force, and even exceeds the elastic deformation maximum value of the telescopic spring 323, which causes damage to the equipment.
The working flow is as follows: when shooting training is needed, one end of the traction wire is fixed on the balancing weight 23 of the swing target 2, the traction wire is pulled to deflect the swing target 2, the other end of the traction wire is bound on the telescopic rod 321 of the traction mechanism 3, and a target is placed at the upper end of the swing target 2. Through the accurate shooting to the pull wire or to the accurate shooting of tip of telescopic link 321, release swing target 2, under the gravity effect of swing target 2 below balancing weight 23, swing target 2 is left and right swing, and the personnel of instructing simultaneously catch the shooting to the target on the swing target 2, can effectively train the cooperation ability between the personnel of instructing, make the tight actual combat of training content, enrich the training form, effectively promote the application shooting level of army police personnel, and is simple and practical, effectual.
The foregoing is illustrative of the present utility model and is not to be construed as limiting thereof, but rather as providing for the use of additional embodiments and advantages of all such modifications, equivalents, improvements and similar to the present utility model are intended to be included within the scope of the present utility model as defined by the appended claims.

Claims (9)

1. A triggered composite trainer comprising: a main bracket (1), a swinging target (2) and a traction mechanism (3);
the main support (1) is of a support body structure;
the swing target (2) is of a rod-shaped structure and is hinged with the main support (1) through a pin shaft;
the length of the swinging target (2) positioned inside the main support (1) is smaller than the length of the swinging target (2) positioned outside the main support (1);
the weight of the swinging target (2) positioned inside the main support (1) is higher than that of the swinging target (2) positioned inside the main support (1);
one end of the traction mechanism (3) is arranged on the main support (1), and the other end of the traction mechanism is connected with the swing target (2);
the swing target (2) deflects based on the traction force provided by the traction mechanism (3);
when the traction mechanism (3) is separated from the swing target (2), the swing target (2) rotates along the pin shaft based on the gravity provided by the swing target (2).
2. The trigger type composite trainer according to claim 1, wherein the swing target (2) comprises a target core plate (21), a supporting rod (22) and a balancing weight (23) which are sequentially arranged from top to bottom;
the bulls-eye plate (21) and the balancing weight (23) are respectively and fixedly arranged at two ends of the supporting rod (22);
the supporting rod (22) is hinged with the main support (1) through the pin shaft;
the balancing weight (23) is positioned in the main support (1);
the bulls-eye (21) is located above the main support (1).
3. A trigger-type compound trainer according to claim 2, characterized in that the traction mechanism (3) comprises a traction unit (32) and a traction rope (31);
the traction unit (32) is provided with a telescopic structure and is arranged on the main support (1);
one end of the traction rope (31) is wound on the end part of the telescopic structure, and the other end of the traction rope is wound on the balancing weight (23);
when the telescopic structure is contracted, the traction rope (31) is separated from the traction unit (32) or the traction rope (31) is disconnected, the swing target (2) rotates along the pin shaft.
4. A trigger-type compound trainer according to claim 3, characterized in that the traction unit (32) comprises a telescopic rod (321), a telescopic sleeve (322) and a telescopic spring (323);
the telescopic sleeve (322) is arranged on the main support (1);
the telescopic rod (321) is sleeved in the telescopic sleeve (322);
the telescopic spring (323) is arranged in the telescopic sleeve (322) and sleeved on the telescopic rod (321);
two ends of the telescopic spring (323) are respectively and elastically connected with the telescopic rod (321) and the telescopic sleeve (322);
the traction rope (31) is wound on the end part of the telescopic spring (323) which is positioned outside the telescopic sleeve (322).
5. A trigger-type compound trainer according to claim 4, characterized in that the traction unit (32) further comprises a separating ring (324);
the separating ring (324) is mounted on the side of the telescopic sleeve (322) facing the traction rope (31);
the separating ring (324) is sleeved on the telescopic rod (321);
the thickness of the separating ring (324) is higher than the length of the telescopic rod (321) located outside the telescopic sleeve (322).
6. The trigger type compound trainer according to claim 5, characterized in that the end of the telescopic rod (321) positioned in the telescopic sleeve (322) is provided with a telescopic pulling plate (325);
the end of the expansion spring (323) is elastically connected with the expansion pull plate (325).
7. The trigger-type compound trainer according to claim 6, wherein the telescopic sleeve (322) and the telescopic pull plate (325) are both square structures;
the telescopic pulling plate (325) is attached to the inner wall of the telescopic sleeve (322).
8. The trigger-type compound trainer according to claim 5, characterized in that the traction unit (32) further comprises an anti-drop plate (326) at the end outside the telescopic sleeve (322);
the telescopic rod (321) is arranged on the anti-falling plate (326) in a penetrating way;
the anti-slip plate (326) has a dimension that is less than an inner dimension of the separator ring (324);
the distance between the anti-falling plate (326) and the telescopic sleeve (322) is larger than the length of the telescopic rod (321) penetrating through the anti-falling plate (326).
9. A trigger type compound trainer according to claim 3, characterized in that the balancing weight (23) is provided with an annular groove;
the traction rope (31) is wound in the annular groove.
CN202320382418.8U 2023-03-03 2023-03-03 Triggering type composite training device Active CN219607861U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202320382418.8U CN219607861U (en) 2023-03-03 2023-03-03 Triggering type composite training device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202320382418.8U CN219607861U (en) 2023-03-03 2023-03-03 Triggering type composite training device

Publications (1)

Publication Number Publication Date
CN219607861U true CN219607861U (en) 2023-08-29

Family

ID=87753537

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202320382418.8U Active CN219607861U (en) 2023-03-03 2023-03-03 Triggering type composite training device

Country Status (1)

Country Link
CN (1) CN219607861U (en)

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