CN211024956U - High-altitude combined training equipment - Google Patents

Abstract

The utility model discloses a high altitude combination training equipment belongs to trainer technical field. The high-altitude combined trainer comprises a support frame, wherein the support frame is composed of stand columns and cross beams among the stand columns, the stand columns are arranged at intervals, the stand columns comprise a first stand column, a second stand column, a third stand column, a fourth stand column, a fifth stand column, a sixth stand column, a seventh stand column and an eighth stand column, the third stand column, the fourth stand column, the fifth stand column and the sixth stand column form an inverted trapezoidal structure of the middle part, the first stand column, the second stand column, the third stand column and the fourth stand column form a rhombic structure on one side of the inverted trapezoidal structure, and the fifth stand column, the sixth stand column, the seventh stand; and a protective rope is arranged between the tops of the upright posts. Therefore, the utility model adopts the above structure high altitude combination training equipment can solve the problem that current high altitude training apparatus function is few, area is big, the cost is high.

Description

High-altitude combined training equipment

Technical Field

The utility model belongs to the technical field of trainer technique and specifically relates to a high altitude combination training equipment that multiple high altitude training apparatus makes up together is related to.

Background

With the continuous progress of army training technology, more requirements are put on the functionality of military training equipment, particularly high-altitude training equipment. Existing individual high-altitude training apparatus are as follows: aerial broken bridges, aerial horizontal bars, aerial swing wooden bridges, single wooden bridges, jungle rope bridges and the like can not meet the requirements of military training. The single high-altitude training instruments are simply combined together for use, and the problems of large occupied area and high manufacturing cost exist. Moreover, the simple combination is inconvenient for effective combination training of the system.

In addition, the air broken bridge is two fixed plates, and the distance between the two plates cannot be adjusted, so that the air broken bridge cannot meet the requirements of training personnel with different physiques.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high altitude combination training equipment solves the problem that current high altitude training apparatus function is few, area is big, the cost is high.

In order to achieve the purpose, the utility model provides a high-altitude combination training device, which comprises a support frame, wherein the support frame is composed of stand columns arranged at intervals and a beam between the stand columns, each stand column comprises a stand column I, a stand column II, a stand column III, a stand column IV, a stand column V, a stand column VI, a stand column VII and a stand column VIII, wherein the stand column III, the stand column IV, the stand column V and the stand column VI form an inverted trapezoidal structure of the middle part, the stand column I, the stand column II, the stand column III and the stand column IV form a rhombic structure on one side of the inverted trapezoidal structure, and the stand column V, the stand column VI, the stand column VII and the stand; a protective rope is arranged between the tops of the upright posts;

a connecting rod is arranged between the first upright post and the second upright post, an overhead ladder and a quick-descending rope are arranged on the connecting rod, a cliff-shaped absolute wall is arranged between the first upright post and the upper part of the second upright post, and the cliff-shaped absolute wall is positioned above the connecting rod; a rope net and a high-altitude wood swinging bridge are arranged between the second upright post and the third upright post, and the high-altitude wood swinging bridge is positioned above the rope net; a single-plank bridge is arranged between the third upright post and the fourth upright post; an aerial horizontal bar is arranged between the first upright post and the fourth upright post, and a climbing column of the aerial horizontal bar is positioned between the first upright post and the fourth upright post; rock climbing is arranged between the fourth upright post and the fifth upright post; an air broken bridge is arranged between the fifth upright post and the eighth upright post; a warped plate bridge is arranged between the eight upright post and the seven upright post; an overhead ladder is arranged between the seventh upright post and the sixth upright post; a plum-blossom bridge is arranged between the sixth upright post and the fifth upright post; a jungle rope bridge and interdependence are arranged between the first upright post and the eighth upright post; and a suspension bridge is arranged between the third upright post and the sixth upright post.

Preferably, diagonal draw ropes for improving stability are arranged between the first upright column, the third upright column, the sixth upright column, the eighth upright column and the ground.

Preferably, an inclined supporting rod is arranged between the top of the rock climbing and the ground, and the inclined supporting rod is located below the suspension bridge.

Preferably, all even being provided with the ladder ear of climbing usefulness on stand and the climbing post, the contained angle of two ladder ears is 180.

Preferably, aerial bridge cut-off includes fixed plate and regulating plate, the regulating plate includes lagging and slide, and the slide is located the inside of lagging, and the bottom of slide is provided with the pivot, and the pivot is rotated with the slide and is connected, and the middle part of pivot is provided with the gear, is provided with on the internal surface of lagging with gear engagement's rack, and the pivot is stretched out one of lagging and is served and be provided with the crank, and the position that corresponds the crank on the lagging is provided with the rectangular hole of the motion of the crank of being convenient for.

Preferably, guide wheels are arranged on the lower surface of the sliding plate, the guide wheels are positioned on two sides of the gear, and guide rails matched with the guide wheels are arranged on the inner surface of the sleeve plate provided with the rack; the lateral surface of the sleeve plate is provided with a jackscrew for fixing the sliding plate.

Preferably, the seesaw bridge includes that both ends fix the cable on seven and eight stands of stand respectively, and even between two cables is provided with a plurality of backup pad, and the top of backup pad is provided with the seesaw, and the mount pad that sets up in seesaw and the backup pad rotates to be connected, connects through the connecting chain between the adjacent seesaw, is located and is provided with the blotter on the upper surface of backup pad of seesaw end below.

High altitude combination training equipment for the structure of symmetry, each training apparatus forms a relative confined space, abundant utilization the inside space of support frame and support frame, the integrated level on the support frame is than higher, has reduced the occupation of land space when each training apparatus lays alone, the cost is reduced. All the training instruments are connected together, all the projects can be completed selectively at one time, and a plurality of the training projects can be selected for training according to the requirements; and two or more persons can also be played from any one of the items according to the selection of the conditions of the users. The air broken bridge comprises an adjusting plate with adjustable length, and the distance between the adjusting plate and the fixing plate is adjustable, so that the requirements of people with different physiques and training strengths can be met.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic view of an expanded structure of an embodiment of a high-altitude combined training device of the present invention;

FIG. 2 is a schematic top view of an embodiment of the high-altitude combined training apparatus of the present invention;

FIG. 3 is a schematic view of a longitudinal section structure of an adjusting plate of an embodiment of the high-altitude combination training device of the present invention;

FIG. 4 is a schematic cross-sectional view of an adjusting plate of an embodiment of the high-altitude combination training device of the present invention;

fig. 5 is a schematic structural view of a seesaw bridge according to an embodiment of the high-altitude combined training apparatus of the present invention.

Reference numerals

1. A first upright post; 2. a second upright post; 3. a third upright post; 4. a fourth upright post; 5. a fifth upright post; 6. a sixth upright post; 7. a column seven; 8. eighthly, an upright post; 9. climbing columns; 10. a diagonal draw rope; 11. a protective rope; 12. a suspension bridge; 13. a single-log bridge; 14. a rope net; 15. a high-altitude swinging wooden bridge; 16. a rope ladder; 17. a quick descent rope; 18. an aerial horizontal bar; 19. climbing; 20. the cliff is used for insulating the wall; 21. breaking a bridge in the air; 22. a warped plate bridge; 23. a high ladder; 24. a quincuncial bridge; 25. a jungle rope bridge; 26. a cross beam; 27. a diagonal brace; 28. interdependence; 29. sheathing; 30. a slide plate; 31. a rack; 32. a gear; 33. a rotating shaft; 34. a guide wheel; 35. a guide rail; 36. a crank; 37. carrying out top thread; 38. an iron wire; 39. a seesaw; 40. a support plate; 41. a mounting seat; 42. a connecting chain; 43. a cushion pad.

Detailed Description

Examples

Fig. 1 is the expansion structure schematic diagram of the high-altitude combined training equipment of the utility model, and fig. 2 is the overlooking structure schematic diagram of the high-altitude combined training equipment of the utility model. As shown in the figure, the high-altitude combined training device comprises a supporting frame, wherein the supporting frame is composed of upright columns arranged at intervals and cross beams 26 arranged between the upright columns. The bottom ends of the columns are fixed to the ground through anchor bolts, and the cross beam 26 is located at the top ends of the columns and fixedly connected with the columns through welding. The upright column comprises an upright column I1, an upright column II 2, an upright column III 3, an upright column IV 4, an upright column V5, an upright column VI 6, an upright column VII 7 and an upright column VIII 8, wherein the upright column III 3, the upright column IV 4, the upright column V5 and the upright column VI 6 form an inverted trapezoidal structure at the middle part, the upright column I1, the upright column II 2, the upright column IV 3 and the upright column IV 4 form a rhombic structure at one side of the inverted trapezoidal structure, and the upright column V5, the upright column VI 6, the upright column VII 7 and the upright column VIII 8 form a rhombic structure at the other side. Be provided with protection rope 11 between the top of stand, be provided with safety rope and self-locking ware on the protection rope 11 for protect training personnel's safety. The protective rope 11, the safety rope and the self-locking device are selected from devices used on the existing high-altitude training apparatus.

A connecting rod is arranged between the first upright post 1 and the second upright post 2, a flexible ladder 16 and a quick-descending rope 17 are arranged on the connecting rod, a cliff-stopping wall 20 is arranged between the first upright post 1 and the upper part of the second upright post 2, and the cliff-stopping wall 20 is positioned above the connecting rod. A rope net 14 and a high-altitude swinging wood bridge 15 are arranged between the second upright post 2 and the third upright post 3, and the high-altitude swinging wood bridge 15 is positioned above the rope net 14. A single-plank bridge 13 is arranged between the third upright post 3 and the fourth upright post 4. Be provided with aerial horizontal bar 18 between stand 1 and the stand four 4, the climbing column 9 of aerial horizontal bar 18 is located between stand 1 and the stand four 4, and the distance of the bottom of the top distance horizontal bar of climbing column 9 is 1750 plus 1800 mm. Rock climbing 19 is arranged between the fourth upright post 4 and the fifth upright post 5; an air broken bridge 21 is arranged between the fifth upright post 5 and the eighth upright post 8; a warped plate bridge 22 is arranged between the eight 8 and seven 7 upright posts; an overhead ladder 23 is arranged between the seventh upright post 7 and the sixth upright post 6, and two sides of the overhead ladder 23 are provided with quick descending ropes 17; a plum blossom bridge 24 is arranged between the six upright posts 6 and the five upright posts 5; a jungle rope bridge 25 and interdependence 28 are arranged between the upright post eight 8 and the upright post I1; a suspension bridge 12 is arranged between the third upright post 3 and the sixth upright post 6. The suspension bridge 12 is located behind the climbing 19 and the interdependence 28 and the jungle rope bridge 25 are located in front of the climbing 19.

The high-altitude combined training equipment is of a symmetrical structure, the specification is 26 meters in length, × meters in width, 10.9 meters in width, × meters in height and 12 meters in height, the floor area is 450 square meters (30 meters in length, × meters in width and 15 meters in width), each training instrument forms a relatively closed space, the space inside a support frame and the support frame is fully utilized, the integration level on the support frame is higher, the floor space when each training instrument is laid independently is reduced, the cost is reduced, all the training instruments are connected together, all projects can be completed at one time, several training projects can be selected as required for training, and two or more people can be played by selecting from any project according to the self condition.

Be provided with the oblique stay cord 10 that improves stability between stand 1, stand three 3, stand six 6, stand eight 8 and the ground, be provided with oblique stay cord 10 on the both ends stand of training apparatus promptly, be provided with two oblique stay cords 10 on every stand, improve the stability of training apparatus.

And a diagonal brace 27 is arranged between the top of the back surface of the climbing rock 19 and the ground, and the diagonal brace 27 is fixed on the ground and used for supporting the wall of the climbing rock 19. The diagonal brace 27 is located below the suspension bridge 12 to avoid interference with the suspension bridge 12.

The upright post and the climbing post 9 are uniformly provided with ladder ears for climbing, and the ladder ears are in right-angled triangle structures. The ladder ears are arranged into two rows, and the included angle between the two rows of ladder ears is 180 degrees, so that the ladder is convenient to climb.

Fig. 3 is the utility model relates to a regulating plate longitudinal section structure sketch map of high altitude combination training equipment embodiment, fig. 4 is the utility model relates to a regulating plate cross section structure sketch map of high altitude combination training equipment embodiment. The air bridge-cut 21 comprises a fixed plate and an adjusting plate, and inclined reinforcing rods are arranged between the lower surfaces of the fixed plate and the adjusting plate and the upright posts. The adjustment plate comprises a sleeve plate 29 and a sliding plate 30, the sliding plate 30 being located inside the sleeve plate 29. The bottom of the sliding plate 30 is provided with a rotating shaft 33, and the rotating shaft 33 is rotatably connected with the sliding plate 30 through a bearing. The gear 32 is provided at the middle of the rotation shaft 33, and the rack 31 engaged with the gear 32 is provided on the inner surface of the strap 29. The end of the rotating shaft 33 extending out of the sleeve plate 29 is provided with a crank 36, and the sleeve plate 29 is provided with a long hole corresponding to the crank 36 for facilitating the movement of the crank 36. The lower surface of the sliding plate 30 is provided with a guide wheel 34, and the guide wheel 34 is rotatably connected with a bracket welded on the sliding plate 30 through a pin shaft. The guide wheels 34 are located on two sides of the gear 32, two guide wheels 34 are arranged on each side, and the inner surface of the sleeve plate 29 provided with the rack 31 is provided with a guide rail 35 matched with the guide wheels 34. The guide wheels 34 provide guidance and support for the slide plate 30. The side of the sleeve plate 29 is provided with a top thread 37 for fixing the sliding plate 30. The rotating shaft 33 is rotated through the crank 36, the gear 32 is matched with the rack 31 on the rotating shaft 33, so that the sliding plate 30 slides in the sleeve plate 29, the length of the adjusting plate is adjusted, the size of the gap distance between the fixing plate and the adjusting plate is adjusted, and the requirements of different gap distances are met.

Fig. 5 is a schematic structural view of a seesaw bridge according to an embodiment of the high-altitude combined training apparatus of the present invention. The warped plate bridge 22 comprises iron cables 38, two ends of each iron cable 38 are respectively fixed on a seventh upright post 7 and an eighth upright post 8, a plurality of support plates 40 are uniformly arranged between the two parallel iron cables 38, and the support plates 40 are fixed on the iron cables 38. A warped plate 39 is arranged above the supporting plate 40, and the warped plate 39 is rotatably connected with a mounting seat 41 welded on the supporting plate 40 through a pin shaft. The adjacent seesaws 39 are connected through the connecting chain 42, and linkage between the seesaws 39 is realized. A rubber cushion 43 is provided on the upper surface of support plate 40 below the end of rocker 39 to cushion the fall of rocker 39 from rigid contact with support plate 40.

The other training devices mentioned in the utility model are the same as the existing structure, and are not repeated herein.

Therefore, the utility model adopts the above structure high altitude combination training equipment can solve the problem that current high altitude training apparatus function is few, area is big, the cost is high.

The above are specific embodiments of the present invention, but the scope of protection of the present invention should not be limited thereto. Any changes or substitutions which can be easily conceived by those skilled in the art within the technical scope of the present invention are covered by the protection scope of the present invention, and therefore, the protection scope of the present invention is subject to the protection scope defined by the claims.

Claims (7)

1. A high altitude combination training equipment which characterized in that: the support frame is composed of stand columns and cross beams among the stand columns, wherein the stand columns are arranged at intervals and comprise a first stand column, a second stand column, a third stand column, a fourth stand column, a fifth stand column, a sixth stand column, a seventh stand column and an eighth stand column, the third stand column, the fourth stand column, the fifth stand column and the sixth stand column form an inverted trapezoidal structure of the middle part, the first stand column, the second stand column, the third stand column and the fourth stand column form a rhombic structure on one side of the inverted trapezoidal structure, and the fifth stand column, the sixth stand column, the seventh stand column and the eighth stand column form a rhombic structure on; a protective rope is arranged between the tops of the upright posts;

a connecting rod is arranged between the first upright post and the second upright post, an overhead ladder and a quick-descending rope are arranged on the connecting rod, a cliff-shaped absolute wall is arranged between the first upright post and the upper part of the second upright post, and the cliff-shaped absolute wall is positioned above the connecting rod; a rope net and a high-altitude wood swinging bridge are arranged between the second upright post and the third upright post, and the high-altitude wood swinging bridge is positioned above the rope net; a single-plank bridge is arranged between the third upright post and the fourth upright post; an aerial horizontal bar is arranged between the first upright post and the fourth upright post, and a climbing column of the aerial horizontal bar is positioned between the first upright post and the fourth upright post; rock climbing is arranged between the fourth upright post and the fifth upright post; an air broken bridge is arranged between the fifth upright post and the eighth upright post; a warped plate bridge is arranged between the eight upright post and the seven upright post; an overhead ladder is arranged between the seventh upright post and the sixth upright post; a plum-blossom bridge is arranged between the sixth upright post and the fifth upright post; a jungle rope bridge and interdependence are arranged between the first upright post and the eighth upright post; and a suspension bridge is arranged between the third upright post and the sixth upright post.

2. A high altitude combination training apparatus as claimed in claim 1, wherein: and diagonal draw ropes for improving stability are arranged between the first upright column, the third upright column, the sixth upright column, the eighth upright column and the ground.

3. A high altitude combination training apparatus as claimed in claim 1, wherein: and an inclined supporting rod is arranged between the top of the back face of the rock climbing and the ground and is positioned below the suspension bridge.

4. A high altitude combination training apparatus as claimed in claim 1, wherein: the ladder ear of climbing usefulness is all evenly provided with on stand and the climbing post, and the contained angle that two were listed as ladder ear is 180.

5. A high altitude combination training apparatus as claimed in claim 1, wherein: the aerial bridge cut-off includes fixed plate and regulating plate, the regulating plate includes lagging and slide, and the slide is located the inside of lagging, and the bottom of slide is provided with the pivot, and the pivot rotates with the slide to be connected, and the middle part of pivot is provided with the gear, is provided with on the internal surface of lagging with gear engagement's rack, and the pivot is stretched out one of lagging and is served and be provided with the crank, and the position that corresponds the crank on the lagging is provided with the rectangular hole of the crank motion of being convenient for.

6. A high altitude combination training apparatus as claimed in claim 5, wherein: guide wheels are arranged on the lower surface of the sliding plate and located on two sides of the gear, and guide rails matched with the guide wheels are arranged on the inner surface of the sleeve plate provided with the racks; the lateral surface of the sleeve plate is provided with a jackscrew for fixing the sliding plate.

7. A high altitude combination training apparatus as claimed in claim 1, wherein: the seesaw bridge comprises iron cables, two ends of the iron cables are fixed to the seventh stand column and the eighth stand column respectively, a plurality of supporting plates are evenly arranged between the two iron cables, a seesaw is arranged above the supporting plates, the mounting seats arranged on the seesaw and the supporting plates are connected in a rotating mode, adjacent seesaws are connected through connecting chains, and a cushion pad is arranged on the upper surface of the supporting plate located below the end of the seesaw.

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