CN213041102U - Structure of heavy weapon shock wave target - Google Patents

Abstract

The utility model discloses a heavy weapon shock wave target-falling structure, which comprises a moving mechanism and a placing mechanism, wherein a driving post penetrates through the side end of a bearing block and can rotate in the inner cavity of the bearing block, the degree of tightness of a connecting block is adjusted and adjusted, so that a first linkage block is driven to drive the post to rotate axially, and a driving adjusting mechanism is driven to move up and down, the necessary weight of the device is reduced by changing the stress direction of the device, the practicability of the device is improved, the integral device avoids the separation device caused by the over-fast rotation of an installation rotating rod due to the connection of a limiting vertical rod and an installation double lug, the safety of the device is improved, sundries and auxiliary devices can be placed at the inner end or the upper end of the integral device under the working state due to the installation of a supporting device, under the quasi-working state, the device is placed outdoors, the setting of a frame-shaped structure of the integral device improves the wind resistance, can bear the strength of seven-grade strong wind.

Description

Structure of heavy weapon shock wave target

Technical Field

The utility model relates to a play target technical field specifically is a heavy arms shock wave plays structure of target.

Background

The target is a military training article, mainly used for shooting training. In shooting training, the recording statistics of target showing, target detecting, target reporting and training results are the main work of the training process.

At present, the traditional mode of fixing targets in the past is still used by troops during shooting training, most of the driving of the shooting and backing targets on the current market is forward and backward pushing, the structural rigidity is not enough, a large structure is needed to reduce deformation, the weight is large, and the use is inconvenient.

Aiming at the problems, in order to improve the driving mode of the target, reduce the weight and the functional diversity, a structure of the heavy weapon shock wave target is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a structure of heavy weapon shock wave target shooting, including moving mechanism and placement mechanism, drive the post and run through the bearing block side, and can rotate in its inner chamber, through adjusting the elasticity degree of adjusting even piece, thereby drive first linkage piece to drive the post and carry out the rotation of axes, thereby drive adjustment mechanism and reciprocate, through changing the stress direction of device, lighten the necessary weight of device, promote the practicality of device, the whole device avoids the device that breaks away from because of the installation swing arm rotates too fast because of the connection of spacing montant and installation ears, improve the security of device, because of the installation of strutting arrangement, can place debris and auxiliary device in its inner or upper end under the workable state, under the quasi-workable state, because the device is placed in the open air, the setting of its frame-shaped structure, make the wind resistance level of whole device promoted, can bear the strength of seven-grade strong wind, and solves the problems in the background technology.

In order to achieve the above object, the utility model provides a following technical scheme: a heavy weapon shock wave target lifting structure comprises a moving mechanism and a placing mechanism, wherein the placing mechanism is installed in an inner cavity of the moving mechanism, the moving mechanism comprises a mounting frame, a mounting plate, mounting lugs, limiting double plates, a through hole, a supporting cross rod, a supporting mechanism, an adjusting mechanism, a target rod and a target surface, the mounting plate is installed at the inner end of the mounting frame, the mounting lugs are installed at one side of the upper end of the mounting plate, the limiting double plates are installed at two sides of the upper end of the mounting plate, the through hole is formed in the side end of each limiting double plate, the other side of the inner end of the mounting frame passes through the supporting cross rod, the supporting mechanism is installed at the upper end of the mounting frame, the adjusting mechanism is installed in an inner cavity of the through hole in a penetrating mode, the target rod is installed at the upper end of, the placing mechanism comprises a bearing block and a central control box, the bearing block is installed at the upper end of the mounting plate, and the central control box is installed at the upper end of the supporting cross rod.

Further, the supporting mechanism includes the erection column, supports spreader, bearing side lever, top connecting rod, connecting block and spacing axle, the support spreader is installed at the both ends of erection column, the bearing side lever is installed to the other end that supports the spreader, top connecting rod is installed to the upper end inboard of bearing side lever, the connecting block is installed to both sides about the rear end of erection column, spacing axle is installed to the rear end of connecting block.

The adjusting mechanism comprises an installation rotating rod, an adjustment connecting block, a connecting mechanism, a positioning transverse cylinder, a limiting outer block and a limiting vertical rod, the adjustment connecting block is installed at two ends of the installation rotating rod, the connecting mechanism is installed at the inner end of the adjustment connecting block, the positioning transverse cylinder is installed at the outer end of the adjustment connecting block, the limiting outer block is installed at the outer end of the positioning transverse cylinder, and the limiting vertical rod is installed in the inner cavity of the adjustment connecting block.

Further, the adjustment is even the piece including linking up post, installation side piece, lower connector strut, the tensile section of thick bamboo of activity, go up ring and interior even post down, the installation side piece is installed to the outer lane of linking up the post, the lower connector strut is installed down to the lower extreme of installation side piece, the tensile section of thick bamboo of outer lane parcel activity of lower connector strut, the lower connector strut is installed to the bottom of lower connector strut, interior even post is installed to the inner chamber of lower connector strut.

Further, coupling mechanism includes first linkage piece, drives post, second linkage piece and inscription post, the lower extreme inner chamber of first linkage piece is installed and is driven the post, the second linkage piece is installed to the other end that drives the post, the inscription post is installed to the upper end inner chamber of second linkage piece.

Furthermore, the bottom end of the limiting vertical rod is movably arranged between two mounting lugs.

Furthermore, the driving column penetrates through the inner cavity of the bearing block.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides a structure of heavy arms shock wave target that falls drives the post and runs through the bearing block side, and can rotate at its inner chamber, through the elasticity degree of adjustment even piece to drive first linkage piece and carry out the rotation of axle in order to drive the post, thereby drive guiding mechanism and reciprocate, through the direction of force of change arrangement, alleviate the necessary weight of device, promoted the practicality of device.

2. The utility model provides a structure of heavy arms shock wave target, the integrated device is because of being connected of spacing montant and installation ears, avoids the installation swing arm to rotate too fast and leads to its disengaging gear, has improved the security of device.

3. The utility model provides a structure of heavy arms shock wave target that falls, because of strutting arrangement's installation, but under the operating condition can place debris and auxiliary device in its inner or upper end, under the accurate operating condition, because of the device is placed in the open air, the settlement of its frame column structure makes the anti-wind grade of integrated device obtain promoting, can bear seven grades of strong wind's intensity.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural view of the moving mechanism of the present invention;

FIG. 3 is a schematic structural view of the supporting mechanism of the present invention;

fig. 4 is a schematic view of the adjusting mechanism of the present invention.

In the figure: 1. a moving mechanism; 11. a mounting frame; 12. mounting a plate; 13. installing double lugs; 14. a double limiting plate; 15. a through hole; 16. a support rail; 17. a support mechanism; 171. mounting a column; 172. supporting the transverse column; 173. a bearing side lever; 174. a top connecting rod; 175. connecting blocks; 176. a limiting shaft; 18. an adjustment mechanism; 181. installing a rotary rod; 182. adjusting the connecting block; 1821. connecting the column; 1822. installing a side block; 1823. a lower connecting column; 1824. a movable stretching cylinder; 1825. a lower connecting ring; 1826. connecting the column internally; 183. a connecting mechanism; 1831. a first linkage block; 1832. driving the column; 1833. a second linkage block; 1834. connecting the column internally; 184. positioning the transverse cylinder; 185. a limiting outer block; 186. a limiting vertical rod; 19. a target bar; 1A, a target surface; 2. a placement mechanism; 21. a bearing block; 22. and (4) a central control box.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and 2, a heavy weapon shock wave target lifting structure comprises a moving mechanism 1 and a placing mechanism 2, the placing mechanism 2 is installed in an inner cavity of the moving mechanism 1, the moving mechanism 1 comprises an installation frame 11, an installation plate 12, installation lugs 13, limiting double plates 14, through holes 15, a support cross rod 16, a support mechanism 17, an adjusting mechanism 18, a target rod 19 and a target surface 1A, the installation plate 12 is installed at the inner end of the installation frame 11, the installation lugs 13 are installed on one side of the upper end of the installation plate 12, the limiting double plates 14 are installed on two sides of the upper end of the installation plate 12, the through holes 15 are formed in the side ends of the limiting double plates 14, the other side of the inner end of the installation frame 11 passes through the support cross rod 16, the support mechanism 17 is installed at the upper end of the installation frame 11, the adjusting mechanism 18 is installed in an inner cavity of the through holes 15 in a penetrating manner, placing mechanism 2 is installed to the upper end of mounting panel 12, and placing mechanism 2 includes bearing block 21 and well accuse box 22, and bearing block 21 is installed to the upper end of mounting panel 12, and well accuse box 22 is installed to the upper end of supporting horizontal pole 16.

Referring to fig. 3, the supporting mechanism 17 includes a mounting post 171, a supporting cross-post 172, a supporting side rod 173, a top connecting rod 174, a connecting block 175 and a limiting shaft 176, the supporting cross-post 172 is installed at two ends of the mounting post 171, the supporting side rod 173 is installed at the other end of the supporting cross-post 172, the top connecting rod 174 is installed at the inner side of the upper end of the supporting side rod 173, the connecting block 175 is installed at the upper and lower sides of the rear end of the mounting post 171, and the limiting shaft 176 is installed at the rear end of the connecting block 175, so that sundries and auxiliary devices can be placed at the inner end or the upper end of the supporting device in a working state, and in a quasi-working state, the device is placed outdoors, and the frame-shaped structure is set, so that the wind resistance level.

Referring to fig. 4, the adjusting mechanism 18 includes a mounting rotary rod 181, an adjusting link 182, a connecting mechanism 183, a positioning transverse cylinder 184, a limiting outer block 185 and a limiting vertical rod 186, the adjusting link 182 is mounted at two ends of the mounting rotary rod 181, the adjusting link 182 includes an engaging column 1821, a mounting side block 1822, a lower connecting column 1823, a movable stretching cylinder 1824, a lower connecting ring 1825 and an inner connecting column 1826, the mounting side block 1822 is mounted at an outer ring of the engaging column 1821, the lower connecting column 1823 is mounted at a lower end of the mounting side block 1822, the movable stretching cylinder 1824 is wrapped at an outer ring of the lower connecting column 1823, the lower connecting ring 1825 is mounted at a bottom end of the lower connecting column 1823, the inner connecting column 1826 is mounted in an inner cavity of the lower connecting ring 1825, the connecting mechanism 183 is mounted at an inner end of the adjusting link 182, the connecting mechanism 183 includes a first linking block 1831, a driving column 1832, a second linking block 1833 and an inner connecting column 1834, the inner cavity of the first linking block 1831 is mounted in an, the other end of the driving column 1832 is provided with a second linkage block 1833, the inner cavity at the upper end of the second linkage block 1833 is provided with an inner connection column 1834, the outer end of the adjusting link block 182 is provided with a positioning transverse cylinder 184, the outer end of the positioning transverse cylinder 184 is provided with a limiting outer block 185, the inner cavity of the adjusting link block 182 is provided with a limiting vertical rod 186, the bottom end of the limiting vertical rod 186 is movably arranged between the two mounting lugs 13, the driving column 1832 penetrates through the side end of the bearing block 21 and can rotate in the inner cavity thereof, the first linkage block 1831 is driven to drive the column 1832 to rotate axially by adjusting the tightness degree of the adjusting link block 182, so as to drive the adjusting mechanism 18 to move up and down, the necessary weight of the device is reduced by changing the stress direction of the device, the practicability of the device is improved, the whole device is connected with the two mounting lugs 13 due to the limiting vertical rod 186, and, the safety of the device is improved.

In summary, the following steps: the shock wave target-tilting structure of heavy weapon of the utility model drives the column 1832 to penetrate the side end of the bearing block 21 and rotate in the inner cavity, by adjusting the degree of tightness of the connecting block 182, thereby driving the first linkage block 1831 to drive the column 1832 to perform axial rotation, thereby driving the adjustment mechanism 18 to perform up and down movement, by changing the stress direction of the device, the necessary weight of the device is reduced, the practicability of the device is improved, the integral device avoids the separation of the installation rotary rod 181 caused by the over-fast rotation of the installation rotary rod 181 due to the connection of the limiting vertical rod 186 and the installation double lugs 13, the safety of the device is improved, and due to the installation of the supporting device 17, in the working state, sundries and auxiliary devices can be placed at the inner end or the upper end of the device, and in the quasi-working state, because the device is placed outdoors, the frame-shaped structure of the device improves the wind resistance level of the whole device and can bear the strength of seven-level strong wind.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a structure of heavy arms shock wave target of falling, includes moving mechanism (1) and placement mechanism (2), its characterized in that are installed to the inner chamber of moving mechanism (1): the moving mechanism (1) comprises an installation frame (11), an installation plate (12), installation lugs (13), a limiting double plate (14), a through hole (15), a supporting cross rod (16), a supporting mechanism (17), an adjusting mechanism (18), a target rod (19) and a target surface (1A), the installation plate (12) is installed at the inner end of the installation frame (11), the installation lugs (13) are installed at one side of the upper end of the installation plate (12), the limiting double plate (14) is installed on two sides of the upper end of the installation plate (12), the through hole (15) is formed in the side end of the limiting double plate (14), the other side of the inner end of the installation frame (11) passes through the supporting cross rod (16), the supporting mechanism (17) is installed at the upper end of the installation frame (11), the adjusting mechanism (18) is installed in an inner cavity of the through hole (15) in a penetrating, the top and the target surface (1A) swing joint of target pole (19), placement machine structure (2) is installed to the upper end of mounting panel (12), placement machine structure (2) are including bearing block (21) and well accuse box (22), bearing block (21) are installed to the upper end of mounting panel (12), well accuse box (22) are installed to the upper end of supporting horizontal pole (16).

2. The structure of a heavy arms shock target according to claim 1, wherein: supporting mechanism (17) are including erection column (171), support spreader (172), bearing side lever (173), top connecting rod (174), connecting block (175) and spacing axle (176), support spreader (172) are installed at the both ends of erection column (171), bearing side lever (173) are installed to the other end of supporting spreader (172), top connecting rod (174) are installed to the upper end inboard of bearing side lever (173), connecting block (175) are installed to both sides about the rear end of erection column (171), spacing axle (176) are installed to the rear end of connecting block (175).

3. The structure of a heavy arms shock target according to claim 1, wherein: adjusting mechanism (18) is including installation swing arm (181), adjustment even piece (182), coupling mechanism (183), the horizontal section of thick bamboo in location (184), spacing outer piece (185) and spacing montant (186), the both ends of installation swing arm (181) are installed the adjustment and are even piece (182), coupling mechanism (183) are installed to the inner of the even piece of adjustment (182), the horizontal section of thick bamboo in location (184) is installed to the outer end of even piece of adjustment (182), spacing outer piece (185) are installed to the outer end of the horizontal section of thick bamboo in location (184), spacing montant (186) are installed to the inner chamber of even piece of adjustment (182).

4. The structure of claim 3 in which: even piece (182) of adjustment is including linking up post (1821), installation side piece (1822), lower post (1823), the tensile section of thick bamboo of activity (1824), lower go-between (1825) and interior post (1826), the installation side piece (1822) is installed to the outer lane of linking up post (1821), lower post (1823) is installed to the lower extreme of installation side piece (1822), the tensile section of thick bamboo of outer lane parcel activity (1824) of lower post (1823), lower go-between (1825) is installed to the bottom of lower post (1823), interior even post (1826) are installed to the inner chamber of lower go-between (1825).

5. The structure of claim 3 in which: coupling mechanism (183) include first linkage piece (1831), drive post (1832), second linkage piece (1833) and inscribe post (1834), the lower extreme inner chamber of first linkage piece (1831) is installed and is driven post (1832), second linkage piece (1833) are installed to the other end that drives post (1832), in-connection post (1834) are installed to the upper end inner chamber of second linkage piece (1833).

6. The structure of claim 3 in which: the bottom end of the limiting vertical rod (186) is movably arranged between the two mounting lugs (13).

7. The structure of claim 5 in which: the driving column (1832) penetrates through the inner cavity of the bearing block (21).

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