CN111283356A - Triangular structure truss steel structure assembling machine - Google Patents

Abstract

The invention provides a triangular truss steel structure assembling machine which comprises an interval adjusting mechanism, a height clamping mechanism and an opening angle adjusting mechanism, wherein the opening angle adjusting mechanism is installed on the interval adjusting mechanism; the invention solves the problems that most of the existing steel structure trusses are welded by adopting a manual splicing forming method, a flange screw connecting structure is usually adopted for splicing, two welding parts are required to be adjusted to proper angles during welding, then are fixed and are welded, and when the steel structures are welded, the welding effect is poor, the welding position is deviated and the size precision is poor due to unstable butt joint between the two steel structures.

Description

Triangular structure truss steel structure assembling machine

Technical Field

The invention relates to the technical field of steel structures, in particular to a triangular truss steel structure assembling machine.

Background

The steel structure truss is a supporting beam structure formed by connecting steel structure rods through welding, riveting or bolts. The steel structure truss generally has a plane or space structure with triangular units, and the steel structure truss rod piece mainly bears axial tension or pressure, so that the strength of materials can be fully utilized, the material can be saved compared with a solid web beam when the span is large, the self weight is reduced, and the rigidity is increased.

At present, most steel structure trusses are welded by adopting a manual splicing forming method, a flange screw connecting structure is usually adopted for splicing, two welding parts are required to be adjusted to a proper angle during welding and then fixed, and then welding is carried out, and when the steel structures are welded, the welding effect is poor, the welding position is deviated, and the size precision is poor due to unstable butt joint between the two steel structures;

therefore, welding workers should widely adopt the truss steel structure assembling machine to perform welding work, deformation and stress of the welding piece are controlled through the effective locking device, and the welding angle is conveniently adjusted, so that the requirement for subsequent welding work is met. The traditional welding technology is optimized by adopting the truss steel structure assembling machine, so that the operation of workers is facilitated, the production cost of enterprises is reduced, and the stability and the precision of the welding size are ensured; the invention provides a bearing manufacturing and processing performance testing device and a testing method.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the following technical scheme that the triangular truss steel structure assembling machine comprises an interval adjusting mechanism, a height clamping mechanism and a flare angle adjusting mechanism, wherein the flare angle adjusting mechanism is installed on the interval adjusting mechanism, the height clamping mechanism is installed on the interval adjusting mechanism, and the height clamping mechanism is positioned right above the flare angle adjusting mechanism;

the spacing adjusting mechanism comprises a roller guard plate, rolling wheels, a brake pad, a T-shaped support column, a sliding track frame, a shaking rotating wheel, a stepping screw lever, a stepping dial, a moving square frame, a sliding wheel, an execution cylinder, an opening and closing clamping claw, a supporting seat frame and a supporting plate; the T-shaped support is symmetrically arranged at the bottom of the sliding track frame, the roller guard plate is uniformly arranged at the bottom of the T-shaped support through a bearing, the rolling wheel is arranged in the roller guard plate through a shaft rod, the brake pad is arranged on the inner wall of the roller guard plate and is positioned right above the rolling wheel, the stepping wire lever is arranged on the inner wall of the sliding track frame through a bearing, the stepping dial is arranged on the outer wall of the sliding track frame and is connected with the stepping wire lever, the shaking rotating wheel is arranged on the outer wall of the stepping dial, the moving square frame is arranged on the stepping wire in a spiral matching mode, the sliding wheels are symmetrically arranged at the bottom of the moving square frame through bearings, the sliding wheels and the sliding track frame are matched with each other to move, and the executing air cylinder is arranged on the moving square frame through an air cylinder seat, output shafts at two ends of the execution cylinder are mutually connected with the opening and closing clamping jaws through a coupling, the bracket frame is arranged on the outer wall of the moving square frame, and the bearing plates are symmetrically arranged on the bracket frame in a sliding fit manner; the stepping screw lever is rotated through the rocking rotating wheel, then the moving square frame is driven to move forwards, the moving resistance is reduced through the auxiliary movement of the sliding wheel, then the steel structure rod piece is clamped through the opening and closing clamping jaws, the steel structure rod piece at the bottom is connected through the bearing plate in a supporting mode, and the bearing plate can be adjusted in a self-adaptive mode through the spring according to the diameter of the steel structure rod piece.

The height clamping mechanism comprises a bottom plate protecting frame, a square support, a rotating shaft rod, a sliding support rod, a rotary hand wheel, an interval guide rail, a loosening and expanding elastic chuck, a sliding support and a loosening and expanding hand wheel; the device comprises a base plate protection frame, a rotating shaft rod, a sliding support rod, a rotary hand wheel, an interval guide rail, a loosening and expanding elastic chuck, a distance adjusting mechanism, a rotating shaft rod, a sliding support rod, a rotating hand wheel, a loosening and expanding elastic chuck and a loosening and expanding hand wheel, wherein the base plate protection frame is symmetrically arranged on the interval adjusting mechanism, the square supports are symmetrically arranged on the upper end face of the base plate protection frame, the rotating shaft rod is arranged on the square support on the left side, the sliding support rod is arranged on the square support on the right side, the rotary hand wheel is arranged on the upper end face of the rotating shaft rod, the interval guide rail is arranged on the rotating shaft rod in a spiral mode, the; the height and size required by production are adjusted through a rotary hand wheel, and then the sliding supports are manually pushed by hands, so that the sliding supports at the two ends are adjusted to slide to the clamping positions suitable for the steel structure rod piece to be fixed and clamped.

The opening angle adjusting mechanism comprises a fixed base, a left screw rod, a right screw rod, a stepping hand wheel, a T-shaped guide rail bracket and a clamping unit; the T-shaped guide rail bracket is respectively sleeved on the left screw rod and the right screw rod in a screw fit mode, and clamping units are uniformly arranged on the T-shaped guide rail bracket in a sliding fit mode; the left screw lead screw and the right screw lead screw are adjusted through synchronous rotation of the stepping hand wheel, then the T-shaped guide rail support is driven to move synchronously, the field angle width of a field welding steel structure is adjusted correspondingly, and then the clamping units are pushed manually according to the length change of a welding steel structure rod piece, so that the clamping units at the two ends slide synchronously to the clamping positions suitable for the steel structure rod piece to be fixed and clamped.

The clamping unit comprises a translation supporting plate, an arc-shaped bearing bracket, an adjusting support, a buckle support, an upper pressing splint, a bayonet shaft lever and an arc-shaped flitch; the clamping pin shaft lever is arranged on the upper pressing clamp plate in a sliding fit manner, the clamping buckle support is arranged on the translation supporting plate and penetrates through the upper pressing clamp plate, and the arc-shaped pasting plate is uniformly connected to the inner wall of the upper pressing clamp plate through a spring; connect the steel construction member greatly through arc bearing support to can be according to steel construction member diameter size, through spring self-adaptation regulation, then press from both sides tight steel construction member through last pressure splint, increased the area of contact of anchor clamps and steel construction member through last arc flitch, and prevent to press from both sides through the adjustable tight effort of clamp of spring and hinder, then push the bayonet lock axostylus axostyle fixed clamp tightly in the buckle pillar.

Preferably; the brake block is designed to be an inner circular arc, and the brake block is tightly attached to the rolling wheel, so that stable welding operation of fixed machinery during working can be realized, shaking or abnormal sound interference on the operation efficiency of workers can be avoided, the stability and the precision of welding size can be ensured, and the economical and practical performance can be improved.

Preferably; step-by-step calibrated scale on evenly be provided with step-by-step distance scale, will step-by-step calibrated scale on evenly be provided with step-by-step distance scale, conveniently adjust the migration distance according to steel construction member overlap joint distance to conveniently control dimensional error between the steel construction member, convenient operation is laborsaving.

Preferably; the opening and closing claw connecting round sleeve is designed to be multi-angle adjustable, and the opening and closing claw connecting round sleeve is designed to be multi-angle adjustable, so that multi-degree-of-freedom adjustment and control are facilitated, and welding stress and deformation cannot be avoided in welding production.

Preferably; the inside toper design that is of pine bullet chuck that rises, will the inside toper design that establishes of pine bullet chuck that rises, the workman of being convenient for through wave elasticity hand wheel rotation with the rotatory inside of propelling movement of toper diameter major part to expand the diameter of pine bullet chuck, make the pine rise the inner wall contact of bullet chuck and steel construction member, thereby fixed steel construction member prevents to lead to welding dimension's unstability and precision because of the slip.

Preferably; the buckle pillar on be provided with the trompil, will the buckle pillar on be provided with the trompil, it is tight to assemble when the steel construction member of being convenient for assembles, prevents to weld and removes, prevents to damage the workpiece surface, has strengthened the reliability of step-up.

The invention has the beneficial effects that:

according to the invention, the contact area of the clamp and the steel structure rod piece is increased through the upper arc-shaped flitch, the surface of the steel structure rod piece is protected, and the surface damage of the steel structure rod piece caused by overlarge clamping acting force is prevented.

Secondly, the invention can correspondingly adjust the production requirement of the field through the T-shaped guide rail bracket. According to the length change of welding steel structure member, through artifical hand push centre gripping unit for the centre gripping unit at both ends slides the centre gripping department fixed clamp that is fit for steel structure member in step and presss from both sides tightly, and this mode is swift simple, and convenient operation greatly increases welding operation's economical and practical nature.

The left screw rod and the right screw rod are adjusted through synchronous rotation of the stepping hand wheel, welding production requirements of a welding site are correspondingly adjusted, so that the width of the bottom flare angle of a welding steel structure can be changed and adjusted, the action is simple and rapid, the use of mechanical parts is reduced, and the comprehensive cost of production machinery is reduced.

The steel structure rod piece welding machine can move machinery conveniently and quickly without being limited by a place through the rolling wheels, welding operation of the steel structure rod piece is facilitated, manual carrying cost is reduced, carrying and placing are facilitated, the steel structure rod piece welding machine can move nearby according to the storage place of the steel structure rod piece, manual carrying of the steel structure rod piece is avoided, and welding production operation efficiency is greatly improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic left side perspective view of the present invention in a home position;

FIG. 2 is a schematic representation of the right side perspective of the present invention from a home viewing position;

FIG. 3 is a perspective view of the present invention in a rear-view position;

FIG. 4 is a schematic perspective view of a portion of the spacing adjustment mechanism of the present invention;

FIG. 5 is an enlarged view of a portion of the invention at A in FIG. 1;

FIG. 6 is an enlarged view of a portion of the invention at B in FIG. 2;

fig. 7 is a partial enlarged view of the invention at C in fig. 4.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further described below by combining with the specific drawings, and it is to be noted that the embodiments and the features in the embodiments can be combined with each other in the application without conflict.

As shown in fig. 1 to 7, a triangular truss steel structure assembling machine comprises an interval adjusting mechanism 1, a height clamping mechanism 2 and a flare angle adjusting mechanism 3, wherein the flare angle adjusting mechanism 3 is installed on the interval adjusting mechanism 1, the height clamping mechanism 2 is installed on the interval adjusting mechanism 1, and the height clamping mechanism 2 is located right above the flare angle adjusting mechanism 3;

the spacing adjusting mechanism 1 comprises a roller guard plate 101, a rolling wheel 102, a brake pad 103, a T-shaped support 104, a sliding track frame 105, a shaking rotating wheel 106, a stepping screw lever 107, a stepping dial 108, a moving square frame 109, a sliding wheel 110, an execution cylinder 111, an opening and closing claw 112, a bracket frame 113 and a supporting plate 114; the T-shaped support column 104 is symmetrically arranged at the bottom of the sliding track frame 105, the roller guard plate 101 is uniformly arranged at the bottom end of the T-shaped support column 104 through a bearing, the rolling wheel 102 is arranged in the roller guard plate 101 through a shaft rod, the brake block 103 is arranged on the inner wall of the roller guard plate 101, the brake block 103 is arranged right above the rolling wheel 102, the brake block 103 is designed in an inner arc shape, stable welding operation of a machine during working is fixed through close fit with the rolling wheel 102, shaking or abnormal sound cannot occur to interfere with the operation efficiency of workers, the stability and precision of welding size are ensured, and the economical and practical applicability are improved; the stepping wire lever 107 is mounted on the inner wall of the sliding track frame 105 through a bearing, the stepping dial 108 is mounted on the outer wall of the sliding track frame 105, the stepping dial 108 and the stepping wire lever 107 are connected with each other, the shaking rotating wheel 106 is mounted on the outer wall of the stepping dial 108, stepping distance scales are uniformly arranged on the stepping dial 108, the moving distance is conveniently adjusted according to the lapping distance of the steel structure rods, so that the size error between the steel structure rods is conveniently controlled, and the operation is convenient and labor-saving; the device comprises a stepping screw rod 107, a moving square frame 109, a sliding wheel 110, an execution cylinder 111, an execution cylinder 112, a multi-angle adjustable design and a multi-degree-of-freedom adjustment and control device, wherein the moving square frame 109 is arranged on the stepping screw rod 107 in a spiral matching mode, the sliding wheel 110 is symmetrically arranged at the bottom end of the moving square frame 109 through a bearing, the sliding wheel 110 and a sliding track frame 105 move in a matching mode, the execution cylinder 111 is arranged on the moving square frame 109 through a cylinder seat, output shafts at two ends of the execution cylinder 111 are mutually connected with an opening and closing claw 112 through a shaft coupling, the opening and closing claw 112 and a round sleeve are in the multi-angle adjustable design, and the opening and closing claw 112 and the round sleeve; the bracket frame 113 is arranged on the outer wall of the movable square frame 109, and the supporting plates 114 are symmetrically arranged on the bracket frame 113 in a sliding fit manner; the step wire lever 107 is rotated by the shaking rotating wheel 106, then the moving square frame 109 is driven to move forwards, the sliding wheel 110 assists in moving, the moving resistance is reduced, then the steel structure rod is clamped by the opening and closing clamping jaws 112, then the steel structure rod at the bottom is supported by the supporting plate 114, and the supporting plate 114 can be adjusted in a self-adaptive mode through a spring according to the diameter of the steel structure rod.

The height clamping mechanism 2 comprises a bottom plate protective frame 201, a square support 202, a rotating shaft rod 203, a sliding support rod 204, a rotary hand wheel 205, a spacing guide rail 206, a loosening and expanding cartridge clip 207, a sliding support 208 and a loosening and expanding hand wheel 209; the base plate protective frame 201 is symmetrically arranged on the interval adjusting mechanism 1, the square supports 202 are symmetrically arranged on the upper end face of the base plate protective frame 201, the rotating shaft rod 203 is arranged on the square support 202 on the left side, the sliding support rod 204 is arranged on the square support 202 on the right side, the rotary hand wheel 205 is arranged at the upper end of the rotating shaft rod 203, the interval guide rail 206 is arranged on the rotating shaft rod 203 in a spiral mode, the other end of the interval guide rail 206 is sleeved on the sliding support rod 204, the sliding supports 208 are symmetrically arranged on the interval guide rail 206 in a sliding fit mode, the sliding supports 208 are sleeved with the loose-expansion cartridge chucks 207, the rotating shaft ends of the loose-expansion cartridge chucks 207 are provided with elastic hand wheels 209 in a movable connection mode, the interior of the loose-expansion cartridge chucks 207 is designed to be conical, and the interior of the loose-expansion cartridge chucks 207 is designed to be conical, the worker can conveniently rotate the tightening handwheel 209 to push the large conical diameter head into the loosening and tensioning cartridge clip 207, so that the diameter of the loosening and tensioning cartridge clip 207 is enlarged, the loosening and tensioning cartridge clip 207 is in contact with the inner wall of the steel structure rod, the steel structure rod is fixed, and the instability and the accuracy of the welding size caused by sliding rotation are prevented; the height dimension required by production is adjusted through a rotary hand wheel 205, and then the sliding supports 208 are manually pushed by hand, so that the sliding supports 208 at the two ends are adjusted to slide to be suitable for the clamping position of the steel structure rod piece to be fixed and clamped.

The flare angle adjusting mechanism 3 comprises a fixed base 301, a left screw 302, a right screw 303, a stepping hand wheel 304, a T-shaped guide rail bracket 305 and a clamping unit 306; the fixed base 301 is installed on the interval adjusting mechanism 1, the fixed base 301 is connected with the height clamping mechanism 2, the outer walls of the two sides of the fixed base 301 are respectively provided with a left screw 302 and a right screw 303, the stepping hand wheel 304 is connected with the right screw 303 through a coupling, the T-shaped guide rail bracket 305 is respectively sleeved on the left screw 302 and the right screw 303 in a screw fit mode, and the T-shaped guide rail bracket 305 is uniformly provided with clamping units 306 in a sliding fit mode; the left screw 302 and the right screw 303 are adjusted through synchronous rotation of the stepping handwheel 304, then the T-shaped guide rail bracket 305 is driven to move synchronously, the field angle width of a field welding steel structure is correspondingly adjusted, and then the clamping units 306 are manually pushed according to the length change of the welding steel structure rod, so that the clamping units 306 at the two ends synchronously slide to the clamping positions suitable for the steel structure rod to be fixed and clamped.

The clamping unit 306 comprises a translation supporting plate 3061, an arc-shaped supporting bracket 3062, an adjusting strut 3063, a buckle strut 3064, an upper pressing splint 3065, a bayonet shaft 3066 and an arc-shaped attachment plate 3067; the translational supporting plate 3061 is arranged on the opening angle adjusting mechanism 3 in a sliding fit mode, the arc-shaped bearing support 3062 is symmetrically arranged on the translational supporting plate 3061 in a sliding fit mode, the adjusting support 3063 is arranged on the translational supporting plate 3061, the upper pressing clamping plate 3065 is movably arranged on the adjusting support 3063, the clamping pin shaft 3066 is arranged on the upper pressing clamping plate 3065 in a sliding fit mode, the clamping support 3064 is arranged on the translational supporting plate 3061, the clamping support 3064 penetrates through the upper pressing clamping plate 3065, an opening is formed in the clamping support 3064, the steel structure bar is convenient to clamp when being assembled, welding movement is prevented, the surface of a workpiece is prevented from being damaged, and the clamping reliability is enhanced; the arc-shaped attachment plate 3067 is uniformly connected to the inner wall of the upper pressing splint 3065 through a spring; the steel structure rod is connected with the arc-shaped bearing support 3062 in a containing mode, the self-adaptive adjustment can be achieved through the spring according to the diameter of the steel structure rod, then the steel structure rod is clamped through the upper pressing clamp plate 3065, the contact area of the clamp and the steel structure rod is increased through the upper arc-shaped attachment plate 3067, the clamping acting force can be adjusted through the spring to prevent clamping injury, and then the clamping pin shaft 3066 is pushed into the clamping support 3064 to be fixedly clamped.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a machinery is assembled to triangular structure truss steel construction, includes interval adjustment mechanism (1), high fixture (2) and opening angle adjustment mechanism (3), its characterized in that: the opening angle adjusting mechanism (3) is installed on the interval adjusting mechanism (1), the height clamping mechanism (2) is installed on the interval adjusting mechanism (1), and the height clamping mechanism (2) is located right above the opening angle adjusting mechanism (3);

the spacing adjusting mechanism (1) comprises a roller guard plate (101), a rolling wheel (102), a brake pad (103), a T-shaped support column (104), a sliding track frame (105), a shaking rotating wheel (106), a stepping screw lever (107), a stepping dial (108), a moving square frame (109), a sliding wheel (110), an execution cylinder (111), an opening and closing claw (112), a bracket frame (113) and a bearing plate (114); the T-shaped support column (104) is symmetrically arranged at the bottom of a sliding track frame (105), a roller guard plate (101) is uniformly arranged at the bottom end of the T-shaped support column (104) through a bearing, a rolling wheel (102) is arranged in the roller guard plate (101) through a shaft rod, a brake pad (103) is arranged on the inner wall of the roller guard plate (101), the brake pad (103) is arranged right above the rolling wheel (102), a stepping wire lever (107) is arranged on the inner wall of the sliding track frame (105) through a bearing, a stepping dial (108) is arranged on the outer wall of the sliding track frame (105), the stepping dial (108) is connected with the stepping wire lever (107), a shaking rotating wheel (106) is arranged on the outer wall of the stepping dial (108), and a moving square frame (109) is arranged on the stepping wire lever (107) through a spiral matching mode, sliding wheels (110) are symmetrically installed at the bottom end of the moving square frame (109) through bearings, the sliding wheels (110) and the sliding track frame (105) move in a matched mode, an execution cylinder (111) is installed on the moving square frame (109) through a cylinder seat, output shafts at two ends of the execution cylinder (111) are connected with opening and closing clamping jaws (112) through a shaft coupling, the supporting plate frame (113) is installed on the outer wall of the moving square frame (109), and supporting plates (114) are symmetrically installed on the supporting plate frame (113) in a sliding fit mode;

the height clamping mechanism (2) comprises a bottom plate protective frame (201), a square support (202), a rotating shaft rod (203), a sliding support rod (204), a rotary hand wheel (205), a spacing guide rail (206), a loosening and expanding elastic chuck (207), a sliding support (208) and a loosening and expanding hand wheel (209); the bottom plate protective frame (201) is symmetrically arranged on the spacing adjusting mechanism (1), square brackets (202) are symmetrically arranged on the upper end surface of the bottom plate protective frame (201), the rotating shaft rod (203) is arranged on the square bracket (202) at the left side, the sliding support rod (204) is arranged on the square bracket (202) at the right side, the rotary hand wheel (205) is arranged at the upper end of the rotating shaft rod (203), the spacing guide rail (206) is arranged on the rotating shaft rod (203) in a spiral mode, the other end of the spacing guide rail (206) is sleeved on the sliding support rod (204), sliding brackets (208) are symmetrically arranged on the spacing guide rail (206) in a sliding fit manner, the sliding support (208) is sleeved with a loose expansion elastic chuck (207), the rotating shaft end of the loosening and expanding elastic chuck (207) is provided with a loosening and expanding hand wheel (209) in a movable connection mode;

the opening angle adjusting mechanism (3) comprises a fixed base (301), a left screw (302), a right screw (303), a stepping hand wheel (304), a T-shaped guide rail bracket (305) and a clamping unit (306); unable adjustment base (301) install on interval adjustment mechanism (1), and unable adjustment base (301) is connected with high fixture (2), install left screw (302) and right screw (303) on the both sides outer wall of unable adjustment base (301) respectively, step-by-step hand wheel (304) be connected with right screw (303) through the shaft joint ware, T type guide rail bracket (305) establish respectively through spiral cooperation mode and install on left screw (302) and right screw (303), T type guide rail bracket (305) on evenly be provided with clamping unit (306) through sliding fit mode.

2. The triangular truss steel structure assembling machine of claim 1, wherein: the clamping unit (306) comprises a translation supporting plate (3061), an arc-shaped supporting bracket (3062), an adjusting strut (3063), a buckle strut (3064), an upper pressing splint (3065), a bayonet pin shaft lever (3066) and an arc-shaped flitch plate (3067); the movable support plate (3061) is arranged on the opening angle adjusting mechanism (3) in a sliding fit mode, the arc-shaped bearing support (3062) is symmetrically arranged on the movable support plate (3061) in a sliding fit mode, the adjusting support column (3063) is arranged on the movable support plate (3061), the upper pressing clamp plate (3065) is movably arranged on the adjusting support column (3063), the clamping pin shaft rod (3066) is arranged on the upper pressing clamp plate (3065) in a sliding fit mode, the clamping buckle support column (3064) is arranged on the movable support plate (3061), the clamping buckle support column (3064) penetrates through the upper pressing clamp plate (3065), and the arc-shaped attachment plate (3067) is uniformly connected to the inner wall of the upper pressing clamp plate (3065) through a spring.

3. The triangular truss steel structure assembling machine of claim 1, wherein: the brake pad (103) is designed to be an inner circular arc.

4. The triangular truss steel structure assembling machine of claim 1, wherein: the step dial (108) is uniformly provided with step distance scales.

5. The triangular truss steel structure assembling machine of claim 1, wherein: the opening and closing claw (112) is connected with the round sleeve and is designed to be adjustable in multiple angles.

6. The triangular truss steel structure assembling machine of claim 1, wherein: the inside of the loosening and expanding elastic chuck (207) is designed to be conical.

7. The triangular truss steel structure assembling machine of claim 2, wherein: the buckle pillar (3064) is provided with an opening.

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