CN217627418U - Truss arrangement transporter - Google Patents

Abstract

The application provides a truss arranging and carrying machine which comprises a truss tray, a plurality of supporting plates and a plurality of supporting plates, wherein the truss tray comprises at least two truss placing beams and grooves arranged on the truss placing beams, so that trusses placed on the truss tray are mutually parallel; the lifting mechanism is connected with the truss tray and drives the truss tray to lift; the horizontal moving mechanism drives the truss tray to horizontally move; and the aligning mechanism is arranged on one side of the horizontal moving mechanism, so that one ends of the trusses on the truss tray are aligned. Utilize truss tray, horizontal migration mechanism, elevating system and alignment mechanism's cooperation work in this application for truss tray realizes the ascending motion of horizontal direction motion, vertical direction, realizes the neatly arranged transport of crossbeam.

Description

Truss arrangement transporter

Technical Field

The application relates to the technical field of truss production and processing, in particular to a truss arrangement transporter.

Background

In the existing truss production and processing process, when the truss is carried, due to the structural characteristics of the truss, the truss is easy to roll and slide, the relative position changes when the truss moves, and when the next procedure is carried out, the truss needs to be reordered, otherwise, a disordered workpiece can cause damage to equipment, the prepared product does not meet the requirement, manpower is wasted in the reordering process, and efficiency is not high.

SUMMERY OF THE UTILITY MODEL

In order to solve the above technical problem, the present application provides a conveyer is arranged to truss, which comprises: the truss tray comprises at least two truss placing beams and grooves arranged on the truss placing beams, so that trusses placed on the truss tray are parallel to each other; the lifting mechanism is connected with the truss tray and drives the truss tray to lift; the horizontal moving mechanism drives the truss tray to move horizontally; and the aligning mechanism is arranged on one side of the horizontal moving mechanism, so that one ends of the trusses on the truss tray are aligned.

Further, elevating system includes crane, pneumatic cylinder, lift slide rail, wire rope, crane one side is provided with the pneumatic cylinder, the crane is provided with the lift slide rail for on the opposite side of pneumatic cylinder, the truss tray pass through the lift slide rail with the crane is connected, wire rope one end with the pneumatic cylinder is connected, the other end with the truss tray is connected, and the pneumatic cylinder passes through wire rope and drives the truss tray and follow the motion of lift slide rail direction.

The hydraulic cylinder is an electrically driven hydraulic cylinder, and the hydraulic cylinder drives the steel wire rope through telescopic motion.

The lifting frame is of a frame structure arranged in the vertical direction, and the lifting slide rails are arranged in the vertical direction, so that the truss tray moves in the vertical direction.

The lifting frame is further provided with electromagnetic valves for limiting the truss tray, and the electromagnetic valves are arranged on the upper portion and the lower portion of the lifting frame, so that the truss tray can move within a certain range.

Furthermore, elevating system still includes the pulley, the pulley setting is in on the crane, wire rope passes the pulley for wire rope redirecting.

The number of the pulleys is at least two, the number of the steel wire ropes is at least two, and the steel wire ropes are connected to the truss tray in a dispersing mode, so that the truss tray is stressed uniformly.

The truss tray further comprises a cross beam, the cross beam is perpendicular to the truss placing beam, and the cross beam is used for fixing the truss placing beam.

The truss tray further comprises a truss placing beam fixing part, the truss placing beam is connected with the cross beam through the truss placing beam fixing part, the truss placing beam fixing part comprises a vertical plate, one end of the vertical plate is fixedly connected with the cross beam, and the other end of the vertical plate is connected with one end of the truss placing beam through a screw.

The truss pallet further comprises a triangular reinforcing frame for reinforcing the truss placing beam.

Furthermore, the opening directions of the grooves are consistent, the intervals between the adjacent grooves are the same, the number of the grooves on the adjacent truss placing beams is the same, and the grooves at the same positions of the adjacent truss placing beams are communicated, so that the trusses can be placed in the grooves.

Further, the truss tray still includes triangle truss adaptation portion, triangle truss adaptation portion sets up every the top of recess, triangle truss adaptation portion includes slope baffle, tray screw rod, tray nut, fixed plate, the fixed plate with the roof beam is placed to the truss and is connected, be provided with the through-hole on the fixed plate, the slope baffle makes the slope baffle cooperation of every recess both sides form the V-arrangement groove to recess opening direction slope, tray screw rod one end with the slope baffle is connected, the tray screw rod passes the through-hole, the tray screw rod passes through the nut to be fixed on the fixed plate, through the not unidimensional triangle-shaped truss of regulation adaptation of tray screw rod and tray nut.

Furthermore, the upper part of the groove is in an inverted trapezoid shape to form a platform for placing the triangular truss, the middle part of the groove is square, the lower part of the groove is gradually tightened towards the center, and the lower part of the groove is in any one of an inverted trapezoid shape, a semicircular shape and a triangular shape, so that the triangular truss is inversely placed in the groove.

Furthermore, the aligning mechanism comprises a turnover clamping plate, a limiting part and an aligning mechanism support, the limiting part is arranged on the upper portion of one side of the aligning mechanism support, the turnover clamping plate is arranged above the limiting part, the turnover clamping plate is hinged to the limiting part, and one end of a truss placed on the truss tray is aligned through the turnover clamping plate.

The hinged connection part is arranged on one surface of the limiting part close to the aligning mechanism bracket; or the upper surface of the limiting part is arranged at one end of the upper surface of the limiting part close to the aligning mechanism support, so that after the turnover clamping plate is turned towards the direction far away from the aligning mechanism support, a part of area of the upper surface of the limiting part is still used for preventing the turnover clamping plate from being turned over excessively.

Furthermore, the upper surface of the limiting part is a horizontal plane, and after the turnover clamping plate is turned towards the direction far away from the aligning mechanism support, the turnover clamping plate is blocked by the limiting part, so that the turnover clamping plate is parallel to the upper surface of the limiting part.

The alignment mechanism further comprises an adjusting part, one end of the adjusting part is arranged at the upper part of the alignment mechanism bracket, and the other end of the adjusting part is connected with the limiting part;

the adjusting part comprises an aligning mechanism screw rod, a fixed pipe and aligning mechanism nuts arranged at two ends of the fixed pipe, the aligning mechanism screw rod is sleeved in the fixed pipe, the fixed pipe is connected with the aligning mechanism support, one end of the aligning mechanism screw rod is connected with the limiting part, and the distance between the truss and the turnover clamping plate is adjusted through the relative movement of the aligning mechanism screw rod and the fixed pipe.

The middle part of one side of the outer wall of the fixed pipe is connected with the bracket, and the axial direction of the fixed pipe is vertical to the bracket; the inner wall of the fixed pipe is smooth, so that the screw of the alignment mechanism can move along the axial direction of the fixed pipe without rotating; the outer surface of the screw rod of the aligning mechanism is a thread, the outer diameter of the nut of the aligning mechanism is larger than the diameter of the inner wall of the fixed pipe, and the screw rod of the aligning mechanism is matched with the nut of the aligning mechanism to clamp the screw rod of the aligning mechanism in the fixed pipe.

An alignment mechanism reinforcing frame for preventing the alignment mechanism support from tilting is further provided, and the alignment mechanism reinforcing frame is disposed below the alignment mechanism support.

Further, elevating system sets up on the horizontal migration mechanism, horizontal migration mechanism includes horizontal migration frame, horizontal migration slide rail, gear, motor, chain connecting plate, elevating system pass through the horizontal migration slide rail with the horizontal migration frame is connected, the elevating system bottom is provided with the chain connecting plate, the motor sets up the one end of horizontal migration frame horizontal migration slide rail moving direction, the gear sets up horizontal migration frame horizontal migration slide rail moving direction's both ends, the chain with gear connection, the chain middle part with the chain connecting plate is connected, the motor passes through the gear drives the chain motion, the chain drives the chain connecting plate makes elevating system moves along horizontal migration slide rail direction.

The beneficial effect of this application is as follows:

1. according to the application, the truss tray, the horizontal moving mechanism, the lifting mechanism and the aligning mechanism are matched to work, so that the truss tray moves in the horizontal direction and in the vertical direction, and the beams are orderly arranged and carried;

2. according to the truss tray, the truss position on the truss tray is stable through the truss placing beams and the grooves which are arranged in order, and the truss position is prevented from being readjusted after being carried;

3. the triangular trusses with different specifications are adjusted and adapted by arranging the triangular truss adapting part and utilizing the movable inclined baffle;

4. according to the triangular truss, the shaking of the triangular truss in the carrying process is reduced through the arrangement of the groove structure shape;

5. according to the truss structure, one ends of the trusses are aligned by the turnover clamping plates capable of being turned over, alignment among the trusses is achieved, the turnover clamping plates are erected on the upper surfaces of the limiting parts through the arrangement of the limiting parts to provide supporting force for the turnover clamping plates, and the turnover clamping plates are turned back after one ends of the trusses are aligned, so that subsequent work operation is prevented from being influenced;

6. through the regulating part in this application, adjust the distance of exploring of rolling over the cardboard, be applicable to the truss of multiple specification.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic illustration of a truss arrangement handler of the present application;

FIG. 2 is a front reference view of the lifting mechanism of FIG. 1;

FIG. 3 is a rear side use reference view of the lift mechanism of FIG. 1;

FIG. 4 is a schematic structural view of the truss tray of FIG. 1;

FIG. 5 is a schematic structural view of the truss placement beam of FIG. 4;

FIG. 6 is a top view of the truss tray of FIG. 4;

FIG. 7 is an enlarged view of a portion of the truss placement beam of FIG. 5;

FIG. 8 is an enlarged partial view of a front view of the truss tray of FIG. 4;

FIG. 9 is a schematic structural view of the alignment mechanism of FIG. 1;

FIG. 10 is a reference view of the alignment mechanism of FIG. 9 in use;

FIG. 11 is a schematic structural view of another alignment mechanism of the present application;

fig. 12 is a partial enlarged view of a portion a in fig. 11;

FIG. 13 is a schematic structural view of another alignment mechanism of the present application;

FIG. 14 is a schematic view of the structure of the horizontal movement mechanism in FIG. 1;

in the figure: 1 truss pallet, 11 cross beams, 12 truss placing beams, 13 vertical plates, 14 triangular reinforcing frames, 15 grooves, 16 inclined baffles, 17 pallet screws, 18 pallet nuts, 19 fixing plates, 2 lifting mechanisms, 21 lifting frames, 22 hydraulic cylinders, 23 lifting slide rails, 24 steel wire ropes, 25 electromagnetic valves, 26 pulleys, 3 horizontal moving mechanisms, 31 horizontal moving frames, 32 horizontal moving slide rails, 33 gears, 34 motors, 35 chains, 36 chain connecting plates, 37 baffles, 4 alignment mechanisms, 41 turnover clamping plates, 42 limiting parts, 43 alignment mechanism supports, 44 alignment mechanism screws, 45 fixing pipes, 46 alignment mechanism nuts and 47 reinforcing frames.

Detailed Description

In order to more clearly explain the overall concept of the present application, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and encompass, for example, both fixed and removable connections or integral parts thereof; the connection can be mechanical connection, electrical connection or communication; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, a first feature is "on" or "under" a second feature such that the first and second features are in direct contact, or the first and second features are in indirect contact via an intermediary. In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

In the following embodiments, the truss used is a triangular truss, for example, the triangular truss used in CN212534738U truss floor slab, but the truss that can be handled by the truss arrangement handler of the present application is not limited to the triangular truss.

In an embodiment, as shown in fig. 1-14, a truss arrangement handler includes: the truss pallet 1 comprises at least two truss placing beams 12 and grooves 15 arranged on the truss placing beams 12, so that trusses placed on the truss pallet 1 are parallel to each other; the lifting mechanism 2 is connected with the truss tray 1, and the lifting mechanism 2 drives the truss tray 1 to lift; the horizontal moving mechanism 3 drives the truss tray 1 to horizontally move; and an alignment mechanism 4, wherein the alignment mechanism 4 is arranged on one side of the horizontal moving mechanism 3, so that one end of the truss on the truss tray 1 is aligned.

It can be understood that, when in use, the trusses are placed in the grooves 15 on the truss tray 1, so that the trusses are parallel to each other, one ends of the trusses are aligned by using the aligning mechanism 4, then the lifting mechanism 2 and the horizontal moving mechanism 3 are used for moving the truss tray 1, so that the trusses on the truss tray 1 integrally move, and after the trusses are moved to a required position, the trusses on the truss tray 1 are still arranged in order.

In another embodiment, as shown in fig. 2-3, the lifting mechanism 2 includes a lifting frame 21, a hydraulic cylinder 22, a lifting slide rail 23, and a steel wire rope 24, the hydraulic cylinder 22 is disposed on one side of the lifting frame 21, the lifting slide rail 23 is disposed on the other side of the lifting frame 21 opposite to the hydraulic cylinder 22, the truss pallet 1 is connected to the lifting frame 21 through the lifting slide rail 23, one end of the steel wire rope 24 is connected to the hydraulic cylinder 22, the other end of the steel wire rope is connected to the truss pallet 1, and the hydraulic cylinder 22 drives the truss pallet 1 to move along the direction of the lifting slide rail 23 through the steel wire rope 24.

The hydraulic cylinder 22 is an electrically driven hydraulic cylinder 22, and the hydraulic cylinder 22 drives a wire rope 24 through telescopic motion.

The lifting frame 21 is a frame structure arranged in the vertical direction, and the lifting slide rails 23 are arranged in the vertical direction, so that the truss pallet 1 moves in the vertical direction.

The lifting frame 21 is also provided with electromagnetic valves 25 for limiting the truss pallet 1, and the electromagnetic valves 25 are arranged at the upper part and the lower part of the lifting frame, so that the truss pallet 1 can move within a certain range.

It will be appreciated that the lifting mechanism 2 further comprises a pulley 26, the pulley 26 being arranged on the crane 21, the wire rope 24 passing over the pulley 26 so that the wire rope 24 changes direction.

The number of the pulleys 26 is at least two, the number of the steel wire ropes 24 is at least two, and the steel wire ropes 24 are dispersedly connected to the truss tray 1, so that the truss tray 1 is uniformly stressed.

It can be understood that, in the using process, the hydraulic cylinder 22 moves in a telescopic manner to drive the steel wire rope 24 to move, the steel wire rope 24 passes through the pulley 26, the pulley 26 changes the moving direction of the steel wire rope 24 and provides force for the truss tray 1 to move in a vertical direction, the truss tray 1 is connected with the lifting frame 21 through the lifting slide rail 23, the truss tray 1 moves along the lifting slide rail 23, when the hydraulic cylinder 22 extends, the hydraulic cylinder 22 drives the steel wire rope 24, the truss tray 1 is acted by gravity and moves downwards along the lifting slide rail 23, when the truss tray 1 touches the electromagnetic valve 25 arranged at the lower part of the lifting frame 21, the hydraulic cylinder 22 does not extend any more, and the truss tray 1 does not move downwards along the lifting slide rail 23 any more; when the hydraulic cylinder 22 contracts, the steel wire rope 24 is driven, the truss tray 1 is pulled by the steel wire rope 24 to move upwards along the lifting slide rail 23, when the truss tray 1 touches the electromagnetic valve 25 arranged at the upper part of the lifting frame 21, the hydraulic cylinder 22 does not contract continuously, the truss tray 1 does not move upwards along the lifting slide rail 23 continuously, and the truss tray 1 moves up and down along the lifting slide rail 23 in the interval.

In another embodiment, as shown in fig. 4-8, the truss pallet 1 further comprises a cross beam 11, the cross beam 11 being perpendicular to the truss placing beam 12, the cross beam 11 being used for fixing the truss placing beam 12.

Truss tray 1 still includes that the truss places roof beam 12 fixed part, and the truss is placed roof beam 12 and is placed roof beam 12 fixed part through the truss and link to each other with crossbeam 11, and the truss is placed roof beam 12 fixed part and is included riser 13, and 13 one end of riser links firmly with crossbeam 11, and the riser 13 other end passes through the screw and places roof beam 12 one end with the truss and link to each other.

The truss pallet 1 further comprises a triangular reinforcing frame 14 for reinforcing the truss placing beam 12.

It can be understood that, in the process of carrying heavy objects by the tray, the movement direction can be changed, and because the truss placing beam 12 is connected with the cross beam 11 on only one side, in the moving process, the end, far away from the cross beam 11, of the truss placing beam 12 can vibrate to influence the stability of the tray connecting structure, the triangular reinforcing frame 14 is arranged to reduce the vibration amplitude of the truss placing beam 12 and enhance the stability of the tray structure.

It can be understood that the opening directions of the grooves 15 are consistent, the intervals between the adjacent grooves 15 are the same, the number of the grooves 15 on the adjacent truss placing beams 12 is the same, and the grooves 15 at the same positions of the adjacent truss placing beams 12 are communicated, so that the trusses can be placed in the grooves 15.

It can be understood that truss tray 1 still includes triangle truss adaptation portion, triangle truss adaptation portion sets up the top at every recess 15, triangle truss adaptation portion includes slope baffle 16, tray screw 17, tray nut 18, fixed plate 19 places roof beam 12 with the truss and is connected, be provided with the through-hole on the fixed plate 19, slope baffle 16 makes the slope baffle 16 cooperation of every recess 15 both sides form the V-arrangement groove to recess 15 opening direction slope, tray screw 17 one end is connected with slope baffle 16, tray screw 17 passes the through-hole, tray screw 17 passes tray nut 18 and fixes on fixed plate 19, the not unidimensional triangle truss of regulation adaptation through tray screw 17 and tray nut 18.

It can be understood that the upper portion of the groove 15 is in an inverted trapezoid shape to form a platform for placing the triangular truss, the middle portion of the groove 15 is in a square shape, the lower portion of the groove 15 is gradually tightened towards the center, and the lower portion of the groove is in any one of an inverted trapezoid shape, a semicircular shape and a triangular shape, so that the triangular truss is placed in the groove 15 in an inverted mode.

It can be understood that, when using, because the orderly setting of recess 15, place the truss in recess 15, the truss is parallel to each other, and the truss is arranged and is placed the back, removes the tray, realizes the stable removal in truss relative position, carries out work on next step.

It can be understood, when using, at first loosen tray nut 18, place the triangle truss in recess 15, remove tray screw 17 and make the slope splint pop out for the slope splint at recess 15 both sides top can with the base both corners butt of triangle truss, screw up tray nut 18 this moment, the length of popping out of fixed slope splint, accomplish the regulation, in the removal handling, the triangle truss passes through the clamping effect of slope splint, is fixed in recess 15, the reduction is rocked.

It can be understood, in the use, the triangle truss that is applicable to this product standard specification can block in the trapezoidal platform of falling on recess 15 upper portion, and the base two angles of triangle truss are located the obtuse angle department of trapezoidal platform of falling, and the apex angle of triangle truss is located recess 15 bottom center, and the triangle truss is fixed in recess 15, and when removing, the position is stable.

It can be understood that, in the use, the triangle truss of non-standard specification, triangle truss base can set up in the trapezoidal platform of falling on recess 15 upper portion, adjusts triangle truss adaptation portion for the slope splint at recess 15 both sides top can with the base both corners butt of triangle truss, and triangle truss apex angle is unsettled or be located recess 15 bottom center, accomplish fixedly.

In another embodiment, as shown in fig. 9-13, the alignment mechanism 4 includes a folding plate 41, a limiting portion 42, and an alignment mechanism bracket 43, the limiting portion 42 is disposed on an upper portion of one side of the alignment mechanism bracket 43, the folding plate 41 is disposed above the limiting portion 42, the folding plate 41 is hinged to the limiting portion 42, and one end of the truss placed on the truss tray 1 is aligned by the folding plate 41.

The hinged connection part is arranged on one surface of the limiting part 42 close to the aligning mechanism bracket 43; or the upper surface of the limiting part 42 is arranged at one end close to the aligning mechanism bracket 43, so that after the folding clamping plate 41 is folded towards the direction far away from the aligning mechanism bracket 43, the upper surface of the limiting part 42 still has a part of area for preventing the folding clamping plate 41 from being folded excessively.

It can be understood that the upper surface of the limiting portion 42 is a horizontal plane, and after the folding clamping plate 41 is folded towards a direction away from the aligning mechanism bracket 43, the folding clamping plate 41 is blocked by the limiting portion 42, so that the folding clamping plate 41 is parallel to the upper surface of the limiting portion 42.

It can be understood that, when using, the cardboard 41 that turns over that will be located spacing portion 42 top turns over to the direction of keeping away from the support and turns over, because spacing portion 42 blocks, turns over a cardboard 41 and spacing portion 42 upper surface parallel, with the one end of truss with turn over a cardboard 41 and be close to the one side butt of truss, realize the alignment between the truss, the truss aligns the back, will turn over a cardboard 41 and turn over a back to in order to carry out the processing work on next step to the truss.

It can be understood that the device also comprises an adjusting part, one end of the adjusting part is arranged at the upper part of the aligning mechanism bracket 43, and the other end of the adjusting part is connected with the limiting part 42;

the adjusting part comprises an aligning mechanism screw 44, a fixing pipe 45 and aligning mechanism nuts 46 arranged at two ends of the fixing pipe 45, the aligning mechanism screw 44 is sleeved in the fixing pipe 45, the fixing pipe 45 is connected with an aligning mechanism support 43, one end of the aligning mechanism screw 44 is connected with a limiting part 42, and the distance between the truss and the turnover clamping plate 41 is adjusted through the relative movement of the aligning mechanism screw 44 and the fixing pipe 45.

The middle part of one side of the outer wall of the fixed pipe 45 is connected with the bracket, and the axial direction of the fixed pipe 45 is vertical to the bracket; the inner wall of the fixed tube 45 is smooth, so that the alignment mechanism screw 44 can move in the axial direction of the fixed tube 45 without rotating; the outer surface of the alignment mechanism screw 44 is a thread, the outer diameter of the alignment mechanism nut 46 is larger than the diameter of the inner wall of the fixed pipe 45, the alignment mechanism screw 44 is matched with the alignment mechanism nut 46, and the alignment mechanism screw 44 is clamped in the fixed pipe 45.

An alignment mechanism 4 reinforcing frame 47 for preventing the inclination of the alignment mechanism bracket 43 is further provided, and the alignment mechanism 4 reinforcing frame 47 is provided below the alignment mechanism bracket 43.

It can be understood that, when using, because the length of truss is different, need the adaptation portion to adjust, if the truss is shorter, will turn over a cardboard 41 and turn over to the direction of keeping away from alignment mechanism support 43, loosen alignment mechanism nut 46 at fixed pipe 45 both ends, will fix pipe 45 and remove to the direction of keeping away from alignment mechanism support 43 for turn over the cardboard 41 and keep away from the one side of alignment mechanism support 43 and can contact shorter truss, screw up the alignment mechanism nut 46 at fixed pipe 45 both ends this moment, accomplish the regulation.

It can be understood, if the truss is longer, turn over a cardboard 41 not earlier, loosen the alignment mechanism nut 46 at fixed pipe 45 both ends, with fixed pipe 45 to the direction removal of keeping away from the truss, make turn over and leave the certain distance back between a cardboard 41 and the truss, turn over a cardboard 41 and turn over to the direction of keeping away from alignment mechanism support 43, fine adjustment is carried out again, finally make to turn over a cardboard 41 and spacing portion 42 upper surface parallel, and make to turn over a cardboard 41 and keep away from the one side of alignment mechanism support 43 and can contact the truss, at this moment, screw up the alignment mechanism nut 46 at fixed pipe 45 both ends, accomplish the regulation.

In another embodiment, as shown in fig. 2-3 and 14, the lifting mechanism 2 is disposed on the horizontal moving mechanism 3, the horizontal moving mechanism 3 includes a horizontal moving frame 31, a horizontal moving rail 32, a gear 33, a motor 34, a chain 35, and a chain connecting plate 36, the lifting mechanism 2 is connected to the horizontal moving frame 31 through the horizontal moving rail 32, the chain connecting plate 36 is disposed at the bottom of the lifting mechanism 2, the motor 34 is disposed at one end of the horizontal moving frame 31 in the moving direction of the horizontal moving rail 32, the gear 33 is disposed at both ends of the horizontal moving frame 31 in the moving direction of the horizontal moving rail 32, the chain 35 is connected to the gear 33, the middle of the chain 35 is connected to the chain connecting plate 36, the motor 34 drives the chain 35 through the gear 33, and the chain 35 drives the chain connecting plate 36, so that the lifting mechanism 2 moves along the horizontal moving rail 32.

It can be understood, when using, motor 34 drives gear 33 and rotates, gear 33 is connected with chain 35, chain 35 middle part is connected with chain connecting plate 36, when motor 34 rotates, gear 33 rotates and drives chain 35 and remove, chain 35 removes and drives chain connecting plate 36 and removes, chain connecting plate 36 sets up in elevating system 2 bottom, make elevating system 2 receive the pulling force of horizontal direction, elevating system 2 passes through horizontal migration slide rail 32 and sets up on horizontal migration frame 31, elevating system 2 slides on the horizontal direction along horizontal migration slide rail 32, still be provided with baffle 37 on the horizontal migration frame 31, a derail that is used for preventing that elevating system 2 excessive slip from resulting in.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the system embodiment, since it is substantially similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (10)

1. A truss arrangement transporter is characterized by comprising

The truss tray comprises at least two truss placing beams and grooves arranged on the truss placing beams, so that trusses placed on the truss tray are parallel to each other;

the lifting mechanism is connected with the truss tray and drives the truss tray to lift;

the horizontal moving mechanism drives the truss tray to horizontally move;

and the aligning mechanism is arranged on one side of the horizontal moving mechanism, so that one ends of the trusses on the truss tray are aligned.

2. The truss arranging and carrying machine as claimed in claim 1, wherein the lifting mechanism comprises a lifting frame, a hydraulic cylinder, a lifting slide rail and a steel wire rope, the hydraulic cylinder is arranged on one side of the lifting frame, the lifting slide rail is arranged on the other side of the lifting frame relative to the hydraulic cylinder, the truss tray is connected with the lifting frame through the lifting slide rail, one end of the steel wire rope is connected with the hydraulic cylinder, the other end of the steel wire rope is connected with the truss tray, and the hydraulic cylinder drives the truss tray to move along the direction of the lifting slide rail through the steel wire rope.

3. The truss alignment handler of claim 2 wherein the elevator mechanism further comprises a pulley, the pulley being disposed on the elevator frame, the wire rope passing through the pulley such that the wire rope changes direction.

4. The truss alignment conveyor as claimed in claim 1, wherein the openings of the grooves are in the same direction, the spaces between adjacent grooves are the same, the number of grooves on adjacent truss support beams is the same, and the grooves on the same positions of adjacent truss support beams are communicated with each other, so that trusses can be supported in the grooves.

5. The truss arranging and carrying machine as claimed in claim 1, wherein the truss tray further comprises a triangular truss adapting portion, the triangular truss adapting portion is disposed at the top of each groove, the triangular truss adapting portion comprises an inclined baffle, a tray screw, a tray nut and a fixing plate, the fixing plate is connected with the truss placing beam, a through hole is formed in the fixing plate, the inclined baffle is inclined towards the opening direction of the groove, so that the inclined baffles on two sides of each groove are matched to form a V-shaped groove, one end of the tray screw is connected with the inclined baffle, the tray screw penetrates through the through hole, the tray screw is fixed on the fixing plate through the tray nut, and the triangular trusses with different sizes are adapted through adjustment of the tray screw and the tray nut.

6. The truss alignment conveyor as claimed in claim 1, wherein the upper portion of the groove is an inverted trapezoid to form a platform for placing the triangular truss, the middle portion of the groove is square, the lower portion of the groove is gradually tightened toward the center, and the lower portion is any one of an inverted trapezoid, a semicircle and a triangle to allow the triangular truss to be placed in the groove in an inverted manner.

7. The truss arrangement conveyor as claimed in claim 1, wherein the alignment mechanism comprises a folding-over clamp plate, a limiting portion, and an alignment mechanism support, the limiting portion is disposed on an upper portion of one side of the alignment mechanism support, the folding-over clamp plate is disposed above the limiting portion, the folding-over clamp plate is hinged to the limiting portion, and one end of the truss placed on the truss tray is aligned through the folding-over clamp plate.

8. The truss alignment conveyor as claimed in claim 7, wherein the upper surface of the position-limiting portion is a horizontal surface, and after the foldable board is folded away from the alignment mechanism bracket, the foldable board is blocked by the position-limiting portion, so that the foldable board is parallel to the upper surface of the position-limiting portion.

9. The truss alignment conveyor as claimed in claim 7 further comprising an adjusting portion, wherein one end of the adjusting portion is disposed at an upper portion of the alignment mechanism bracket, and the other end of the adjusting portion is connected to the limiting portion;

the adjusting part comprises an aligning mechanism screw rod, a fixed pipe and aligning mechanism nuts arranged at two ends of the fixed pipe, the aligning mechanism screw rod is sleeved in the fixed pipe, the fixed pipe is connected with the aligning mechanism support, one end of the aligning mechanism screw rod is connected with the limiting part, and the distance between the truss and the turnover clamping plate is adjusted through the relative movement of the aligning mechanism screw rod and the fixed pipe.

10. The truss arranging and carrying machine as claimed in claim 1, wherein the lifting mechanism is disposed on the horizontal moving mechanism, the horizontal moving mechanism includes a horizontal moving frame, a horizontal moving rail, a gear, a motor, a chain, and a chain connecting plate, the lifting mechanism is connected to the horizontal moving frame via the horizontal moving rail, the chain connecting plate is disposed at the bottom of the lifting mechanism, the motor is disposed at one end of the horizontal moving frame in the moving direction of the horizontal moving rail, the gear is disposed at both ends of the horizontal moving frame in the moving direction of the rail, the chain is connected to the gear, the middle of the chain is connected to the chain connecting plate, the motor drives the chain via the gear, and the chain drives the chain connecting plate, so that the lifting mechanism moves along the horizontal moving rail.

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