CN105712173A - Modular lifting and transporting reinforcement device of multiple connected package boxes - Google Patents

Abstract

The invention discloses a modular lifting and transporting reinforcement device of multiple connected package boxes. The device comprises an upper channel steel component, a lower channel steel component and a rope component, wherein the upper channel steel component comprises upper channel steel; the upper channel steel is provided with a support part, lifting and mooring through holes, upper channel steel rope through holes and waist-shaped holes; the lower channel steel component comprises lower channel steel; the lower channel steel is provided with lifting blocks, lifting rods, lower channel steel rope through holes and lower channel steel locating pins; the rope component is used for clamping the multiple connected package boxes between the upper channel steel components and the lower channel steel components. Through the device, the modular lifting and transportation of multiple nonmetal connected package boxes are reinforced; the practice shows that the modular lifting and transporting reinforcement device is convenient to operate, novel in structure and low in cost, and is safe and reliable.

Description

A kind of multi-joint packing tank moduleization lifting and transport bracing means

Technical field

The present invention relates to a kind of lifting and transport bracing means, be specifically related to a kind of modular lifting for multi-joint packing case and transport bracing means.

Background technology

Being currently based on the consideration of vibration isolation, buffering, warship needs big L/D ratio electromechanical equipment to be mounted, is usually placed in packing crates, packing crates, after harbour, is lifted on warship by transport again through hoist cable.For the packing crates of metal material, can passing through packing crates and be provided with suspension ring, hoist cable is provided with suspension hook, and many packing cratess lift by crane simultaneously；And for the packing crates of non-metallic material, by the restriction of intensity Yu service life, on packing crates can not pre-buried suspension ring, this give multi-joint packing tank moduleization lifting with transport reinforcing bring new problem.

Summary of the invention

The present invention provides the lifting of a kind of multi-joint packing tank moduleization and transport bracing means, the packing crates for non-metallic material can be efficiently solved, restriction by intensity, service life, it is impossible to pre-buried suspension ring, mooring point, reinforces, with transport, the new problem brought to the lifting of multi-joint packing tank moduleization.

For achieving the above object, the present invention provide a kind of multi-joint packing tank moduleization lifting with transport bracing means, this multi-joint packing case comprise some side by side and/or stacking arrange packing crates；Each packing crates comprises: packing crates casing, the packing crates Reinforced Hoop being set on packing crates casing, and packing crates Reinforced Hoop end face is provided with alignment pin, and packing crates Reinforced Hoop bottom surface is provided with dowel hole；

Being characterized in, described lifting comprises with transport bracing means:

Upper channel-section steel assembly, it comprises channel-section steel；Upper channel-section steel bottom surface be respectively arranged at two ends with support parts；The two ends of the end face of upper channel-section steel are respectively arranged with lifting and mooring via；In every one end of upper channel-section steel, lifting is symmetrically arranged on two with the perforation of channel-section steel rope with mooring via；Upper channel-section steel surface has the mounting hole being correspondingly arranged respectively with each alignment pin of multi-joint packing case；

Lower channel-section steel assembly；It comprises lower channel-section steel；The end face of lower channel-section steel be respectively arranged at two ends with lifting block；It is positioned on the lifting block at lower channel-section steel two ends and is respectively equipped with lifting boom；In every one end of lower channel-section steel, channel-section steel rope perforation under being symmetrically arranged on two with of lifting block；Lower channel-section steel surface has the lower channel-section steel alignment pin being correspondingly arranged respectively with each dowel hole of multi-joint packing case；

Tether assemblies, it connects the perforation of channel-section steel rope and the perforation of lower channel-section steel rope respectively, connects and fixes upper channel-section steel assembly and lower channel-section steel assembly, being located between upper channel-section steel assembly and lower channel-section steel assembly by multi-joint packing clamp.

Above-mentioned lifting also comprises, with transport bracing means, the hanging belt being connected lifting respectively with mooring via, and external travelling crane hook is connected by hanging belt and lifts described lifting and transport bracing means and multi-joint packing case therein.

The drift angle supporting the packing crates Reinforced Hoop that parts correspond to multi-joint packing case of above-mentioned upper channel-section steel is arranged.

Every one end of above-mentioned upper channel-section steel, is respectively symmetrically and is provided with a pair support parts in upper channel-section steel axis.

Above-mentioned support parts are set to indent arc towards the one side of packing crates Reinforced Hoop drift angle；The drift angle of packing crates Reinforced Hoop is set to outer convex；The indent arc of these support parts is suitable with the evagination arcuate shape size of packing crates Reinforced Hoop drift angle.

Above-mentioned lower channel-section steel inner chamber is set to indent arc corresponding to the position at packing crates Reinforced Hoop base angle；The base angle of packing crates Reinforced Hoop is set to outer convex；The indent arc of this lower channel-section steel inner chamber is suitable with the evagination arcuate shape size at packing crates Reinforced Hoop base angle.

Every one end of above-mentioned lower channel-section steel, is respectively symmetrically and is provided with a pair lifting block in lower channel-section steel axis, and every a pair lifting block is connected to lifting boom.

Every one end of above-mentioned lower channel-section steel, is respectively symmetrically and is provided with a pair lifting block in lower channel-section steel axis, and the interval of every a pair lifting block is more than the width of hanging belt.

Above-mentioned tether assemblies comprises: the steel wire rope of concatenation and screw-button；Steel wire rope is provided with some rope clamps.

Above-mentioned lifting also comprises the double hook binding captive band being connected lifting respectively with mooring via with transport bracing means, and lifting bundlees captive band with transport bracing means and multi-joint packing case therein by double hook and is fixed on the external mooring point for fixing multi-joint packing case.

When multi-joint packing case is tied up with transport bracing means by lifting, steel wire rope is each passed through the steel wire rope perforation of upper and lower channel-section steel, rotates screw-button, makes steel wire rope tighten, can complete tying up multi-joint packing case；

When lifting multi-joint packing case, after lifting corresponding for upper for one end of hanging belt traverse combination and mooring via, pull downward on the lifting boom making hanging belt walk around lower channel-section steel assembly, again from the lifting of upper channel-section steel assembly and extraction on mooring via, the lifting eye of hanging belt is inserted in travelling crane hook, can carry out the lifting of multi-joint packing case；

When multi-joint packing case carries out mooring on transport agent, the hook of one end of double hook binding captive band hooks the mooring point of transport agent respectively, the lifting that double hook binding captive band is corresponding from upper channel-section steel two ends respectively passes from lower to upper with mooring via, after passing from top to bottom from the lifting that the other end is corresponding with mooring via again, after hooking the mooring point of transport agent opposite side, tighten up double hook binding captive band, the mooring on transport agent of the multi-joint packing case can be completed.

With transport bracing means compared to the prior art the present invention lifts for the modularity of multi-joint packing case, have an advantage in that, present invention achieves the lifting of the multi-joint packing tank moduleization of non-metallic material to reinforce with transport, have passed through the transport examinations such as aerial, marine, highway, prove that the lifting of this modularity is easy to operate with transport reinforcing device, safe and reliable, novel structure, with low cost.

Accompanying drawing explanation

Fig. 1 is the upward view of packing crates；

Fig. 2 is the front view of packing crates；

Fig. 3 is the top view of packing crates；

Fig. 4 is the side view of packing crates；

Fig. 5 is the front view of the lifting of the present invention multi-joint packing tank moduleization and the upper channel-section steel assembly of transport bracing means；

Fig. 6 is the top view of the lifting of the present invention multi-joint packing tank moduleization and the upper channel-section steel assembly of transport bracing means；

Fig. 7 is the side view of the lifting of the present invention multi-joint packing tank moduleization and the upper channel-section steel assembly of transport bracing means；

Fig. 8 is the front view of the lifting of the present invention multi-joint packing tank moduleization and the lower channel-section steel assembly of transport bracing means；

Fig. 9 is the top view of the lifting of the present invention multi-joint packing tank moduleization and the lower channel-section steel assembly of transport bracing means；

Figure 10 is the side view of the lifting of the present invention multi-joint packing tank moduleization and the lower channel-section steel assembly of transport bracing means；

Figure 11 is the structural representation of the lifting of the present invention multi-joint packing tank moduleization and the tether assemblies of transport bracing means；

Figure 12 is the front view that the lifting of the present invention multi-joint packing tank moduleization and transport bracing means tie up duty；

Figure 13 is the side view that the lifting of the present invention multi-joint packing tank moduleization and transport bracing means tie up duty；

Figure 14 is the front view of the lifting of the present invention multi-joint packing tank moduleization and transport bracing means lifting state；

Figure 15 is the side view of the lifting of the present invention multi-joint packing tank moduleization and transport bracing means lifting state；

Figure 16 is the front view of the lifting of the present invention multi-joint packing tank moduleization and transport bracing means captive；

Figure 17 is the side view of the lifting of the present invention multi-joint packing tank moduleization and transport bracing means captive.

Detailed description of the invention

Below in conjunction with accompanying drawing, further illustrate specific embodiments of the invention.

The invention discloses a kind of modularity for multi-joint packing case to lift and transport bracing means, comprise two and put channel-section steel assembly, the lower channel-section steel assembly of two sets, four sets of cords assemblies and two set double hook binding captive bands.

Such as Fig. 1 and in conjunction with shown in Fig. 2, Fig. 3, Fig. 4, multi-joint packing case comprise some side by side and/or the packing crates that arranges of stacking.Each packing crates comprises: packing crates casing 30, the packing crates Reinforced Hoop 301 being set on packing crates casing.Being arranged with two packing crates Reinforced Hoop 301 on usual each packing crates casing 30, the drift angle 33 of packing crates Reinforced Hoop 301 end face and junction, side is set to outer convex, and the base angle 34 of packing crates Reinforced Hoop 301 bottom surface and junction, side is set to outer convex.

The end face of each packing crates Reinforced Hoop 301 is arranged with a pair alignment pin 32, and the bottom surface of each packing crates Reinforced Hoop 301 is arranged with a pair dowel hole 31.

Such as Fig. 5 and in conjunction with shown in Fig. 6, Fig. 7, each upper channel-section steel assembly comprises channel-section steel 1, and the inside and outside surface of upper channel-section steel 1 is without processing, and in the present embodiment, the length of upper channel-section steel 1 can hold 3 packing cratess side by side.And the drift angle place of upper channel-section steel 1 inner chamber is set to arc surface 2, this arc surface 2 and bottom shape, size and packing crates Reinforced Hoop 301 upper bottom surface and drift angle 33 arc surface shape thereof, size are identical.

Upper channel-section steel 1 surface has the mounting hole 8 being correspondingly arranged respectively with each alignment pin 32 of multi-joint packing case.In the present embodiment, upper channel-section steel 1 having 6 mounting holes 8, the spacing between adjacent two mounting holes 8 is equal with the centre-to-centre spacing between a pair alignment pin 32 on each packing crates Reinforced Hoop.

Being respectively arranged at two ends with of upper channel-section steel 1 bottom surface supports parts 5, every one end of upper channel-section steel 1, it is respectively symmetrically and is provided with a pair support parts 5 in the axis of upper channel-section steel 1, and the drift angle 33 supporting the packing crates Reinforced Hoop 301 that parts 5 correspond to multi-joint packing case of each upper channel-section steel 1 is arranged, support parts 5 are set to indent arc towards the one side of packing crates Reinforced Hoop drift angle 33, form curved support arc surface 6；The curved support arc surface 6 of these support parts 5 is suitable with the shape size of the outer convex of packing crates Reinforced Hoop drift angle 33.

The two ends of the end face of upper channel-section steel 1 are respectively arranged with lifting and mooring via 3, and two liftings are symmetrical arranged with mooring via 3.Lifting and mooring via 3 are for going here and there the double hook binding captive band of the hanging belt setting external travelling crane hook or external mooring point.

In the side of every one end of upper channel-section steel 1, the perforation 9 that is symmetrically arranged on two with on a pair channel-section steel rope of lifting and mooring via.The perforation 9 that is provided with on four channel-section steel rope on upper channel-section steel 1 altogether.

Such as Fig. 8 and in conjunction with shown in Fig. 9, Figure 10, each lower channel-section steel assembly comprises lower channel-section steel 11, and lower channel-section steel 11 inner chamber is set to indent arc corresponding to the position at packing crates Reinforced Hoop base angle 34；The base angle of packing crates Reinforced Hoop is set to outer convex, forms lower channel-section steel inner chamber arc surface 23；Namely this lower channel-section steel inner chamber arc surface 23(descends the indent arc of channel-section steel inner chamber) suitable with the shape size of the outer convex at packing crates Reinforced Hoop base angle 34, shape, size are coincide.

Lower channel-section steel 11 surface has the lower channel-section steel alignment pin 13 being correspondingly arranged respectively with each dowel hole 31 of multi-joint packing case.In the present embodiment, upper channel-section steel 1 having 6 lower channel-section steel alignment pins 13, under each two, the centre-to-centre spacing of channel-section steel alignment pin 13 is consistent with packing crates each Reinforced Hoop bottom dowel pin hole 31 centre-to-centre spacing.

Preferably, the bottom surface of lower channel-section steel 11 is equipped with rubber blanket 17.

Being respectively arranged at two ends with of the end face of lower channel-section steel 11 lifts block 12.Every one end of lower channel-section steel 11, is respectively symmetrically and is provided with a pair lifting block 12 in the axis of lower channel-section steel, and a lower channel-section steel 11 is provided with four lifting blocks 12 altogether.Interval between every a pair lifting block 12 is more than the width of hanging belt.It is positioned on a pair lifting block 12 of lower channel-section steel 11 one end and is welded with a lifting boom 14, the present embodiment is fixed with two lifting booms 14 on lower channel-section steel 11 altogether.

In the side of every one end of lower channel-section steel, it is positioned at the both sides of lifting block, is arranged with a pair time channel-section steel rope perforation 20.

As shown in figure 11, steel wire rope 26 and forward-reverse spiral that tether assemblies comprises concatenation buckle 25, and arrange some rope clamps 28 on a steel cord.

This tether assemblies, for connecting above channel-section steel rope perforation 9 and lower channel-section steel rope perforation 20 respectively, connects and fixes upper channel-section steel assembly and lower channel-section steel assembly, being located between upper channel-section steel assembly and lower channel-section steel assembly by multi-joint packing clamp.

Such as Figure 12 and in conjunction with shown in Figure 13, be a kind of lifting for multi-joint packing case six multi pack packing crates reinforcing device assembly embodiments with transport bracing means tie up figure.Tie up place and should clean smooth, in easy flights in 3 °, two lower channel-section steel member parallel are placed on place, by tape measure, two lower channel-section steel assembly internal arm distance A are adjusted to packing crates 30 Reinforced Hoop 301 bottom surface dowel hole 31 axial centre from equal.Packing crates 30 combination stacked of between two a group, dividing and lift up into respectively for three times in two placed lower channel-section steel assemblies, three groups of packing cratess 30 are arranged side by side.Make four dowel holes 31 of the packing crates Reinforced Hoop 301 of each packing crates 30 being fixed on lower channel-section steel assembly, two correspondences are set on the alignment pin 13 of a lower channel-section steel assembly, remain on two alignment pins 13 being set in another lower channel-section steel assembly, it is achieved four alignment pins 13 before and after two lower channel-section steel assemblies insert in the corresponding dowel hole 31 of packing crates 30 respectively.Lower channel-section steel inner chamber arc surface 23 and the size of bottom surface, shape and packing crates Reinforced Hoop 301 bottom surface and submit the size of 34 arc surfaces, shape coincide.

Then, two upper channel-section steel assemblies are erected on six multi pack packing cratess.Make four alignment pins 32 of the packing crates Reinforced Hoop 301 of the packing crates 30 of each and upper channel-section steel component touch, two corresponding strings are located in the mounting hole 8 of a upper channel-section steel assembly, remain in the mounting hole 8 that two corresponding strings set channel-section steel assembly on the other, so that two each upper channel-section steel assemblies with six mounting holes 8 pack into alignment pin 32 corresponding on upper packing crates 30, and the size of upper channel-section steel 1 inner chamber arc surface 2 and bottom surface, shape and packing crates Reinforced Hoop determine face and the size of drift angle 33 arc surface, shape is coincide, and the cambered surface 33 of the curved support arc surface 6 of upper channel steel support parts 5 and the both sides drift angle of packing crates Reinforced Hoop 301 coincide.

The steel wire rope 26 of four sets of cords assemblies after stretching steel wire rope 26, tightens rope clamp 28 after being each passed through channel-section steel rope perforation 9 and lower channel-section steel rope perforation 20, rotates forward-reverse spiral button 25 and makes steel wire rope 26 tighten, forms packing crates assembly, complete tying up packing crates.

Such as Figure 14 and in conjunction with shown in Figure 15, lifting and also comprise, with transport bracing means, the hanging belt 35 being connected lifting respectively with mooring via 3, external travelling crane hook is connected by hanging belt 35 and lifts lifting disclosed in this invention and transport bracing means and multi-joint packing case therein.Hanging belt 35 connects one end of travelling crane hook and is provided with lifting eye 36.

The lifting flow process of six multi pack packing crates reinforcing device assembly embodiments of a kind of lifting for multi-joint packing case and transport bracing means comprises:

Six multi pack packing cratess (six packing cratess 30) are fixed after tying up by two upper channel-section steel assemblies, two upper channel-section steel assemblies, four sets of cords assemblies.Respectively one end difference correspondence of four hanging belts 35 is lifted and after mooring via 3 through four of two upper channel-section steel assemblies, pull downward on the lifting boom 14 making hanging belt 35 walk around lower channel-section steel assembly, again from the lifting of upper channel-section steel assembly and extraction on mooring via 3, and make hanging belt 35 two ends pull together, the lifting eye 36 of four hanging belts 35 is inserted in travelling crane hook, can lift.

Such as Figure 16 and in conjunction with, shown in Figure 17, lifting and also comprise the double hook binding captive band 37 being connected lifting respectively with mooring via with transport bracing means, this double hook binding captive band 37 is standard component, which is provided with tightener 38, is respectively arranged at two ends with hook 40.Lifting is fixed on the external mooring point 39 for fixing multi-joint packing case with transport bracing means and multi-joint packing case therein by double hook binding captive band 37.

The mooring flow process of six multi pack packing cratess (six packing cratess 30) the reinforcing device assembly embodiment of a kind of lifting for multi-joint packing case and transport bracing means comprises:

Six multi pack packing cratess (six packing cratess 30) are fixed after tying up carried out mooring operation by two upper channel-section steel assemblies, two upper channel-section steel assemblies, four sets of cords assemblies, and six multi pack packing crates reinforcing device combined systems are stayed four mooring points 39 on transport agent.The two ends of each upper channel-section steel corresponding two mooring points 39 respectively are arranged.

It is installed as example with the double hook binding captive band 37 of a upper channel-section steel respective side, the hook 40 that double hook bundlees one end of captive band 37 hooks the transport agent mooring point 39 of six multi pack packing crates reinforcing device assembly sides, on double hook binding captive band 37, channel-section steel is to should lifting and the mooring via 3 of mooring point 39 one end pass from the bottom up, after passing from top to bottom from the lifting that the other end is corresponding with mooring via 3 again, after hooking the mooring point 39 of opposite side, tighten up double hook binding captive band 37 with bundled device 38.

Then repeat above-mentioned flow process and carry out the installation of channel-section steel respective side double hook binding captive band 37 on another root, namely complete the mooring on transport agent of the six multi pack packing crates reinforcing device assemblys.

Although present disclosure has been made to be discussed in detail already by above preferred embodiment, but it should be appreciated that the description above is not considered as limitation of the present invention.After those skilled in the art have read foregoing, multiple amendment and replacement for the present invention all will be apparent from.Therefore, protection scope of the present invention should be limited to the appended claims.

Claims (10)

1. multi-joint packing tank moduleization lifting with transport a bracing means, this multi-joint packing case comprise some side by side and/or stacking arrange packing crates；Each packing crates comprises: packing crates casing, the packing crates Reinforced Hoop being set on packing crates casing, and packing crates Reinforced Hoop end face is provided with alignment pin, and packing crates Reinforced Hoop bottom surface is provided with dowel hole；

It is characterized in that, described lifting comprises with transport bracing means:

Upper channel-section steel assembly, it comprises channel-section steel；Upper channel-section steel bottom surface be respectively arranged at two ends with support parts；The two ends of the end face of upper channel-section steel are respectively arranged with lifting and mooring via；In every one end of upper channel-section steel, lifting is symmetrically arranged on two with the perforation of channel-section steel rope with mooring via；Upper channel-section steel surface has the mounting hole being correspondingly arranged respectively with each alignment pin of multi-joint packing case；

Lower channel-section steel assembly；It comprises lower channel-section steel；The end face of lower channel-section steel be respectively arranged at two ends with lifting block；It is positioned on the lifting block at lower channel-section steel two ends and is respectively equipped with lifting boom；In every one end of lower channel-section steel, channel-section steel rope perforation under being symmetrically arranged on two with of lifting block；Lower channel-section steel surface has the lower channel-section steel alignment pin being correspondingly arranged respectively with each dowel hole of multi-joint packing case；

Tether assemblies, it connects the perforation of channel-section steel rope and the perforation of lower channel-section steel rope respectively, connects and fixes upper channel-section steel assembly and lower channel-section steel assembly, being located between upper channel-section steel assembly and lower channel-section steel assembly by multi-joint packing clamp.

2. multi-joint packing tank moduleization as claimed in claim 1 lifting and transport bracing means, it is characterized in that, described lifting also comprises, with transport bracing means, the hanging belt being connected lifting respectively with mooring via, and external travelling crane hook is connected by hanging belt and lifts described lifting and transport bracing means and multi-joint packing case therein.

3. multi-joint packing tank moduleization as claimed in claim 1 lifting and transport bracing means, it is characterised in that the drift angle supporting the packing crates Reinforced Hoop that parts correspond to multi-joint packing case of described upper channel-section steel is arranged.

4. multi-joint packing tank moduleization as claimed in claim 3 lifting and transport bracing means, it is characterised in that every one end of described upper channel-section steel, is respectively symmetrically and is provided with a pair support parts in upper channel-section steel axis.

5. the lifting of multi-joint packing tank moduleization and transport bracing means as described in claim 3 or 4, it is characterised in that described support parts are set to indent arc towards the one side of packing crates Reinforced Hoop drift angle；The drift angle of packing crates Reinforced Hoop is set to outer convex；The indent arc of these support parts is suitable with the evagination arcuate shape size of packing crates Reinforced Hoop drift angle.

6. multi-joint packing tank moduleization as claimed in claim 1 lifting and transport bracing means, it is characterised in that described lower channel-section steel inner chamber is set to indent arc corresponding to the position at packing crates Reinforced Hoop base angle；The base angle of packing crates Reinforced Hoop is set to outer convex；The indent arc of this lower channel-section steel inner chamber is suitable with the evagination arcuate shape size at packing crates Reinforced Hoop base angle.

7. multi-joint packing tank moduleization as claimed in claim 1 lifting and transport bracing means, it is characterised in that every one end of described lower channel-section steel, is respectively symmetrically and is provided with a pair lifting block in lower channel-section steel axis, and every a pair lifting block is connected to lifting boom.

8. multi-joint packing tank moduleization as claimed in claim 2 lifting and transport bracing means, it is characterised in that every one end of described lower channel-section steel, is respectively symmetrically and is provided with a pair lifting block in lower channel-section steel axis, and the interval of every a pair lifting block is more than the width of hanging belt.

9. multi-joint packing tank moduleization as claimed in claim 1 lifting and transport bracing means, it is characterised in that described tether assemblies comprises: steel wire rope and the forward-reverse spiral of concatenation are buckled；Steel wire rope is provided with some rope clamps.

10. multi-joint packing tank moduleization as claimed in claim 1 lifting and transport bracing means, it is characterized in that, described lifting also comprises the double hook binding captive band being connected lifting respectively with mooring via with transport bracing means, and lifting bundlees captive band with transport bracing means and multi-joint packing case therein by double hook and is fixed on the external mooring point for fixing multi-joint packing case.