CN107284963A - A kind of component transfer arrangement and its construction method - Google Patents

Abstract

The present invention relates to a kind of transfer arrangement, more particularly to a kind of component transfer arrangement and its construction method, the conveying device is including being used for sliding block, chute bottom plate, chute slide plate, two pieces of chute wallboards, two pieces of chute baffle plates and the two pieces of chute side limited blocks of bearing carrier；Chute slide plate is close to the top surface of chute bottom plate, and two pieces of chute wallboards are located at the two ends of chute slide plate respectively, and chute baffle plate is close to the outside for being fixed on chute wallboard, and two pieces of chute side limited blocks are against the outside of chute baffle plate；Chute bottom plate and two pieces of chute wallboards constitute a chute；The bottom of sliding block is contained in chute, the position contacted on sliding block with chute, and with the position of shoe contact is macromolecule engineering plastic alloy material on chute.The component transfer arrangement that the present invention is provided, is hauled along chute and is used in turn repeatedly using sliding block carrying weight, because sliding block and chute are entity structure, rather than high-pressure bottle, has effectively evaded the risk of explosion easy to wear during air bag transport member.

Description

A kind of component transfer arrangement and its construction method

Technical field

The present invention relates to a kind of transfer arrangement, more particularly to a kind of component transfer arrangement and its construction method.

Background technology

With construction industry flourish and crane gear increasingly maximizes, miscellaneous finished product or half into Caisson, square in the land migration of product component needs, such as marine traffic engineering, cylinder, semicircular body, for another example Box beam, plate-girder in science of bridge building etc..At present, the conventional technique of the land migration of component has：Air bag is transported Move, capsule trolley is migrated, iron block is migrated, special-purpose vehicle migration.

The advantage of air bag migration is that requirement to place is low, can be hardened place or sandy beach, Have the disadvantage that air bag is easy to wear, and be high-pressure bottle, it is explosive, it is dangerous high.

The advantage of capsule trolley is that work efficiency is high, has the disadvantage that cost is high, and need special trolley track beam.

The advantage of iron block is low cost, easily made, and has the disadvantage that the requirement to place is high, easily terrace is made Into damage.

The advantage of special-purpose vehicle is that work efficiency is high, has the disadvantage cost height, needs large-scale high to site requirements Heavy equipment coordinates and loading capacity is limited.

In summary, there is more obvious defect, therefore in the market in migration mechanism of the prior art, Need a kind of to overcome the novel device of the shortcoming in above-mentioned technology.

The content of the invention

Can safely and efficiently it be migrated component, and low cost, structure it is an object of the invention to provide one kind Simply, easy-operating new migration equipment.

To achieve the above object, the present invention provides a kind of component transfer arrangement, including for bearing carrier Sliding block, chute bottom plate, chute slide plate, two pieces of chute wallboards, two pieces of chute baffle plates and two pieces of chute sides Limited block；The sliding block is set to " T " font, and chute slide plate is close to the top surface of chute bottom plate, described Two pieces of chute wallboards are located at the two ends of chute slide plate respectively, and the chute baffle plate is close to be fixed on chute wallboard Outside, two pieces of chute sides limited block is against the outside of chute baffle plate；The chute bottom plate and two pieces Chute wallboard constitutes a chute；The bottom of the sliding block is contained in chute, is connect on the sliding block with chute Tactile position, and with the position of shoe contact be macromolecule engineering plastic alloy material on chute.

It is preferred that, the chute bottom plate, chute slide plate, two pieces of chute wallboards, two pieces of chute baffle plates and Two pieces of chute side limited blocks constitute one group of chute single-piece, and it is overall that multigroup chute single-piece is spliced into chute；It is located at The arrival end for taking the chute single-piece of bank junction is flare openings.

It is preferred that, the component transfer arrangement also includes chute sealing strip, and the chute sealing strip is fixed on cunning Between groove slide plate and chute wallboard.

It is preferred that, the sliding block includes sliding block chock and sliding block slide plate, and the sliding block chock is " convex " Font, the sliding block slide plate is fixed on the bottom of sliding block chock；The chute slide plate and sliding block slide plate are Macromolecule engineering plastic alloy material.

It is preferred that, sliding block slide plate and chute the wall panels end joint part is disposed as circular arc type chamfering.

It is preferred that, between the sliding block slide plate and sliding block chock, between chute wallboard and chute baffle plate and Connected between chute wallboard and chute bottom plate using dormant bolt；And reserve wearing course.

It is preferred that, the sliding block has multiple, and multiple sliding blocks connect as one composition by sliding block connector Sliding block group.

It is preferred that, lubriation material is provided between the sliding block and chute.

The present invention also provides a kind of construction method of above-mentioned component transfer arrangement, comprises the following steps：

Step one, size is calculated；According to the weight and site condition for intending haul component, chute is calculated The physical dimension of physical dimension and sliding block；

Step 2, manufactures sliding block；

Step 3, manufactures monomer chute；According to the result of calculation of step one by chute bottom plate, chute slide plate, Chute wallboard, chute baffle plate and chute side limited block are combined into monomer chute；

Step 4, manufactures chute track；Step 3 is obtained into monomer chute to connect into using chute connector Chute track；

Step 5, assembling；Sliding block is attached in chute track, transfer arrangement is constituted.

It is preferred that, in the step 2, multiple sliding blocks are manufactured respectively, and multiple sliding blocks are connected by sliding block Part connects as one composition sliding block group.

The beneficial effects of the invention are as follows：The component transfer arrangement provided compared to prior art, the present invention, Hauled and be used in turn repeatedly along chute using sliding block carrying weight, because sliding block and chute are Entity structure, rather than high-pressure bottle, are not in load explosion issues；Air bag transport structure is effectively evaded The risk of explosion easy to wear during part, security performance is high；The dominant touch position of both chute, sliding block Using macromolecule engineering plastic alloy material, have good high withstand voltage, wearability, resistance to ag(e)ing, from Lubricity and low frictional properties feature, therefore efficiency high, wear and tear small；Easy to operate, the work of the invention is former Reason is simple, and operating method is easy to grasp, relatively low to the competency profiling of operating personnel；Structure and manufacturing process It is very simple, used material and component wide material sources, and without special processing and fabricating, therefore produce Cost and use cost are very low.

Brief description of the drawings

The structure chart for the component transfer arrangement that Fig. 1 provides for the present invention；

Fig. 2 is the structure chart of the sliding block group of the present invention；

Fig. 3 is the structure chart of the chute single-piece arrival end of the present invention.

Main element symbol description is as follows：

11st, sliding block 12, chute bottom plate

13rd, chute slide plate 14, chute wallboard

15th, chute baffle plate 16, chute side limited block

17th, chute sealing strip 18, sliding block connector

111st, sliding block chock 112, sliding block slide plate.

Embodiment

In order to more clearly state the present invention, the present invention is further described below in conjunction with the accompanying drawings.

A kind of component transfer arrangement provided refering to Fig. 1, the present invention, including the sliding block for bearing carrier 11st, chute bottom plate 12, chute slide plate 13, two pieces of chute wallboards 14, two pieces of chute baffle plates 15 and two Block chute side limited block 16；Sliding block is set to " T " font, and chute slide plate 13 is close to chute bottom plate 12 Top surface, two pieces of chute wallboards 14 are located at the two ends of chute slide plate 13 respectively, and chute baffle plate 15 is close to solid The outside of chute wallboard 14 is scheduled on, two pieces of chute side limited blocks 16 are against the outside of chute baffle plate 15；It is sliding Trough floor 12 and two pieces of chute wallboards 14 constitute a chute；The bottom of sliding block 11 is contained in chute, sliding The position contacted on block 11 with chute, and the position contacted on chute with sliding block 11 are macromolecule work Engineering plastics alloy material (MG series).

The component transfer arrangement provided compared to prior art, the present invention, with advantages below：

1, hauled and be used in turn repeatedly along chute using the carrying weight of sliding block 11, due to sliding block 11 and chute be entity structure, rather than high-pressure bottle is not in load explosion issues.Effectively evade The risk of explosion easy to wear during air bag transport member, security performance is high.

2, both dominant touch positions of chute, sliding block 11 use macromolecule engineering plastic alloy material (MG Series), there are good high withstand voltage, wearability, resistance to ag(e)ing, self lubricity and low frictional properties feature, Therefore efficiency high, weares and teares small.

3, easy to operate, the operation principle of the invention is simple, and operating method is easy to grasp, to operating personnel Competency profiling it is relatively low.

4, the component transfer arrangement that the present invention is provided, its structure and manufacturing process are very simple, used Material and component wide material sources, and without special processing and fabricating, therefore production cost and use cost are very It is low.

5, strong adaptability；Due to the movable sleeper in chute track lower berth in the structure, existing glue is evaded The track girder construction that capsule chassis technique is used；The requirement that can be migrated simultaneously according to component to place selects to rest the head on The specification of wood significantly saves the transformation expense of precasting yard to realize being mutually matched for place, chock and component With and fixed investment.

6th, operating efficiency is high, the characteristics of taking full advantage of sliding material low abrasivity, allow sliding block 11 along Chute realizes the migration to component during sliding motion repeatedly, so as to complete a set of migration dress in engineering Put the purpose for multiple components of migrating.

7th, have a wide range of application, the component transfer arrangement that the present invention is provided can carry various article：Not only The other materials components such as haul steel member, Wood member can be may also be used for for haul prefabricated components； It can not only may also be used for hauling hollow unit for haul entity component；Rule can not only be hauled Component, may also be used for hauling irregular element；Bottom component can have not only been hauled, may also be used for dragging Transport bottomless component；Not only can be with land migration component, can also migrate component under water.

In the present embodiment, the sliding block 11 includes sliding block chock 111 and sliding block slide plate 112, sliding block chock 111 be inverted "convex" shape, and sliding block slide plate 112 is fixed on the bottom of sliding block chock 111, " convex " word The structure of shape makes sliding block 11 coordinate stable with chute, is difficult to rock and tilts, it is ensured that component migration direction Accuracy；Meanwhile, it can avoid or reduce member bottom section debris and fall into chute track, protection sliding block and cunning Groove, extends its service life.

Sliding block chock 111 and chute bottom plate 12, which are used, the bullet such as some strength and the timber of rigidity, rubber Property material, can load-carrying, adapt to again haul member bottom section local deformation, it is ensured that sliding block slide plate 112 by Power uniformity.

In the present embodiment, chute bottom plate 12, chute slide plate 13, two pieces of chute wallboards 14, two pieces of chutes Baffle plate 15 and two pieces of chute side limited blocks 16 constitute one group of chute single-piece, and multigroup chute single-piece is spliced into Chute is overall.

In addition, sliding block single-piece and chute single-piece can make standard element according to requirement of engineering, sliding block group Length and the length of chute track can carry out quick-assembling and dismounting according to requirement of engineering.

It is flare openings positioned at the arrival end for the chute single-piece for taking bank junction refering to Fig. 3；It ensure that structure In part migration process, by land-based area gentle transition to ship deck, it is ensured that take the steady migration at bank, it is to avoid The problem of ship deck face chute axis can not be connected with land-based area chute axial offset.

Moreover, sliding block slide plate 112 and the end joint part of chute wallboard 14 are disposed as circular arc type chamfering, it is sliding Block slide plate 112 and chute interior lining panel end joint part are carried out without stupefiedization processing, so that chute single-piece, Sliding block single-piece effectively eliminates or reduced the frictional resistance of joint part in joint part gentle transition.

In the present embodiment, the component transfer arrangement also includes chute sealing strip 17, and chute sealing strip 17 is consolidated It is scheduled between chute slide plate 13 and chute wallboard 14.Sealing strip ensure that chute wallboard 14 can be close Chute slide plate 13 contact, good clamping position effect is played, while reducing or preventing lubriation material It is lost in or spills Lou, has not only reduced expense but also energy-conserving and environment-protective.

Chute slide plate 13 and sliding block slide plate 112 are macromolecule engineering plastic alloy material, sliding block chock 111 For the main body of sliding block 11, with low cost, it is easy to the advantage of production, good delay is may also function as in addition Punching is acted on；And chute slide plate 13 and sliding block slide plate 112 use macromolecule engineering plastic alloy material, there is good Wearability well, resistance to ag(e)ing, guarantee good lubrication.

In the present embodiment, between sliding block slide plate 112 and sliding block chock 111, chute wallboard 14 and chute Connected between baffle plate 15 and between chute wallboard 14 and chute bottom plate 12 using dormant bolt；And it is pre- Reserve sufficiently thick wearing course, it is to avoid destruction of the connecting bolt to sliding block.

In the present embodiment, the mixture constituted between sliding block 11 and chute provided with machine oil with graphite is used as profit Sliding material, takes full advantage of graphite and the good dual lubricant effect of machine oil, machine oil is make use of again to graphite Compatibility prevent graphite to see that wind is easily kicked up and pollutes environment.

Refering to Fig. 2, in the present embodiment, sliding block 11 has multiple, and multiple sliding blocks 11 are connected by sliding block Part 18 connects as one composition sliding block group, has the advantages that carrying is stable.

In addition, the present invention also provides a kind of construction method of component transfer arrangement, comprise the following steps：

Step one, size is calculated；According to the weight and site condition for intending haul component, chute is calculated The physical dimension of physical dimension and sliding block 11；

Step 2, manufactures sliding block 11；

Step 3, manufactures monomer chute；Chute bottom plate 12, chute are slided according to the result of calculation of step one Plate 13, chute wallboard 14, chute baffle plate 15 and chute side limited block 16 are combined into monomer chute；

Step 4, manufactures chute track；Step 3 is obtained into monomer chute to connect using chute connector 18 Into chute track；

Step 5, assembling；Sliding block 11 is attached in chute track, transfer arrangement is constituted.

It was found from foregoing description, the construction method for the component transfer arrangement that the present invention is provided, with construction letter It is single, it is easy to the advantage of operation.

Specifically, in step 2, multiple sliding blocks 11 are manufactured respectively, and multiple sliding blocks 11 are connected by sliding block Fitting 18 connects as one composition sliding block group.Sliding block group can migrate, and quality is big, bulky product, when So, also can be using the single structure of sliding block 11 come quality of migrating is small, small volume product.

It these are only the preferred embodiment of the present invention, it is noted that for the common skill of the art For art personnel, without departing from the technical principles of the invention, some improvement and profit can also be made Decorations, these improvements and modifications also should be regarded as protection scope of the present invention.

Claims (10)

1. a kind of component transfer arrangement, it is characterised in that including the sliding block for bearing carrier, chute bottom Plate, chute slide plate, two pieces of chute wallboards, two pieces of chute baffle plates and two pieces of chute side limited blocks；It is described Sliding block is set to " T " font, and chute slide plate is close to the top surface of chute bottom plate, two pieces of chute wallboards It is located at the two ends of chute slide plate respectively, the chute baffle plate is close to the outside for being fixed on chute wallboard, described Two pieces of chute side limited blocks are against the outside of chute baffle plate；The chute bottom plate and two pieces of chute wallboards are constituted One chute；The bottom of the sliding block is contained in chute, the position contacted on the sliding block with chute, with And on chute with the position of shoe contact be macromolecule engineering plastic alloy material.

2. component transfer arrangement according to claim 1, it is characterised in that the chute bottom plate, Chute slide plate, two pieces of chute wallboards, two pieces of chute baffle plates and two pieces of chute side limited blocks constitute one group of cunning Groove single-piece, it is overall that multigroup chute single-piece is spliced into chute；Positioned at the entrance for the chute single-piece for taking bank junction Hold as flare openings.

3. component transfer arrangement according to claim 1, it is characterised in that the component transfer arrangement Also include chute sealing strip, the chute sealing strip is fixed between chute slide plate and chute wallboard.

4. component transfer arrangement according to claim 1, it is characterised in that the sliding block includes sliding Block chock and sliding block slide plate, the sliding block chock are inverted "convex" shape, and the sliding block slide plate is fixed on cunning The bottom of block chock；The chute slide plate and sliding block slide plate are macromolecule engineering plastic alloy material.

5. component transfer arrangement according to claim 4, it is characterised in that the sliding block slide plate and Chute wall panels end joint part is disposed as circular arc type chamfering.

6. component transfer arrangement according to claim 4, it is characterised in that the sliding block slide plate with Adopted between sliding block chock, between chute wallboard and chute baffle plate and between chute wallboard and chute bottom plate Connected with dormant bolt, and reserve wearing course.

7. the component transfer arrangement according to claim any one of 1-6, it is characterised in that the cunning Block have it is multiple, multiple sliding blocks by sliding block connector connect as one composition sliding block group.

8. the component transfer arrangement according to claim any one of 1-6, it is characterised in that the cunning Lubriation material is provided between block and chute.

9. a kind of construction method of component transfer arrangement as claimed in claim 1, it is characterised in that bag Include following steps：

Step one, size is calculated；According to the weight and site condition for intending haul component, chute is calculated The physical dimension of physical dimension and sliding block；

Step 2, manufactures sliding block；

Step 3, manufactures monomer chute；According to the result of calculation of step one by chute bottom plate, chute slide plate, Chute wallboard, chute baffle plate and chute side limited block are combined into monomer chute；

Step 4, manufactures chute track；Step 3 is obtained into monomer chute to connect into using chute connector Chute track；

Step 5, assembling；Sliding block is attached in chute track, transfer arrangement is constituted.

10. the construction method of component transfer arrangement according to claim 9, it is characterised in that In the step 2, multiple sliding blocks are manufactured respectively, and multiple sliding blocks connect as one structure by sliding block connector Into sliding block group.