CN108177588B - Steel coil positioning support - Google Patents

Abstract

The invention provides a steel coil positioning bracket, and belongs to the technical field of logistics transportation equipment. The technical problem that an existing steel coil positioning support is heavy in weight or light in weight but insufficient in stability is solved. This coil of strip locating support includes two spinal branch supporting beams that are parallel to each other and the interval sets up and the location structure who is used for fixing a position the coil of strip, be equipped with the spandrel girder that length direction and a supporting beam length direction are unanimous on two spinal branch supporting beams, location structure links firmly at the spandrel girder top, the spandrel girder is hollow metal roof beam with a supporting beam, this coil of strip locating support is still including the backup pad that is used for supporting the spandrel girder, the both sides limit overlap joint respectively of backup pad links firmly on two spinal branch supporting beams's top surface, the spandrel. This coil of strip locating support has the advantage that uses lightly and stability is good.

Description

Steel coil positioning support

Technical Field

The invention belongs to the technical field of logistics transportation equipment, and relates to a steel coil positioning support.

Background

At present, steel rolling coiled material also is that the coil of strip all places and transports in the carriage usually, because the coil of strip is cylindric and quality heavy, in order to guarantee the security of transportation, carries out stable fixed very necessary to the coil of strip, just needs the coil of strip locating support to fix a position the coil of strip this moment.

The conventional steel coil positioning support comprises a metal plate body horizontally arranged, a support used for supporting a steel coil is arranged on the upper side of the metal plate body, and then the steel coil is arranged between two opposite supports, so that the outer wall of the steel coil is respectively supported on the two supports, and the steel coil is fixed. For example, the chinese patent document discloses a steel coil bracket (application No. 201620896432.X), which comprises a supporting plate, a supporting bracket and a plurality of supporting legs, wherein the supporting legs are symmetrically arranged at the lower part of the supporting plate, the supporting bracket is arranged above the supporting plate, the end surface of the supporting bracket is in the shape of a right trapezoid, the two supporting brackets are symmetrically arranged relatively, and the distance between the inclined surfaces is smaller than the distance between the right-angled surfaces. This coil of strip bracket has a great backup pad of size, and the bottom of backup pad is equipped with the landing leg to make the backup pad unsettled, can supply the bottom that jacking device stretched into the backup pad to coil of strip bracket jack-up. Since the coil of strip quality is very heavy, consequently require jacking device to act the jacking force on the backup pad very big, and in order to avoid the backup pad not to warp when jacking the coil of strip, its backup pad of current coil of strip bracket is all made very thick, as shown in this comparison document figure 1. Although the structure has good supporting stability, the steel coil bracket has heavy weight and large occupied volume, so that the steel coil bracket is very heavy to use.

In order to solve the problem of heavy weight of the traditional steel coil positioning support, the applicant previously developed a support frame of a steel coil conveying device and the steel coil conveying device (application number: 201610523365.1), wherein the support frame comprises two side plates which are oppositely arranged at intervals, the two side plates are fixed by a fixing piece, the bottom of each side plate is provided with a supporting flange perpendicular to the side plates, and the bottom between the two side plates is also provided with a connecting piece capable of being connected with a guide rail. Although this support frame is light in weight, because the weight of coil of strip mainly relies on two curb plates to support, because the limit of curb plate intensity, this coil of strip support mainly is the support that is used for small-size coil of strip, when being used for the transportation of extra-large coil of strip, has the poor problem of stability. Moreover, when the support frame is jacked, the upper plate surface of the C-shaped connecting piece is used as a jacking plate which is in contact with the jacking device, and the upper part of the connecting piece is lack of support, so that the jacking force of the jacking device is borne only by the connecting piece, the strength is difficult to ensure, and the stability during jacking is poor.

Disclosure of Invention

The invention aims to provide a steel coil positioning bracket aiming at the problems in the prior art, and the technical problem to be solved by the invention is how to enable the steel coil positioning bracket to be light and convenient to use and ensure good stability.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a coil of strip locating support, includes two supporting beam that are parallel to each other and the interval sets up and the location structure who is used for fixing a position the coil of strip, is equipped with length direction and a supporting beam length direction unanimous spandrel girder on two supporting beam, location structure links firmly at the spandrel girder top, its characterized in that, the spandrel girder is hollow metal roof beam with a supporting beam, and this coil of strip locating support is still including the backup pad that is used for supporting the spandrel girder, the both sides limit of backup pad overlap joint respectively links firmly on two supporting beam's top surface, the spandrel girder is fixed to be set up on the.

In this coil of strip locating support, because the backup pad bottom is provided with a supporting beam for the backup pad is unsettled, and two supporting beam intervals set up, in order to supply the jacking device to stretch into the backup pad lower part with coil of strip locating support and coil of strip jack-up. The supporting beam and the bearing beam are both of hollow structures, so that the steel coil positioning support is light in weight. The supporting beam and the bearing beam are both in a long strip shape, so that the occupied space is small, and the carrying and the installation are more convenient. Because the spandrel girder adopts hollow structure, if it overlap joint is between two supporting beams directly, then spandrel girder middle part is unsettled, and the area of contact between spandrel girder and the supporting beam is limited, therefore hollow spandrel girder easily takes place to warp under this condition can influence the stability of supporting. Therefore, in order to guarantee the stability that the coil of strip supported when realizing the lightweight, the backup pad has been linked firmly between the bottom surface of two supporting beam top surfaces and spandrel girder in this application, and the bottom surface of spandrel girder receives the support of backup pad, has avoided the spandrel girder the condition that warp to appear. Moreover, the two side edges of the supporting plate are respectively and fixedly connected to the top surfaces of the two supporting beams in a lap joint mode, and the supporting plate is supported by the two supporting beams, so that the supporting plate is not prone to deformation, the bearing capacity is improved, and the stability of steel coil support is guaranteed.

In foretell coil of strip locating support, the backup pad is hollow plate body, inside a plurality of long banding vertical reinforcing plates that have of backup pad just the both ends of vertical reinforcing plate extend to the top of two supporting beam top surfaces respectively. The supporting plates are of hollow structures, so that the steel coil positioning bracket is light in weight. And because the backup pad sets up between two supporting beam, the middle part of backup pad is unsettled, and the backup pad also must realize the lightweight moreover, and the backup pad is also hollow, and the backup pad supports the spandrel girder to have higher structural strength this moment, and whether the structural design of vertical reinforcing plate one is reasonable just seems to be especially important. The utility model provides a both ends of vertical reinforcing plate one extend to the top of two supporting beam top surfaces respectively, make the backup pad high with a supporting beam's overlap joint structural strength like this, and the difficult deformation that takes place of this department guarantees the stability that the backup pad supported. Moreover, every vertical reinforcing plate is along setting up, great anti forming strength has in vertical direction, vertical reinforcing plate non-deformable, and simultaneously also because the both ends of vertical reinforcing plate extend to the top of two supporting beam top surfaces respectively, the both ends of vertical reinforcing plate one all receive two supporting beam's support like this, further avoid vertical reinforcing plate one to be difficult for taking place to warp, just so make backup pad overall structure intensity high, can bear the gravity of coil of strip, guarantee the stability that the coil of strip supported.

In foretell coil of strip locating support, the inside of spandrel girder is equipped with vertical reinforcing plate two along its length direction, the length direction of vertical reinforcing plate two intersects with the length direction of vertical reinforcing plate one. The length direction of the second vertical reinforcing plate is crossed with the length direction of the first vertical reinforcing plate, mutual support is formed between the second vertical reinforcing plate and the first vertical reinforcing plates of the multiple blocks, in the jacking and supporting process of the steel coil positioning support, the supporting plate and the bearing beam are not prone to deformation, and the stability of the steel coil positioning support is guaranteed.

In the above steel coil positioning bracket, the supporting plates are arranged at intervals in sequence along the length direction of the bearing beam, and the supporting plates are multiple. Through such design for the bottom of spandrel girder receives the support of polylith backup pad, and spandrel girder and backup pad are difficult for taking place to warp. And, the polylith backup pad interval sets up and compares monolithic backup pad and extend to other end department by the one end department of spandrel girder, and the total material of backup pad reduces, can reduce coil of strip locating support's quality.

In the above steel coil positioning bracket, the supporting plate is in the shape of a long strip plate and extends from one end of the bearing beam to the other end. Through such design for each position of the bottom of spandrel girder all receives the support of backup pad, and the spandrel girder is difficult for taking place the deformation. And the supporting plate has large supporting area, can disperse the pressure of the steel coil, and is not easy to deform, thereby ensuring the stability of the steel coil positioning bracket.

In foretell coil of strip locating support, the quantity of spandrel girder is two, and two spandrel girders are parallel to each other and set up side by side, and the interval between two spandrel girders is less than the interval between two supporting beams. Through setting up two spandrel girders, can disperse the pressure of coil of strip, avoid the spandrel girder to warp. Moreover, such design makes coil of strip locating support form narrow wide structure in the top down, and coil of strip locating support's bottom sprag width is great, and the focus is more steady, can promote the stability of supporting.

In foretell coil of strip locating support, a supporting beam and spandrel girder all are connected with the top plate body between the last border of two lateral part plate bodies including two relative lateral part plate bodies that set up, are connected with the bottom plate body between the lower border of both sides portion plate body, enclose into trapezoidal form between both sides portion plate body, bottom plate body and the top plate body, the last border and the top plate body of vertical reinforcing plate two link firmly, and lower border links firmly with the bottom plate body, and the lateral part plate body is from top to bottom to outside slope respectively. The design enables the supporting beam and the bearing beam to be of non-solid structures, the weight is light, and the lightweight design of the steel coil positioning support is facilitated. Moreover, the support beam and the bearing beam are of structures with narrow lower parts and wide upper parts, and the stability is good.

In the steel coil positioning bracket, the two side edges of the supporting plate are positioned between the top surface of the supporting beam and the bottom surface of the bearing beam. The supporting beam can be more directly transmitted to by the pressure applied to the bearing beam by the steel coil, the supporting plate is not easy to deform, and the stability of the steel coil support is ensured. When the bearing beams are two, one side edge of the supporting plate is positioned between the top surface of one of the supporting beams and the bottom surface of one of the bearing beams, and the other side edge of the supporting plate is positioned between the top surface of the other supporting beam and the bottom surface of the other bearing beam.

In the above steel coil positioning bracket, one end of the first vertical reinforcing plate is located between the bottom surface of one of the bearing beams and the top surface of one of the supporting beams, and the other end of the first vertical reinforcing plate is located between the bottom surface of the other bearing beam and the top surface of the other supporting beam. The both ends of vertical reinforcing plate one all are located between the bottom surface of spandrel girder and a supporting beam's top surface, and the coil of strip is applyed the pressure energy that gives the spandrel girder and is relied on each vertical reinforcing plate one and more directly transmit for a supporting beam, and the both ends of vertical reinforcing plate one all receive a supporting beam's support, consequently vertical reinforcing plate one is difficult for taking place deformation, makes coil of strip locating support can support the coil of strip more steadily.

In foretell coil of strip locating support, the backup pad is including the last plate body and the hypoplastron body that are parallel to each other, the plate body overlap joint links firmly on the top surface of two supporting beams down, the spandrel girder links firmly on the last plate body, vertical reinforcing plate links firmly between last plate body and the hypoplastron body. The design enables the supporting beam and the bearing beam to be of non-solid structures, the weight is light, and the lightweight design of the steel coil positioning support is facilitated. The upper plate body is arranged, a smooth supporting surface is provided for the bearing beam, and the bearing beam is stable in positioning. In a similar way, the lower plate body can also be stably fixed between the top surfaces of the two support beams, so that the overall stability of the steel coil positioning support is improved. And, set up plate body and lower plate body, can also make things convenient for the backup pad to be connected with a supporting beam and spandrel girder.

In the steel coil positioning bracket, two ends of the second vertical reinforcing plate extend to two ends of the side plate body respectively. Therefore, the supporting beam and the bearing beam can be under the action of the second vertical reinforcing plate at each position in the length direction, the deformation resistance of the supporting beam and the bearing beam is improved, and the stability of the steel coil positioning support is ensured.

In foretell coil of strip locating support, the length of the top plate body of spandrel girder is less than the length of bottom plate body, and the both ends of lateral part plate body and the both ends of vertical reinforcing plate two all have straight inclined edge, and the upper end on the two inclined edges of lateral part plate body and vertical reinforcing plate all extends to the terminal surface department of top plate body, and the lower extreme on the two inclined edges of lower extreme and vertical reinforcing plate on the inclined edge of lateral part plate body all extends to the terminal surface department of bottom plate body. The design not only reduces the waste of materials and enables the weight of the bearing beam to be light, but also enables the bearing beam to form a trapezoidal structure similar to a structure with a narrow upper part and a wide lower part in the length direction, and compared with a rectangular structure, the structural strength is higher.

In foretell coil of strip locating support, location structure includes that two settings block the seat on the bearing beam top surface, block the seat and include riser and the perpendicular mounting panel of connecting on the lower border of riser, the mounting panel is connected on the bearing beam top plate body, and two risers that block the seat are just to setting up, the riser with still be equipped with a plurality of enhancement risers between the mounting panel. When the steel coil is fixed, the two steel coil positioning brackets are matched for use. Two parallel sleepers are erected between the two steel coil positioning supports, the steel coils are supported on the two sleepers, the sleepers are supported on the bearing beams, and the stop seats can limit horizontal movement of the sleepers, so that the steel coils are stably supported. Set up a plurality of enhancement risers between riser and the mounting panel, can avoid the riser to produce deformation to carry out stable support to the coil of strip.

In the steel coil positioning bracket, the top plate body of the bearing beam is also provided with an adjusting structure capable of adjusting the distance between the two stop seats. Through such design for the interval between two stop blocks the seat can be adjusted, thereby makes this coil of strip locating support can be applicable to not unidimensional coil of strip, promotes this coil of strip locating support's commonality.

In foretell coil of strip locating support, adjust the structure including seting up the adjustment tank on the plate body of spandrel girder top, the length direction of adjustment tank is parallel with the length direction of spandrel girder, block and be provided with the adjusting bolt that can fix a position in the adjustment tank or break away from in the adjustment tank on the seat.

Compared with the prior art, the steel coil positioning bracket has the following advantages:

1. this coil of strip locating support's a supporting beam, spandrel girder and backup pad all are non-solid structure, can reduce coil of strip locating support's quality, consequently this coil of strip locating support has the advantage that the quality is light.

2. The supporting beam and the bearing beam are machined from section components with the same structure, and the design can reduce the manufacturing cost.

3. Through setting up at the spandrel girder, can with the weight dispersion of coil of strip to each backup pad on, alright reduce the thickness of backup pad under this kind of condition to guarantee the backup pad and do not warp, consequently make coil of strip location support structural strength high, stability good when realizing the lightweight.

4. The top surface of this coil of strip locating support's spandrel girder does not directly use as the holding surface that supports the coil of strip, but sets up on the top surface of spandrel girder and blocks the seat, consequently the coil of strip can support on coil of strip locating support through the sleeper, interval between two coil of strip locating supports is greater than the width of coil of strip like this, two coil of strip locating support are used in the position that the vehicle bottom crossbeam is close to the tip, consequently can avoid the vehicle bottom crossbeam to be pressed, coil of strip locating support guarantees balance all the time, the stability of transportation has been promoted.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is an enlarged view at a in fig. 1.

Fig. 3 is a schematic structural diagram of a support beam and a support plate according to an embodiment of the invention.

Fig. 4 is a side view of a first embodiment of the invention.

Fig. 5 is a schematic perspective view of a supporting plate according to an embodiment of the invention.

Fig. 6 is a schematic view of a usage status of the first embodiment of the present invention.

Fig. 7 is a schematic perspective view of a second embodiment of the present invention.

Fig. 8 is a schematic perspective view of a third embodiment of the present invention.

In the figure, 1, a support plate; 11. an upper plate body; 12. a lower plate body; 13. a first vertical reinforcing plate; 2. a spandrel girder; 3. a support beam; a. a side plate body; b. a top plate body; c. a bottom plate body; d. a second vertical reinforcing plate; 4. a blocking seat; 41. a vertical plate; 42. mounting a plate; 43. reinforcing the vertical plate; 5. a steel coil; 6. crossties; 7. positioning seats; 8. and (4) adjusting the groove.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Example one

As shown in fig. 1, this coil of strip locating support includes that level setting and hollow backup pad 1, spandrel girder 2 are used for fixing a position the location structure of coil of strip 5, and location structure sets up at the top of spandrel girder 2, and the bottom of backup pad 1 is provided with a supporting beam 3 that is used for supporting backup pad 1, and spandrel girder 2 is rectangular form, and backup pad 1 links firmly between the bottom surface of two supporting beam 3 top surfaces and spandrel girder 2. On the bottom surface of spandrel girder 2, the quantity of backup pad 1 is four and four backup pads 1 set up along spandrel girder 2 length direction at interval in proper order. In the actual manufacturing process, the number of the supporting plates 1 may be increased or decreased as appropriate, such as three, five, or six, etc. The spandrel girder 2 plays a role of dispersing pressure, and can disperse the weight of the steel coil 5 to each supporting plate 1. The number of the bearing beams 2 is two, the two bearing beams 2 are parallel to each other and are arranged side by side, and the distance between the two bearing beams 2 is smaller than the distance between the two supporting beams 3.

As shown in fig. 2, the positioning structure includes two blocking seats 4 disposed on the top surface of the bearing beam 2, each blocking seat 4 includes a vertical plate 41 and a mounting plate 42 vertically connected to the lower edge of the vertical plate 41, the mounting plate 42 is connected to the top plate b of the bearing beam 2, the vertical plates 41 of the two blocking seats 4 are disposed opposite to each other, and a plurality of reinforcing vertical plates 43 are further disposed between the vertical plates 41 and the mounting plate 42. Set up a plurality of enhancement risers 43 between riser 41 and the mounting panel 42, can avoid riser 41 to produce deformation to carry out stable support to coil of strip 5. The top plate body b of the bearing beam 2 is also provided with an adjusting structure capable of adjusting the distance between the two blocking seats 4. The adjusting structure comprises an adjusting groove 8 formed in a plate body b on the top of the bearing beam 2, the length direction of the adjusting groove 8 is parallel to that of the bearing beam 2, an adjusting bolt capable of being positioned in the adjusting groove 8 or separated from the adjusting groove 8 is arranged on the blocking seat 4, and the adjusting bolt is not shown in the figure. Through such design for the interval between two block seats 4 can be adjusted, thereby makes this coil of strip locating support can be applicable to not unidimensional coil of strip 5, promotes this coil of strip locating support's commonality. In addition, the adjusting structure can also be that a plurality of positioning holes are formed in the top surface of the bearing beam 2, positioning bolts are arranged on the blocking seats 4, and the positioning bolts on the blocking seats 4 are inserted into different positioning holes to adjust the distance between the two blocking seats 4.

As shown in fig. 3, two support beams 3 are provided, the two support beams 3 are parallel to each other and spaced apart from each other, the length direction of the support beam 3 is parallel to the length direction of the bearing beam 2, and both side edges of the support plate 1 are fixed to the top surfaces of the two support beams 3 in an overlapping manner. An inserting groove for inserting the jacking device is formed between the two supporting beams 3, the jacking device is inserted in the inserting groove, and the steel coil 5 is transferred after being jacked up. The supporting structure adopts the long-strip-shaped supporting beam 3, the supporting area is large, pressure can be dispersed, the carriage floor is prevented from being deformed under pressure, and then the influence on the stability caused by the inclination of the steel coil positioning support is avoided.

As shown in fig. 4, the bearing beam 2 and the support beam 3 are both hollow metal beams, and the inside of the bearing beam 2 and the inside of the support beam 3 are provided with a vertical reinforcing plate two d along the respective length directions. Specifically, supporting beam 3 and spandrel girder 2 all include two relative lateral part plate bodies a that set up, are connected with top plate body b between two lateral part plate body a's the last border, are connected with bottom plate body c between two lateral part plate body a's the lower border, enclose into trapezoidal form between two lateral part plate body a, bottom plate body c and the top plate body b, and lateral part plate body a from top to bottom inclines to the outside respectively. Still be equipped with two vertical reinforcing plates d between both sides portion plate body a, the upper limb of two vertical reinforcing plates d links firmly with top plate body b, and the border links firmly with bottom plate body c down. The second vertical reinforcing plate d is in a strip plate shape, and two ends of the second vertical reinforcing plate d extend to two ends of the side plate body a respectively. The supporting beam 3 and the bearing beam 2 are of non-solid structures due to the design, the weight is light, and the lightweight design of the steel coil positioning support is facilitated. Moreover, lateral plate body a from top to bottom inclines to the outside respectively for supporting beam 3 and spandrel girder 2 are narrow down wide structure, and stability is good, and lateral plate body a is difficult for taking place deformation moreover, and structural strength is high. Two d vertical reinforcing plates can further improve the structural strength of the supporting beam 3 and the bearing beam 2, and avoid deformation and influence on the stability of the steel coil positioning support.

As shown in fig. 5, the supporting plate 1 includes an upper plate body 11 and a lower plate body 12 which are parallel to each other, the lower plate body 12 is lapped and fixedly connected to the top surfaces of the two supporting beams 3, the bearing beam 2 is fixedly connected to the upper plate body 11, a plurality of strip-shaped vertical reinforcing plates 13 are connected between the upper plate body 11 and the lower plate body 12, a cavity structure is formed between the two adjacent vertical reinforcing plates 13, and the length direction of the vertical reinforcing plates two d is intersected with the length direction of the vertical reinforcing plates 13. This backup pad 1 adopts the non-solid metal sheet structure, has realized the lightweight, can reduce coil of strip locating support's weight, makes coil of strip locating support use more lightly. Moreover, through set up the vertical reinforcing plate 13 of polylith between last plate body 11 and lower plate body 12, guaranteed backup pad 1's structural strength, stability when avoiding backup pad 1's deformation and influence support coil of strip 5 and jacking coil of strip 5.

As shown in fig. 1 and 3, two ends of the first vertical reinforcing plate 13 extend to the top surfaces of the two support beams 3 respectively, and, preferably, one end of the first vertical reinforcing plate 13 is located between the bottom surface of one of the bearing beams 2 and the top surface of one of the support beams 3, and the other end of the first vertical reinforcing plate 13 is located between the bottom surface of the other bearing beam 2 and the top surface of the other support beam 3, so that the gravity of the bearing beam 2 can be transmitted to the support beam 3 by means of the first vertical reinforcing plates 13, and the two ends of the first vertical reinforcing plate 13 are supported by the support beams 3, and the lap joint part of the support beam 3, where the support plate 1 is lapped, is not easy to deform, so that the steel coil positioning support can support the steel coil 5 more.

As shown in fig. 1, the length of the top plate body b of the bearing beam 2 is smaller than that of the bottom plate body c, the two ends of the side plate body a and the two ends of the vertical reinforcing plate body d are both provided with straight inclined edges, the upper ends of the inclined edges of the side plate body a and the two d inclined edges of the vertical reinforcing plate body extend to the end face of the top plate body b, and the lower ends of the inclined edges of the side plate body a and the two d inclined edges of the vertical reinforcing plate body extend to the end face of the bottom plate body c. Due to the design, the waste of materials is reduced, the weight of the bearing beam 2 is light, and the bearing beam 2 also forms a trapezoid structure similar to a structure with a narrow upper part and a wide lower part in the length direction, so that the structural strength is higher compared with a rectangular structure.

The following briefly describes the method of using the steel coil positioning bracket with reference to fig. 6. As shown in fig. 6, when the steel coil 5 is fixed, two steel coil positioning brackets need to be used in cooperation. Firstly, two steel coil positioning brackets are placed well, so that the two steel coil positioning brackets are opposite to each other and are spaced at a certain distance. Then two sleepers 6 of overlap joint between two coil of strip locating support, the both ends of sleeper 6 support respectively on two coil of strip locating support's spandrel girder 2, and the side of sleeper 6 supports and leans on blockking seat 4, later with coil of strip 5 hoist to between two sleepers 6 and coil of strip 5's lateral wall support respectively and lean on two sleepers 6, block seat 4 this moment and inject sleeper 6's horizontal displacement to can support coil of strip 5. Finally, the steel coil 5 is fixed on the steel coil positioning bracket by a binding device, and after the steel coil is fixed, the steel coil is moved by a heavy goods moving device disclosed in Chinese patent documents: CN106276705A will the mount move to suitable position in the carriage, at last fix the coil of strip locating support in the carriage through the binder.

Example two

The structure and principle of this embodiment are basically the same as those of the first embodiment, and different points are as follows: as shown in fig. 7, the structure of the supporting plate 1 may be replaced by a structure in which the supporting plate 1 has a long plate shape and extends from one end of the load beam 2 to the other end.

EXAMPLE III

The structure and principle of this embodiment are basically the same as those of the third embodiment, and the difference lies in: the positioning structure can be replaced by the following structure, as shown in fig. 8, the positioning structure comprises a positioning seat 7, an arc-shaped notch with an upward opening is formed in the top of the positioning seat 7, and the end part of the steel coil 5 can be positioned in the arc-shaped notch.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although 1, a support plate is used more herein; 11. an upper plate body; 12. a lower plate body; 13. a first vertical reinforcing plate; 2. a spandrel girder; 3. a support beam; a. a side plate body; b. a top plate body; c. a bottom plate body; d. a second vertical reinforcing plate; 4. a blocking seat; 41. a vertical plate; 42. mounting a plate; 43. reinforcing the vertical plate; 5. a steel coil; 6. crossties; 7. positioning seats; 8. an adjustment groove; 9. support blocks, etc., but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. The utility model provides a coil of strip locating support, includes two supporting beam (3) that are parallel to each other and the interval sets up and the location structure who is used for fixing a position the coil of strip, is equipped with length direction and a supporting beam (3) length direction unanimous spandrel girder (2) on two supporting beam (3), location structure links firmly at spandrel girder (2) top, its characterized in that, spandrel girder (2) and supporting beam (3) are hollow metal roof beam, and this coil of strip locating support is still including backup pad (1) that are used for supporting spandrel girder (2), the both sides limit overlap joint respectively of backup pad (1) links firmly on the top surface of two supporting beam (3), spandrel girder (2) are fixed to be set up on the last face of backup pad (1).

2. The steel coil positioning bracket according to claim 1, wherein the supporting plate (1) is a hollow plate body, a plurality of elongated vertical reinforcing plates (13) are arranged inside the supporting plate (1), and two ends of the vertical reinforcing plates (13) respectively extend above the top surfaces of the two supporting beams (3).

3. The steel coil positioning bracket as recited in claim 2, characterized in that the inside of the bearing beam (2) and the supporting beam (3) are respectively provided with a second vertical reinforcing plate (d) along the respective length direction, and the length direction of the second vertical reinforcing plate (d) is crossed with the length direction of the first vertical reinforcing plate (13).

4. The steel coil positioning bracket according to claim 1, 2 or 3, characterized in that the number of the supporting plates (1) is multiple, and the multiple supporting plates (1) are sequentially arranged at intervals along the length direction of the bearing beam (2).

5. The steel coil positioning bracket according to claim 2 or 3, characterized in that the number of the bearing beams (2) is two, the two bearing beams (2) are parallel to each other and arranged side by side, and the distance between the two bearing beams (2) is smaller than the distance between the two support beams (3).

6. The steel coil positioning bracket according to claim 3, wherein the supporting beam (3) and the bearing beam (2) each include two side plate bodies (a) disposed opposite to each other, a top plate body (b) is connected between upper edges of the two side plate bodies (a), a bottom plate body (c) is connected between lower edges of the two side plate bodies (a), the bottom plate body (c) and the top plate body (b) form a ladder shape, an upper edge of the second vertical reinforcing plate (d) is fixedly connected with the top plate body (b), and a lower edge of the second vertical reinforcing plate is fixedly connected with the bottom plate body (c).

7. The steel coil positioning bracket as recited in claim 5, characterized in that one end of the first vertical reinforcing plate (13) is located between the bottom surface of one of the bearing beams (2) and the top surface of one of the supporting beams (3), and the other end of the first vertical reinforcing plate (13) is located between the bottom surface of the other bearing beam (2) and the top surface of the other supporting beam (3).

8. The steel coil positioning bracket according to claim 2 or 3, wherein the supporting plate (1) comprises an upper plate body (11) and a lower plate body (12) which are parallel to each other, the lower plate body (12) is overlapped and fixedly connected on the top surfaces of the two supporting beams (3), the bearing beam (2) is fixedly connected on the upper plate body (11), and the first vertical reinforcing plate (13) is fixedly connected between the upper plate body (11) and the lower plate body (12).

9. The steel coil positioning bracket as recited in claim 6, wherein two ends of the second vertical reinforcing plate (d) extend to two ends of the side plate body (a), respectively.

10. The steel coil positioning bracket as recited in claim 6, wherein the length of the top plate body (b) of the bearing beam (2) is less than that of the bottom plate body (c), the two ends of the side plate body (a) and the two ends of the vertical reinforcing plate (d) both have straight inclined edges, the upper ends of the inclined edges of the side plate body (a) and the two ends of the vertical reinforcing plate (d) both extend to the end face of the top plate body (b), and the lower ends of the inclined edges of the side plate body (a) and the two ends of the vertical reinforcing plate (d) both extend to the end face of the bottom plate body (c).

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