CN213595698U - Coil erecting frame for heavy coil - Google Patents

Abstract

The utility model provides a coil erecting frame for heavy coils, which comprises a coil bearing part and a coil erecting part, wherein the coil bearing part comprises a coil bearing table, a hand-push bracket, a first support rod, a second support rod and a support wheel; the coil standing part comprises a bearing wheel, a bearing frame, a rotating support and an oblique beam, the lower end of the bearing frame is connected with one end of the rotating support and one end of a hand-push support, the other end of the rotating support is connected with one end of the oblique beam, the other end of the oblique beam is connected with a second support rod, the upper end of the second support rod is connected with the hand-push support, the lower end of the second support rod is provided with the support wheel, a coil bearing table is arranged at the upper end of the hand-push support, a first support rod is used for connecting the hand-push support and the rotating support; the utility model discloses set out from coil standing flow operation, utilize power lever principle design, carry out the crooked design with the atress flex point, combine the pulley helping hand, solve the difficult problem of heavy coil standing.

Description

Coil erecting frame for heavy coil

Technical Field

The utility model relates to a coil production technical field especially relates to a coil stand-up frame for heavy coil.

Background

In the prior art, the large, medium and heavy coils produced in the prior art are mostly operated by manually standing up or lying down, and when the operation is carried out by manually, 2-3 persons are usually required to work cooperatively to stably stand up the heavy coils, but in the process of standing up the coils, the problems of coil insulation damage, wire displacement, brace fracture and the like caused by uneven output are easily caused, so that the previous work is abandoned, the labor intensity is greatly input, and for large coils with the diameter of more than or equal to 400MM and the height of more than or equal to 1500MM, 5-7 persons are required to simultaneously exert the output to stand up the coils; therefore, time-saving, labor-saving and labor-saving efficient working equipment is urgently needed to improve the coil standing efficiency so as to reduce the defects caused by manual standing and fill up the blank of the field.

Disclosure of Invention

For solving coil insulation damage, wire aversion, stay fracture and artifical intensity of labour big scheduling defect problem that arouse because of artifical standing coil among the prior art, the utility model discloses set out from coil standing flow operation, utilize power lever principle design, carry out crooked design with the atress flex point, combine the pulley helping hand, solve the difficult problem of heavy coil standing.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a coil standing frame for a heavy coil comprises a coil bearing part and a coil standing part, wherein the coil bearing part comprises a coil bearing table, a hand-push bracket, a first support rod, a second support rod and a support wheel; the coil rising part comprises a bearing wheel, a bearing frame, a rotating support and an oblique beam, the lower end of the bearing frame is connected with one end of the rotating support and one end of a hand-push support, the other end of the rotating support is connected with one end of the oblique beam, the other end of the oblique beam is connected with a second support rod, the upper end of the second support rod is connected with the hand-push support, the lower end of the second support rod is provided with a support wheel, the upper end of the hand-push support is arranged on the coil bearing table, the first support rod is used for connecting the hand-push support and the rotating support, a first cross beam is connected between two intersection points formed by the bearing frame, the hand-push support and the rotating support, a fourth cross beam is connected between two intersection points formed by the hand-push support and the second support rod, and bearing wheels are further arranged at the upper end and.

Preferably, the bearing wheel is arranged on the outer side of the bearing frame.

Preferably, the number of the bearing wheels is 4.

Preferably, the number of the supporting wheels is 2.

Preferably, the coil bearing platform is a crescent arc-shaped body with different thicknesses.

Preferably, the lower end of the first stay bar is connected with a crossing point formed by connecting the rotating bracket and the oblique beam.

Preferably, a third cross beam is further connected between two intersection points formed by the connection of the rotating bracket and the oblique beam.

Preferably, a second cross beam is further connected between two intersection points formed by the connection of the second stay bar and the oblique beam.

Preferably, the length of the beam of the first beam is equal to the length of any one of the second beam, the third beam, the fourth beam and the fifth beam in pairs.

Preferably, the rotating support is a circular arc body with equal radius.

The utility model has the advantages that:

the utility model discloses simple structure, showing saving enterprise's input cost, through utilizing the power lever principle, bending the atress flex point, design for the arc structure, through combining the pulley helping hand, can be under 1-2 people's operations, stand up the operation with various heavy coils, showing and reducing workman intensity of labour, save workman's use quantity, reach the effect that the effect of making a half a effort doubly, and the invention can also reverse operation, lie the operation with the coil after standing up; the invention can switch the lying/standing operation of any heavy coil through simple structural design.

Drawings

FIG. 1 is a front view of the coil stand of the present invention;

FIG. 2 is a left side view structure diagram of the coil erecting frame of the present invention;

fig. 3 is a schematic structural view of a coil bearing platform of the present invention;

fig. 4a is a schematic diagram of the structural design reference dimension of the coil rising part of the present invention;

fig. 4b is a schematic diagram of the front view of the coil stand according to the present invention;

FIG. 4c is a schematic view of the structural design reference dimensions of the hand pushing support and the second support rod of the present invention;

fig. 4d is a schematic diagram of the left view of the coil erecting frame according to the present invention;

fig. 4e is a schematic diagram of the structure design reference dimension of the coil bearing platform of the present invention.

In the figure: 1. a load-bearing wheel; 2. a bearing frame; 3. rotating the bracket; 4. an oblique beam; 5. a first stay bar; 6. a coil bearing table; 7. pushing the bracket by hand; 8. a second stay bar; 9. a support wheel; 10. a first cross member; 11. a second cross member; 12. and a third beam.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings, but the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

The invention will be further described with reference to the accompanying drawings and specific embodiments:

example 1:

as shown in fig. 1 to 3, the coil stand for heavy coils of the present invention includes a coil bearing portion and a coil stand portion, wherein the coil bearing portion includes a coil bearing platform 6, a hand-push bracket 7, a first support rod 5, a second support rod 8 and a support wheel 9; the coil standing part comprises a bearing wheel 1, a bearing frame 2, a rotating bracket 3 and an oblique beam 4; the bearing frame 2 and the hand-push support 7 are vertically arranged, the rotating support 3 is arranged into a circular arc-shaped body with the same radius, the lower end of the bearing frame 1 is connected with one end of the rotating support 3 and one end of the hand-push support 7, namely, one end of the rotating support 3 is connected to the intersection point of the bearing frame 2 and the hand-push support 7 which are vertically intersected, the other end of the rotating support 3 is connected with one end of the oblique beam 4, and the other end of the oblique beam 4 is connected with the second support rod 8; the upper ends of the second support rods 8 are connected with a hand-push support 7, the lower ends of the second support rods are provided with support wheels 9, the support wheels 9 are correspondingly arranged at the lower ends of the two second support rods 8, two support wheels are arranged totally, the intersection point of the oblique beam 4 and the second support rods 8 is ensured to be arranged at the upper ends of the support wheels 9, the coil bearing table 6 is arranged at the upper end of the hand-push support 7, and the side surfaces of the coil bearing table present crescent arc-shaped bodies with different thicknesses; the first support rod 5 is used for connecting the hand-push support 7 and the rotating support 3 and ensuring that the lower end of the first support rod 5 is connected with an intersection point formed by the connection of the rotating support 3 and the oblique beam 4; a first cross beam 10 is connected between two intersection points formed by the bearing frame 2, the hand-push support 7 and the rotating support 3, a second cross beam 11 is connected and arranged between two intersection points formed by the connection of the second support rod 8 and the oblique beam 4 in sequence, a third cross beam 12 is connected and arranged between two intersection points formed by the connection of the rotating support 3 and the oblique beam 4, a fourth cross beam is connected and arranged between two intersection points formed by the connection of the hand-push support 7 and the first support rod 5, a fifth cross beam is connected and arranged between two intersection points formed by the connection of the hand-push support 7 and the second support rod 8, the length of the cross beam of the first cross beam 10 is equal to that of any one of the second cross beam 11, the third cross beam 12, the fourth cross beam and the fifth cross beam which are arranged in sequence, finally, four bearing wheels 1 are independently arranged at the upper end and the lower end of the bearing frame 2, and the bearing wheels 1 are arranged at the outer side of the bearing, and the diameter height of the bearing wheel 1 is greater than the thickness of the bearing frame 2, so that when the bearing frame 2 leans against the ground, the integral coil standing frame can roll to advance through the bearing wheel 1.

Example 2:

in the embodiment shown in fig. 1 to 4e, the coil stand according to the present invention is preferably manufactured according to the dimensions shown in fig. 4a to 4e, and the connection between the parts is set according to the above embodiment 1, so as to sufficiently and advantageously implement the coil stand of the present invention, the coil stand of the present invention is first implemented with reference to fig. 4a, the radius of the rotating frame 3 is set to 320mm, the vertical length of the bearing frame 2 is 850mm, the length of the oblique beam 4 is 877mm, the oblique angle of the oblique beam 4 is 11.8 °, the highest point height of the oblique beam 4 from the ground is 172mm, the length of the hand-push frame 7 and the gap dimension of the coil bearing table 6 of the present invention are set with reference to fig. 4b to 4c, the total length of the hand-push frame 7 is set, the gap dimension of the coil bearing table 6 and the bearing frame 2 is 205mm, which is automatically adjusted according to the bottom plate thickness of the coil in the production field, set up 2 summit heights of bearing frame and horizontal ground relative height and be 1200mm, first vaulting pole 5 sets up 845mm with 8 intervals of second vaulting pole, 8 upper ends of second vaulting pole and 7 right-hand member points of hand push support are 460mm, it is right with reference to fig. 4d to fig. 4e at last coil bearing platform 6 and the 2 interval sizes of bearing frame are injectd, set up two sets of 2 interval sizes of bearing frame 400mm, set up 6 horizontal relative width 800mm of coil bearing platform, horizontal relative length 1000mm, inlayer segmental arc radius 1097mm, outermost radius can set up wantonly, satisfy the coil bearing and establish to optimum size as the standard with bulk strength, it is special, the utility model discloses the biggest dynamics when the whole steel that chooses for use of coil rising frame can bear should satisfy heavy coil pressurized equally, to this, this practicality does not injectd the chooseing for use of steel.

The coil erecting frame of the utility model is used for the erecting/lying operation of the heavy coil when used in a workshop, firstly, the wound heavy coil with the die is hung on the coil bearing platform 6 by using a crane, so that the coil can be tightly attached to the lowest part of the arc-shaped plane of the coil bearing platform 6, then the mould is taken out, the whole formed by the coil with the locking band and the coil bearing platform 6 is used for fastening and locking, a bottom backing plate for containing the coil is vertically placed at the gap between the bearing frame and the coil bearing platform to be vertical to the hand-push support 7, the hand-push support 7 close to the second support rod 8 is slowly lifted, the coil is upright at the moment, the bottom backing plate is parallel to the ground, the locking band is released, the coil can be erected by rolling and pulling out the upright frame through the bearing wheel 1 on the bearing frame 2, otherwise, the coil can be laid down and fed.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.

Claims (10)

1. A coil standing frame for a heavy coil comprises a coil bearing part and a coil standing part, wherein the coil bearing part comprises a coil bearing table, a hand-push bracket, a first support rod, a second support rod and a support wheel; the coil standing part comprises a bearing wheel, a bearing frame, a rotating bracket and an oblique beam and is characterized in that, the lower end of the bearing frame is connected with one end of a rotating bracket and one end of a hand-push bracket, the other end of the rotating bracket is connected with one end of an oblique beam, the other end of the oblique beam is connected with a second support rod, the upper end of the second support rod is connected with a hand-push bracket, the lower end of the coil bearing platform is provided with a supporting wheel, the coil bearing platform is arranged at the upper end of the hand-push bracket, the first supporting rod is used for connecting the hand-push bracket and the rotating bracket, a first cross beam is connected between two intersection points formed by the bearing frame, the hand-push bracket and the rotating bracket, the hand push support is connected with the fourth crossbeam between two nodical points that first vaulting pole formed, be connected with the fifth crossbeam between two nodical points that hand push support and second vaulting pole formed, the upper and lower both ends of bearing frame still are provided with the bearing wheel.

2. The coil stand according to claim 1, wherein the bearing wheels are disposed at an outer side of the bearing frame.

3. A coil stand for heavy coils according to claim 2, characterized in that the number of load-bearing wheels is 4.

4. A coil stand for heavy coils according to claim 1, characterized in that the number of support wheels is 2.

5. The coil stand according to claim 1, wherein the coil bearing platform is a crescent-shaped arc of unequal thickness.

6. The coil stand for a heavy-duty coil as set forth in claim 1, wherein a lower end of the first brace is connected with an intersection point formed by the connection of the rotating bracket and the inclined beam.

7. The coil stand for heavy-duty coils of claim 1, wherein a third cross member is further connected between two intersection points formed by the connection of the rotational support and the oblique beams.

8. The coil stand for heavy-duty coils of claim 1, wherein a second cross beam is further connected between two intersection points formed by the connection of the second brace and the oblique beam.

9. The coil stand according to claim 1, wherein the length of the first beam is equal to any one of the second, third, fourth and fifth beams in pairs.

10. The coil stand according to claim 1, wherein the rotating support is a circular arc body with equal radius.

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