CN114367599A - Assembled construction steel bar built-in fitting preparation processingequipment - Google Patents

Abstract

A manufacturing and processing device for an assembled embedded part of a construction steel bar comprises a base, wherein a centering mechanism for adjusting the central position of the embedded part is arranged on the upper side of the base, a bottom plate is arranged on the upper side of the base, a bending column is fixed on the upper end surface of the bottom plate, and fixing mechanisms for fixing the embedded part are arranged on the upper sides of the two centering mechanisms; the embedded part is fixed by the two supporting blocks in abutting connection with the fixing seats on the corresponding sides, the embedded part is bent by the bending column and the two fixing seats which move relatively, the centering clamping plates on the left side and the right side are clamped mutually, so that the base of the embedded part is aligned, the centering clamping plates which can slide back and forth are matched by the two arc-shaped plates, the center of the base of the embedded part is aligned with the center of the bending column, the embedded part can be located at the center of the base during welding, and the welding quality of the embedded part is improved.

Description

Assembled construction steel bar built-in fitting preparation processingequipment

Technical Field

The invention relates to the technical field related to embedded part machining, in particular to a device for manufacturing and machining an assembled building steel bar embedded part.

Background

The embedded parts (prefabricated embedded parts) are members which are pre-installed (embedded) in hidden projects, namely, structural parts arranged during the pouring of the structure and used for lap joint during the building of the superstructure.

Traditional built-in fitting processing needs bend the built-in fitting one by one on the bender, then will bend the built-in fitting welding after again to the built-in fitting base on, this has just led to the built-in fitting to need a plurality of equipment cooperations to go on when adding man-hour, has improved manufacturing cost, and traditional built-in fitting welding in addition, can't be accurate with the built-in fitting welding to base central point puts to lead to the built-in fitting welding to have certain error, influence subsequent building construction.

Disclosure of Invention

The invention aims to provide a device for manufacturing and processing an assembly type building steel bar embedded part, which is used for overcoming the defects in the prior art.

The manufacturing and processing device for the assembled building steel bar embedded part comprises a base, wherein a centering mechanism for adjusting the central position of the embedded part is arranged on the upper side of the base, a bottom plate is arranged on the upper side of the base, a bending column is fixed on the upper end surface of the bottom plate, and fixing mechanisms for fixing the embedded part are arranged on the upper sides of the two centering mechanisms;

the centering mechanism comprises two sliding rods, the two sliding rods are arranged in a bilateral symmetry mode by taking the bending column as a center, arc-shaped plates are fixed on the end faces of the two sliding rods close to one side of the bending column, connecting rods are arranged in the two arc-shaped plates, clamping plate seats are fixed on the end faces of the two connecting rods close to one side of the bending column, and centering clamping plates are arranged in the two clamping plate seats;

the two fixing mechanisms comprise fixing seats, lifting rods are arranged in the two fixing seats, lifting electromagnets are arranged on the upper sides of the two lifting rods, lifting springs are fixed between the two lifting rods and the lifting electromagnets on the corresponding sides, and magnets are fixed on the lower end faces of the two lifting rods.

Preferably, two sliding rod cavities with upward openings are arranged in the base, the two sliding rod cavities are arranged in bilateral symmetry, the two sliding rods are respectively in sliding fit with the sliding rod cavities on the corresponding sides, sliding rod electromagnets are fixed on the end walls on the inner sides of the two sliding rod cavities, sliding rod springs are fixed between the two sliding rod electromagnets and the sliding rods on the corresponding sides, connecting rod cavities with inward openings are arranged in the two arc plates, the outer parts of the two connecting rod cavities extend outwards to penetrate through the sliding rods on the corresponding sides, the two connecting rods are in sliding fit with the connecting rod cavities on the corresponding sides, one side parts of the two connecting rods, which are close to the bending column, extend inwards to penetrate through the arc plates, and one side parts, which are far away from the bending column, extend outwards to the outside of the sliding rods on the corresponding sides.

Preferably, a centering spring is fixed between each of the two clamping plate seats and the arc-shaped plate on the corresponding side, a centering clamping plate cavity which is communicated with the front and the back is arranged in each of the two clamping plate seats, a limiting cavity is communicated with one side, far away from the bending column, of each centering clamping plate cavity, a limiting block is arranged in each limiting cavity in a sliding fit mode, the centering clamping plates are in sliding fit with the centering clamping plate cavities on the corresponding sides, the centering clamping plates are fixed on the inner side end faces of the limiting blocks on the corresponding sides respectively, and the limiting effect of the limiting blocks can limit the range of the front and back sliding of the centering clamping plates.

Preferably, the two fixing seats are internally provided with lifting rod cavities, the lower sides of the two lifting rod cavities are communicated with magnet cavities, the lower sides of the two magnet cavities are communicated with fixed cavities, one ends of the inner sides of the two fixed cavities are open, screw rods are arranged in the outer end walls of the two fixed cavities in a rotating fit mode, the inner side parts of the two screw rods extend inwards to the fixed cavities of the corresponding sides, the outer side parts of the two screw rods extend outwards to the outside of the fixing seats of the corresponding sides, and the bending length of the embedded part can be adjusted through the rotation of the screw rods.

Preferably, the two lifting electromagnets are fixed on the upper end walls of the lifting rod cavities on the corresponding sides, the two lifting rods are in sliding fit with the lifting rod cavities on the corresponding sides, the lower side parts of the two lifting rods extend downwards into the magnet cavities on the corresponding sides, the two magnets are in sliding fit with the magnet cavities on the corresponding sides, and the magnets are magnetic, so that the embedded parts can be adsorbed on the lower end faces of the magnets through the magnetism of the magnets.

Preferably, a hydraulic cylinder is fixed in the upper end wall of the base, a hydraulic rod is dynamically connected to the upper end of the hydraulic cylinder, the base plate is fixed on the upper end surface of the hydraulic rod on the corresponding side, four guide rods arranged in a mirror image manner with the bending column as the center are fixed on the upper end surface of the base plate, a lower support plate is arranged on the upper side of the base plate, the lower support plate and the four guide rods are in sliding fit, four reset springs are fixed between the lower support plate and the base plate, the four reset springs are all positioned on the peripheries of the guide rods on the corresponding side, a through cavity which is communicated up and down is arranged in the lower support plate, the upper part of the bending column extends upwards to penetrate through the through cavity, a rotating wheel is rotatably matched in the left and right side surfaces, two support blocks which are symmetrical left and right are fixed on the upper end surface of the lower support plate, and the two support blocks are respectively positioned on the lower sides of the fixed cavities on the corresponding sides, the supporting block moves upwards to clamp the embedded part together with the upper end wall of the fixed cavity on the corresponding side.

Preferably, the base upside is provided with the backup pad, the base with go up the bracing piece that is fixed with four mirror image settings between the backup pad, two the fixing base is fixed in go up on the backup pad lower extreme face.

The invention has the beneficial effects that: the embedded part is fixed by the two supporting blocks in abutting connection with the fixing seats on the corresponding sides, the embedded part is bent by the bending column and the two fixing seats which move relatively, the centering clamping plates on the left side and the right side are clamped mutually, so that the base of the embedded part is aligned, the centering clamping plates which can slide back and forth are matched by the two arc-shaped plates, the center of the base of the embedded part is aligned with the center of the bending column, the embedded part can be located at the center of the base during welding, and the welding quality of the embedded part is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of an apparatus for manufacturing and processing an embedded part of a fabricated construction steel bar according to the present invention;

FIG. 2 is a schematic view of A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic view of B-B of FIG. 1 in accordance with the present invention;

FIG. 4 is an enlarged, fragmentary view of the mounting block assembly of FIG. 1 in accordance with the present invention;

FIG. 5 is an enlarged, fragmentary schematic view of the link assembly of FIG. 1 in accordance with the present invention;

fig. 6 is a three-dimensional schematic of fig. 5 of the present invention.

In the figure:

10. a base; 11. a slide bar; 12. a connecting rod; 13. an arc-shaped plate; 14. a centering spring; 15. an upper support plate; 16. a fixed seat; 17. a support bar; 18. a lower support plate; 19. a cavity is communicated; 20. a base plate; 21. a hydraulic cylinder; 22. bending the column; 23. a slide rod spring; 24. a sliding rod cavity; 25. a return spring; 26. a guide bar; 27. a rotating wheel; 28. a support block; 29. centering splints; 30. a clamping plate seat; 31. a lifting electromagnet; 32. a lifter chamber; 33. a magnet cavity; 34. a fixed cavity; 35. a screw; 36. a magnet; 37. a lifting rod; 38. a lift spring; 39. a hydraulic lever; 40. a connecting rod cavity; 41. a limiting block; 42. a centering splint cavity; 43. a limiting cavity; 44. a slide bar electromagnet.

Detailed Description

For purposes of making the objects and advantages of the present invention more apparent, the following detailed description of the invention, taken in conjunction with the accompanying examples, is to be understood that the following text is only intended to describe one or more specific embodiments of the invention, and is not intended to limit the scope of the invention as specifically claimed, and as used herein, the terms up, down, left, and right are not limited to the exact geometric definition thereof, but include tolerances for reasonable and inconsistent machining or human error, the specific features of which are set forth in detail below:

referring to fig. 1 to 6, the manufacturing and processing device for the assembled embedded part of the building steel bar according to the embodiment of the invention comprises a base 10, wherein a centering mechanism for adjusting the central position of the embedded part is arranged on the upper side of the base 10, a bottom plate 20 is arranged on the upper side of the base 10, a bending column 22 is fixed on the upper end surface of the bottom plate 20, and fixing mechanisms for fixing the embedded part are arranged on the upper sides of the two centering mechanisms;

the centering mechanism comprises two sliding rods 11, the two sliding rods 11 are arranged in bilateral symmetry with the bending column 22 as the center, arc-shaped plates 13 are fixed on the end surfaces of the two sliding rods 11 close to one side of the bending column 22, connecting rods 12 are arranged in the two arc-shaped plates 13, clamping plate seats 30 are fixed on the end surfaces of the two connecting rods 12 close to one side of the bending column 22, and centering clamping plates 29 are arranged in the two clamping plate seats 30;

the two fixing mechanisms comprise fixing seats 16, lifting rods 37 are arranged in the two fixing seats 16, lifting electromagnets 31 are arranged on the upper sides of the two lifting rods 37, lifting springs 38 are fixed between the two lifting rods 37 and the lifting electromagnets 31 on the corresponding sides, and magnets 36 are fixed on the lower end faces of the two lifting rods 37.

Beneficially, two upward-opening sliding rod cavities 24 are arranged in the base 10, the two sliding rod cavities 24 are arranged in bilateral symmetry, the two sliding rods 11 are respectively in sliding fit with the corresponding sliding rod cavities 24, sliding rod electromagnets 44 are fixed on the inner side end walls of the two sliding rod cavities 24, sliding rod springs 23 are fixed between the two sliding rod electromagnets 44 and the corresponding sliding rods 11, connecting rod cavities 40 with inward openings are arranged in the two arc-shaped plates 13, the outer parts of the two connecting rod cavities 40 extend outwards to penetrate through the corresponding sliding rods 11, the two connecting rods 12 are in sliding fit with the corresponding connecting rod cavities 40, and the parts of the two connecting rods 12, which are close to the bending columns 22, extend inwards to penetrate through the arc-shaped plates 13, the part of one side of the sliding rod, which is far away from the bending column 22, extends outwards to the outside of the sliding rod 11 on the corresponding side.

Beneficially, centering springs 14 are fixed between the two clamping plate seats 30 and the arc-shaped plate 13 on the corresponding side, centering clamping plate cavities 42 which are through from front to back are arranged in the two clamping plate seats 30, limiting cavities 43 are arranged on the sides, away from the bending column 22, of the two centering clamping plate cavities 42 in a communicating manner, limiting blocks 41 are in sliding fit in the two limiting cavities 43, the two centering clamping plates 29 are in sliding fit with the centering clamping plate cavities 42 on the corresponding side, the two centering clamping plates 29 are fixed on the inner side end faces of the limiting blocks 41 on the corresponding side respectively, and the limiting effect of the limiting blocks 41 can limit the range of the centering clamping plates 29 in which slide from front to back.

Beneficially, the two fixing seats 16 are respectively provided with a lifting rod cavity 32 therein, the lower sides of the two lifting rod cavities 32 are respectively communicated with a magnet cavity 33, the lower sides of the two magnet cavities 33 are respectively communicated with a fixing cavity 34, one end of the inner side of each of the two fixing cavities 34 is open, the outer end walls of the two fixing cavities 34 are respectively provided with a screw 35 in a rotating fit manner, the inner side portions of the two screws 35 extend inwards to the fixing cavities 34 on the corresponding sides, the outer side portions of the two screws 35 extend outwards to the outside of the fixing seats 16 on the corresponding sides, and the bending length of the embedded part can be adjusted through the rotation of the screws 35.

Advantageously, two of the lifting electromagnets 31 are fixed on the upper end wall of the lifting rod cavity 32 on the corresponding side, the magnet 36 can move up and down by the power failure of the lifting electromagnet 31, two of the lifting rods 37 are in sliding fit with the lifting rod cavity 32 on the corresponding side, the lower side parts of the two lifting rods 37 extend downwards into the magnet cavity 33 on the corresponding side, two of the magnets 36 are in sliding fit with the magnet cavity 33 on the corresponding side, and the magnet 36 has magnetism, so that the embedded part can be adsorbed on the lower end surface of the magnet 36 by the magnetism of the magnet 36.

Beneficially, a hydraulic cylinder 21 is fixed in the upper end wall of the base 10, a hydraulic rod 39 is dynamically connected to the upper end of the hydraulic cylinder 21, the bottom plate 20 is fixed on the upper end surface of the hydraulic rod 39 on the corresponding side, four guide rods 26 arranged in a mirror image with the bending column 22 as the center are fixed on the upper end surface of the bottom plate 20, a lower support plate 18 is arranged on the upper side of the bottom plate 20, the lower support plate 18 and the four guide rods 26 are all in sliding fit, four return springs 25 are fixed between the lower support plate 18 and the bottom plate 20, the four return springs 25 are all located on the periphery of the guide rods 26 on the corresponding side, a through cavity 19 penetrating up and down is arranged in the lower support plate 18, the upper portion of the bending column 22 extends upwards to penetrate through the through cavity 19, a rotating wheel 27 is rotatably matched in the left and right side surfaces, and by the rotation of the rotating wheel 27, the friction force between the bending column 22 and the embedded part during bending can be reduced, two bilaterally symmetrical supporting blocks 28 are fixed on the upper end face of the lower supporting plate 18, the two supporting blocks 28 are respectively positioned at the lower sides of the fixing cavities 34 at the corresponding sides, and the supporting blocks 28 move upwards to clamp the embedded part together with the upper end walls of the fixing cavities 34 at the corresponding sides.

Advantageously, an upper supporting plate 15 is arranged on the upper side of the base 10, four supporting rods 17 arranged in a mirror image manner are fixed between the base 10 and the upper supporting plate 15, and two of the fixing seats 16 are fixed on the lower end surface of the upper supporting plate 15.

The invention relates to a manufacturing and processing device for an assembly type building steel bar embedded part, which comprises the following working procedures:

the embedded part is placed in the fixing cavity 34, and the embedded part can be fixed on the lower end face of the magnet 36 by the magnetic force of the magnet 36.

The hydraulic cylinder 21 is actuated to move the hydraulic rod 39 upwardly, thereby moving the base plate 20 upwardly and, in turn, the bending column 22 upwardly.

At the same time, the upward movement of the base plate 20 moves the guide bar 26 upward, thereby moving the lower support plate 18 upward, which in turn moves the support blocs 28 upward.

When the supporting block 28 moves upwards to abut against the embedded part, the supporting block 28 stops moving, the guide rod 26 and the lower support plate 18 slide relatively due to the fact that the bottom plate 20 continues to move upwards, and the bending column 22 moves upwards to enable the embedded part to be bent upwards.

The turning wheels 27 on the left and right sides can reduce the friction force between the bending column 22 and the embedded part in the process of bending the embedded part, so that the bending process is smoothly carried out.

When the embedded part is bent, the hydraulic cylinder 21 is closed, so that the hydraulic rod 39 moves downwards to the initial position, and the bending column 22 and the supporting block 28 move downwards to the initial position.

The embedded part base is placed on the upper end face of the supporting block 28, the sliding rod electromagnets 44 on the left side and the right side are started, so that the sliding rod electromagnets 44 on the left side and the right side are electrified to attract the sliding rods 11 on the corresponding sides, and the sliding rods 11 on the left side and the right side move close to each other.

The sliding rods 11 on the left side and the right side drive the arc plates 13 on the corresponding sides inwards to move inwards, so that the centering clamp plates 29 on the corresponding sides move inwards until the centering clamp plates 29 on the left side and the right side clamp the embedded part base, and the edge of the embedded part base is parallel to the edge of the bottom plate 20.

The arc plates 13 on the left side and the right side move inwards continuously, so that the centering springs 14 on the corresponding sides are compressed, and when the arc plates 13 on the left side and the right side clamp the embedded part base, the arc plates 13 can enable the center of the embedded part base to coincide with the center of the bending column 22, and therefore the accuracy of the welding position of a subsequent embedded part is improved.

At this time, the lifting electromagnets 31 on the left side and the right side are started, so that the lifting electromagnets 31 on the left side and the right side are electrically repelled to the lifting rod 37, the lifting rod 37 is made to move downwards, the magnet 36 is further driven to move downwards, and the bent embedded part moves downwards to abut against the embedded part base.

At the moment, the embedded part is fixed on the embedded part base through welding, so that the machining process of the embedded part is completed.

If the bending length of the embedded part needs to be adjusted, the screw rods 35 on the left side and the right side are rotated, and the distance between the right ends of the screw rods 35 on the left side and the right ends of the fixing seats 16 on the corresponding sides is adjusted.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims (7)

1. The utility model provides an assembled construction steel bar built-in fitting preparation processingequipment, includes base (10), its characterized in that: the upper side of the base (10) is provided with a centering mechanism for adjusting the central position of the embedded part, the upper side of the base (10) is provided with a bottom plate (20), the upper end surface of the bottom plate (20) is fixed with a bending column (22), and the upper sides of the two centering mechanisms are respectively provided with a fixing mechanism for fixing the embedded part;

the centering mechanism comprises two sliding rods (11), the two sliding rods (11) are arranged in a bilateral symmetry mode by taking the bending column (22) as a center, arc-shaped plates (13) are fixed on the end faces of the two sliding rods (11) close to one side of the bending column (22), connecting rods (12) are arranged in the two arc-shaped plates (13), clamping plate seats (30) are fixed on the end faces of the two connecting rods (12) close to one side of the bending column (22), and centering clamping plates (29) are arranged in the two clamping plate seats (30);

the two fixing mechanisms comprise fixing seats (16), lifting rods (37) are arranged in the two fixing seats (16), lifting electromagnets (31) are arranged on the upper sides of the two lifting rods (37), lifting springs (38) are fixed between the two lifting rods (37) and the lifting electromagnets (31) on the corresponding sides, and magnets (36) are fixed on the lower end faces of the two lifting rods (37).

2. The fabricated building steel bar embedded part manufacturing and processing device of claim 1, wherein: the base (10) is internally provided with two sliding rod cavities (24) with upward openings, the two sliding rod cavities (24) are arranged in bilateral symmetry, the two sliding rods (11) are respectively in sliding fit with the sliding rod cavities (24) on the corresponding sides, sliding rod electromagnets (44) are fixed on the end walls of the inner sides of the two sliding rod cavities (24), sliding rod springs (23) are fixed between the two sliding rod electromagnets (44) and the sliding rods (11) on the corresponding sides, connecting rod cavities (40) with inward openings are arranged in the two arc-shaped plates (13), the outer parts of the two connecting rod cavities (40) extend outwards to penetrate through the sliding rods (11) on the corresponding sides, the two connecting rods (12) are in sliding fit with the connecting rod cavities (40) on the corresponding sides, and the parts of the two connecting rods (12) close to one sides of the bending columns (22) extend inwards to penetrate through the arc-shaped plates (13), the part of one side of the sliding rod, which is far away from the bending column (22), extends outwards to the outside of the sliding rod (11) on the corresponding side.

3. The fabricated construction steel bar embedded part manufacturing and processing device of claim 2, wherein: two clamp plate seats (30) and the arc plates (13) on the corresponding side are fixed with centering springs (14) respectively, a centering clamp plate cavity (42) which is through from front to back is arranged in each clamp plate seat (30), one side, far away from the bending column (22), of each centering clamp plate cavity (42) is communicated with a limiting cavity (43), two limiting blocks (41) are in sliding fit in the limiting cavities (43), two centering clamp plates (29) are in sliding fit with the centering clamp plate cavities (42) on the corresponding side, and the two centering clamp plates (29) are fixed on the inner side end faces of the limiting blocks (41) on the corresponding side respectively.

4. The fabricated building steel bar embedded part manufacturing and processing device of claim 1, wherein: two all be equipped with lifter chamber (32) in fixing base (16), two lifter chamber (32) downside all communicates and is equipped with magnet chamber (33), two magnet chamber (33) downside all communicates and is equipped with fixed chamber (34), two the equal open set of fixed chamber (34) inboard one end, two equal normal running fit has screw rod (35) in the fixed chamber (34) outer end wall, two screw rod (35) inside part inwards extends to corresponding side in fixed chamber (34), outside part all outwards extends to corresponding side outside fixing base (16).

5. The fabricated building steel bar embedded part manufacturing and processing device of claim 4, wherein: the two lifting electromagnets (31) are fixed on the upper end walls of the lifting rod cavities (32) on the corresponding sides, the two lifting rods (37) are in sliding fit with the lifting rod cavities (32) on the corresponding sides, the lower side parts of the two lifting rods (37) extend downwards into the magnet cavities (33) on the corresponding sides, and the two magnets (36) are in sliding fit with the magnet cavities (33) on the corresponding sides.

6. The fabricated building steel bar embedded part manufacturing and processing device of claim 4, wherein: the upper end wall of the base (10) is internally fixed with a hydraulic cylinder (21), the upper end of the hydraulic cylinder (21) is in power connection with a hydraulic rod (39), the bottom plate (20) is fixed on the upper end surface of the hydraulic rod (39) on the corresponding side, four guide rods (26) which are arranged by taking the bending column (22) as a central mirror image are fixed on the upper end surface of the bottom plate (20), a lower support plate (18) is arranged on the upper side of the bottom plate (20), the lower support plate (18) and the four guide rods (26) are in sliding fit, four reset springs (25) are fixed between the lower support plate (18) and the bottom plate (20), the four reset springs (25) are all positioned on the periphery of the guide rods (26) on the corresponding side, a through cavity (19) which is vertically communicated is arranged in the lower support plate (18), and the upper side part of the bending column (22) extends upwards to penetrate through the through cavity (19), rotating wheels (27) are rotatably matched in the left side and the right side, two bilaterally symmetrical supporting blocks (28) are fixed on the upper end face of the lower supporting plate (18), and the two supporting blocks (28) are respectively positioned on the lower sides of the fixing cavities (34) on the corresponding sides.

7. The fabricated building steel bar embedded part manufacturing and processing device of claim 1, wherein: base (10) upside is provided with backup pad (15), base (10) with go up and be fixed with bracing piece (17) that four mirror images set up between backup pad (15), two fixing base (16) are fixed in go up on the terminal surface under backup pad (15).

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