CN213531386U - Steel construction skew crossing positioner for building based on BIM - Google Patents

Abstract

The utility model provides a steel construction bevel positioner for building based on BIM, including removing the base, the universal removal brake wheel, first telescopic link, first adsorption plate, the through-hole can cushion the tight mark frame structure in top, scalable pointer pole structure, adsorbable flexible cross rod structure, U type seat, the rotating tube, the second telescopic link, connecting seat and second adsorption plate, the universal removal brake wheel respectively bolted connection in the lower extreme four corners position that removes the base. The arrangement of the movable base, the universal movable brake wheel, the first telescopic rod and the first adsorption plate of the utility model is beneficial to pushing the movable base to move in the using process, and is convenient to increase the moving function in the using process; remove the base, the setting of first telescopic link and first adsorption plate is favorable to pulling first adsorption plate at the in-process that uses, drives first telescopic link and removes to the left and right sides, and the in-process that conveniently uses is flexible work.

Description

Steel construction skew crossing positioner for building based on BIM

Technical Field

The utility model belongs to the technical field of the construction equipment, especially, relate to a steel construction oblique crossing positioner for building based on BIM.

Background

The existing steel structure is characterized in that the main beam and the secondary beam are large in mass, so that in order to guarantee welding quality, a positioning plate is usually welded on the main beam in advance during connection, the end part of a web plate is connected with a positioning connecting plate through a bolt, and a steel structure oblique crossing positioning device is designed for accurate positioning.

But the problem that the existing steel structure skew positioning device is inconvenient to move, stretch out and draw back in work and is inconvenient to position in the using process still exists.

Therefore, the utility model discloses a steel construction skew crossing positioner for building based on BIM seems very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a steel construction oblique crossing positioner for building based on BIM to solve current steel construction oblique crossing positioner and still having the in-process inconvenient removal using, inconvenient in the work stretch out and draw back and the inconvenient problem of fixing a position. A building BIM-based steel structure diagonal positioning device comprises a movable base, universal movable brake wheels, a first telescopic rod, a first adsorption plate, a through hole, a buffering and jacking mark frame structure, a telescopic indication rod structure, an adsorbable telescopic cross rod structure, a U-shaped seat, a rotating pipe, a second telescopic rod, a connecting seat and a second adsorption plate, wherein the universal movable brake wheels are respectively bolted at four corners of the lower end of the movable base; the first telescopic rods are respectively inserted in the middle positions of the inner parts of the left side and the right side of the movable base; the first telescopic rods are respectively bolted at the middle positions of the left side and the right side of the first adsorption plate; the through holes are respectively formed in the movable base; the mark frame structure capable of being buffered and tightly pushed is arranged in the through hole; the telescopic indicating rod structure is arranged in the middle of the upper end of the movable base; the adsorbable telescopic cross rod structure is arranged on the outer wall of the second telescopic rod; the U-shaped seat is connected to the left side of the upper end of the first telescopic rod through a bolt; the lower end of the rotating pipe is coupled to the middle position inside the upper side of the U-shaped seat in a shaft mode; the left side of the second telescopic rod is inserted in the middle of the inside of the right side of the rotating pipe; the connecting seat is connected to the middle position of the left side of the second adsorption plate through a bolt; the right side of the second telescopic rod is coupled to the middle position inside the left side of the connecting seat; the structure of the mark frame capable of being buffered and tightly pressed comprises a pressing rod, a mark plate, a return spring, a pressing plate and a mark hole, wherein the lower end of the pressing rod is respectively connected to the four corners of the upper end of the mark plate through bolts; the reset springs are respectively sleeved on the upper parts of the outer walls of the pressing rods; the upper end of the pressing rod is respectively connected with the middle position in front of the lower end of the pressing plate and the middle position behind the lower end of the pressing plate through bolts; the mark hole is arranged in the middle of the inner part of the mark plate.

Preferably, the telescopic indicating rod structure comprises a connecting plate, a first fixing pipe, an adjusting bolt, a lifting rod and a lifting seat, wherein the lower end of the first fixing pipe is welded in the middle of the upper end of the connecting plate; the adjusting bolt is in threaded connection with the upper part of the right side of the first fixed pipe; the lower end of the lifting rod is inserted in the middle of the upper inner part of the first fixed pipe; the upper end of the lifting rod is connected with the middle position of the lower end of the lifting seat through a bolt.

Preferably, the adsorbable telescopic cross rod structure comprises a second fixed pipe, a telescopic cross rod, a U-shaped frame, an inverted U-shaped adsorption seat and a sliding pipe, wherein the right side of the telescopic cross rod is inserted in the middle of the inside of the left side of the second fixed pipe; the U-shaped frames are respectively connected to the middle position of the upper end of the inverted U-shaped adsorption seat through bolts; the U-shaped frame is also connected to the middle position of the lower end of the sliding pipe through a bolt; the left side of the telescopic cross rod is coupled to the middle position inside the lower side of the U-shaped frame; the right side of the second fixed pipe is coupled to the middle position of the upper inner part of the U-shaped frame.

Preferably, the U-shaped seat is arranged on the left side of the upper end of the movable base; the through hole is arranged between the universal movable brake wheels; the first adsorption plate and the second adsorption plate are respectively magnetic plates.

Preferably, the upper end of the return spring is respectively contacted with the lower end of the pressing plate; the marking plate is a rectangular stainless steel plate with the thickness of one centimeter to three centimeters.

Preferably, the pressing rods respectively penetrate through the through holes; the lower end of the return spring is in contact with the upper end of the movable base; the marking plate is arranged in the middle of the lower end of the movable base.

Preferably, the lifting seat is a stainless steel plate with a groove in the middle; the adjusting bolt is in contact with the lifting rod.

Preferably, the connecting plate is bolted on the middle position of the upper end of the movable base and is arranged at the middle position of the upper end of the movable base.

Preferably, the inverted U-shaped adsorption seat adopts an inverted U-shaped magnet seat; the second fixed pipe is a stainless steel pipe.

Preferably, the sliding pipe is sleeved on the outer wall of the second telescopic rod in a sliding manner; the inverted U-shaped adsorption seat is adsorbed and inserted on the right side of the upper end of the first telescopic rod and is arranged on the right side of the movable base.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, removal base, universal removal brake wheel, the setting of first telescopic link and first adsorption plate is favorable to promoting at the in-process that uses and removes the base and remove, the convenient in-process that uses increases the removal function.

2. The utility model discloses in, the setting of removal base, first telescopic link and first adsorption plate is favorable to pulling first adsorption plate at the in-process that uses, drives first telescopic link and removes to the left and right sides, the in-process work of stretching out and drawing back that conveniently uses.

3. The utility model discloses in, press the depression bar, the mark board, press the movable plate, the mark hole removes the setting of base and through-hole, is favorable to pressing down at the in-process that uses and presses the movable plate to promote and press depression bar and mark board, then make mark board and mark hole contact ground, conveniently carry out location work at work.

4. The utility model discloses in, the connecting plate, first fixed pipe, the setting of lifter and lift seat is favorable to adjusting the length of first fixed pipe and lifter in the in-process that uses, then supports work to the device through the lift seat, the in-process that conveniently uses supports work.

5. The utility model discloses in, the rotating tube, the second telescopic link, the fixed pipe of second, flexible cross rod, U type frame, the type of falling U adsorbs the setting of seat and slip pipe, is favorable to the length of the fixed pipe of in-process through adjustment rotating tube and second telescopic link and second and flexible cross rod that uses, the convenient in-process that uses carries out the skew location work.

6. The utility model discloses in, according to the depression bar, the mark board, reset spring presses the setting in movable plate and mark hole, is favorable to pushing through reset spring at the in-process that uses and presses the movable plate to upwards remove, then drives and upwards removes according to depression bar and mark board, conveniently carries out the work of reseing after the location.

7. The utility model discloses in, the connecting plate, first fixed pipe, adjusting bolt, the setting of lifter and lift seat is favorable to the in-process that uses through screwing up adjusting bolt, then the length of fixed first fixed pipe and lifter, the convenient in-process that supports carries out the fixed work.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the structure of the pushable holding mark frame of the present invention.

Fig. 3 is a schematic structural diagram of the retractable indicating rod structure of the present invention.

Fig. 4 is a schematic structural view of the adsorbable telescopic cross bar structure of the present invention.

In the figure:

1. moving the base; 2. a universal mobile brake wheel; 3. a first telescopic rod; 4. a first adsorption plate; 5. a through hole; 6. the mark frame structure can be buffered and tightly propped; 61. a pressing lever; 62. a marking plate; 63. a return spring; 64. a pressing plate; 65. marking the hole; 7. a retractable indicator stem structure; 71. a connecting plate; 72. a first stationary tube; 73. adjusting the bolt; 74. a lifting rod; 75. a lifting seat; 8. the telescopic cross rod structure can be adsorbed; 81. a second stationary tube; 82. a telescoping cross bar; 83. a U-shaped frame; 84. an inverted U-shaped adsorption seat; 85. a sliding tube; 9. a U-shaped seat; 10. rotating the tube; 11. a second telescopic rod; 12. a connecting seat; 13. a second adsorption plate.

Detailed Description

The utility model is described in detail with reference to the accompanying drawings, as shown in fig. 1 and fig. 2, a building-used steel structure diagonal positioning device based on BIM comprises a mobile base 1, universal mobile brake wheels 2, a first telescopic rod 3, a first adsorption plate 4, a through hole 5, a buffering and jacking mark frame structure 6, a telescopic indication rod structure 7, a adsorbable telescopic cross rod structure 8, a U-shaped seat 9, a rotating tube 10, a second telescopic rod 11, a connecting seat 12 and a second adsorption plate 13, wherein the universal mobile brake wheels 2 are respectively bolted at the four corners of the lower end of the mobile base 1; the first telescopic rods 3 are respectively inserted in the middle positions of the inner parts of the left side and the right side of the movable base 1; the first telescopic rods 3 are respectively bolted at the middle positions of the left side and the right side of the first adsorption plate 4; the through holes 5 are respectively formed in the movable base 1; the mark frame structure 6 capable of being buffered and tightly pushed is arranged in the through hole 5; the telescopic indicating rod structure 7 is arranged in the middle of the upper end of the movable base 1; the adsorbable telescopic cross rod structure 8 is arranged on the outer wall of the second telescopic rod 11; the U-shaped seat 9 is connected to the left side of the upper end of the first telescopic rod 3 through a bolt; the lower end of the rotating pipe 10 is coupled to the middle position inside the upper side of the U-shaped seat 9; the left side of the second telescopic rod 11 is inserted in the middle position inside the right side of the rotating pipe 10; the connecting seat 12 is bolted at the middle position of the left side of the second adsorption plate 13; the right side of the second telescopic rod 11 is coupled to the middle position inside the left side of the connecting seat 12; the mark frame structure 6 capable of buffering and jacking comprises a pressing rod 61, a mark plate 62, a return spring 63, a pressing plate 64 and a mark hole 65, wherein the lower end of the pressing rod 61 is respectively connected with four corners of the upper end of the mark plate 62 through bolts; the return springs 63 are respectively sleeved on the upper parts of the outer walls of the pressing rods 61; the upper end of the pressing rod 61 is respectively bolted at the middle position of the front of the lower end and the middle position of the back of the lower end of the pressing plate 64; the marking hole 65 is arranged at the middle position inside the marking plate 62; after the equipment is fixed and supported, the pressing plate 64 is pressed downwards, the pressing rod 61 and the marking plate 62 are pushed to move downwards, then marking is carried out in the marking hole 65 by using the marking equipment, and positioning work is conveniently carried out in the work, so that diagonal positioning work is completed.

In this embodiment, referring to fig. 3, the telescopic indication rod structure 7 includes a connecting plate 71, a first fixing tube 72, an adjusting bolt 73, a lifting rod 74 and a lifting seat 75, wherein the lower end of the first fixing tube 72 is welded at the middle position of the upper end of the connecting plate 71; the adjusting bolt 73 is in threaded connection with the upper part of the right side of the first fixing pipe 72; the lower end of the lifting rod 74 is inserted in the middle position of the upper inner part of the first fixed pipe 72; the upper end of the lifting rod 74 is connected with the middle position of the lower end of the lifting seat 75 through a bolt; then, the adjusting bolt 73 is loosened, the lifting seat 75 is lifted upwards, the adjusting bolt 73 is screwed down after the lifting seat 75 is lifted to a proper height, so that the lifting seat 75 supports the device, and the supporting operation is convenient in the using process.

In this embodiment, referring to fig. 4, the adsorbable telescopic cross bar structure 8 includes a second fixed tube 81, a telescopic cross bar 82, a U-shaped frame 83, an inverted U-shaped suction seat 84 and a sliding tube 85, wherein the right side of the telescopic cross bar 82 is inserted into the middle position inside the left side of the second fixed tube 81; the U-shaped frame 83 is respectively bolted at the middle position of the upper end of the inverted U-shaped adsorption seat 84; the U-shaped frame 83 is further connected to the middle position of the lower end of the sliding pipe 85 through a bolt; the left side of the telescopic cross rod 82 is coupled to the middle position inside the lower side of the U-shaped frame 83; the right side of the second fixed pipe 81 is coupled to the middle position of the upper inner part of the U-shaped frame 83; promote when using and remove base 1 and remove, make and remove base 1 and remove the position to the girder, then to the first adsorption plate 4 of left and right sides pulling, make first adsorption plate 4 adsorb respectively in the left and right sides lower part of girder, then rotate rotating-tube 10, make second adsorption plate 13 adsorb in suitable position, the fixed pipe 81 of pulling second, the length of adjustment and the fixed pipe 81 of second and flexible cross bar 82, will fall U-shaped adsorption seat 84 and adsorb in the suitable position of first telescopic link 3, remove the suitable position of slip tube 85, the convenience carries out the BIM location work at work.

In this embodiment, specifically, the U-shaped seat 9 is disposed on the left side of the upper end of the movable base 1; the through holes 5 are arranged between the universal movable brake wheels 2; the first adsorption plate 4 and the second adsorption plate 13 are respectively made of magnet plates.

In this embodiment, specifically, the upper ends of the return springs 63 are respectively disposed in contact with the lower ends of the pressing plates 64; the marking plate 62 is a rectangular stainless steel plate with a thickness of one centimeter to three centimeters.

In this embodiment, specifically, the pressing rods 61 respectively penetrate through the through holes 5; the lower end of the return spring 63 is in contact with the upper end of the movable base 1; the marking plate 62 is arranged at the middle position of the lower end of the movable base 1.

In this embodiment, specifically, the lifting seat 75 is a stainless steel plate with a groove formed in the middle; the adjusting bolt 73 is in contact with the lifting rod 74.

In this embodiment, specifically, the connecting plate 71 is bolted to the middle position of the upper end of the movable base 1 and is disposed at the middle position of the upper end of the movable base 1.

In this embodiment, specifically, the inverted U-shaped adsorption seat 84 is an inverted U-shaped magnet seat; the second fixing pipe 81 is a stainless steel pipe.

In this embodiment, specifically, the sliding tube 85 is slidably sleeved on the outer wall of the second telescopic rod 11; the inverted U-shaped adsorption seat 84 is inserted on the right side of the upper end of the first telescopic rod 3 and is arranged on the right side of the movable base 1.

Principle of operation

In the utility model, when in use, the movable base 1 is pushed to move, the movable base 1 is moved to the position of the girder, then the first adsorption plate 4 is pulled to the left and right sides, the first adsorption plate 4 is respectively adsorbed at the lower parts of the left and right sides of the girder, then the rotating tube 10 is rotated, the second adsorption plate 13 is adsorbed at a proper position, the second fixing tube 81 is pulled, the lengths of the second fixing tube 81 and the telescopic cross rod 82 are adjusted, the inverted U-shaped adsorption seat 84 is adsorbed at a proper position of the first telescopic rod 3, the proper position of the sliding tube 85 is moved, the BIM positioning work is conveniently carried out in work, then the adjusting bolt 73 is loosened, the lifting seat 75 is lifted upwards, the adjusting bolt 73 is screwed after the lifting seat 75 is lifted to a proper height, the lifting seat 75 supports the device, the support work is conveniently carried out in the use process, after the device is fixed and supported, the pressing plate 64 is pressed downwards, the pressing rod 61 and the marking plate 62 are pushed to move downwards, then marking is carried out inside the marking hole 65 by using a marking device, and positioning work is conveniently carried out in the work, so that the diagonal positioning work is completed.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (10)

1. A BIM-based steel structure oblique crossing positioning device for buildings comprises a movable base (1), universal movable brake wheels (2), a first telescopic rod (3), a first adsorption plate (4), a through hole (5), a buffering and jacking mark frame structure (6), a telescopic indication rod structure (7), an adsorbable telescopic cross rod structure (8), a U-shaped seat (9), a rotating pipe (10), a second telescopic rod (11), a connecting seat (12) and a second adsorption plate (13), wherein the universal movable brake wheels (2) are respectively bolted at four corners of the lower end of the movable base (1); the first telescopic rods (3) are respectively inserted in the middle positions of the inner parts of the left side and the right side of the movable base (1); the first telescopic rods (3) are respectively connected to the middle positions of the left side and the right side of the first adsorption plate (4) through bolts; the through holes (5) are respectively formed in the movable base (1); the U-shaped seat (9) is connected to the left side of the upper end of the first telescopic rod (3) through a bolt; the lower end of the rotating pipe (10) is coupled to the middle position of the upper inner part of the U-shaped seat (9); the left side of the second telescopic rod (11) is inserted in the middle of the inside of the right side of the rotating pipe (10); the connecting seat (12) is in bolted connection with the middle position of the left side of the second adsorption plate (13); the right side of the second telescopic rod (11) is coupled to the middle position inside the left side of the connecting seat (12) through a shaft; the steel structure oblique crossing positioning device is characterized in that the buffering and jacking mark frame structure (6) in the steel structure oblique crossing positioning device for the building based on the BIM is arranged in the through hole (5); the telescopic indicating rod structure (7) is arranged in the middle of the upper end of the movable base (1); the adsorbable telescopic cross rod structure (8) is arranged on the outer wall of the second telescopic rod (11); the mark frame structure (6) capable of being buffered and jacked comprises a pressing rod (61), a mark plate (62), a return spring (63), a pressing plate (64) and a mark hole (65), wherein the lower end of the pressing rod (61) is respectively connected to four corners of the upper end of the mark plate (62) through bolts; the return springs (63) are respectively sleeved on the upper parts of the outer walls of the pressing rods (61); the upper end of the pressing rod (61) is respectively connected with the middle position of the front of the lower end and the middle position of the back of the lower end of the pressing plate (64) through bolts; the marking hole (65) is arranged at the middle position inside the marking plate (62).

2. The BIM-based steel structure diagonal positioning device for the building as recited in claim 1, wherein the telescopic indication rod structure (7) comprises a connecting plate (71), a first fixed pipe (72), an adjusting bolt (73), a lifting rod (74) and a lifting seat (75), wherein the lower end of the first fixed pipe (72) is welded at the middle position of the upper end of the connecting plate (71); the adjusting bolt (73) is in threaded connection with the upper part of the right side of the first fixing pipe (72); the lower end of the lifting rod (74) is inserted in the middle of the upper inner part of the first fixed pipe (72); the upper end of the lifting rod (74) is connected with the middle position of the lower end of the lifting seat (75) through a bolt.

3. The BIM-based steel structure diagonal positioning device for buildings as claimed in claim 1, wherein the adsorbable telescopic cross bar structure (8) comprises a second fixed pipe (81), a telescopic cross bar (82), a U-shaped frame (83), an inverted U-shaped adsorption seat (84) and a sliding pipe (85), wherein the right side of the telescopic cross bar (82) is inserted in the middle position inside the left side of the second fixed pipe (81); the U-shaped frame (83) is respectively connected with the middle position of the upper end of the inverted U-shaped adsorption seat (84) through bolts; the U-shaped frame (83) is also connected to the middle position of the lower end of the sliding pipe (85) through a bolt; the left side of the telescopic cross rod (82) is coupled to the middle position inside the lower side of the U-shaped frame (83); the right side of the second fixed pipe (81) is coupled to the middle position of the upper inner part of the U-shaped frame (83).

4. The BIM-based steel structure diagonal positioning device for buildings as claimed in claim 1, wherein the U-shaped seat (9) is arranged at the left side of the upper end of the movable base (1); the through hole (5) is arranged between the universal movable brake wheels (2); the first adsorption plate (4) and the second adsorption plate (13) are respectively magnet plates.

5. The BIM-based steel structure diagonal positioning device for buildings according to claim 1, wherein the upper ends of the return springs (63) are respectively disposed in contact with the lower ends of the pressing plates (64); the marking plate (62) is a rectangular stainless steel plate with the thickness of one centimeter to three centimeters.

6. The BIM-based steel structure diagonal positioning device for buildings according to claim 1, wherein the pressing rods (61) respectively penetrate through the through holes (5); the lower end of the return spring (63) is in contact with the upper end of the movable base (1); the marking plate (62) is arranged in the middle of the lower end of the movable base (1).

7. The BIM-based steel structure diagonal positioning device for the building as claimed in claim 2, wherein the lifting seat (75) is a stainless steel plate with a groove in the middle; the adjusting bolt (73) is contacted with the lifting rod (74).

8. The BIM-based steel structure diagonal positioning device for buildings as claimed in claim 2, wherein the connecting plate (71) is bolted at the middle position of the upper end of the movable base (1) and is arranged at the middle position of the upper end of the movable base (1).

9. The BIM-based steel structure diagonal positioning device for buildings according to claim 3, wherein the inverted U-shaped adsorption seat (84) adopts an inverted U-shaped magnet seat; the second fixed pipe (81) is a stainless steel pipe.

10. The BIM-based steel structure diagonal positioning device for the building as claimed in claim 3, wherein the sliding pipe (85) is slidably sleeved on the outer wall of the second telescopic rod (11); the inverted U-shaped adsorption seat (84) is adsorbed and inserted at the right side of the upper end of the first telescopic rod (3) and is arranged at the right side of the movable base (1).

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