CN219616564U - Straightener for steel structure column beam - Google Patents

Abstract

The utility model discloses a straightener for a steel structure column beam, which comprises a frame and an upper die, wherein the bottom of the frame is in contact with the ground, the upper die is matched with an oil cylinder of the frame for use, and support columns are connected to two sides of the frame.

Description

Straightener for steel structure column beam

Technical Field

The utility model belongs to the technical field of steel structure production, and particularly relates to a straightener for a steel structure column beam.

Background

In steel construction production, because a lot of beam columns all are formed by welding assembly, form welding deformation easily, consequently need carry out the alignment, and traditional alignment method mainly carries out hot alignment, toasts with oxygen acetylene, and alignment effect is not good, causes the overheated overburning moreover easily, reduces the intensity of beam column itself.

Through retrieving, chinese patent discloses a be used for steel construction beam column straightness accuracy coalignment, its application publication No. CN202020431969.5, this patent includes the frame, its lower extreme is provided with the die holder, its upper end is provided with the hydro-cylinder along vertical direction, this provides a simple structure, conveniently carries out the device of coalignment to steel construction beam column, but this scheme adopts artifical transportation at transportation steel construction beam column, makes steel construction beam column take place the skew in the coalignment in-process easily, and clamping assembly adopts artifical rotation centre gripping moreover, extravagant production speed's problem.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides the straightener for the steel structure column beams, which has the advantages of convenience in transportation and clamping, and solves the problems that the steel structure column beams are easily deviated in the straightening process due to manual transportation, and the production speed is wasted due to manual rotation and clamping of the clamping assembly.

The straightener for the steel structure column beam comprises a frame and an upper die, wherein the bottom of the frame is in contact with the ground, the upper die is matched with an oil cylinder of the frame for use, two sides of the frame are connected with support columns, universal wheels are fixedly arranged at four corners of the bottom of each support column, fixing columns are fixedly connected at four corners of the top of each support column, supporting plates are fixedly connected at the tops of the four fixing columns, clamping assemblies are connected at the bottom of each supporting plate, and a conveying assembly is connected at the top of each supporting plate;

the clamping assembly comprises a first motor, wherein the front side and the rear side of the bottom of the supporting plate are fixedly connected with fixing plates, the first motor is fixedly arranged on the front side of the front side fixing plates, the output end of the first motor is fixedly connected with a bidirectional screw rod, the output end of the first motor penetrates through the outer side of the fixing plates and is fixedly connected with the bidirectional screw rod, the bidirectional screw thread on the surface of the bidirectional screw rod is sleeved with moving blocks, screw thread grooves matched with the bidirectional screw rod are formed in the moving blocks, the two moving blocks are in meshed connection with the bidirectional screw rod through the screw thread grooves, the top of each moving block is fixedly connected with a clamping plate, the top of each moving block penetrates through the inner side of the supporting plate and is fixedly connected with the clamping plate, balls are connected with the inner side of the clamping plate and roll in the clamping plate;

the transportation assembly comprises a second motor and a transportation belt, wherein the output end of the second motor is fixedly connected with a rotating block, the outer surface of the transportation belt and the outer surface of the rotating block are both provided with threads, two ends of the inside of the transportation belt are connected with rotating rods, two ends of each rotating rod are rotatably connected with bearing seats, and the bottoms of the bearing seats are fixedly connected with the surface of a supporting plate.

Preferably, the rotating block is engaged with the conveyor belt through threads.

In the present utility model, the number of balls is preferably a plurality, and the front ends of the balls penetrate to the outer side of the clamping plate.

As preferable mode of the utility model, the middle part and the left side of the bidirectional screw are connected with rotating shafts, and the middle part and the left side of the bidirectional screw are respectively connected with the supporting plate and the fixing plate through the rotating shafts.

As the preferable mode of the utility model, the two sides of the inner part of the supporting plate are connected with the sliding rods, the surfaces of the sliding rods and the sliding blocks are sleeved with the moving blocks, the sliding grooves matched with the sliding rods are formed in the moving blocks, and the moving blocks are sleeved with the surfaces of the sliding rods to slide.

Preferably, the transport assembly is located between opposite sides of the clamping plate.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, by arranging the clamping assembly, a user only needs to control the first motor to simultaneously move the two clamping plates in the same direction or in opposite directions, so that the time and effort for manual rotation are reduced, the production speed of the steel structure column beam is greatly improved, and by arranging the conveying assembly, the second motor can drive the conveying belt to rotate, and the steel structure column Liang Fang is arranged on the surface of the conveying belt, so that the steel structure column beam is moved, the rotation speed and distance of the conveying belt are more accurate than those of manual movement, the production quality of the steel structure column beam is greatly improved, and the problems that the steel structure column beam is manually conveyed, the steel structure column beam is easily deviated in the straightening process, the clamping assembly is manually rotated to clamp, and the production speed is wasted are solved.

2. According to the utility model, the rotating block and the conveying belt are arranged, so that the conveying belt is driven to rotate when the rotating block rotates, and the friction force on the steel structure column beam can be increased by the threads on the surface of the conveying belt.

3. According to the utility model, the balls are arranged, so that the conveying belt is not influenced to drive and move when the clamping assembly clamps the steel structure column beam, and the clamping assembly and the conveying assembly can operate simultaneously.

4. According to the utility model, the rotating shaft is arranged, so that the stability of the bidirectional screw rod during rotation is increased, and the bidirectional screw rod can be rotated more stably.

5. According to the utility model, the sliding rod and the sliding groove are arranged, so that the sliding rod provides a movement track of the moving block, and the top end of the moving block is prevented from being inclined without being supported.

6. According to the utility model, the clamping assembly and the conveying assembly are arranged, a user places the steel structure column beam at the top of the conveying belt when placing the steel structure column beam, and then starts the first motor of the clamping assembly, so that the first motor drives the two clamping plates to limit the steel structure column beam.

Drawings

FIG. 1 is a schematic diagram of a structure provided by an embodiment of the present utility model;

FIG. 2 is a perspective view of a structure provided by an embodiment of the present utility model;

fig. 3 is a cross-sectional view of a support plate provided by an embodiment of the present utility model.

In the figure: 1. a frame; 2. an upper die; 3. a support column; 4. a universal wheel; 5. fixing the column; 6. a support plate; 7. a clamping assembly; 71. a first motor; 72. a bidirectional screw; 73. a moving block; 74. a thread groove; 75. a clamping plate; 76. a fixing plate; 77. a ball; 8. a transport assembly; 81. a second motor; 82. a rotating block; 83. a conveyor belt; 84. a thread; 85. a rotating rod; 9. a slide bar; 10. a chute; 11. a rotating shaft.

Detailed Description

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

The structure of the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 3, the straightener for steel structure column beams provided by the embodiment of the utility model comprises a frame 1 and an upper die 2, wherein the bottom of the frame 1 is in contact with the ground, the upper die 2 is matched with an oil cylinder of the frame 1 for use, two sides of the frame 1 are connected with support columns 3, universal wheels 4 are fixedly arranged at four corners of the bottom of the support columns 3, fixed columns 5 are fixedly connected at four corners of the top of the support columns 3, support plates 6 are fixedly connected at the tops of the four fixed columns 5, clamping assemblies 7 are connected at the bottom of the support plates 6, and transport assemblies 8 are connected at the tops of the support plates 6;

the clamping assembly 7 comprises a first motor 71, wherein the front side and the rear side of the bottom of the supporting plate 6 are fixedly connected with a fixing plate 76, the first motor 71 is fixedly arranged at the front side of the front side fixing plate 76, the output end of the first motor 71 is fixedly connected with a bidirectional screw 72, the output end of the first motor 71 penetrates through the outer side of the fixing plate 76 and is fixedly connected with the bidirectional screw 72, a moving block 73 is sleeved with bidirectional threads 84 on the surface of the bidirectional screw 72, a thread groove 74 matched with the bidirectional screw 72 is formed in the moving block 73, the two moving blocks 73 are in meshed connection with the bidirectional screw 72 through the thread groove 74, the top of the moving block 73 is fixedly connected with a clamping plate 75, the top of the moving block 73 penetrates through the inner side of the supporting plate 6 and is fixedly connected with the clamping plate 75, balls 77 are connected with the inner side of the clamping plate 75, and the balls 77 are positioned in the inner side of the clamping plate 75 to roll;

the transportation assembly 8 comprises a second motor 81 and a transportation belt 83, the output end of the second motor 81 is fixedly connected with a rotating block 82, threads 84 are formed on the outer surface of the transportation belt 83 and the outer surface of the rotating block 82, two ends of the inside of the transportation belt 83 are connected with rotating rods 85, two ends of the rotating rods 85 are rotatably connected with bearing seats 86, and the bottoms of the bearing seats 86 are fixedly connected with the surface of the supporting plate 6.

Referring to fig. 3, the rotary block 82 is engaged with the conveyor belt 83 by threads 84.

The scheme is adopted: through setting up turning block 82 and conveyer belt 83, can drive conveyer belt 83 rotation when making turning block 82 rotate, screw thread 84 on conveyer belt 83 surface can increase the frictional force to the steel construction post roof beam moreover.

Referring to fig. 2 and 3, the number of balls 77 is several, and the front ends of balls 77 penetrate to the outside of clamping plate 75.

The scheme is adopted: through setting up ball 77, can not influence conveyer belt 83 drive when clamping assembly 7 is to steel construction post roof beam centre gripping and remove, can make clamping assembly 7 and transport assembly 8 simultaneous operation.

Referring to fig. 3, the middle and left sides of the bi-directional screw 72 are connected with a rotation shaft 11, and the middle and left sides of the bi-directional screw 72 are respectively connected with the support plate 6 and the fixing plate 76 through the rotation shaft 11.

The scheme is adopted: by providing the rotation shaft 11, the stability of the bi-directional screw 72 in rotation is increased, and the bi-directional screw 72 can be rotated more stably.

Referring to fig. 3, two sides of the inside of the support plate 6 are connected with slide bars 9, a moving block 73 is sleeved on the surface of the slide bars 9, a sliding groove 10 matched with the slide bars 9 is formed in the moving block 73, and the moving block 73 is sleeved on the surface of the slide bars 9 to slide.

The scheme is adopted: by providing the slide bar 9 and the slide groove 10, the slide bar 9 provides a movement track of the moving block 73, preventing the top end of the moving block 73 from being inclined without support.

Referring to fig. 1, 2 and 3, the transport assembly 8 is located between opposite sides of the clamping plate 75.

The scheme is adopted: through setting up clamping component 7 and transportation subassembly 8, the user is put at the top of conveyer belt 83 when placing steel construction post roof beam, then starts clamping component 7's first motor 71, makes first motor 71 drive two grip blocks 75 spacing to steel construction post roof beam.

The working principle of the utility model is as follows:

when in use, firstly, a user firstly puts the steel structure column Liang Fang on the surface of the conveying belt 83, then the user starts the first motor 71, the output end of the first motor 71 drives the bidirectional screw rod 72 to rotate, the moving blocks 73 are meshed with the bidirectional screw rod 72 through threads 84, the rotation of the bidirectional screw rod 72 drives the two moving blocks 73 to move in the same direction, the moving blocks 73 move to drive the clamping plate 75 to move, along with the movement of the clamping plate 75 and the distance between the steel structure column beams being closer and closer, when the positions of the steel structure column beams are deviated, the clamping plate 75 can prop against the steel structure column beams to move to the middle of the conveying belt 83, the centers of the steel structure column beams are consistent with the conveying belt 83, when balls 77 on two sides are contacted with the surfaces of the steel structure column beams, the user starts the second motor 81, the output end of the second motor 81 drives the rotating blocks 82 to rotate, the rotating blocks 82 are meshed with the conveying belt 83 through threads 84, the rotating of the rotating blocks 82 drive the conveying belt 83 to rotate, the rotating of the conveying belt 83 drives the steel structure column beams to move to the middle of the steel structure column beams, and then the two opposite rotating shafts 7 are driven by the rotating shafts 72, and the two opposite rotating shafts are always to rotate, so that the two opposite rotating shafts are separated from the two opposite rotating shafts, and the two opposite rotating shafts are kept opposite to each other, and the steel structure column beams are kept opposite to be opposite, and the two opposite to each other, and the two rotating shafts are opposite to each other, and the steel structure is always to be opposite to the steel structure, and the steel structure.

To sum up: this straightener for steel construction post roof beam uses through the cooperation along with frame 1, go up mould 2, support column 3, universal wheel 4, fixed column 5, backup pad 6, clamping component 7, transportation subassembly 8, slide bar 9, spout 10 and pivot 11, has solved transportation steel construction post roof beam and has adopted artifical transportation, makes steel construction post roof beam take place the skew at the alignment in-process easily, and clamping component adopts artifical rotation centre gripping moreover, extravagant production speed's problem.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a straightener for steel construction post roof beam, includes frame (1) and last mould (2), its characterized in that: the bottom of the frame (1) is in contact with the ground, the upper die (2) is matched with an oil cylinder of the frame (1), support columns (3) are connected to two sides of the frame (1), universal wheels (4) are fixedly installed at four corners of the bottom of each support column (3), fixing columns (5) are fixedly connected to four corners of the top of each support column (3), supporting plates (6) are fixedly connected to the tops of the four fixing columns (5), clamping assemblies (7) are connected to the bottom of each supporting plate (6), and transport assemblies (8) are connected to the tops of the supporting plates (6);

the clamping assembly (7) comprises a first motor (71), wherein the front side and the rear side of the bottom of the supporting plate (6) are fixedly connected with a fixed plate (76), the first motor (71) is fixedly arranged on the front side of the front side fixed plate (76), the output end of the first motor (71) is fixedly connected with a bidirectional screw (72), the output end of the first motor (71) penetrates through the outer side of the fixed plate (76) and is fixedly connected with the bidirectional screw (72), a moving block (73) is sleeved on a bidirectional thread (84) on the surface of the bidirectional screw (72), a thread groove (74) matched with the bidirectional screw (72) is formed in the moving block (73), the two moving blocks (73) are meshed with the bidirectional screw (72) through the thread groove (74), the top of the moving block (73) is fixedly connected with a clamping plate (75), the top of the moving block (73) penetrates through the inside of the supporting plate (6) and is fixedly connected with the clamping plate (75), the inside of the clamping plate (75) is connected with balls (77), and the balls (77) are located inside the clamping plate (77);

the transportation assembly (8) comprises a second motor (81) and a transportation belt (83), the output end of the second motor (81) is fixedly connected with a rotating block (82), threads (84) are formed on the outer surface of the transportation belt (83) and the outer surface of the rotating block (82), rotating rods (85) are connected to the two ends of the inside of the transportation belt (83), bearing seats (86) are rotatably connected to the two ends of the rotating rods (85), and the bottoms of the bearing seats (86) are fixedly connected with the surface of the supporting plate (6).

2. A straightener for steel structure columns and beams as claimed in claim 1, wherein: the rotating block (82) is connected with the conveying belt (83) in a meshed manner through threads (84).

3. A straightener for steel structure columns and beams as claimed in claim 1, wherein: the number of the balls (77) is a plurality, and the front ends of the balls (77) penetrate to the outer side of the clamping plate (75).

4. A straightener for steel structure columns and beams as claimed in claim 1, wherein: the middle part and the left side of the bidirectional screw rod (72) are connected with rotating shafts (11), and the middle part and the left side of the bidirectional screw rod (72) are respectively connected with a supporting plate (6) and a fixing plate (76) through the rotating shafts (11).

5. A straightener for steel structure columns and beams as claimed in claim 1, wherein: the sliding device is characterized in that sliding rods (9) are connected to two sides of the inside of the supporting plate (6), the surfaces of the sliding rods (9) are sleeved with the moving blocks (73), sliding grooves (10) matched with the sliding rods (9) are formed in the moving blocks (73), and the moving blocks (73) are sleeved with the surfaces of the sliding rods (9) to slide.

6. A straightener for steel structure columns and beams as claimed in claim 1, wherein: the transport assembly (8) is located between opposite sides of the clamping plate (75).