CN220351473U - Reinforced hanging beam for industrial factory building - Google Patents

Abstract

The utility model discloses a reinforced hanging beam for an industrial factory building, which comprises a cross beam, wherein the top of the cross beam is fixedly provided with lifting lugs, the cross beam is in sliding connection with two sliding blocks, the sliding blocks are in threaded connection with two bidirectional screws which enable the two sliding blocks to move oppositely or oppositely at the same time, and the lower surfaces of the sliding blocks are connected with an electric hoist; the two ends of the bidirectional screw rod, which are close to the two ends, are rotationally connected with the first fixing seat, the middle part of the bidirectional screw rod is rotationally connected with the two second fixing seats, and the first fixing seat and the second fixing seat are fixedly connected with the cross beam; one end fixed connection motor of bi-directional screw, the other end fixed connection locating part owing to set up bi-directional screw, two the slider run through threaded connection respectively in the screw thread section of bi-directional screw, the rotation of bi-directional screw can carry out relative direction or opposite direction with two sliders simultaneously and adjust for two sliders balanced equidistance all the time set up in the both sides of bi-directional screw, can keep balance when hoist and mount object, prevent hoist and mount object off normal and drop.

Description

Reinforced hanging beam for industrial factory building

Technical Field

The utility model relates to the technical field of hanging beams, in particular to a reinforced hanging beam for an industrial factory building.

Background

In the project construction of industrial factory building, the lifting beam is convenient and quick to use for lifting steel members, and the traditional lifting beam is a fixed lifting hook, so that the steel members with different sizes are not beneficial to being reasonably fixed and lifted.

Chinese patent with publication No. CN218560844U discloses an industrial factory building reinforcement type hanging beam, which comprises a beam, the both ends of crossbeam all overlap and are equipped with the hangers, the hangers slides along the length direction of crossbeam and is connected with the crossbeam, be fixed with the couple on the hangers, the top surface both sides of crossbeam are seted up flutedly respectively, the interior bottom surface of recess is fixed with a plurality of stopper, the interval has the distance between two adjacent stoppers, the mounting groove has been seted up to the interior top surface of hangers, install the fixture block along vertical sliding in the mounting groove, the fixture block can be inserted and locate between two adjacent stoppers, the through-hole has been seted up to the interior top surface of mounting groove, the through-hole interpolation is equipped with the carriage release lever, the bottom of carriage release lever is connected with the fixture block. Although the problem of distance adjustment between two hooks can be solved, two boxes need to be operated simultaneously when adjusting, if the distance between two boxes after adjusting is inconsistent with the distance between the main lifting lugs, the balance degree of the suspended object can be influenced, and serious cases can lead to the unhooking and falling of the suspended object after one side is overweight.

Disclosure of Invention

In view of the problems existing in the prior art, the utility model aims to provide the reinforced hanging beam for the industrial factory building, which can bear larger load during hanging and is safer and more stable during hanging objects.

The technical scheme of the utility model is as follows:

the reinforced hanging beam for the industrial factory building comprises a cross beam, wherein the top of the cross beam is fixedly provided with lifting lugs, the cross beam is in sliding connection with two sliding blocks, the sliding blocks are in threaded connection with two bidirectional screws which enable the two sliding blocks to move oppositely or oppositely at the same time, and the lower surfaces of the sliding blocks are connected with an electric hoist; the two ends of the bidirectional screw rod, which are close to the two ends, are rotationally connected with a first fixing seat, the middle part of the bidirectional screw rod is rotationally connected with two second fixing seats, and the first fixing seat and the second fixing seat are fixedly connected with the cross beam; one end of the bidirectional screw is fixedly connected with the motor, and the other end of the bidirectional screw is fixedly connected with the limiting piece.

Further, a threaded through hole is formed in the center of the sliding block, and the top of the sliding block is fixedly connected with two L-shaped sliding plates; the through hole is arranged in a manner of being matched with the bidirectional screw rod, and the bidirectional screw rod is connected with the sliding block through a penetrating through hole in a threaded manner.

Further, the bottom fixed connection slide rail of crossbeam, the distance of two sliding plates with slide rail looks adaptation sets up, the slider passes through sliding plate sliding connection in the slide rail, first fixing base with the equal fixed connection of second fixing base in the lower surface of crossbeam.

Further, the crossbeam is the I-steel, two distance between the sliding plate with crossbeam looks adaptation sets up, the top of slider pass through the sliding plate sliding connection in on the bottom pterygoid lamina of crossbeam, first fixing base with the equal fixed connection of second fixing base in the lower surface of crossbeam.

Further, two L-shaped sliding plates are oppositely arranged at the top of the sliding block.

Further, the cross beam is a rectangular pipe, and the sliding block is arranged in the rectangular pipe; the bottom of the cross beam is provided with a rectangular opening, and the top of the cross beam is provided with four through grooves.

Further, two sliding plates are arranged at the top of the sliding block in a back-to-back mode, the sliding plates are arranged in a mode of being matched with the through grooves, the sliding plates penetrate upwards and extend out of the through grooves, and the top and the side walls of the sliding block are connected with the cross beam in a sliding mode.

Further, sliding parts are respectively arranged on two sides of the sliding block, and the sliding block is in sliding connection with the inner wall of the cross beam through the sliding parts.

Further, a reinforcing plate is fixedly connected between the two wing plates of the cross beam.

When the electric hoist is used, the motor is started, the distance between the sliding blocks is adjusted according to the length of a hoisted object, the motor is selected to forward or reverse, the output end of the motor drives the bidirectional screw rod to rotate, the two sliding blocks move relatively or oppositely along with the rotation of threads, the motor is closed after the optimal hoisting distance of the hoisted object is reached, the hoisted object is hung on the hooks on the two electric hoists, then the hooks are hung on the hooks on the upper parts to hoist upwards, and the electric hoist is started to adjust the hoisting height upwards or downwards when the hooks on the upper parts are inconvenient to adjust.

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

1) By adopting the technical scheme, as the two-way screw rod is arranged, the two sliding blocks respectively penetrate through the thread sections of the two-way screw rod, and the two sliding blocks can be simultaneously adjusted in opposite directions or opposite directions by the rotation of the two-way screw rod, so that the two sliding blocks are uniformly and equidistantly arranged on the two sides of the two-way screw rod all the time, the balance can be maintained when an object is hoisted, and the hoisted object is prevented from falling off the position;

2) Because the one end fixed connection of two-way screw rod to the output of motor, the other end fixed connection the locating part, the top of slider passes through slide rail sliding connection in the crossbeam simultaneously, to the regulation convenient and fast more of slider, the removal of slider is more stable.

3) The sliding block is connected to the bottom of the cross beam in a sliding way, so that the structure is simpler to set, and meanwhile, the stress intensity of the sliding block is enhanced; the top lateral wall of slider is connected with the crossbeam with the both sides that are close to the bottom, and crossbeam atress is even, can bear great load when hoist and mount, safer, stability when handling article.

Drawings

FIG. 1 is a schematic diagram of an overall structure of an embodiment;

FIG. 2 is a schematic view of a sliding rail according to an embodiment;

FIG. 3 is a schematic diagram of a slider structure according to an embodiment;

FIG. 4 is a schematic diagram of the overall structure of the second embodiment;

FIG. 5 is a schematic diagram showing the overall structure of a third embodiment;

FIG. 6 is a schematic diagram of a third embodiment;

fig. 7 is a schematic diagram of a three-slider structure according to an embodiment.

In the figure: 1. a cross beam; 2. lifting lugs; 3. a slide rail; 4. a slide block; 5. an electric hoist; 6. a sliding plate; 7. a through hole; 8. a bidirectional screw; 9. a first fixing seat; 10. the second fixing seat; 11. a motor; 12. a limiting piece; 13. a housing; 14. a reinforcing plate; 15. a rectangular opening; 16. a through groove; 17. a groove; 18. a sliding member.

Detailed Description

The utility model will be further described with reference to the accompanying drawings, but the scope of the utility model is not limited to the described scope.

Example 1

The utility model provides an industry factory building reinforcement formula hanging beam, as shown in fig. 1, including crossbeam 1, crossbeam 1 selects the manufacturing of I-steel processing, and lug 2 is welded at the top center of crossbeam 1, and the lower fixed surface of crossbeam 1 connects slide rail 3, and reference is made to fig. 2, and two sliders 4 that mirror image set up of sliding connection on the slide rail 3, reference is made to fig. 3, and the fixed surface connection electric hoist 5 of lower of slider 4 is through adjusting the hoist object of distance in order to adapt to different length between two sliders 4. The sliding block 4 is of a hollow structure, the top of the sliding block 4 is fixedly connected with two L-shaped sliding plates 6, the two L-shaped sliding plates 6 are arranged in opposite directions, the two sliding plates 6 are arranged in a matched mode with the sliding rail 3, and the two sliding plates 6 arranged in an inverted mode can be clamped and connected to the sliding rail 3 in a sliding mode; the center of the sliding block 4 is provided with a through hole 7 which is penetrated left and right, and the side wall of the through hole 7 is in a thread shape; the two sliding blocks 4 are in threaded connection with the bidirectional screw rod 8 and are respectively arranged on two symmetrical thread sections, and clockwise or anticlockwise rotation of the bidirectional screw can drive the two sliding blocks 4 to move oppositely or oppositely.

Specifically, the length of the bidirectional screw rod 8 is matched with that of the I-steel, the positions, close to two ends, of the bidirectional screw rod 8 are respectively connected with the first fixing seats 9 in a rotating mode, and the top walls of the two first fixing seats 9 are welded to the lower surface of the cross beam 1. The lower surface of the cross beam 1 is also welded with two second fixing seats 10, the bidirectional screw rods 8 penetrate through and are rotationally connected with the two second fixing seats 10, and the second fixing seats 10 are used for limiting the moving position of the sliding block 4 to the middle part and preventing the sliding block 4 from falling out of the threaded section. One end of the bidirectional screw rod 8 is fixedly connected with a motor 11, the motor 11 rotates the motor 11 in the forward and reverse directions, the motor 11 is started, the output end of the motor 11 drives the bidirectional screw rod 8 to rotate clockwise or anticlockwise, and the two sliding blocks 4 are driven to move oppositely or relatively under the action force of threads. The other end of the bidirectional screw rod 8 is fixedly connected with a limiting piece 12, and the limiting piece 12 is arranged outside the first fixing seat 9 and used for limiting the position of the double screw rod and preventing the double screw rod from falling out or deviating. The lower surface of one end of the beam 1 is fixedly connected with a shell 13, the shell 13 is provided with an opening towards one side of the sliding block 4, and the motor 11 is arranged inside the shell 13 to prevent dust from corroding the shell of the motor 11. In order to enhance the bending resistance of the beam 1, a plurality of reinforcing plates 14 are welded on two sides of the I-steel, and the reinforcing plates 14 are connected with the wing plates and the web plates of the I-steel.

The working principle of the industrial factory building reinforcement type hanging beam in the embodiment is as follows: starting a motor 11, selecting forward or reverse rotation of the motor 11 according to the distance between the length adjustment quantity sliding blocks 4 of the hoisted object, driving the bidirectional screw rod 8 to rotate by the output end of the motor 11, enabling the two sliding blocks 4 to move relatively or oppositely along with rotation of threads at the same time, closing the motor 11 after reaching the optimal hoisting distance of the hoisted object, hanging the hoisted object on hooks on the two electric hoists 5, hanging a lifting hook on the lifting lug 2 to hoist upwards, and starting the electric hoists 5 to adjust the hoisting height upwards or downwards when the hooks on the upper part are inconvenient to adjust.

In the reinforced hanging beam of the industrial factory building of the embodiment, due to the arrangement of the bidirectional screw rod 8, the two sliding blocks 4 respectively penetrate through the threaded section of the bidirectional screw rod 8, and the two sliding blocks 4 can be simultaneously adjusted in opposite directions or opposite directions by rotation of the bidirectional screw rod 8, so that the two sliding blocks 4 are uniformly and equidistantly arranged on two sides of the bidirectional screw rod 8 all the time, balance can be maintained when an object is hoisted, and the object to be hoisted is prevented from falling off position. Because the one end fixed connection of bi-directional screw 8 is to the output of motor 11, the other end fixed connection locating part 12, the top of slider 4 passes through slide rail 3 sliding connection in crossbeam 1 simultaneously, and is convenient and fast more to the regulation of slider 4, and the removal of slider 4 is more stable.

Example 2

As shown in fig. 4, the difference with the first embodiment is that the top of the slider 4 is slidably connected to the wing plate at the bottom of the i-steel beam 1, the bottom of the beam 1 is omitted from the slide rail 3, and the bottom wing plate of the beam 1 also serves as a sliding rail of the slider 4; the sliding plates 6 are fixedly connected to two ends of the upper portion of the sliding block 4, and the distance between the sliding plates 6 is matched with the wing plates, so that the sliding plates 6 are clamped and connected to the wing plates in a sliding mode. After the motor 11 is started, the output end of the motor 11 drives the bidirectional screw rod 8 to rotate, a thread section on the bidirectional screw rod 8 drives the two sliding blocks 4 to move oppositely or relatively, the tops of the sliding blocks 4 radially move on a horizontal linear track of a wing plate of the cross beam 1, and therefore the distance between the two sliding blocks 4 can be adjusted to adapt to the length of a hoisted object. The wing plates at the bottom of the cross beam 1 are also used as sliding rails of the sliding blocks 4, so that the structure is simpler, and meanwhile, the stress intensity of the sliding blocks 4 is enhanced.

Example 3

Referring to fig. 5 and 6, and simultaneously referring to fig. 7, the difference with the specific embodiment is that the cross beam 1 is manufactured by rectangular tube, a rectangular opening 15 is provided at the bottom of the cross beam 1, four rectangular through slots 16 are provided at the top, two-way screws 8 and sliders 4 are all provided inside the cross beam 1, and the bottom wall of the first fixing seat 9 is fixedly connected to the bottom wall of the inner side wall of the cross beam 1; the second fixing base 10 is arranged upside down, and the bottom wall of the second fixing base is fixedly connected to the top wall of the inner side wall of the cross beam 1. The two sides of the sliding block 4, which are close to the bottom, are provided with grooves 17 and are connected with the rectangular opening 15 at the bottom of the cross beam 1 in a sliding manner through the grooves 17, the side walls of the sliding block 4 and the inner side walls of the cross beam 1 are connected in a sliding manner through sliding members 18, the distance between the sliding plates 6 is matched with the through grooves 16, the sliding plates 6 upwards penetrate through the through grooves 16 to slide and limit the sliding plates to the top wall of the cross beam 1, the two sliding plates 6 are particularly stated to be arranged on the top of the sliding block 4 in a back-to-back manner, and the motor 11 is arranged at one end in the cross beam 1. When hoisting objects, the hoisting objects are fixed to the hooks of the electric hoist 5, the motor 11 is started, the sliding blocks 4 radially slide on the cross beam 1, the two sliding blocks 4 simultaneously move in opposite directions or relatively, when the objects are hoisted upwards, the cross beam 1 is stressed uniformly because the side walls of the top of the sliding blocks 4 are connected with the cross beam 1 on two sides close to the bottom, and the hoisting objects can bear larger load during hoisting, so that the hoisting objects are safer and more stable.

Claims (9)

1. The utility model provides an industry factory building reinforcement type hanging beam, includes crossbeam (1), the fixed lug (2) that is equipped with in top of crossbeam (1), its characterized in that: the cross beam (1) is connected with two sliding blocks (4) in a sliding manner, wherein the sliding blocks (4) are connected with two bidirectional screws (8) which enable the two sliding blocks to move oppositely or oppositely at the same time through threads, and the lower surface of each sliding block (4) is connected with an electric hoist (5);

the two-way screw (8) is rotationally connected with the first fixing seat (9) at the positions close to two ends, the middle part of the two-way screw (8) is rotationally connected with the two second fixing seats (10), and the first fixing seat (9) and the second fixing seats (10) are fixedly connected with the cross beam (1);

one end of the bidirectional screw rod (8) is fixedly connected with the motor (11), and the other end is fixedly connected with the limiting piece (12).

2. The industrial plant reinforcing hanging beam as claimed in claim 1, wherein: the center of the sliding block (4) is provided with a threaded through hole (7), and the top of the sliding block (4) is fixedly connected with two L-shaped sliding plates (6); the through hole (7) and the bidirectional screw rod (8) are arranged in a matching mode, and the bidirectional screw rod (8) is connected with the sliding block (4) through the through hole (7) in a threaded mode.

3. The industrial plant reinforcing hanging beam as claimed in claim 2, wherein: the bottom fixed connection slide rail (3) of crossbeam (1), the distance of two sliding plates (6) with slide rail (3) looks adaptation sets up, slider (4) are through sliding plate (6) sliding connection in slide rail (3), first fixing base (9) with second fixing base (10) all fixed connection in the lower surface of crossbeam (1).

4. The industrial plant reinforcing hanging beam as claimed in claim 2, wherein: the cross beam (1) is I-steel, the distance between two sliding plates (6) and the cross beam (1) are arranged in a matching mode, the top of the sliding block (4) is connected to the bottom wing plate of the cross beam (1) in a sliding mode through the sliding plates (6), and the first fixing base (9) and the second fixing base (10) are fixedly connected to the lower surface of the cross beam (1).

5. A reinforced lifting beam for industrial plants as claimed in claim 3 or 4, wherein: the two L-shaped sliding plates (6) are oppositely arranged at the top of the sliding block (4).

6. The industrial plant reinforcing hanging beam as claimed in claim 2, wherein: the cross beam (1) is a rectangular pipe, and the sliding block (4) is arranged in the rectangular pipe; the bottom of the cross beam (1) is provided with a rectangular opening (15), and the top of the cross beam (1) is provided with four through grooves (16).

7. The industrial plant reinforcing hanging beam as claimed in claim 6, wherein: two sliding plates (6) are arranged at the top of the sliding block (4) in a back-to-back mode, the sliding plates (6) are arranged in a matched mode with the through grooves (16), the sliding plates (6) penetrate upwards and extend out of the through grooves (16), and the top and the side walls of the sliding block (4) are connected with the cross beam (1) in a sliding mode.

8. The industrial plant reinforcing hanging beam as claimed in claim 7, wherein: the sliding parts (18) are respectively arranged at two sides of the sliding block (4), and the sliding block (4) is in sliding connection with the inner wall of the cross beam (1) through the sliding parts (18) thereof.

9. A reinforced lifting beam for industrial plants as claimed in claim 3 or 4, wherein: a reinforcing plate (14) is fixedly connected between two wing plates of the cross beam (1).