CN222388555U - Electromechanical module transportation promotes bed-jig - Google Patents

Abstract

The utility model belongs to the technical field of electromechanical assembly type module transportation, and particularly relates to an electromechanical module transportation lifting jig frame which comprises a frame, two longitudinal beams and a plurality of cross arms, wherein the two longitudinal beams are parallel, the cross arms are connected with the two longitudinal beams at the bottom surfaces of the longitudinal beams, the cross arms are connected with the frame, the longitudinal beams are H-shaped steel, clamping seats are arranged on the longitudinal beams, the clamping seats comprise a bottom plate, a plug connector, two connecting bolts and two clamping pieces, the bottom plate is arranged on the top surface and two sides of the longitudinal beams and extends out of the longitudinal beams, the connecting bolts are connected between a second supporting part of the clamping pieces and the bottom plate, a first supporting part of the clamping pieces supports the bottom plate, the second supporting part presses an upper flange plate of the longitudinal beams, a fixing bracket is connected between the two longitudinal beams and comprises a cross rod and a stand column, the cross rod is connected with the stand column in a crossing manner, the stand column is inserted on the plug connector of the clamping seat, and the lifting jig frame is detachable and adjustable, and convenient to transport, and the disassembling and assembling modes are simple, and the construction efficiency and the material utilization rate are improved.

Description

Electromechanical module transportation promotes bed-jig

Technical Field

The utility model belongs to the technical field of electromechanical assembly type module transportation, and particularly relates to an electromechanical module transportation lifting jig frame.

Background

Along with the continuous updating and advancing of the technology, the defects and shortcomings of the traditional electromechanical installation mode are more obvious, such as long construction period, waste of manpower, material resources and financial resources caused by later adjustment and change of pipelines, and the like. The new construction mode is researched to reduce and avoid the problems, so that the construction mode of electromechanical assembly type installation gradually starts research and popularization, and the method has the advantages that pipeline arrangement, module segmentation and component segmentation are performed by three-dimensional modeling in advance, the pre-manufactured processing components of a factory reduce the earlier-stage preparation work, the deviation of manual construction is reduced, the pre-manufactured components are transported to the site to be assembled into modules, the modules are assembled, the construction efficiency is greatly improved, and the later-stage pipeline changing and adjusting are avoided.

The problem at present is that each module body is large in quantity and heavy, and a specific construction area does not necessarily have space and conditions for module assembly, so that single modules are required to be assembled in a proper space and area and then transported to a specific installation position, and a transportation device is required to be designed, and meanwhile, in order to increase the material utilization rate and simplify the construction mode, the transportation device is required to be designed into a detachable and adjustable structure.

Disclosure of utility model

The utility model aims to solve the problem of high transportation difficulty of electromechanical assembly type modules in a construction site.

The utility model provides a mechanical and electrical module transportation lifting jig frame which comprises a frame, two longitudinal beams and a plurality of cross arms, wherein the two longitudinal beams are parallel, and the bottom surfaces of the longitudinal beams are connected with the two longitudinal beams;

The longitudinal beam is H-shaped steel, the longitudinal beam is provided with a clamping seat, the clamping seat comprises a bottom plate, a plug connector, two connecting bolts and two clamping pieces, the plug connector is vertically fixed on the top surface of the bottom plate, the bottom plate is placed on the top surface of the longitudinal beam, two sides of the bottom plate extend out of the longitudinal beam, the clamping pieces comprise a first supporting part and a second supporting part which are fixedly connected at an obtuse angle, the connecting bolts are connected between the second supporting part of the clamping pieces and the bottom plate, and the first supporting part of the clamping pieces props against the bottom plate, and the second supporting part presses against an upper flange plate of the longitudinal beam;

A fixed support is connected between the two longitudinal beams and comprises a cross rod and an upright post, the cross rod spans the two longitudinal beams and is connected with the upright post, and the upright post is spliced on the splicing head of the clamping seat.

Further, the cross arm and the frame are all H-shaped steel, and the cross arm and the longitudinal beam and the frame are all connected through a detachable clamp;

The H-shaped steel comprises a first H-shaped steel and a second H-shaped steel, the first H-shaped steel and the second H-shaped steel are crossed up and down, the first H-shaped steel is a longitudinal beam, the second H-shaped steel is a cross arm or a member of the frame, and the second H-shaped steel is a cross arm;

The detachable clamp comprises two transverse clamping plates, two longitudinal clamping plates and four locking bolts, wherein the two transverse clamping plates are positioned on lower flange plates on two sides of the first H-shaped steel, the two longitudinal clamping plates are positioned on upper flange plates on two sides of the second H-shaped steel, the four locking bolts are distributed in the overhanging areas of the transverse clamping plates and the longitudinal clamping plates to combine the two transverse clamping plates and the two longitudinal clamping plates together, and the two transverse clamping plates and the two longitudinal clamping plates clamp and fix the first H-shaped steel and the second H-shaped steel.

Further, the plug connector of the clamping seat is a square tube, connecting holes are formed in four sides of the plug connector, the connecting holes on two opposite sides of the plug connector are aligned, the upright post of the fixing support is sleeved outside the plug connector, the connecting holes on the upright post are aligned with the connecting holes on the plug connector, and the upright post and the plug connector are locked and fixed through bolts.

Further, the cross rod is connected with the upright post through the elbow clamping piece, the elbow clamping piece is provided with a vertical groove and a transverse groove which are perpendicular to each other, the elbow clamping piece is clamped on the upright post through the vertical groove, the elbow clamping piece is fixed with the upright post through a bolt, the cross rod is inserted between the transverse grooves of the two elbow clamping pieces on the upright post, and the cross rod is fixed with the two elbow clamping pieces through the bolt.

Further, the screw rod is fixed at the top of the wheel, the screw rod penetrates through the supporting plate of the frame, a group of nuts are respectively connected to the top surface and the bottom surface of the supporting plate on the screw rod, the nuts on the top surface and the bottom surface clamp the supporting plate to fix the screw rod, and the distance from the wheel to the frame can be adjusted by changing the positions of the nuts on the screw rod.

Further, the frame is a rectangular frame, and the longitudinal beams, the cross arms and the fixed brackets are symmetrically arranged with respect to a center line in the width direction of the frame.

Further, the wheel is a universal wheel.

Compared with the prior art, the utility model has the advantages that:

the electromechanical module transportation lifting jig frame provided by the utility model is of a detachable structure as a whole, can be detached into a frame, a longitudinal beam, a cross arm and a fixed support, wherein the fixed support is connected with the longitudinal beam through the clamping seat, and the clamping seat can freely move on the longitudinal beam and can be fixed at any position, so that the distance between the fixed supports can be adjusted according to the installation requirement of an electromechanical module. The lifting jig frame is detachable and adjustable, convenient to transport, simple in detachment and assembly modes, capable of increasing the adaptation working conditions and improving the construction efficiency and the material utilization rate.

Drawings

FIG. 1 is a perspective view of an electromechanical module transport lift truck;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is a front view of FIG. 1;

FIG. 4 is a left side view of FIG. 1;

FIG. 5 is an enlarged view at B in FIG. 4;

FIG. 6 is an enlarged view at C in FIG. 4;

FIG. 7 is an exploded view of the cartridge;

Fig. 8 is a schematic view of a removable clamp.

The device comprises a 1-frame, a 2-longitudinal beam, a 3-cross arm, a 4-wheel, a 5-clamping seat, a 5.1-bottom plate, a 5.2-plug, a 5.3-connecting bolt, a 5.4-clamping piece, a 5.4.1-first supporting part, a 5.4.2-second supporting part, a 6-cross rod, a 7-upright post, an 8-detachable clamp, an 8.1-transverse clamping plate, an 8.2-longitudinal clamping plate, an 8.3-locking bolt, a 9-elbow clamping piece, a 10-screw rod, an 11-supporting plate and a 12-nut.

Detailed Description

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

As shown in fig. 1, 3, 4, 6 and 7, the electromechanical module transportation lifting jig comprises a frame 1, two longitudinal beams 2 and a plurality of cross arms 3, wherein the two longitudinal beams 2 are parallel, the bottom surfaces of the longitudinal beams 2 are connected with the cross arms 3, the cross arms 3 serve as supporting and reinforcing structures of the longitudinal beams 2, the cross arms 3 are connected with the frame 1, and wheels 4 are arranged on the frame 1. The wheels 4 are universal wheels, the frame 1 is a rectangular frame, and four corners of the frame 1 are respectively provided with one wheel.

The longitudinal beam 2 is H-shaped steel, the clamping seat 5 is arranged on the longitudinal beam 2 and comprises a bottom plate 5.1, a plug-in connector 5.2, two connecting bolts 5.3 and two clamping pieces 5.4, the plug-in connector 5.2 is vertically fixed on the top surface of the bottom plate 5.1, the bottom plate 5.1 is placed on the top surface of the longitudinal beam 2, two sides of the bottom plate extend out of the longitudinal beam 2, the clamping pieces 5.4 comprise a first supporting portion 5.4.1 and a second supporting portion 5.4.2 which are fixedly connected at an obtuse angle, the connecting bolts 5.3 are connected between the second supporting portion 5.4.2 of the clamping pieces 5.4 and the bottom plate 5.1, the first supporting portion 5.4.1 of the clamping pieces 5.4 supports the bottom plate 5.1, the second supporting portion 5.4.2 presses the upper flange plate of the longitudinal beam 2, when the connecting bolts 5.3 are tightened, the pressure of the connecting bolts 5.3 acts on the clamping pieces 5.4 and the upper flange plate of the longitudinal beam 2, the clamping seat 5.3 is fixedly connected at the position of the longitudinal beam 2, and the clamping seat 5.3 can be freely slid when the connecting bolts 5.3 are connected, and the sliding seat is freely arranged.

A fixed support is connected between the two longitudinal beams 2 and comprises a cross rod 6 and an upright post 7, the cross rod 6 spans across the two longitudinal beams 2 and is connected with the upright post 7, and the upright post 7 is spliced on the splicing head 5.2 of the clamping seat 5. The electromechanical module is an integrated module formed by various pipe sections, the pipe sections are arranged on a cross rod 6 of a fixed support, the electromechanical module is assembled on a lifting jig frame, after moving to an installation position, the fixed support is connected with lifting equipment on the top surface of a building structure, the lifting equipment lifts the fixed support to separate a stand column 7 from a plug 5.2, and after lifting the fixed support to the installation position, the fixed support is connected with a pre-buried member, and the installation of one electromechanical module is completed.

As shown in fig. 7, the plug 5.2 of the holder 5 is a square tube, the four sides of the plug 5.2 are provided with connecting holes, the connecting holes on two opposite sides of the plug 5.2 are aligned, the upright post 7 of the fixing support is sleeved outside the plug 5.2, the connecting holes on the upright post 7 are aligned with the connecting holes on the plug 5.2, and the upright post 7 and the plug 5.2 are locked and fixed by bolts.

As shown in fig. 4, the cross bar 6 is connected with the upright post 7 through the elbow clamping piece 9, the elbow clamping piece 9 is provided with a vertical groove and a transverse groove which are vertical to each other, the elbow clamping piece 9 is clamped on the upright post 7 through the vertical groove, the elbow clamping piece 9 is fixed with the upright post 7 through a bolt, the cross bar 6 is inserted between the transverse grooves of the two elbow clamping pieces 9 on the upright post 7, and the cross bar 6 is fixed with the two elbow clamping pieces 9 through bolts.

The frame 1 is a rectangular frame, and the longitudinal beams 2, the cross arms 3 and the fixed brackets are symmetrically arranged with the center line of the width direction of the frame 1 as a reference.

As shown in fig. 5, a screw rod 10 is fixed at the top of the wheel 4, the screw rod 10 passes through a supporting plate 11 of the frame 1, a group of nuts 12 are respectively connected to the top surface and the bottom surface of the supporting plate 11 on the screw rod 10, the nuts 12 on the top surface and the bottom surface clamp the supporting plate 11 to fix the screw rod 10, and the distance from the wheel 4 to the frame 1 can be adjusted by changing the positions of the nuts 12 on the screw rod 10.

As shown in figures 2 and 8, the cross arm 3 and the frame 1 are both H-shaped steel, the cross arm 3 and the longitudinal beam 2 and the cross arm 3 and the frame 1 are connected through the detachable clamp 8, so that the lifting jig frame can be disassembled.

The H-shaped steel comprises a first H-shaped steel and a second H-shaped steel, the first H-shaped steel and the second H-shaped steel are crossed up and down, the first H-shaped steel is a longitudinal beam 2, the second H-shaped steel is a cross arm 3 or the first H-shaped steel is a cross arm 3, and the second H-shaped steel is a member of the frame 1.

The detachable clamp 8 comprises two transverse clamping plates 8.1, two longitudinal clamping plates 8.2 and four locking bolts 8.3, wherein the two transverse clamping plates 8.1 are positioned on lower flange plates on two sides of the first H-shaped steel, the two longitudinal clamping plates 8.2 are positioned on upper flange plates on two sides of the second H-shaped steel, the four locking bolts 8.3 are distributed in the overhanging areas of the transverse clamping plates 8.1 and the longitudinal clamping plates 8.2 to combine the two transverse clamping plates 8.1 and the two longitudinal clamping plates 8.2 together, and the two transverse clamping plates 8.1 and the two longitudinal clamping plates 8.2 clamp and fix the first H-shaped steel and the second H-shaped steel.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. The mechanical and electrical module transportation lifting jig frame is characterized by comprising a frame (1), two longitudinal beams (2) and a plurality of cross arms (3), wherein the two longitudinal beams (2) are parallel, the bottom surfaces of the longitudinal beams (2) are connected with the two longitudinal beams (2) by the cross arms (3), the cross arms (3) are connected with the frame (1), and wheels (4) are arranged on the frame (1);

The longitudinal beam (2) is H-shaped steel, the longitudinal beam (2) is provided with a clamping seat (5), the clamping seat (5) comprises a bottom plate (5.1), a plug connector (5.2), two connecting bolts (5.3) and two clamping pieces (5.4), the plug connector (5.2) is vertically fixed on the top surface of the bottom plate (5.1), the bottom plate (5.1) is placed on the top surface of the longitudinal beam (2) and extends out of the longitudinal beam (2) from two sides, the clamping pieces (5.4) comprise a first supporting part (5.4.1) and a second supporting part (5.4.2) which are fixedly connected at an obtuse angle, the connecting bolts (5.3) are connected between the second supporting part (5.4.2) of the clamping pieces (5.4) and the bottom plate (5.1), and the first supporting part (5.4.1) of the clamping pieces (5.4) prop against the bottom plate (5.1) and the second supporting part (5.4.2) presses against an upper flange plate of the longitudinal beam (2);

A fixed support is connected between the two longitudinal beams (2), the fixed support comprises a cross rod (6) and an upright post (7), the cross rod (6) spans the two longitudinal beams (2) and is connected with the upright post (7), and the upright post (7) is spliced on a splicing head (5.2) of the clamping seat (5).

2. The mechanical and electrical module transportation lifting jig frame according to claim 1 is characterized in that the cross arm (3) and the frame (1) are all H-shaped steel, and the cross arm (3) and the longitudinal beam (2) and the cross arm (3) and the frame (1) are all connected through a detachable clamp (8);

The H-shaped steel comprises a first H-shaped steel and a second H-shaped steel, the first H-shaped steel and the second H-shaped steel are crossed up and down, the first H-shaped steel is a longitudinal beam (2), the second H-shaped steel is a cross arm (3) or the first H-shaped steel is a cross arm (3), and the second H-shaped steel is a member of the frame (1);

The detachable clamp (8) comprises two transverse clamping plates (8.1), two longitudinal clamping plates (8.2) and four locking bolts (8.3), wherein the two transverse clamping plates (8.1) are positioned on lower flange plates on two sides of the first H-shaped steel, the two longitudinal clamping plates (8.2) are positioned on upper flange plates on two sides of the second H-shaped steel, the four locking bolts (8.3) are distributed in the overhanging areas of the transverse clamping plates (8.1) and the longitudinal clamping plates (8.2) to combine the two transverse clamping plates (8.1) with the two longitudinal clamping plates (8.2), and the two transverse clamping plates (8.1) and the two longitudinal clamping plates (8.2) clamp and fix the first H-shaped steel and the second H-shaped steel.

3. The mechanical and electrical module transportation lifting jig frame according to claim 2, wherein the plug connector (5.2) of the clamping seat (5) is a square tube, connecting holes are formed in four sides of the plug connector (5.2), the connecting holes on two opposite sides of the plug connector (5.2) are aligned, the upright post (7) of the fixing support is sleeved outside the plug connector (5.2), the connecting holes on the upright post (7) are aligned with the connecting holes on the plug connector (5.2), and the upright post (7) and the plug connector (5.2) are locked and fixed through bolts.

4. The mechanical and electrical module transportation lifting jig frame according to claim 3, wherein the cross rod (6) is connected with the upright post (7) through an elbow clamping piece (9), the elbow clamping piece (9) is provided with a vertical groove and a transverse groove which are vertical to each other, the elbow clamping piece (9) is clamped on the upright post (7) through the vertical groove, the elbow clamping piece (9) is fixed with the upright post (7) through bolts, the cross rod (6) is inserted between the transverse grooves of the two elbow clamping pieces (9) on the upright post (7), and the cross rod (6) is fixed with the two elbow clamping pieces (9) through bolts.

5. An electromechanical module transportation lifting jig frame according to any one of claims 1-3, wherein a screw rod (10) is fixed at the top of the wheel (4), the screw rod (10) penetrates through a supporting plate (11) of the frame (1), a group of nuts (12) are respectively connected to the top surface and the bottom surface of the supporting plate (11) on the screw rod (10), the nuts (12) on the top surface and the bottom surface clamp the supporting plate (11) to fix the screw rod (10), and the distance from the wheel (4) to the frame (1) can be adjusted by changing the position of the nuts (12) on the screw rod (10).

6. The mechanical and electrical module transportation lifting jig frame according to claim 1, wherein the frame (1) is a rectangular frame, and the longitudinal beams (2), the cross arms (3) and the fixed brackets are symmetrically arranged with reference to a central line of the width direction of the frame (1).

7. An electromechanical module transport lifting jig as claimed in claim 5, wherein the wheels (4) are universal wheels.