CN118145481A - Adjustable fixing frame for hoisting and transporting electromechanical equipment for constructional engineering - Google Patents

Abstract

The invention provides an adjustable fixing frame for hoisting and transporting electromechanical equipment for construction engineering, and relates to the technical field of hoisting fixing frames. This adjustable mount when electromechanical device hoist and mount transportation for building engineering includes the electromechanical device base, electromechanical device base top is provided with two first bracing pieces, the inside rotation of first bracing piece is connected with two second bracing pieces. This adjustable mount when electromechanical device hoist and mount transportation for building engineering, the laminating that the second is fixed can be tight is at electromechanical device's both sides face to make electromechanical device's both sides can be tightly laminated by first fixed rope and the fixed rope of second, make between electromechanical device and the fixed rope of first fixed rope and second can form triangle-shaped fixed, thereby fix electromechanical device in the both sides face, make electromechanical device can keep stable at the in-process of hoist and mount, avoid taking place the slope, cause electromechanical device to drop, not only cause the potential safety hazard, cause property loss simultaneously.

Description

Adjustable fixing frame for hoisting and transporting electromechanical equipment for constructional engineering

Technical Field

The invention relates to an adjustable fixing frame, in particular to an adjustable fixing frame for hoisting and transporting electromechanical equipment for construction engineering, and belongs to the technical field of hoisting fixing frames.

Background

Electromechanical devices generally refer to mechanical, electrical and electrical automation devices, and in construction, are commonly referred to as mechanical and plumbing devices other than geotechnical, woodworking, rebar, and mud. The multi-finger type electronic device is different from hardware, and can realize a finished product with certain functions.

The invention according to patent number CN 115504391B relates to the technical field of hoisting and carrying, in particular to an electromechanical equipment hoisting device, which comprises a movable vehicle body and a force arm assembly, wherein the force arm assembly is arranged on the movable vehicle body; the clamping assembly is arranged below the force arm assembly; the suspension assembly is arranged on the force arm assembly; the clamping assembly comprises a fixing frame, a fixing seat I is hinged to the back of the fixing frame, the fixing seat I is fixed below the force arm assembly, a fixing box is arranged on the back of the fixing frame, and grooves are formed in two sides of the fixing frame.

The fixing frame of the lifting device is connected with the lifting device in the lifting process, the connecting rod at one end of the fixing frame is connected with the lifting device, the connecting rod ascends along with the fixing frame, the structure is stable, the connecting rod is connected with the fixing frame, the transverse operation range is required to be larger in lifting, no matter in a factory building or outside a market, a plurality of lower buildings or green plants and the like can exist, and enough transverse operation range cannot be provided, so that the lifting mode is not used enough.

Disclosure of Invention

(One) solving the technical problems

The invention aims to solve the problems and provide an adjustable fixing frame for hoisting and transporting electromechanical equipment for constructional engineering, so as to solve the problems that in the prior art, the hoisting operation range is required to be large transversely, and whether the hoisting operation range is inside a factory building or outside a market, a plurality of lower buildings or green plants exist, and the like, so that the sufficient transverse operation range cannot be provided.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides an adjustable mount when electromechanical device hoist and mount transportation for building engineering, includes electromechanical device base, electromechanical device base top is provided with two first bracing pieces, first bracing piece inside rotates to be connected with two second bracing pieces, forms the quadrangle between this first bracing piece and the second bracing piece, and the quadrangle structure has stability more, first bracing piece outside cover is equipped with the stay cord, is provided with laborsaving subassembly between two first bracing pieces, and this electromechanical setting is along laborsaving subassembly horizontal slip to on the first bracing piece, and rethread stay cord lifts by crane electromechanical device transportation.

Preferably, the stay cord includes first fixed rope, first fixed rope sets up in first bracing piece bottom, the outside fixedly connected with second fixed rope of first fixed rope, the both sides of electromechanical device are located to the fixed rope of second, form triangle-shaped between messenger's first fixed rope, the fixed rope of second and the electromechanical device, make electromechanical device installation stable, a plurality of spacing draw-in grooves have been seted up to this first bracing piece bottom, this first fixed rope inlays locates spacing draw-in groove inside, the recess position towards first bracing piece direction has been seted up to first bracing piece bottom, spacing draw-in groove sets up in this concave part department, the setting up of concave part makes things convenient for first fixed rope to remove in arbitrary spacing draw-in groove, do not consume any strength, this first fixed rope can inlay and locate in arbitrary spacing draw-in groove.

Preferably, the labor-saving assembly comprises a first loop bar, a second loop bar is connected inside the first loop bar in a sliding manner, an extension spring is fixedly connected to the inner wall of the first loop bar, the second loop bar is fixedly connected to one end of the extension spring, connecting rods are arranged at one ends of the first loop bar and the second loop bar, one of the connecting rods is connected with a movable sliding block in an sliding manner outside the connecting rods, the movable sliding block is connected to the top of one of the first supporting rods in a sliding manner, arc-shaped grooves are formed in the first supporting rods and the movable sliding block, the arc-shaped grooves are arranged in an arc-shaped manner, so that the connecting rods can slide along the arc-shaped grooves, the labor-saving assembly can be folded into the storage grooves when driving the electromechanical device to move easily, the electromechanical device can be attached to the outer surface of the first supporting rods, the electromechanical device can be enabled to be in seamless contact with a fixing frame, the electromechanical device is enabled to be more stable when being hoisted, and the connecting rods slide along the inner portions of the arc-shaped grooves.

Preferably, the fixing component is arranged on the outer side of the pull rope to fix the electromechanical equipment in the upper and lower directions, the fixing component comprises a third fixing rope, four fixing ropes are connected with one end of the pull rope, the third fixing rope is arranged on the outer side of the pull rope, an upper fixing plate is arranged on the outer side of one end of the third fixing rope, four circular through holes are formed in the upper fixing plate, one end of the third fixing rope penetrates through the circular through holes and can be knotted and wound, the purpose that one end of the third fixing rope penetrates through the circular through holes and is knotted is to prevent the upper fixing plate from contacting with a first supporting rod at the bottom of the fixing frame before being lifted, meanwhile, the upper fixing plate is prevented from falling off, and the four corners are provided with the mode that the third fixing rope penetrates through the circular through holes, so that the upper fixing plate can be kept horizontal in the lifting process of the lifting device.

Preferably, the lifting mechanism is fixedly connected with the top of the pull rope, the second hydraulic push rod is installed at the top of the base of the electromechanical device, the supporting diagonal rod is rotationally connected with the outer side of the second hydraulic push rod, and the supporting diagonal rod is driven to lift through the extension or shortening of the second hydraulic push rod, so that the supporting diagonal rod is stored or lifted off, the electromechanical device is hoisted, and the lifting mechanism is installed at the top of the supporting diagonal rod.

Preferably, the bar-shaped groove is formed in the bottom of the first support rod, and the reserved bar-shaped groove facilitates the first hydraulic push rod to stretch out and draw back, so that the first hydraulic push rod is driven to move between the two first support rods, and the first hydraulic push rod is connected between the two first support rods in a rotating mode.

Preferably, the first support rod is internally provided with a cavity, when the distance between the two first support rods is shortened or lengthened for the second support rod, the second support rod is provided with a reserved space when the position of the second support rod is inclined, the second support rod is prevented from moving without the reserved space when the second support rod is inclined, and the second support rod is arranged inside the cavity.

Preferably, the top of the first support rod is provided with a bar-shaped chute, and when one of the first support rods moves due to the arrangement of the bar-shaped chute, the position of the moving slide block is kept unchanged, so that the moving slide block and the first support rod are always kept in a vertical state, and the first support rod and the moving slide block are in sliding connection through the bar-shaped chute.

Preferably, a plurality of storage grooves are formed in the top of the first support rod, the reservation of the storage grooves can enable the whole labor-saving assembly to move downwards to reserve space, and finally the electromechanical device can be attached to the surface of the first support rod, and the storage grooves are formed in one side of the arc-shaped groove.

Preferably, the top of the first supporting rod is fixedly connected with a fixing plate, the first hydraulic push rod is obliquely arranged, and the section shape of the movable sliding block is rectangular.

The invention provides an adjustable fixing frame for hoisting and transporting electromechanical equipment for construction engineering, which has the following beneficial effects:

1. This adjustable mount when electromechanical device hoist and mount transportation for building engineering, first fixed rope card is in the inside most appropriate position of spacing draw-in groove, make the laminating that the second is fixed rope can be tight at electromechanical device's both sides face, thereby make electromechanical device's both sides can be tightly by the laminating of first fixed rope and the fixed rope of second, can form triangle-shaped between messenger's electromechanical device and the fixed rope of first fixed rope and second, thereby fix electromechanical device in both sides face, make electromechanical device can keep stable at the in-process of hoist and mount, avoid taking place the slope, cause electromechanical device to drop, not only cause the potential safety hazard, cause property loss simultaneously.

2. This adjustable mount when electromechanical device hoist and mount transportation for building engineering, electromechanical device's both sides are laminated with fixed plate and first bracing piece respectively, and utilize the parallelogram to have stability here, thereby have stability when hoisting mechanical device, the parallelogram also can be adjusted simultaneously, support electromechanical device of equidimension not, when not hoisting electromechanical device of great size, the distance between two first bracing pieces is adjusted to the minimum through first hydraulic push rod at this moment, save space, avoid hoist device to collide when the transportation and cause the damage.

3. This adjustable mount when electromechanical device hoist and mount transportation for building engineering, when the position adjustment between two first bracing pieces, the position of one of them first bracing piece remains unchanged now, the parallel movement of another one first bracing piece towards keeping away from the removal slider, namely through another one first bracing piece, make and remove slider and first bracing piece and can remain vertically positional relationship all the time, and also first loop bar and another one first bracing piece remain vertically positional relationship, this kind of structure sets up and can make laborsaving subassembly when the mount is adjusted, remain all the time with the first bracing piece of the limit wall on the mount perpendicularly, thereby when removing electromechanical device to the mount, can be more laborsaving.

4. This adjustable mount when electromechanical device hoist and mount transportation for building engineering promotes first loop bar and second loop bar and removes, and the connecting rod is just in time driven to remove when first loop bar and second loop bar remove, and the connecting rod can slide along the arc inslot this moment, can reach at last and accomodate in the groove, and electromechanical device can again with the laminating that the surface of first bracing piece is tight this moment, according to this kind of operation mode, can be quick roll electromechanical device along laborsaving subassembly top, uses manpower sparingly, saves time, quick messenger electromechanical device removes to suitable position.

5. This adjustable mount when electromechanical device hoist and mount transportation for building engineering, four third fixed ropes are all tethered on the stay cord, make the both ends of third fixed rope form the closed loop on the stay cord to laminate upper fixed plate on electromechanical device top tightly, this structure is favorable to fixing electromechanical device from top to bottom, thereby makes electromechanical device can be more stable when hoist and mount operation

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view showing the structure of a first support bar according to the present invention;

FIG. 3 is a schematic view of a moving slide according to the present invention;

FIG. 4 is an enlarged view of the portion A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic view of a first hydraulic putter in accordance with the present invention;

FIG. 6 is a schematic view of a second loop bar of the present invention;

FIG. 7 is a schematic view of the structure of the extension spring of the present invention;

FIG. 8 is a schematic diagram of a limiting slot according to the present invention;

FIG. 9 is a schematic view of the structure of the arc-shaped groove of the present invention;

FIG. 10 is a schematic view of the structure of the connecting rod of the present invention;

FIG. 11 is a schematic view of the construction of a first loop bar of the present invention;

fig. 12 is a schematic structural view of the extension spring of the present invention.

In the figure: 1. an electromechanical device base; 2. a first support bar; 3. a second support bar; 4. a first hydraulic pushrod;

5. A pull rope; 501. a first fixing rope; 502. a second fixing rope; 503. a limit clamping groove;

6. A first loop bar; 601. a second loop bar; 602. a telescopic spring; 603. moving the slide block; 604. an arc-shaped groove; 605. a connecting rod;

7. a bar-shaped groove; 8. a cavity;

9. a fixing plate; 10. a storage groove;

11. An upper fixing plate; 1101. a circular through hole;

12. A third fixing rope; 13. a second hydraulic pushrod; 14. supporting the diagonal rod; 15. a lifting mechanism; 16. a strip-shaped chute.

Detailed Description

The embodiment of the invention provides an adjustable fixing frame for hoisting and transporting electromechanical equipment for construction engineering.

Please refer to fig. 1, fig. 2, fig. 3, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, including electromechanical device base 1, electromechanical device base 1 top is provided with two first bracing pieces 2, first bracing piece 2 inside rotates and is connected with two second bracing pieces 3, form the quadrangle between this first bracing piece 2 and the second bracing piece 3, quadrangle structure has stability more, bar slot 7 has been seted up to first bracing piece 2 bottom, bar slot 7 that reserves makes things convenient for first hydraulic push rod 4 to stretch out and draw back, thereby drive the removal between two first bracing pieces 2, rotate between two first bracing pieces 2 and be connected with first hydraulic push rod 4, cavity 8 has been seted up to first bracing piece 2 inside, cavity 8's setting is for when second bracing piece 3 shortens or stretches out at the distance between two first bracing pieces 2, when the position of second bracing piece 3 takes place the slope, the reserved space avoids when second bracing piece 3 takes place the slope, no reserved space gives second bracing piece 3 and removes, second bracing piece 3 sets up in cavity 8 inside, first bracing piece 2 top fixedly connected with fixed plate 9, first push rod 4 is for setting up the slope.

The lifting mechanism 15 is fixedly connected to the top of the pull rope 5, the second hydraulic push rod 13 is installed at the top of the electromechanical device base 1, the supporting diagonal rod 14 is rotatably connected to the outer side of the second hydraulic push rod 13, and the supporting diagonal rod 14 is driven to lift through the extension or shortening of the second hydraulic push rod 13, so that the supporting diagonal rod 14 is stored or lifted off, the electromechanical device is hoisted, and the lifting mechanism 15 is installed at the top of the supporting diagonal rod 14.

Specifically, the fixing frame is lowered to the ground through the lifting mechanism 15, the distance between the two first support rods 2 which are arranged in parallel is adjusted through the extension or shortening of the first hydraulic push rod 4, when the distance between the two first support rods 2 is shortened, the second support rods 3 which are perpendicular to the first support rods 2 can incline, a parallelogram is formed between the first support rods 2 and the second support rods 3, two sides of the electromechanical device are respectively attached to the fixing plate 9 and the first support rods 2, the parallelogram is used for stability, so that the mechanical device is hoisted, the mechanical device is more stable, meanwhile, the parallelogram can be adjusted to support the electromechanical device with different sizes, when the electromechanical device with larger size is not hoisted, the distance between the two first support rods 2 is adjusted to be minimum through the first hydraulic push rod 4, the space is saved, and damage caused by collision when the hoisting device is transported is avoided.

Referring to fig. 1, fig. 2, fig. 3, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, the pull rope 5 is sleeved outside the first support rod 2, the pull rope 5 includes a first fixing rope 501, the first fixing rope 501 is disposed at the bottom of the first support rod 2, a second fixing rope 502 is fixedly connected to the outside of the first fixing rope 501, the second fixing rope 502 is sleeved on two sides of the electromechanical device, so that a triangle is formed between the first fixing rope 501, the second fixing rope 502 and the electromechanical device, the electromechanical device is stably installed, a plurality of limit clamping grooves 503 are formed in the bottom of the first support rod 2, the first fixing rope 501 is embedded in the limit clamping grooves 503, a groove part facing the direction of the first support rod 2 is formed in the bottom of the first support rod 2, the limit clamping grooves 503 are disposed at the concave part, the concave part is convenient for the first fixing rope 501 to move in any limit clamping groove 503, and the first fixing rope 501 can be embedded in any limit clamping groove 503 without any force.

Specifically, along with the quadrilateral structure formed between the first support rod 2 and the second support rod 3, the opening part of the limit clamping groove 503 on the first support rod 2 is recessed upwards towards the direction of the first support rod 2, so that the first fixing rope 501 can move at will, the first fixing rope 501 can be clamped at any position in the limit clamping groove 503, according to the distance between the two first support rods 2, the first fixing rope 501 is clamped at the most appropriate position in the limit clamping groove 503, the second fixing rope 502 can be tightly attached to two side surfaces of the electromechanical device, two sides of the electromechanical device can be tightly attached to the first fixing rope 501 and the second fixing rope 502, triangle fixing can be formed between the electromechanical device and the first fixing rope 501 and the second fixing rope 502, and accordingly the electromechanical device can be fixed at the two sides of the electromechanical device, so that the electromechanical device can be kept stable in the hoisting process, the electromechanical device can be prevented from falling down, potential safety hazards are caused, and property loss is caused.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11 and fig. 12 again, the labor-saving assembly comprises a first sleeve rod 6, a second sleeve rod 601 is slidably connected inside the first sleeve rod 6, an extension spring 602 is fixedly connected to the inner wall of the first sleeve rod 6, the second sleeve rod 601 is fixedly connected to one end of the extension spring 602, connecting rods 605 are installed at one ends of the first sleeve rod 6 and the second sleeve rod 601, a movable sliding block 603 is slidably connected to the outer side of one of the connecting rods 605, a bar-shaped sliding groove 16 is formed in the top of the first supporting rod 2, the position of the movable sliding block 603 is kept unchanged when one of the first supporting rods 2 is moved due to the arrangement of the bar-shaped sliding groove 16, the movable sliding block 603 and the first supporting rod 2 are always kept in a vertical state, the first supporting rod 2 is slidably connected with the movable sliding block 603 through the bar-shaped sliding groove 16, and the section shape of the movable sliding block 603 is set to be rectangular.

Specifically, before adjusting the distance between two first bracing pieces 2, place a clamp plate at laborsaving subassembly top, the material of this clamp plate is made by steel, the clamp plate is stepped on to the foot, then start first hydraulic push rod 4 and adjust the distance between two first bracing pieces 2, this clamp plate can guarantee to adjust one of them first bracing piece 2, and make its parallel movement change the distance between two first bracing pieces 2, telescopic spring 602 that sets up between first loop bar 6 and second loop bar 601, can stretch out and draw back between first loop bar 6 and second loop bar 601, how the distance between two first bracing pieces 2 changes, two connecting rods 605 can both slide in first bracing piece 2 and removal slider 603 respectively, and remove and slide the setting through bar spout 16 between slider 603 and the first bracing piece 2, therefore when the position between two first bracing pieces 2 is adjusted, the position of this moment, the other one of them first bracing piece 2 keeps unchanged, the other first bracing piece 2 moves towards the direction of keeping away from removal slider 603, that is through the parallel movement of another first bracing piece 2, make the bracing piece 603 and first bracing piece 2 and the first bracing piece 2 can keep the same vertical position of a fixed frame and the perpendicular relation with the first fixed frame 2 and can also be kept the perpendicular to the first bracing piece 2 when the position is adjusted to this one side, can be perpendicular to the other side, thereby setting up the perpendicular relation of the first fixed frame 2, and can be perpendicular to the position of the fixed frame 2.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11 and fig. 12 again, a labor-saving component is disposed between two first support rods 2, the electromechanical device is horizontally slid onto the first support rods 2 along the labor-saving component, and then lifted and transported by the pull rope 5, the moving slide block 603 is slidably connected to the top of one of the first support rods 2, the first support rods 2 and the moving slide block 603 are both internally provided with arc grooves 604, the arc grooves 604 in arc arrangement can enable the connecting rod 605 to slide along the arc grooves, so that the labor-saving component can drive the electromechanical device to move easily and simultaneously retract into the accommodating groove 10, and the electromechanical device can be attached to the outer surface of the first support rods 2, so that the electromechanical device can be in seamless contact with the fixing frame, the electromechanical device is more stable during lifting, and the connecting rod 605 slides along the inside the arc grooves 604.

A plurality of storage grooves 10 are formed in the top of the first support rod 2, the reservation of the storage grooves 10 can enable the whole labor-saving assembly to move downwards to reserve space, and finally the electromechanical device can be attached to the surface of the first support rod 2, and the storage grooves 10 are formed in one side of the arc-shaped groove 604.

Specifically, when the distance between the two first support rods 2 is properly adjusted, the electromechanical device is firstly placed at the top of the labor-saving assembly, and then the electromechanical device is pushed to move, when the electromechanical device rolls along the tops of the first loop bar 6 and the second loop bar 601, the first loop bar 6 and the second loop bar 601 are driven to move together with the electromechanical device, the first loop bar 6 and the second loop bar 601 are pushed to move, the connecting rod 605 is just driven to move while the first loop bar 6 and the second loop bar 601 move, at the moment, the connecting rod 605 can slide along the arc-shaped groove 604, and finally the connecting rod can reach the accommodating groove 10, at the moment, the electromechanical device can be tightly attached to the outer surface of the first support rod 2, and according to the operation mode, the electromechanical device can be quickly rolled along the top of the labor-saving assembly, the labor is saved, the time is saved, and the electromechanical device is quickly moved to a proper position.

Referring to fig. 1,2 and 3 again, a fixing assembly is installed on the outer side of the pull rope 5 to fix the electromechanical device in the vertical direction, the fixing assembly includes a third fixing rope 12, one ends of the four pull ropes 5 are connected together, the third fixing rope 12 is installed on the outer side of the pull rope 5, an upper fixing plate 11 is installed on the outer side of one end of the third fixing rope 12, four circular through holes 1101 are formed in the upper fixing plate 11, one end of the third fixing rope 12 passes through the inside of the circular through holes 1101 and can be wound in a knotted manner, one end of the third fixing rope 12 passes through the circular through holes 1101 and is used for preventing the upper fixing plate 11 from contacting with the first supporting rod 2 at the bottom of the fixing frame before being lifted, and meanwhile, the upper fixing plate 11 is prevented from falling down, and the four corners are provided with the mode that the third fixing rope 12 passes through the circular through holes 1101, so that the upper fixing plate 11 can be kept horizontal in the lifting process of the lifting device.

Specifically, when the electromechanical device moves to the fixing frame completely, the upper fixing plate 11 is pressed downwards until the upper fixing plate 11 can be attached to the surface of the electromechanical device, at the moment, one end of the third fixing rope 12 penetrating through the upper fixing plate 11 can be pulled out and fastened to the pull rope 5, according to the operation mode, all the four third fixing ropes 12 are fastened to the pull rope 5, two ends of the third fixing rope 12 form a closed loop on the pull rope 5, and accordingly the upper fixing plate 11 is attached to the top of the electromechanical device tightly.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides an adjustable mount when electromechanical device hoist and mount transportation for building engineering, includes electromechanical device base (1), its characterized in that: the mechanical and electrical equipment base (1) top is provided with two first bracing pieces (2), first bracing piece (2) inside rotates and is connected with two second bracing pieces (3), forms the quadrangle between this first bracing piece (2) and second bracing piece (3), first bracing piece (2) outside cover is equipped with stay cord (5), is provided with laborsaving subassembly between two first bracing pieces (2), and this mechanical and electrical equipment lifts by crane the transportation along laborsaving subassembly horizontal slip to on first bracing piece (2), rethread stay cord (5).

2. The adjustable fixing frame for hoisting and transporting electromechanical equipment for construction engineering according to claim 1, wherein: the stay cord (5) is including first fixed rope (501), first fixed rope (501) sets up in first bracing piece (2) bottom, first fixed rope (501) outside fixedly connected with second fixed rope (502), the both sides of electromechanical device are located to second fixed rope (502) cover, make between first fixed rope (501), second fixed rope (502) and the electromechanical device form triangle-shaped, make electromechanical device installation stable, a plurality of spacing draw-in grooves (503) have been seted up to this first bracing piece (2) bottom, and this first fixed rope (501) is inlayed and is located spacing draw-in groove (503) inside, and this first fixed rope (501) can be inlayed and locate in arbitrary spacing draw-in groove (503).

3. The adjustable fixing frame for hoisting and transporting electromechanical equipment for construction engineering according to claim 1, wherein: the labor-saving assembly comprises a first loop bar (6), a second loop bar (601) is connected to the first loop bar (6) in a sliding mode, an expansion spring (602) is fixedly connected to the inner wall of the first loop bar (6), the second loop bar (601) is fixedly connected to one end of the expansion spring (602), connecting rods (605) are arranged at one end of the first loop bar (6) and one end of the second loop bar (601), one of the connecting rods (605) is connected with a movable sliding block (603) in a sliding mode, the movable sliding block (603) is connected to the top of one of the first supporting rods (2), arc grooves (604) are formed in the first supporting rods (2) and the movable sliding block (603), and the connecting rods (605) slide along the inner portions of the arc grooves (604).

4. The adjustable fixing frame for hoisting and transporting electromechanical equipment for construction engineering according to claim 1, wherein: the fixed subassembly is installed in this stay cord (5) outside and is carried out fixing of upper and lower position to electromechanical device, fixed subassembly includes third fixed rope (12), four stay cord (5) one end links together, and this third fixed rope (12) are installed in stay cord (5) outside, and upper fixing plate (11) are installed in this third fixed rope (12) one end outside, four circular through-holes (1101) have all been seted up to upper fixing plate (11) inside, circular through-hole (1101) inside winding of can knoing is passed to third fixed rope (12) one end.

5. The adjustable fixing frame for hoisting and transporting electromechanical equipment for construction engineering according to claim 1, wherein: the lifting mechanism (15) is fixedly connected to the top of the pull rope (5), a second hydraulic push rod (13) is installed at the top of the electromechanical equipment base (1), a supporting diagonal rod (14) is rotatably connected to the outer side of the second hydraulic push rod (13), and the lifting mechanism (15) is installed at the top of the supporting diagonal rod (14).

6. An adjustable mount for lifting and transporting electromechanical equipment for construction engineering according to claim 3, wherein: the bottom of the first support rods (2) is provided with a strip-shaped groove (7), and a first hydraulic push rod (4) is connected between the two first support rods (2) in a rotating mode.

7. The adjustable fixing frame for hoisting and transporting electromechanical equipment for construction engineering according to claim 1, wherein: the first support rod (2) is internally provided with a cavity (8), and the second support rod (3) is arranged in the cavity (8).

8. An adjustable mount for lifting and transporting electromechanical equipment for construction engineering according to claim 3, wherein: the top of the first supporting rod (2) is provided with a strip-shaped chute (16), and the first supporting rod (2) is in sliding connection with the movable sliding block (603) through the strip-shaped chute (16).

9. An adjustable mount for lifting and transporting electromechanical equipment for construction engineering according to claim 3, wherein: a plurality of storage grooves (10) are formed in the top of the first supporting rod (2), and the storage grooves (10) are formed in one side of the arc-shaped groove (604).

10. The adjustable fixing frame for hoisting and transporting electromechanical equipment for construction engineering according to claim 6, wherein: the top of the first supporting rod (2) is fixedly connected with a fixing plate (9), the first hydraulic push rod (4) is obliquely arranged, and the section shape of the movable sliding block (603) is rectangular.