CN212024674U - Multifunctional device for electromechanical installation of construction engineering - Google Patents

Abstract

A multifunctional device for electromechanical installation of construction engineering comprises a carrying platform, a carriage, a first groove, a screw rod, a lifting plate and a carrying plate; the carriage is fixed at the edge position of the upper surface of the carrying platform; processing a first groove on the upper surface of the carrying platform; two lead screws are symmetrically arranged on the upper surface of the carrying platform outside the first groove, and ball nut seats are sleeved on the annular side surfaces of the two lead screws; the lifting plate is arranged right above the first groove, and two symmetrical edge positions of the upper side surface of the lifting plate are respectively fixed on the lower surfaces of the two ball nut seats; the connecting block is fixed at the position of the edge line of the upper surface of the lifting plate; t-shaped sliding grooves are machined in positions, close to the two ball nut seats, of the upper surface of the lifting plate, and T-shaped sliding strips are installed inside the T-shaped sliding grooves. The utility model discloses can transport electromechanical device through the microscope carrier, carry out the lifting to electromechanical device through the lifter plate, transfer the location with electromechanical device through carrying the thing board, transport the convenience, and fix a position effectually.

Description

Multifunctional device for electromechanical installation of construction engineering

Technical Field

The utility model relates to an electromechanical erection equipment field especially relates to a device is used in many functional building engineering electromechanical installation.

Background

In the building engineering, a plurality of electromechanical devices need to be installed to improve the construction environment and assist the construction operation, so that the labor intensity of workers is reduced, the construction progress is accelerated, meanwhile, the necessary electromechanical device installation needs to be carried out for the building, and in the process of installing the electromechanical devices, the equipment is required to be used for assisting.

In the prior art, when electromechanical equipment of constructional engineering is installed, a transport vehicle is generally used for transporting the electromechanical equipment to a construction site, then the electromechanical equipment is conveyed through manpower and hoisting equipment, so that the electromechanical equipment is moved to an installation position and then installed, the electromechanical equipment needs to be loaded, unloaded and carried for many times in the process, the labor intensity is high, the electromechanical equipment is easy to shake during hoisting, and the positioning operation is difficult during installation. Therefore, how to reduce the number of times of carrying in the process of transporting the electromechanical device and improve the positioning effect when the electromechanical device is installed is a problem which needs to be solved urgently.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For solving the technical problem that exists among the background art, the utility model provides a device is used in multi-functional building engineering electromechanical installation carries electromechanical device through the microscope carrier, reduces the transport number of times, simultaneously through the lifter plate with electromechanical device lifting to mounting height, remove electromechanical device to mounted position through carrying the thing board again, fix a position effectually.

(II) technical scheme

The utility model provides a multifunctional device for electromechanical installation of construction engineering, which comprises a carrying platform, a carriage, a first groove, a screw rod, a lifting plate and a carrying plate;

the carriage is fixed at the edge position of the upper surface of the carrying platform; processing a first groove on the upper surface of the carrying platform; two lead screws are symmetrically arranged on the upper surface of the carrying platform outside the first groove, and ball nut seats are sleeved on the annular side surfaces of the two lead screws; the lifting plate is arranged right above the first groove, and two symmetrical edge positions of the upper side surface of the lifting plate are respectively fixed on the lower surfaces of the two ball nut seats; guide rods are fixed on the upper surfaces of the carrying platforms on the two sides of the screw rod along the edge of the first groove, and the upper ends of the guide rods penetrate through the connecting blocks respectively; the connecting block is fixed at the position of the edge line of the upper surface of the lifting plate; t-shaped sliding grooves are machined in the positions, close to the two ball nut seats, of the upper surface of the lifting plate, and T-shaped sliding strips are installed inside the T-shaped sliding grooves; a lug is fixed at one end of the upper surface of the T-shaped sliding strip, which is far away from the interior of the carriage; the object carrying plate is placed on the upper surface of the lifting plate, and a bayonet corresponding to the lug is processed on one side, close to the lug, of the outer side surface of the object carrying plate.

Preferably, a second groove is processed on the upper side surface of the carrying platform at the outer side of the first groove, and the first groove and the second groove are arranged in parallel; the second groove is internally provided with a longitudinal roller.

Preferably, a third groove is formed in one end, far away from the first groove, of the upper surface of the carrying platform, a transverse rolling shaft is installed in the third groove, and the third groove is perpendicular to the first groove; and an electric cylinder is arranged at one end, far away from the first groove, of the upper side surface of the concave table at the outer side of the third groove.

Preferably, a synchronous motor is arranged in the loading platform right below the screw rod, and the upper end of the synchronous motor is connected with the lower end of the screw rod through a coupler.

Preferably, the ball nut seat is connected with the screw rod through a ball nut pair.

Preferably, the carrying plates are more than two, and the specifications of the more than two carrying plates are the same.

Preferably, the connecting lug is fixed on one side of the outer surface of the carrying platform, which is far away from the lifting plate, and the connecting lug is connected with the trailer through a steel rope.

Compared with the prior art, the above technical scheme of the utility model following profitable technological effect has:

all place electromechanical device and required mounting tool on carrying the thing board respectively, then will carry the thing board and pass through longitudinal roller and horizontal roller bearing and move on the microscope carrier, thereby arrange electromechanical device and place inside the carriage, when transporting electromechanical device to the mounted position, make and carry the thing board and drive electromechanical device and required mounting tool and move to the lifter plate, then move to the mounting height, make again carry thing board motor electric equipment to remove to laminating with the mounted position, then install can, be convenient for electromechanical device's transportation, reduce the transport number of times, and the installation positioning effect is good.

Drawings

Fig. 1 is the utility model provides a device for multifunctional building engineering electromechanical installation's schematic structure diagram.

Fig. 2 is the utility model provides a device for electrical installation of multifunctional construction engineering machine's front view section structure sketch map.

Fig. 3 is an enlarged schematic view of a point a in fig. 2.

Fig. 4 is an enlarged schematic view of B in fig. 2.

Fig. 5 is an enlarged schematic view of the point C in fig. 2.

Fig. 6 is a schematic view of the connection structure between the T-shaped slide bar and the bump in the device for multifunctional building engineering electromechanical installation.

Reference numerals: 1. a stage; 2. a support leg; 3. a universal wheel; 4. a carriage; 5. connecting lugs; 6. a transverse roller; 7. a first groove; 8. a lifting plate; 9. a guide bar; 10. a screw rod; 11. a second groove; 12. a longitudinal roller; 13. an electric cylinder; 61. a third groove; 81. a loading plate; 82. a T-shaped slide bar; 83. a T-shaped chute; 84. a bayonet; 85. a bump; 101. a synchronous motor; 102. ball nut seat.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-6, the device for multifunctional building engineering electromechanical installation provided by the present invention comprises a carrying platform 1, a carriage 4, a first groove 7, a lead screw 10, a lifting plate 8 and a carrying plate 81;

the carriage 4 is fixed at the edge position of the upper surface of the carrier 1; a first groove 7 is processed on the upper surface of the carrying platform 1; two lead screws 10 are symmetrically arranged on the upper surface of the carrier 1 outside the first groove 7, and the ball nut bases 102 are sleeved on the annular side surfaces of the two lead screws 10; the lifting plate 8 is arranged right above the first groove 7, and two edge positions of the lifting plate 8, which are symmetrical on the upper side, are respectively fixed on the lower surfaces of the two ball nut seats 102; guide rods 9 are fixed on the upper surfaces of the carrying platforms 1 on the two sides of the screw rod 10 along the edge positions of the first grooves 7, and the upper ends of the guide rods 9 penetrate through the connecting blocks respectively; the connecting block is fixed at the position of the edge line of the upper surface of the lifting plate 8; t-shaped sliding grooves 83 are machined in the positions, close to the two ball nut seats 102, of the upper surface of the lifting plate 8, and T-shaped sliding strips 82 are installed inside the T-shaped sliding grooves 83; a lug 85 is fixed at one end of the upper surface of the T-shaped sliding strip 82 far away from the interior of the carriage 4; the loading plate 81 is placed on the upper surface of the lifting plate 8, and a bayonet 84 corresponding to the lug 85 is processed on one side of the outer side surface of the loading plate 81 close to the lug 85.

In the utility model, before using, the storage battery is arranged in the carriage 4, and the electric cylinder 13 and the synchronous motor 101 are connected with the storage battery through electric wires, when in use, the electromechanical device and the required electromechanical device installation tool are placed on the object carrying plate 81, then the object carrying plate 81 is placed on the upper surface of the longitudinal rolling shaft 12, then the electromechanical device is pushed, so that the electromechanical device drives the object carrying plate 81 to move, the object carrying plate 81 moves to drive the longitudinal rolling shaft 12 to roll, thereby realizing the movement of the electromechanical device in the interior of the carrier platform 1, when the object carrying plate 81 moves to the upper surface of the transverse rolling shaft 6, the working personnel pushes the electromechanical device to the direction close to the lifting plate 8, so that the electromechanical device drives the object carrying plate 81 to move on the transverse rolling shaft 6 again, then drives the transverse rolling shaft 6 to move, and in this operation mode, the working personnel respectively hold and arrange the electromechanical device on the carrier platform 1, then the carrier 1 is driven to move by the trailer, then the carrier 1 drives the universal wheels 3 to roll by the support legs 2, the electromechanical equipment is driven to move by the device, the electromechanical equipment is prevented from falling off in the transportation process by the carriage 4, after the electromechanical equipment moves to a preset position, a worker separates the connecting lug 5 from the trailer, then the device is moved to the position where the electromechanical equipment needs to be installed, then the worker connects a circuit between the electric cylinder 13 and the storage battery, the electric cylinder 13 operates to push the carrying plate 81 which is right opposite to the lifting plate 8 to move, so that the carrying plate 81 drives the corresponding electromechanical equipment to move to the lifting plate 8, the carrying plate 81 drives the bayonet 84 to move towards the lug 85, the lug 85 is clamped in the bayonet 84, then the synchronous motor 101 operates, the synchronous motor 101 operates to drive the screw rod 10 to rotate, the ball nut pair converts the rotation operation of the screw rod 10 into linear operation, then ball nut seat 102 drives lifting plate 8 to move along guide rod 9, so that lifting plate 8 is separated from first groove 7, thereby driving electromechanical equipment to be lifted, when moving to a required installation height, synchronous motor 101 is stopped to operate, then object carrying plate 81 is pushed to an installation position, thereby object carrying plate 81 drives T-shaped sliding strip 82 to move inside T-shaped sliding groove 83 through protruding block 85, then electromechanical equipment movement is realized, when electromechanical equipment moves to be attached to the installation position, a worker can install the electromechanical equipment, at the moment, because T-shaped sliding strip 82 and object carrying plate 81 support electromechanical equipment, the positioning effect is good, when the installation position of electromechanical equipment is higher, the device is moved to lifting equipment used in building engineering to be lifted.

In an alternative embodiment, a second groove 11 is machined on the upper side of the carrier 1 outside the first groove 7, and the first groove 7 and the second groove 11 are arranged in parallel; the second recess 11 is internally provided with longitudinal rollers 12.

It should be noted that, by installing the longitudinal roller 12 inside the second groove 11, the carrying board 81 is moved by driving the longitudinal roller 12 to roll, which saves labor.

In an alternative embodiment, a third groove 61 is formed in one end, away from the first groove 7, of the upper surface of the carrier 1, a transverse roller 6 is installed inside the third groove 61, and the third groove 61 is arranged perpendicular to the first groove 7; and an electric cylinder 13 is arranged at one end of the upper side surface of the concave table at the outer side of the third groove 61, which is far away from the first groove 7.

It should be noted that, the transverse roller 6 is installed inside the third groove 61, so that the loading plate 81 drives the transverse roller 6 to rotate, so as to drive the electromechanical device to move, thereby facilitating the transverse movement of the electromechanical device, and the loading plate 81 is pushed by the electric cylinder 13 to move onto the lifting plate 8, so that the operation is convenient.

In an alternative embodiment, a synchronous motor 101 is installed inside the stage 1 right below the screw rod 10, and the upper end of the synchronous motor 101 is connected with the lower end of the screw rod 10 through a coupler.

It should be noted that the synchronous motor 101 is used to drive the two screw rods 10 to rotate at the same time, so as to facilitate the lifting of the lifting plate 8.

In an alternative embodiment, the ball nut mount 102 is connected to the lead screw 10 by a ball nut pair.

It should be noted that the linear movement of the ball nut holder 102 is facilitated by converting the rotational movement of the screw 10 into the linear movement by the ball nut pair.

In an alternative embodiment, more than two carrier plates 81 are provided, and the two carrier plates 81 have the same size.

It should be noted that the transport of multiple electromechanical devices is facilitated.

In an alternative embodiment, the connecting lug 5 is fixed on the side of the outer surface of the carrying platform 1 far away from the lifting plate 8, and the connecting lug 5 is connected with the trailer through a steel rope.

It should be noted that, the device is connected with the trailer through the connecting lug 5, which is convenient for dragging the device to move on the construction site.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (7)

1. A multifunctional device for electromechanical installation of construction engineering is characterized by comprising a carrying platform (1), a carriage (4), a first groove (7), a screw rod (10), a lifting plate (8) and a carrying plate (81);

the carriage (4) is fixed at the edge position of the upper surface of the carrying platform (1); a first groove (7) is processed on the upper surface of the carrying platform (1); two screw rods (10) are symmetrically arranged on the upper surface of the carrying platform (1) at the outer side of the first groove (7), and ball nut seats (102) are sleeved on the annular side surfaces of the two screw rods (10); the lifting plate (8) is arranged right above the first groove (7), and the two symmetrical edge positions of the upper side surface of the lifting plate (8) are respectively fixed on the lower surfaces of the two ball nut seats (102); guide rods (9) are fixed on the upper surfaces of the carrying platforms (1) on the two sides of the screw rod (10) along the edge position of the first groove (7), and the upper ends of the guide rods (9) penetrate through the connecting blocks respectively; the connecting block is fixed at the edge line position of the upper surface of the lifting plate (8); t-shaped sliding grooves (83) are machined in positions, close to the two ball nut seats (102), of the upper surface of the lifting plate (8), and T-shaped sliding strips (82) are installed inside the T-shaped sliding grooves (83); a lug (85) is fixed at one end of the upper surface of the T-shaped sliding strip (82) far away from the interior of the carriage (4); the object carrying plate (81) is placed on the upper surface of the lifting plate (8), and a bayonet (84) corresponding to the convex block (85) is processed on one side of the outer side surface of the object carrying plate (81) close to the convex block (85).

2. The multifunctional constructional engineering machine electric installation device as claimed in claim 1, wherein a second groove (11) is formed on the upper side surface of the carrier (1) outside the first groove (7), and the first groove (7) and the second groove (11) are arranged in parallel; the second groove (11) is internally provided with a longitudinal roller (12).

3. The multifunctional constructional engineering mechanical and electrical installation device as recited in claim 1, wherein a third groove (61) is formed at one end of the upper surface of the carrier (1) far away from the first groove (7), a transverse roller (6) is installed in the third groove (61), and the third groove (61) is arranged perpendicular to the first groove (7); an electric cylinder (13) is arranged at one end, away from the first groove (7), of the upper side surface of the concave table at the outer side of the third groove (61).

4. The multifunctional building engineering mechanical and electrical installation device is characterized in that a synchronous motor (101) is installed inside the platform (1) right below the screw rod (10), and the upper end of the synchronous motor (101) is connected with the lower end of the screw rod (10) through a coupler.

5. The multifunctional building engineering electromechanical installation device according to claim 1, characterized in that the ball nut seat (102) is connected with the screw (10) through a ball nut pair.

6. The multifunctional constructional engineering machine electric installation device as claimed in claim 1, wherein more than two carrying plates (81) are provided, and the specifications of the more than two carrying plates (81) are the same.

7. The multifunctional constructional engineering machine electric installation device as claimed in claim 1, wherein the connecting lug (5) is fixed on one side of the outer surface of the carrying platform (1) far away from the lifting plate (8), and the connecting lug (5) is connected with the trailer through a steel rope.

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