CN218320211U - Binding mechanism for building electromechanical installation process - Google Patents

Abstract

The utility model provides a ligature mechanism for building electromechanical installation, include: the hoist and mount head is fan-shaped setting three connecting portion of hoist and mount head lower extreme set up two last support frames of hoist and mount head and rotate and set up two operation portion on the support frame, hoist and mount head can only act on a direction or a point in building electromechanical device's hoist and mount point among the prior art, let building electromechanical device be not high at the protectiveness of hoist and mount process, shift easily and cause the potential safety hazard in hoist and mount in-process, compare with prior art, pull three ligature rope through three connecting portion and fix a position into three angle, make three ligature rope form the even ligature effort of three position to building electromechanical, and the rotatory work through operation portion can three ligature rope one end be twined and reduce the space, carry out stable work of tightening to building electromechanical, its operation process is firmly convenient, efficiency in the improvement hoist and mount work.

Description

Binding mechanism for building electromechanical installation process

Technical Field

The utility model relates to a building electromechanics installation technical field particularly, relates to a ligature mechanism for building electromechanics installation.

Background

The building electromechanical installation engineering comprises an electrical engineering technology, an automatic control and instrument, water supply and drainage, mechanical equipment installation, container installation, heat supply and ventilation and air conditioning engineering, building intelligent engineering, fire engineering, equipment and pipeline corrosion and heat insulation technology and the like.

The existing connecting piece for the electromechanical mounting support and hanger system of the building with the publication number of CN201820281497.2 is adopted as one part of a diagonal pulling device for improving the structural stability of the electromechanical mounting support and hanger system of the building, and plays a role of positioning the diagonal pulling device, so that the anti-seismic performance of the electromechanical mounting support and hanger system of the building is improved through the diagonal pulling device.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a ligature mechanism for building electromechanical installation to solve above-mentioned problem.

In order to achieve the above object, the embodiment of the utility model provides a ligature mechanism for building electromechanical installation, include: the lifting device comprises a lifting head, three connecting parts arranged at the lower end of the lifting head in a fan shape, two supporting frames arranged on the lifting head and an operating part rotatably arranged on the two supporting frames; three binding ropes are arranged between the operating part and the three connecting parts, wherein the three binding ropes are connected with the operating part; the operation portion is rotated, and the operation portion can drive three binding ropes to be bound, so that the three binding ropes bind the building electromechanical equipment.

Furthermore, the operating part comprises pipe shafts rotatably arranged on the two support frames, square rods transversely inserted in the pipe shafts, vertical holes penetrating the pipe shafts and vertical rods inserted in the vertical holes; the vertical rod is vertically connected with the square rod; the binding mechanism for the building electromechanical installation process further comprises a square cover;

one end of the square rod can be inserted into the square cover, wherein the square cover is arranged on the square rod; the vertical rod is pulled and can drive the square rod to move in the radial direction, so that the square rod is separated from the square cover.

Further, the operating part also comprises two springs which are arranged on the vertical rod in a mirror image manner; an operating panel is arranged at one end of the tubular shaft and is connected to one end of each of the two springs; pulling the vertical rod, two springs can be compressed.

Furthermore, a fixed cylinder is arranged on the hoisting head; the inner wall of the fixed cylinder is in a circular truncated cone shape; three binding ropes are inserted into the fixed cylinder, wherein the three binding ropes are arranged in the fixed cylinder; the fixing barrel is adapted to gather three of the binding strings.

Further, the connecting part comprises a barrel part, a fixed shaft arranged inside the barrel part and a through hole arranged on the barrel part; the binding rope can penetrate through the through hole to be connected with the fixing shaft.

Furthermore, the hoisting head comprises a hook and a frame sleeved on the hook.

Compared with the prior art, the embodiment of the utility model provides a following beneficial effect has:

compared with the prior art, pull three ligature rope through three connecting portion and fix a position into three angle, make three ligature rope to the even ligature effort of three position of building electromechanics formation, and the rotatory work through operating portion can three ligature rope one end be twined and reduce the space, carries out stable work of tightening to building electromechanics, and its operation process is firm convenient, improves the efficiency in the hoist and mount work.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 shows a front view of the structure of the present invention;

fig. 2 shows a schematic view of a part of the operating part of the invention;

fig. 3 shows a perspective view of the operation part of the present invention;

fig. 4 shows a front cross-sectional view of the stationary barrel of the present invention;

fig. 5 shows a cross-sectional view of the connecting portion of the present invention from the bottom.

In the drawings

1. Hoisting the head; 11. a hook; 12. a frame;

2. a connecting portion; 21. a barrel; 22. a fixed shaft; 23. a through hole;

3. a support frame;

4. an operation section; 41. a tubular shaft; 42. a square bar; 43. vertical holes; 44. a vertical rod; 45. a spring;

5. binding a rope;

6. a square cover;

7. a fixed cylinder;

8. and (5) operating a panel.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

Referring to fig. 1, fig. 1 is a schematic front view of the present invention; referring to fig. 2, fig. 2 is a partial schematic view of an operation portion of the present invention; referring to fig. 3, fig. 3 is a perspective view of the operation portion of the present invention; referring to fig. 4, fig. 4 is a front sectional view of the fixing tube of the present invention; referring to fig. 5, fig. 5 is a bottom cross-sectional view of the connecting portion of the present invention; 1-5, a lashing mechanism for use in the electromechanical installation process of a building, comprising: the device comprises a hoisting head 1, three connecting parts 2 arranged at the lower end of the hoisting head 1 in a fan shape, two supporting frames 3 arranged on the hoisting head 1 and an operating part 4 rotatably arranged on the two supporting frames 3; three binding ropes 5 are arranged between the operating part 4 and the three connecting parts 2, wherein; rotatory operation portion 4, operation portion 4 can drive threely 5 bundles of ligature rope, so that three 5 ligature building electromechanical device of ligature rope, it is concrete, hoist and mount head 1 can only act on one direction or one point to building electromechanical device's hoisting point among the prior art, let building electromechanical device be not high at hoist and mount in-process's protectiveness, shift easily and cause the potential safety hazard in hoist and mount in-process, compared with the prior art, pull three ligature rope 5 through three connecting portion 2 and fix a position into three angle, make three ligature rope 5 to the even ligature effort of building electromechanical three position of formation, and can three 5 one end of ligature rope be twined and reduce the space through the rotation work of operation portion 4, carry out stable work of tightening to building electromechanics, its operation process is firmly convenient, improve the efficiency in the hoist and mount work.

Optionally, the operating part 4 includes tube shafts 41 rotatably disposed on the two support frames 3, square rods 42 transversely inserted into the tube shafts 41, vertical holes 43 penetrating through the tube shafts 41, and vertical rods 44 inserted into the vertical holes 43; the vertical rod 44 is vertically connected with the square rod 42; the binding mechanism for the building electromechanical installation process further comprises a square cover 6; one end of the square rod 42 can be inserted into the square cover 6; the pulling montant 44, montant 44 can drive square bar 42 radial movement, so that square bar 42 breaks away from square cover 6, it is concrete, tubular shaft 41 can rotate on two support frames 3, there is the space that holds the rolling of three ligature rope 5 apart from hoist and mount head 1, tubular shaft 41 inner wall shape matches each other with square bar 42 shape, and montant 44 is through erecting hole 43 and tubular shaft 41 interconnect, montant 44 can let square bar 42 along the radial activity of tubular shaft 41 along the radial activity process of erecting hole 43, let square bar 42 break away from square cover 6 and satisfy in the synchronous rotation demand with tubular shaft 41, treat when tubular shaft 41 to the rolling work of three ligature rope 5 ended, the accessible utilizes the operation that square bar 42 alternates square cover 6 again to let the angle of tubular shaft 41 by spacing fixed, can obtain firm positioning action after making three ligature rope 5 rolling.

Optionally, the operating part 4 further comprises two springs 45 arranged on the vertical rod 44 in a mirror image manner; an operating panel 8 is arranged at one end of the tubular shaft 41, and the operating panel 8 is connected to one ends of the two springs 45; the pulling montant 44, two the spring 45 can compress, and is concrete, and the process that square bar 42 breaks away from square cover 6 is the prerequisite condition that two springs 45 compressed, treats that montant 44 is not when being pulled, and two springs 45 release the energy storage and make square bar 42 reset the activity and make up square cover 6 once more, lets the rotation angle of hollow shaft 41 can be by automatic locking, has improved the functional demand that hollow shaft 41 used.

Optionally, a fixed cylinder 7 is arranged on the hoisting head 1; the inner wall of the fixed cylinder 7 is in a circular truncated cone shape; three binding ropes 5 are inserted into the fixed cylinder 7; fixed section of thick bamboo 7 is suitable for the gathering threely the ligature rope 5, it is specific, the shape setting of fixed section of thick bamboo 7 lets three ligature rope 5 segmentation by the direction of being restrained, and the roll-up point that keeps three ligature rope 5 when doing benefit to tubular shaft 41 rotation is close to each other, and the effect when letting three ligature rope 5 roll-up is better.

Optionally, the connecting part 2 comprises a cylinder 21, a fixed shaft 22 arranged inside the cylinder 21 and a through hole 23 arranged on the cylinder 21; the binding rope 5 can penetrate through the through hole 23 to be connected with the fixing shaft 22, specifically, the binding rope 5 can be bound on the fixing shaft 22 through penetrating through the through hole 23, the connecting point at one end of the binding rope 5 is not easy to rub with an external contact object and is damaged, and the service life of the connecting state of one end of the binding rope 5 are prolonged.

Optionally, the hoisting head 1 includes a hook 11 and a frame 12 sleeved on the hook 11, specifically, the frame 12 is detachable from the hook 11, so as to facilitate maintenance and replacement of the frame 12 and related components.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A building ligature mechanism for electromechanical installation process, comprising: the lifting device comprises a lifting head (1), three connecting parts (2) arranged at the lower end of the lifting head (1) in a fan shape, two supporting frames (3) arranged on the lifting head (1) and an operating part (4) rotatably arranged on the two supporting frames (3);

three binding ropes (5) are arranged between the operating part (4) and the three connecting parts (2), wherein;

the operation portion (4) is rotated, the operation portion (4) can drive the three binding ropes (5) to be bound, and therefore the binding ropes (5) can bind the building electromechanical equipment.

2. The ligature mechanism for use in a building electromechanical installation procedure as claimed in claim 1,

the operating part (4) comprises pipe shafts (41) which are rotatably arranged on the two support frames (3), square rods (42) which are transversely inserted in the pipe shafts (41), vertical holes (43) which are arranged on the pipe shafts (41) in a penetrating mode and vertical rods (44) which are inserted in the vertical holes (43);

the vertical rod (44) is vertically connected with the square rod (42);

the binding mechanism for the building electromechanical installation process further comprises a square cover (6);

one end of the square rod (42) can be inserted into the square cover (6);

pulling the vertical rod (44), wherein the vertical rod (44) can drive the square rod (42) to move radially, so that the square rod (42) is separated from the square cover (6).

3. A banding mechanism for the electromechanical installation process of buildings as claimed in claim 2,

the operating part (4) further comprises two springs (45) arranged on the vertical rod (44) in a mirror image manner;

an operating panel (8) is arranged at one end of the tubular shaft (41), and the operating panel (8) is connected to one end of each of the two springs (45);

the vertical rod (44) is pulled, and the two springs (45) can be compressed.

4. A banding mechanism for the building electromechanical installation process as claimed in claim 3,

a fixed cylinder (7) is arranged on the hoisting head (1);

the inner wall of the fixed cylinder (7) is in a circular truncated cone shape;

three binding ropes (5) are inserted into the fixed barrel (7), wherein;

the fixed barrel (7) is adapted to gather three binding strings (5).

5. A banding mechanism for the electromechanical installation process of buildings as claimed in claim 4,

the connecting part (2) comprises a cylinder (21), a fixed shaft (22) arranged inside the cylinder (21) and a through hole (23) arranged on the cylinder (21);

the binding rope (5) can penetrate through the through hole (23) to be connected with the fixing shaft (22).

6. A banding mechanism for the electromechanical installation process of buildings as claimed in claim 5,

the hoisting head (1) comprises a lifting hook (11) and a frame (12) sleeved on the lifting hook (11).

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