CN108408662B

CN108408662B - Building outer layer translation lift

Info

Publication number: CN108408662B
Application number: CN201810452240.3A
Authority: CN
Inventors: 杨迎新; 费冬妹
Original assignee: Jiangsu Zhifei Construction Co ltd
Current assignee: Jiangsu Zhifei Construction Co ltd
Priority date: 2018-05-12
Filing date: 2018-05-12
Publication date: 2023-10-31
Anticipated expiration: 2038-05-12
Also published as: CN108408662A

Abstract

The invention discloses a building outer layer translation lifter, comprising: the sliding head is connected with a motor to control the sliding head to move back and forth on the roof sliding rail; the side surface of the rack is fixedly provided with a rack sliding rail, at least one telescopic arm is embedded in the rack sliding rail through a folding knob, the telescopic arm comprises an outer rod, a spring is arranged in the outer rod, and an inner rod is sleeved in the outer rod; the edge part of the top of the outer rod is fixedly provided with a folding knob; the push rod is arranged at the top of the outer rod, the push rod penetrates into the outer rod, and the universal wheel and the sucker are fixed at the bottom end of the inner rod through the rotating piece. The elevator frame can be moved from one building mouth unit to another building mouth unit, can be directly completed in the air, does not need to be lowered to the ground for adjustment, and is simple and convenient.

Description

Building outer layer translation lift

Technical Field

The invention relates to the technical field of elevator control equipment, in particular to a translation elevator for an outer layer of a building.

Background

In the outdoor air conditioner installation and maintenance of high-rise houses, and in the working of floor wall painting, heat preservation treatment, glass cleaning and the like, the conventional outdoor building elevator is essentially applied to an outdoor building elevator, and the conventional outdoor building elevator is hung down from a top layer by fixing ropes, so that an elevator frame is easy to collide with a floor wall or floor glass in the use process, and unnecessary loss is caused. To avoid this problem, the general process is to use a rope to tie down on the elevator frame to pull out to prevent collision, which is both cumbersome and unsafe.

Disclosure of Invention

The invention aims to provide a translation lifter for an outer layer of a building, which solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: a building outer layer translational elevator comprising: the frame, the slip head, roof slide rail is connected through the cable wire between frame and the slip head, wherein: the roof sliding rail is arranged at the outer edge of the roof, the sliding head and the roof sliding rail are provided with teeth which are matched with each other, and the sliding head is connected with a motor to control the sliding head to move back and forth on the roof sliding rail; the side surface of the rack is fixedly provided with a rack sliding rail, at least one telescopic arm is embedded in the rack sliding rail through a folding knob, the telescopic arm comprises an outer rod, a spring is arranged in the outer rod, and an inner rod is sleeved in the outer rod; the edge part of the top of the outer rod is fixedly provided with a folding knob; the push rod is arranged at the top of the outer rod, the push rod penetrates into the outer rod, and the universal wheel and the sucker are fixed at the bottom end of the inner rod through the rotating piece. The folding knob is of a spherical structure, and is embedded into the rack sliding rail to form a movable universal joint.

The fixed mounting is welding.

The rotating piece rotates at right angles to the direction of the inner rod.

The sucking disc is provided with a ventilation valve, and the ventilation valve is connected with the push rod through a connecting line.

The periphery of the folding knob is surrounded and clamped by a locating clamp.

The motor is arranged in the frame and connected with the control panel, and the motor is connected with a steel cable for fixing the frame to provide upward and downward power.

Compared with the prior art, the invention has the following beneficial effects: in the use process, the elevator frame moves from one building mouth unit to the other building mouth unit and can be directly completed in the air without lowering to the ground for adjustment; the telescopic arm of the frame is arranged to enable the sliding head of the roof to be arranged close to the building, so that the moment is reduced, and the sliding head is safer. The spring is arranged in the telescopic arm, so that collision to the building outer wall is effectively reduced, and the telescopic arm can adapt to outer wall structures of different structures; the folding knob is arranged at the top of the outer rod of the telescopic arm, and is of a spherical structure, and the folding knob is embedded into the rack sliding rail to form a movable universal joint, so that the telescopic arm can move on the rack sliding rail and can be folded left and right. The telescopic arm moves to enable the lifter to avoid unsuitable environments such as glass, and the telescopic arm is folded to enable the storage space to be reduced when the elevator is not used. The universal wheel and the sucking disc are fixed to the inner rod bottom through the rotating piece, the rotating piece is perpendicular to the inner rod direction and rotates at right angles, the rotating piece rotates to the universal wheel to contact the wall to conveniently move to reduce friction resistance when moving normally, and the rotating piece rotates to the sucking disc to contact the wall to be fixed to the stabilizing frame when not moving to work.

Drawings

FIG. 1 is an overall block diagram of a frame of the present invention;

fig. 2: the telescopic arm fixes a use state diagram;

fig. 3: the telescopic arm moves a using state diagram;

FIG. 4 is a view showing the overall construction of the elevator of the present invention;

in the figure, 1, a rack; 2. an outer rod; 3. folding the knob; 4. an inner rod; 5. a universal wheel; 6. a motor; 7. a control panel; 8. a rack slide rail; 9. a slider; 10. Roof sliding rails; 11 springs; 12 sucking discs; 13 pushing rod; 14 a rotating member; 15 locating clips.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Example 1: referring to fig. 1-4, the present invention provides a technical solution: a building outer layer translational elevator comprising: a frame 1, a sliding head 9; roof rail 10; the frame is connected with the sliding head through a steel cable, the roof sliding rail 10 is arranged at the outer edge of the roof, the sliding head 9 and the roof sliding rail 10 are provided with teeth matched with each other, and the sliding head is connected with a motor to control the sliding head to move back and forth on the roof sliding rail; the side of the frame is fixedly provided with a frame sliding rail 8, 2 telescopic arms (the other number can be 2 optimally) are embedded in the frame sliding rail 8 through folding knobs 3, each telescopic arm comprises an outer rod 2, a spring 11 is arranged in the outer rod, and an inner rod 4 is sleeved in the outer rod 2; the folding knob 3 is fixedly arranged at the edge part of the top of the outer rod 2; the folding knob is of a spherical structure, and is embedded into the rack sliding rail to form a movable universal joint. The periphery of the folding knob is surrounded and clamped by a locating clamp. The positioning clamp is loosened when the telescopic arm moves, and the positioning clamp is clamped when the telescopic arm is fixed. The top of the outer rod 2 is provided with a push rod 13 which goes deep into the outer rod, and the bottom end of the inner rod 4 is provided with a universal wheel 5 and a sucker 12 through a rotating piece 14.

The universal wheel and the sucking disc are fixed to the inner rod bottom through the rotating piece, the rotating piece is perpendicular to the inner rod direction and rotates at right angles, the rotating piece rotates to the universal wheel to contact the wall to conveniently move to reduce friction resistance when moving normally, and the rotating piece rotates to the sucking disc to contact the wall to be fixed to the stabilizing frame when not moving to work.

The motor is arranged in the frame and connected with the control panel, and the motor is connected with a steel cable for fixing the frame to provide upward and downward power. Because moment and safety's consideration, do not stretch out the roof when roof rope connects the frame, can receive self gravity influence after the lift lifts up like this, decompose into to the force that points to the wall direction, do not control the frame and can collide with the building skin, the in-process of rising is in advance with rotating member 14 rotatory to the universal wheel contact wall, there is the spring in the outer pole, the buffering collision, simultaneously when preventing the collision, the universal wheel is convenient to remove. In consideration of different structures of the outer walls of the floors, the telescopic arms move on the rack sliding rails, and suitable places are adjusted to avoid unsuitable contact positions such as glass. When the rotary piece is lifted to the fixed position for operation, the rotary piece is rotated to the sucker position fixing rack, so that the rotary piece plays a role in stabilizing.

In the use, the lift frame removes to another building mouth unit from a building mouth unit, and is direct can accomplish in the sky, need not to descend to ground adjustment, and slider 9 and roof slide rail 10 have the tooth of mutually supporting, and the slider is connected with motor control slider and reciprocates on the roof slide rail, and the rope drives the lift frame, and the flexible arm front end universal wheel above the frame removes on the wall, reduces friction, moves to suitable position tight slider motor and closes. (in practice, the motor controls the sliding head to move to a certain position due to the longer rope, and then moves back).

The state adjustment of flexible arm in the operation, when setting up two flexible arms, (1) universal wheel sucking disc: when one of the telescopic arms is adjusted, the push rod of the other telescopic arm is pushed first, so that the telescopic arm to be adjusted is not stressed, the telescopic arm is rotated left and right to a proper position, the rotary part is adjusted to the direction of the sucker, and the rotary part is rotated back to the initial position. (2) sucker rotary universal wheels: when one of the telescopic arms is adjusted, the push rod of the other telescopic arm is pushed first, so that the telescopic arm to be adjusted is not stressed, the pull connecting line pulls the upper ventilation valve of the sucker open, the sucker is released, the telescopic arm is rotated to a proper position left and right, the rotating piece is adjusted to the direction of the universal wheel, and the telescopic arm is rotated back to the initial position.

It should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to specific embodiments, and that the embodiments may be combined appropriately to form other embodiments that will be understood by those skilled in the art.

Claims

1. A building outer layer translational elevator comprising: a frame (1), a sliding head (9); a roof rail (10); the frame is connected with the sliding head through a steel cable, and is characterized in that: the roof sliding rail (10) is arranged at the outer edge of the roof, the sliding head (9) and the roof sliding rail (10) are provided with teeth matched with each other, and the sliding head is connected with a motor to control the sliding head to move back and forth on the roof sliding rail; the side of the frame is fixedly provided with a frame sliding rail (8), at least one telescopic arm is embedded in the frame sliding rail (8) through a folding knob (3), the telescopic arm comprises an outer rod (2), a spring (11) is arranged in the outer rod (2), and an inner rod (4) is sleeved in the outer rod (2); the folding knob (3) is fixedly arranged at the edge part of the top of the outer rod (2); the top of the outer rod (2) is provided with a push rod (13), the push rod (13) stretches into the outer rod, the bottom end of the inner rod (4) is provided with a universal wheel (5) and a sucker (12) through a rotating piece (14), the sucker (12) is provided with a ventilation valve, and the ventilation valve is connected with the push rod (13) through a connecting line; the folding knob is spherical structure, forms mobilizable universal joint in folding knob imbeds the frame slide rail, the perpendicular interior pole direction of rotating member (14) is right angle rotation, and the state adjustment of flexible arm in the operation is when setting up two flexible arms, universal wheel sucker: when one telescopic arm is adjusted, the push rod of the other telescopic arm is pushed first, so that the telescopic arm to be adjusted is not stressed, the telescopic arm is rotated left and right to a proper position, the rotary part is adjusted to the direction of the sucker, and the rotary part is rotated back to the initial position; sucking disc changes universal wheel: when one of the telescopic arms is adjusted, the push rod of the other telescopic arm is pushed first, so that the telescopic arm to be adjusted is not stressed, the pull connecting line pulls the upper ventilation valve of the sucker open, the sucker is released, the telescopic arm is rotated to a proper position left and right, the rotating piece is adjusted to the direction of the universal wheel, and the telescopic arm is rotated back to the initial position.

2. A building outer layer translational elevator according to claim 1, wherein: the fixed mounting is welding.

3. A building outer layer translational elevator according to claim 1, wherein: the periphery of the folding knob (3) is surrounded and clamped by a positioning clamp (15).

4. A building outer layer translational elevator according to claim 1, wherein: the motor (6) is arranged in the frame and connected with the control panel (7), and the motor is connected with a steel cable for fixing the frame and provides upward and downward power.