CN219885456U - Indoor pipeline installation lifting device - Google Patents

Abstract

The utility model specifically discloses an indoor pipeline installation lifting device, which comprises: a movable chassis; the lifting mechanism is used for driving the cross arm to lift, the lifting mechanism is arranged on the cross arm, and the lifting mechanism is used for clamping a heating pipeline; the hoisting mechanism comprises telescopic arms which are symmetrically arranged on two sides of the cross arm and are horizontally arranged, and a pin shaft is arranged at the telescopic end of each telescopic arm; when in operation, the pin shaft is inserted on the heating pipeline and one end corresponding to the pin shaft. The device can realize quick lifting of the pipeline, does not need to be arranged at the top of a building to set a lifting point, does not influence the structural strength of the top, and can effectively improve the installation efficiency.

Description

Indoor pipeline installation lifting device

Technical Field

The utility model relates to the technical field of urban heating equipment, in particular to an indoor pipeline installation lifting device.

Background

In the building industry, a heating machine room is generally arranged in a basement, heating pipelines from the machine room are large-caliber pipelines, and the pipelines are laid and installed along the beam bottom through hanging brackets as shown in fig. 1. However, existing lifting devices cannot be extended to work in a basement due to basement floor and space constraints.

At present, a common construction method is to drive lifting lugs into a ceiling, and the concrete process is as follows: firstly, installing a part of hanging frame, then arranging temporary hanging points on a top plate to install hanging lugs, lifting each segmented pipeline by using a hand-pulled hoist, and installing the pipeline in place by means of pipeline inclination or inclined pull and the like; however, this approach provides a large number of temporary suspension points that affect the structural strength of the roof and is inefficient to install.

Disclosure of Invention

The utility model aims to provide an indoor pipeline installation lifting device which can rapidly lift a pipeline, does not need to be arranged at the top of a building and has no influence on the structural strength of the top, and the installation efficiency can be effectively improved.

To achieve the above object, the present utility model provides:

an indoor pipeline installation hoisting device is designed, includes:

a movable chassis;

the lifting mechanism is used for driving the cross arm to lift, the lifting mechanism is arranged on the cross arm, and the lifting mechanism is used for clamping a heating pipeline;

the hoisting mechanism comprises telescopic arms which are symmetrically arranged on two sides of the cross arm and are horizontally arranged, and a pin shaft is arranged at the telescopic end of each telescopic arm; when in operation, the pin shaft is inserted on the heating pipeline and at one end corresponding to the heating pipeline.

Further, the movable chassis is provided with a pipe rack.

Further, the lifting mechanism includes:

the guide rail is vertically arranged on the movable chassis, and the cross arm is connected with a sliding seat of the guide rail;

and the first power part is used for driving the cross arm to move along the guide cabinet.

Further, the first power part comprises a screw rod parallel to the guide rail and a driving motor for driving the screw rod to rotate; the nut seat of the screw rod is connected with the cross arm.

Further, the guide rail is mounted on the upright post, and the screw rod is mounted on the upright post.

Further, the telescopic arm includes:

the first arm is fixed on the cross arm;

the second section arm is sleeved at the free end of the first section arm in a sliding manner;

and the second power part is used for driving the second joint arm to slide along the length direction of the first joint arm.

Further, the second power part comprises an electric telescopic rod.

Further, the pin shaft is hinged with the telescopic end through the swing arm.

Further, the anti-toppling mechanism comprises an ejector rod and a third power part, and the third power part is used for driving the ejector rod to lift.

Compared with the background art, the utility model provides the indoor pipeline installation lifting device, the height of a lifting mechanism is reduced through the lifting mechanism until the pins on a pair of telescopic arms can be respectively inserted into two ends of a thermal pipeline, then after the telescopic arms are shortened to finish clamping the thermal pipeline, the cross arm can be lifted through the lifting mechanism so as to drive the thermal pipeline hung on the pins to rise to the required height, and the aim of lifting the thermal pipeline is achieved; after the thermal pipeline is fixed through the hanging frame, the extension of the telescopic arm can be controlled to drive the pin shaft to separate from the thermal pipeline, the position of the device can be moved to the next installation position, and the steps are repeated; in addition, under the condition that the hanging frame is fixed on the top in advance, after the heating pipeline is lifted to the required height, the heating pipeline can be driven to move horizontally along the axial direction through the cooperation of the pair of telescopic arms, and the heating pipeline can be inserted into the hanging frame;

the device can realize quick lifting of the pipeline, does not need to be arranged at the top of a building to set a lifting point, does not influence the structural strength of the top, and can effectively improve the installation efficiency.

Drawings

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

FIG. 1 is an assembly view of a thermodynamic pipe and hanger;

FIG. 2 is a front view of the indoor pipeline installation lifting device of the present utility model;

fig. 3 is a left side view of the indoor pipe installation lifting device of the present utility model.

Wherein:

1. the movable chassis is 2, the pipe support is 3, the heating power pipeline is 4, the pin shaft is 5, the swing arm is 6, the telescopic arm is 7, the second power part is 8, the cross arm is 9, the guide rail is 10, the upright post is 11, the guide sleeve is 12, the ejector rod is 13, the third power part is 14, the first power part is 15, and the screw rod is 15.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The present utility model will be further described in detail below with reference to the drawings and detailed description for the purpose of enabling those skilled in the art to better understand the aspects of the present utility model.

As shown in fig. 2 and 3, an embodiment of the present utility model provides an indoor pipe installation lifting device, including: a movable chassis 1; the lifting mechanism is used for driving the cross arm 8 to lift, the lifting mechanism is arranged on the cross arm 8, and the lifting mechanism is used for clamping the thermal pipeline 3; the hoisting mechanism comprises telescopic arms 6 symmetrically arranged on two sides of a cross arm 8 and horizontally arranged, and a pin shaft 4 is arranged at the telescopic end of each telescopic arm 6; in operation, the pin shaft 4 is inserted into one end of the heat pipe 3 corresponding to the heat pipe.

The movable chassis 1 can move to assist the hoisting mechanism to move to the working position; the hoisting mechanism is arranged on the cross arm 8, so that the hoisting mechanism can synchronously lift along with the cross arm 8 in the vertical direction;

when the lifting device for indoor pipeline installation is applied, the lifting mechanism is used for reducing the height of the lifting mechanism until the pin shafts 4 on the pair of telescopic arms 6 can be respectively inserted into two ends of the thermal pipeline 3, then the transverse arm 8 can be lifted by the lifting mechanism after the telescopic arms 6 are shortened to finish clamping the thermal pipeline 3, so that the thermal pipeline 3 hung on the pin shafts 4 is driven to be lifted to the required height, and the aim of lifting the thermal pipeline 3 is achieved; after the thermal pipeline 3 is fixed by the hanging frame, the extension arm 6 can be controlled to extend so as to drive the pin shaft 4 to separate from the thermal pipeline 3, the device can be moved to the next installation position, and the steps are repeated; in addition, under the condition that the hanging frame is fixed on the top in advance, after the thermal pipeline 3 is lifted to the required height, the thermal pipeline 3 can be driven to move horizontally along the axial direction by the cooperation of the pair of telescopic arms 6, and the thermal pipeline 3 can be inserted into the hanging frame;

the device can realize quick lifting of the pipeline, does not need to be arranged at the top of a building to set a lifting point, does not influence the structural strength of the top, and can effectively improve the installation efficiency.

On the basis of the embodiment, the movable chassis 1 is provided with the pipe placing frame 2, and the pipe placing frame 2 is used for placing a plurality of thermal pipelines 3 to be lifted, so that the thermal pipelines 3 can be carried, the thermal pipelines 3 do not need to be placed along an installation route in advance to be lifted, time and labor are saved, and the installation efficiency can be further improved; in addition, the thermodynamic pipe 3 placed in the pipe holder 2 can function as a counterweight.

On the basis of the above embodiment, the lifting mechanism includes: the guide rail 9 is vertically arranged on the movable chassis 1, and the cross arm 8 is connected with a sliding seat of the guide rail 9; a first power part 14 for driving the cross arm 8 to move along the guide rail 9.

Guiding the lifting direction by using the guide rail 9 and providing lateral supporting force to the cross arm 8 by using the guide rail 9; in operation, the first driving part can drive the cross arm 8 to lift along the guide rail 9.

On the basis of the above embodiment, the first power part 14 includes a screw rod 15 parallel to the guide rail 9 and a driving motor for driving the screw rod 15 to rotate; the nut seat of the screw rod 15 is connected with the cross arm 8;

the screw rod 15 is driven to rotate by a driving motor by utilizing the threaded fit characteristic between the screw rod 15 and the nut seat so as to drive the cross arm 8 connected with the nut seat to lift and further synchronously drive the lifting mechanism to lift.

On the basis of the embodiment, the device further comprises a stand column 10 arranged on the movable chassis 1, wherein the guide rail 9 is arranged on the stand column 10, and the lead screw 15 is arranged on the stand column 10;

preferably, the screw rod 15 is arranged in the inner cavity of the upright post 10, a chute is formed in the side surface of the upright post 10, and the nut seat is arranged in the chute, so that the nut seat is connected with the cross arm 8;

wherein, the nut seat is connected with the sliding seat by additionally arranging a U-shaped clamping seat.

On the basis of the above embodiment, the telescopic arm 6 includes: a first arm fixed to the cross arm 8; the second section arm is sleeved at the free end of the first section arm in a sliding manner; and a second power part 7 for driving the second arm section to slide along the length direction of the first arm section.

In particular, the cross-sections of the first and second arms may each be square, and in other embodiments may be provided in other shapes, such as circular.

On the basis of the embodiment, the second power part 7 comprises an electric telescopic rod, a base of the electric telescopic rod is fixed on the cross arm 8, and a piston rod is connected with the second section arm; during operation, the second section arm is driven to slide along the first section arm through the telescopic action of the electric telescopic rod, so that the telescopic action of the telescopic arm 6 is completed.

In order to achieve a higher technical effect, on the basis of the embodiment, the pin shaft 4 is hinged with the telescopic end through the swing arm 5;

in operation, the pin shaft 4 can be inserted into the thermal pipeline 3 at a plurality of positions of the pipe rack 2 by swinging the swing arm 5 in a vertical plane, so that the thermal pipeline 3 is not limited to being lifted just below the thermal pipeline 3.

On the basis of the embodiment, the anti-toppling mechanism further comprises an ejector rod 12 and a third power part 13, wherein the third power part 13 is used for driving the ejector rod 12 to lift;

specifically, the ejector rod 12 is vertically arranged, the ejector rod 12 is inserted into the guide sleeve 11 fixed on the upright post 10, and the two are in sliding fit, and when the device works, the ejector rod 12 can be driven to rise through the third power part 13 until the ejector rod 12 extrudes the layer top, so that the device can prevent the thermal pipeline 3 from being hoisted and toppled; the third power part 13 is an electric telescopic rod.

It should be noted that in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

The present utility model has been described in detail above. The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (9)

1. An indoor pipeline installation lifting device, which is characterized by comprising:

a movable chassis;

the lifting mechanism is used for driving the cross arm to lift, the lifting mechanism is arranged on the cross arm, and the lifting mechanism is used for clamping a heating pipeline;

the hoisting mechanism comprises telescopic arms which are symmetrically arranged on two sides of the cross arm and are horizontally arranged, and a pin shaft is arranged at the telescopic end of each telescopic arm; when in operation, the pin shaft is inserted on the heating pipeline and at one end corresponding to the heating pipeline.

2. The indoor pipeline installation lifting device according to claim 1, wherein the movable chassis is provided with a pipe rack.

3. The indoor plumbing installation lifting arrangement of claim 2, wherein the lifting mechanism comprises:

the guide rail is vertically arranged on the movable chassis, and the cross arm is connected with a sliding seat of the guide rail;

and the first power part is used for driving the cross arm to move along the guide cabinet.

4. The indoor pipe installation lifting device of claim 3, wherein the first power part comprises a screw rod parallel to the guide rail and a driving motor for driving the screw rod to rotate; the nut seat of the screw rod is connected with the cross arm.

5. The indoor plumbing fixture of claim 4, further comprising a post mounted to the movable chassis, the guide rail being mounted to the post and the lead screw being mounted to the post.

6. The indoor plumbing installation lifting arrangement of claim 1, wherein the telescoping arm comprises:

the first arm is fixed on the cross arm;

the second section arm is sleeved at the free end of the first section arm in a sliding manner;

and the second power part is used for driving the second joint arm to slide along the length direction of the first joint arm.

7. The indoor plumbing installation lifting arrangement of claim 6, wherein the second power section includes an electric telescopic rod.

8. The indoor plumbing fixture according to claim 6 or 7, wherein the pin is hinged to the telescoping end by a swing arm.

9. The indoor plumbing fixture of claim 5, further comprising an anti-toppling mechanism comprising a ram and a third power portion, the third power portion configured to drive the ram up and down.