CN217711801U - High-stability protection device for high-rise building construction - Google Patents

Abstract

The utility model discloses a high stable high building protection device for construction relates to building engineering technical field. The utility model discloses a storage box, elastic friction pad has been installed to one side of storage box, and storage box normal running fit has two to stick up pole and two clamping bars, is fixed with a motor, and elastic friction pad locates between two clamping bars, sticks up for two and is connected with the haulage rope between the pole, and the haulage rope winding is on the output of motor, and sticks up pole and clamping bar and mutually support. The utility model discloses an elastic friction pad that sets up can play the buffering friction effect to storage box when upwards transporting to slide to improve the stability when storage box removes, when reducing storage box and removing, because of rocking the condition that leads to inside breakable article to damage, thereby reduce the expense of construction, through the motor that sets up, can drive the clamping bar through haulage rope and stick up the pole and rotate, and carry out the centre gripping to elastic friction pad.

Description

High-stability protection device for high-rise building construction

Technical Field

The utility model belongs to the technical field of building engineering, especially, relate to a high stable protection device for high building construction.

Background

The building construction refers to production activities in the engineering construction implementation stage, is the construction process of various buildings, and also can be a process of changing various lines on design drawings into real objects at specified places.

When transporting articles to a building platform, a crane is mostly installed at the top of a building, the articles are transported to the building platform through the crane, and when transporting the articles, the crane is easy to shake, so that the damage rate of the transported articles is improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high stable high building protection device for construction has solved current when moving article to building platform, causes the technical problem of harm to article easily.

In order to achieve the purpose, the utility model is realized by the following technical proposal:

the utility model provides a high stable high building protection device for construction, includes: the storage box is provided with an elastic friction pad at one side;

the storage box is rotationally matched with two warping rods and two clamping rods and is fixed with a motor, the elastic friction pad is arranged between the two clamping rods, a traction rope is connected between the two warping rods and is wound on the output end of the motor, and the warping rods and the clamping rods are mutually matched.

Optionally, the end, close to each other, of each warping rod and each clamping rod is of an L-shaped structure, the two L-shaped structures are matched with each other, and a telescopic rod is arranged between the two L-shaped structures in a rotating matching mode.

Optionally, the motor is located the bottom of storage box, and control assembly has been installed to the motor, and control assembly corresponds with the motor.

Optionally, a storage groove is formed in the storage box, the bottom of the storage box is of a conical structure, a push rod groove is formed in the top of the conical structure, a push rod is arranged in the push rod groove in a sliding fit mode, a storage plate is arranged at the bottom of the storage groove, and the push rod corresponds to the control assembly.

Optionally, storage box downside elastic fit has the connecting plate, and the shock attenuation board has been installed to the connecting plate downside, and first shock attenuation board downside elastic fit has the second shock attenuation board, has installed the bumper shock absorber between first shock attenuation board and the second shock attenuation board.

Optionally, an L-shaped fixing groove is formed in the second damping plate, a pull rod is fixed to the lower side of the first damping plate, the pull rod extends into the L-shaped fixing groove, an elastic collision bead is arranged on one side of the pull rod, and the elastic collision bead corresponds to the L-shaped fixing groove.

The embodiment of the utility model has the following beneficial effects:

the utility model discloses an embodiment is through the elastic friction pad that sets up, can play buffering friction effect when upwards transporting to the storage box and sliding, thereby stability when improving the storage box and removing, when reducing the storage box and removing, because of rocking the condition that leads to inside fragile article to damage, thereby promote the stability of storage box, reduce the expense of construction, through the motor that sets up, can drive the clamping bar through haulage rope and stick up the pole and rotate, and carry out the centre gripping to the elastic friction pad, thereby can reduce the speed when the storage box drops, thereby further protect inside article.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of a storage box according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a storage box according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a damping device according to an embodiment of the present invention;

FIG. 4 is a schematic view of the structure at A in FIG. 3;

fig. 5 is a schematic structural diagram of the motor and the ejector rod according to an embodiment of the present invention.

Wherein the figures include the following reference numerals:

the storage box 3, the elastic friction pad 301, the storage plate 302, the motor 303, the control assembly 304, the top rod 305, the traction rope 401, the tilting rod 402, the clamping rod 403, the first damping plate 501, the second damping plate 502, the connecting plate 503, the first spring 504, the second spring 505, the pull rod 601, the elastic collision bead 602 and the L-shaped fixing groove 603.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

To maintain the following description of the embodiments of the present invention clear and concise, detailed descriptions of well-known functions and components may be omitted.

Referring to fig. 1 to 5, in this embodiment, a protection device for high-stability building construction is provided, which includes: storage box 3, one side of storage box 3 is equipped with elasticity friction pad 301, and 3 normal running fit in storage box have two stick up pole 402 and two clamping bar 403, be fixed with a motor 303, and elasticity friction pad 301 locates between two clamping bar 403, stick up two and be connected with haulage rope 401 between the pole 402, and haulage rope 401 twines on the output of motor 303, and sticks up pole 402 and clamping bar 403 and mutually support.

The application of one aspect of the embodiment is as follows: when in material transportation process, storage box 3 takes place when falling, motor 303 starts, rotate through motor 303 output and twine haulage rope 401, thereby pulling haulage rope 401, make two tip of sticking up pole 402 of haulage rope 401 pulling, stick up pole 402 and rotate, make stick up pole 402 and extrude the one end of clamping bar 403, promote, then clamping bar 403 rotates, and make two clamping bar 403 extrude elasticity friction pad 301, the centre gripping, thereby reduce the speed that storage box 3 falls, can protect its inside material. It should be noted that all the electric devices involved in the present application may be powered by a storage battery or an external power source.

Referring to fig. 2, the end of the tilting rod 402 and the clamping rod 403 close to each other are both L-shaped structures, and the two L-shaped structures are matched with each other, and a telescopic rod is rotatably matched between the two L-shaped structures.

When in material transportation process, storage box 3 takes place when falling, motor 303 starts, rotate through motor 303 output and twine haulage rope 401, thereby pulling haulage rope 401, make haulage rope 401 remove, two tip of stick up pole 402 of haulage rope 401 pulling, stick up pole 402 and rotate, make two L shape structures extrude each other, promote, make stick up pole 402 and promote the telescopic link, then the telescopic link promotes clamping bar 403, make clamping bar 403 rotate, and make two clamping bar 403 extrude elastic friction pad 301, the centre gripping, thereby reduce the speed that storage box 3 falls, can protect its inside material.

Referring to fig. 4, a connecting plate 503 is elastically fitted to a lower side of the storage box 3 of the present embodiment, a shock absorbing plate 501 is mounted to a lower side of the connecting plate 503, a second shock absorbing plate 502 is elastically fitted to a lower side of the first shock absorbing plate 501, and a shock absorber is mounted between the first shock absorbing plate 501 and the second shock absorbing plate 502, wherein the shock absorber is a damping shock absorber in the prior art, a first spring 504 is mounted in the connecting plate 503, a plurality of second springs 505 are fixed to one side of the second shock absorbing plate 502, and the second springs 505 are elastically fitted to the first shock absorbing plate 501.

When storage box 3 falls from lower height, produce great impact force when storage box 3 falls to the ground, the second shock attenuation board 502 of storage box 3 downside at first contacts ground, then storage box 3 continues downstream, make storage box 3 drive connecting plate 503 push down, thereby connecting plate 503 drives first shock attenuation board 501 and pushes down, make first shock attenuation board 501 and second shock attenuation board 502 extrude damping shock absorber and second spring 505, storage box 3 extrudees the first spring 504 in the connecting plate 503, thereby damping shock absorber, second spring 505, first spring 504 carries out the shock attenuation to storage box 3.

Referring to fig. 4, an L-shaped fixing groove 603 is formed in the second damping plate 502 of the present embodiment, a pull rod 601 is fixed on the lower side of the first damping plate 501, the pull rod 601 extends into the L-shaped fixing groove 603, an elastic striking ball 602 is installed on one side of the pull rod 601, and the elastic striking ball 602 corresponds to the L-shaped fixing groove 603.

After the storage box 3 falls to the ground, a large impact force is generated when the storage box 3 falls to the ground, the second damping plate 502 on the lower side of the storage box 3 firstly contacts the ground, then the storage box 3 continues to move downwards, so that the storage box 3 drives the connecting plate 503 to press downwards, the connecting plate 503 drives the first damping plate 501 to press downwards, the first damping plate 501 and the second damping plate 502 extrude the damping shock absorber and the second spring 505, the storage box 3 extrudes the first spring 504 in the connecting plate 503, meanwhile, the first damping plate 501 presses down the pull rod 601, the pull rod 601 drives the elastic collision bead 602 to move downwards in the vertical groove, the elastic collision bead 602 enters the horizontal groove, then the elastic collision bead 602 elastically rebounds, so that the elastic collision bead 602 is fixed in the horizontal groove, then the first spring 504 and the second spring 505 elastically rebounds due to the impact force, so that the first damping plate 501 pulls the pull rod 601 to move upwards, the pull rod 601 drives the elastic collision bead 602 to elastically compress into the vertical groove again, the purpose of losing a part of component force is achieved, the object box is achieved by the elastic collision of the elastic bead 602 in the horizontal groove and the elastic groove, and the object box 3, and the purpose of buffering is achieved.

Referring to fig. 5, the motor 303 of the present embodiment is located at the bottom of the storage box 3, the motor 303 is provided with a control component 304, and the control component 304 corresponds to the motor 303.

Wherein, control assembly 304 is the speedtransmitter sensor among the prior art, and when the storage box falls, the sensor sends the response and judges, and driving motor 303 rotates, makes motor 303 output rotate and twine haulage rope 401.

Referring to fig. 5, a storage box 3 of the present embodiment is provided with a storage slot, the bottom of the storage box 3 is a conical structure, the top of the conical structure is provided with a push rod slot, a push rod 305 is slidably fitted in the push rod slot, the bottom of the storage slot is provided with a storage plate 302, and the push rod 305 corresponds to the control assembly 304.

The control component 304 is a push switch in the prior art, the length of the push rod 305 does not exceed the push rod groove, when the storage box falls, air flow at the lower part of the storage box 3 enters the push rod groove from a conical structure, then the push rod 305 in the push rod groove is jacked up to push the push switch, and then the push switch controls the motor 303 to start.

Example 1: for better transport of the goods, two alternative embodiments are provided in this example.

Embodiment 1.1, in this embodiment, the object placing plate 302 has an object placing groove opened on the upper side, and the object placing groove can be used for placing smaller articles.

Embodiment 1.2, in this embodiment, the second motor 2 upside is equipped with the PLC, and PLC and second motor 2 electricity is connected, PLC with be used for controlling the rotational speed and the switch of second motor 2.

The above embodiments may be combined with each other.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the accompanying drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated by the orientation words such as "front, back, up, down, left, right", "horizontal, vertical, horizontal" and "top, bottom" etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and in the case of not making a contrary explanation, these orientation words do not indicate and imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be interpreted as limiting the scope of the present invention; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

Claims (6)

1. The utility model provides a high stable high building protection device for construction which characterized in that includes: the storage box (3), one side of the storage box (3) is provided with an elastic friction pad (301);

rotating fit in the storage box (3) is provided with two warping rods (402) and two clamping rods (403), a motor (303) is fixed, an elastic friction pad (301) is arranged between the two clamping rods (403), a traction rope (401) is connected between the two warping rods (402), the traction rope (401) is wound on the output end of the motor (303), and the warping rods (402) and the clamping rods (403) are matched with each other.

2. The high-stability protection device for high-rise building construction as claimed in claim 1, wherein the ends of the raising rod (402) and the clamping rod (403) close to each other are both L-shaped structures, the two L-shaped structures are mutually matched, and the telescopic rod is rotatably matched between the two L-shaped structures.

3. A high-stability protection device for high-rise building construction as claimed in claim 1, wherein the motor (303) is located at the bottom of the storage box (3), the motor (303) is provided with a control assembly (304), and the control assembly (304) corresponds to the motor (303).

4. The protection device for high-stability high-rise building construction according to claim 3, wherein a storage slot is arranged in the storage box (3), the bottom of the storage box (3) is of a conical structure, a top rod slot is arranged at the top of the conical structure, a top rod (305) is slidably fitted in the top rod slot, a storage plate (302) is arranged at the bottom of the storage slot, and the top rod (305) corresponds to the control component (304).

5. The high-stability protection device for building construction according to claim 1, wherein a connection plate (503) is elastically fitted to the lower side of the storage box (3), a damping plate (501) is fitted to the lower side of the connection plate (503), a second damping plate (502) is elastically fitted to the lower side of the first damping plate (501), and a damper is installed between the first damping plate (501) and the second damping plate (502).

6. The high-stability protective device for building construction as claimed in claim 5, wherein the second damping plate (502) has an L-shaped fixing groove (603) formed therein, the first damping plate (501) has a pull rod (601) fixed to a lower side thereof, the pull rod (601) extends into the L-shaped fixing groove (603), one side of the pull rod (601) is provided with an elastic collision bead (602), and the elastic collision bead (602) corresponds to the L-shaped fixing groove (603).

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