CN219314288U - Building material lifting device for high-rise building construction - Google Patents

Abstract

The utility model discloses a building material lifting device for high-rise building construction, which comprises a machine body, a protection mechanism, protection windows, guardrail doors, a cleaning column and a top plate, wherein the protection mechanism is arranged at the top end of the machine body.

Description

Building material lifting device for high-rise building construction

Technical Field

The utility model relates to the field of building related, in particular to a building material lifting device for high-rise building construction.

Background

The building construction material hoister is a conveying device for vertically conveying workers or building materials and goods on a building site, is usually matched with a tower crane to be used on the building site, and has a general carrying capacity of about two tons, so that the building construction material hoister is faster and safer than manual conveying.

Current chinese patent application number: the utility model provides a material lifting device of CN201711352250.1, includes the cover body, be equipped with fixed frame on the cover body, be equipped with the T-shaped groove on the fixed frame, install the baffle in the T-shaped groove, install the covering plate on the cover body, the lower extreme of the cover body is equipped with the camera bellows, the left end of camera bellows is equipped with the hollow tube, and the mount is installed to the lower extreme of the cover body, the middle part symmetry of mount is equipped with the stopper, the baffle is installed to the upper end of stopper, helps the fixed of baffle through setting up the T-shaped groove, through the mounted position and the operating personnel location installation of the stopper restriction cover body that have the baffle.

However, because in the high floor of building site, its staff can produce more rubble when carrying out construction work, construction equipment and ground or wall contact back, these rubble can splash because of the collision everywhere, and some rubble can fall down from the high altitude, and the material promotes just is one of personnel transportation material route, the rubble that falls down in the high altitude can produce stronger impact force because of gravity acceleration, cause the influence to personnel easily, and above-mentioned current patent can't carry out effective protection to material hoisting device and personnel, goods, can make the rubble that falls pile up on material hoisting device top on the contrary, still probably can cause the device to rock because of the collision, make the rubble that piles up on the device top drop for the second, lead to the emergence of incident.

There is an urgent need to redesign a building material lifting device for high-rise building construction to solve the above problems.

Disclosure of Invention

Therefore, in order to solve the defects, the utility model provides a building material lifting device for high-rise building construction.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a building material hoisting device of high-rise building construction, includes organism, protection machanism, protection window, guardrail door, clears away post, roof, the protection window builds in the connection at the organism front end, guardrail door articulates between the protection window, the roof sets up in the organism top, it is in organism front end right side position to clear away post fixed connection, protection machanism sets up on the organism top, protection machanism is including accomodating groove, electronic box, spring plate mechanism, support column, support frame, placing the board, accomodate groove fixed connection in the support frame both sides, spring plate mechanism sets up on the support frame top, support column bolted connection is inside the support frame, and is in spring plate mechanism below, the electronic box sets up and is placing the board top, place board fixed connection in the support frame below, place the board and be connected with the top of organism top.

Preferably, the storage groove of the protection mechanism is at least provided with two parts and is arranged on two sides of the support frame, and the top end of the storage groove is of an inverted cone structure.

Preferably, the spring plate mechanism comprises a buffer mechanism, a spring, a baffle plate, a sponge body and a placing plate, wherein the buffer mechanism is arranged below the baffle plate and is connected above the placing plate in a matched spring mode, the sponge body is filled in the placing plate, and the placing plate is connected with the top end of the supporting frame.

Preferably, the baffle adopts nitrile rubber material, and the laminating is in buffer gear top, the cavernosum adopts wave cotton material, and sets up in the spring outside, the spring adopts high carbon steel material, fixes in place the board top.

Preferably, the buffer gear includes buffer plate, connecting plate, brace, propping piece, the buffer plate sets up in the spring top, the connecting plate is connected with between brace and the baffle, prop piece fixed connection in the buffer plate top, the brace sets up in propping piece top inside position.

Preferably, the supporting piece is made of beryllium copper, and the supporting piece and the brace are at least provided with ten parts and uniformly encircle below the baffle.

Preferably, the brace comprises a joint ring, a short spring coil and a long spring coil, wherein the short spring coil and the long spring coil are connected on four sides of the joint ring in a nested manner.

Preferably, the short spring coils and the long spring coils are made of natural latex.

The utility model has the beneficial effects that:

according to the utility model, when broken stones fall from a high place, broken stones are hit above the baffle plate of the spring plate mechanism, smaller broken stones slide down to the storage grooves at the lower part along the inclination of the baffle plate, when larger broken stones fall, the broken stones are hit above the baffle plate, the baffle plate drives the springs to compress downwards, the impact of falling broken stones is dispersed around the baffle plate, the braces at the inner layer of the baffle plate can stretch to two sides due to the compression of the baffle plate, the dispersion of impact force is further accelerated, and finally the broken stones fall down to the storage grooves at the two sides along the inclination angle of the baffle plate, so that the potential safety hazard caused by high-altitude broken stones is effectively solved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic side view of the guard mechanism of the present utility model;

FIG. 3 is a schematic cross-sectional view of the spring plate mechanism of the present utility model;

FIG. 4 is a schematic view of a partially cut-away structure of a cushioning mechanism of the present utility model;

FIG. 5 is a schematic top view of the riblet of the present utility model.

Wherein: the protective device comprises a machine body-1, a protective mechanism-2, a protective window-3, a guardrail door-4, a cleaning column-5, a top plate-6, a storage groove-21, an electric box-22, a spring plate mechanism-23, a support column-24, a support frame-25, a placing plate 26, a buffer mechanism-231, a spring-232, a baffle-233, a sponge body-234, a placing plate-235, a buffer plate 2311, a connecting plate 2312, a brace-2313, a brace-2314, a joint ring-a 1, a short spring coil-a 2 and a long spring coil-a 3.

Detailed Description

In order to further explain the technical scheme of the utility model, the following is explained in detail through specific examples.

Referring to fig. 1-2, the utility model provides a building material lifting device for high-rise building construction, which comprises a machine body 1, a protection mechanism 2, a protection window 3, a guardrail door 4, a cleaning column 5 and a top plate 6;

the protection window 3 is fixedly connected to the front end of the machine body 1 in a embedding way, the guardrail doors 4 are hinged between the protection windows 3, the top plate 6 is arranged above the machine body 1, the cleaning column 5 is fixedly connected to the right side of the front end of the machine body 1, and the protection mechanism 2 is arranged at the top end of the machine body 1;

the protection machanism 2 includes storage tank 21, electric box 22, spring plate mechanism 23, support column 24, support frame 25, place the board 26 in this embodiment, storage tank 21 fixed connection is in support frame 25 both sides, spring plate mechanism 23 sets up on the support frame 25 top, support column 24 bolted connection is inside support frame 25, and in spring plate mechanism 23 below, electric box 22 sets up and places the board 26 top, place board 26 fixed connection in support frame 25 below, place the board 26 and be connected with the top of organism 1 top, protection machanism 2's storage tank 21 is equipped with two places, and all install in support frame 25 both sides, storage tank 21 top is the inverted cone structure, can be better accomodate the stone that falls down, and reduce the scope that the stone falls outside.

Referring to fig. 3, in this embodiment, the spring plate mechanism 23 includes a buffer mechanism 231, a spring 232, a baffle 233, a sponge 234, and a placement plate 235, wherein the buffer mechanism 231 is disposed below the baffle 233, the buffer mechanism 231 is connected above the placement plate 235 in cooperation with the spring 232, the sponge 234 is filled in the placement plate 235, and the placement plate 235 is connected with the top end of the support frame 25;

in this embodiment, the baffle 233 is made of nitrile rubber, is attached to the upper portion of the buffer mechanism 231, has good wear resistance, is low in elasticity, can reduce the wear degree, and meanwhile avoids the phenomenon that stones are ejected out of the protection mechanism 2 due to rebound, the sponge 234 is made of wavy cotton and is arranged outside the spring 232, so that good shock absorption and noise reduction effects are achieved, the stones are prevented from falling on the baffle 233 and generating noise, damage caused by vibration is reduced, the spring 232 is made of high-carbon steel and is fixed above the placement plate 235, and the impact force of the large stones is further relieved.

Referring to fig. 4, in this embodiment, the buffer mechanism 231 includes a buffer plate 2311, a connecting plate 2312, a brace 2313, and a brace 2314, wherein the buffer plate 2311 is disposed above the spring 232, the connecting plate 2312 is connected between the brace 2313 and the baffle 233, the brace 2314 is fixedly connected above the buffer plate 2311, and the brace 2313 is disposed at an inner position above the brace 2314;

in this embodiment, the supporting piece 2314 is made of beryllium copper, ten positions of the supporting piece 2314 and the supporting piece 2313 are uniformly surrounded below the baffle 233, so that the baffle 233 can be further assisted to improve the buffering capacity and discharge broken stone.

Referring to fig. 5, in this embodiment, the brace 2313 includes a joint ring a1, a short spring coil a2 and a long spring coil a3, the short spring coil a2 and the long spring coil a3 are nested and connected on four sides of the joint ring a1, the short spring coil a2 and the long spring coil a3 are made of natural latex, and have a certain stretchability and toughness, so that the broken stone can be effectively unloaded, and the problem that the baffle 233 cannot continuously unload force is avoided.

The working principle is as follows:

when broken stones fall from a high place, the broken stones are hit above the baffle plate 33 of the elastic plate mechanism 23, and as the baffle plate 233 is of a semicircular structure, smaller broken stones firstly slide down to the storage groove 21 below along the inclination of the baffle plate 233, the top end of the storage groove 21 is of an inverted cone structure, so that the falling broken stones can be better stored, the range of the falling stones outside is reduced, and the baffle plate 233 is made of nitrile rubber and is attached above the buffer mechanism 231, so that the elastic energy-saving stone protecting mechanism has good wear resistance, the degree of wear can be reduced, and the phenomenon that the broken stones are ejected out of the protecting mechanism 2 due to rebound is avoided;

when larger broken stones fall, the broken stones are firstly hit above the baffle 233, the baffle 233 drives the springs to compress downwards, the impact of the falling broken stones is dispersed to the periphery of the baffle 233, the sponge 234 in the elastic plate mechanism 23 is made of wave cotton and is arranged outside the springs 232, so that good shock absorption and noise reduction effects are achieved, the occurrence of noise caused by falling stones on the baffle 233 is avoided, the damage caused by vibration is reduced, the springs 232 are made of high-carbon steel and fixed above the placing plates 235, and the impact force of large stones is further relieved;

moreover, the brace 2313 on the inner layer of the baffle 233 can be stretched to two sides due to compression of the baffle 233, the short spring coil a2 and the long spring coil a3 in the brace are made of natural latex, and the brace has certain stretchability and toughness, can effectively unload broken stones, avoids the problem that the baffle 233 cannot continuously unload the force, further accelerates the dispersion of the impact force, wherein the brace 2314 is made of beryllium copper alloy, the brace 2314 and the brace 2313 are provided with ten parts and evenly encircle below the baffle 233, can further assist the baffle 233 in improving the buffering capacity, unload broken stones, and finally enable the broken stones to fall down to the containing grooves 233 on two sides along the inclined angle of the baffle, so that the potential safety hazard caused by high-altitude falling stones can be effectively solved.

The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (8)

1. The utility model provides a building material hoisting device of high-rise building construction, includes organism (1), protection window (3), guardrail door (4), clears away post (5), roof (6), protection window (3) are inlayed and are connected in organism (1) front end, guardrail door (4) are articulated between protection window (3), roof (6) set up in organism (1) top, clear away post (5) fixed connection in organism (1) front end right side position;

the method is characterized in that: still include protection machanism (2), protection machanism (2) set up on organism (1) top, protection machanism (2) are including accomodating groove (21), electronic box (22), spring plate mechanism (23), support column (24), support frame (25), place board (26), accomodate groove (21) fixed connection in support frame (25) both sides, spring plate mechanism (23) set up on support frame (25) top, support column (24) bolted connection is inside support frame (25), and in spring plate mechanism (23) below, electronic box (22) set up in place board (26) top, place board (26) fixed connection in support frame (25) below, place board (26) and the top of organism (1) top and be connected.

2. A building material lifting device for high-rise building construction according to claim 1, wherein: the storage groove (21) of the protection mechanism (2) is at least provided with two parts and is arranged on two sides of the supporting frame (25), and the top end of the storage groove (21) is of an inverted cone structure.

3. A building material lifting device for high-rise building construction according to claim 1, wherein: the spring plate mechanism (23) comprises a buffer mechanism (231), a spring (232), a baffle (233), a sponge body (234) and a placing plate (235), wherein the buffer mechanism (231) is arranged below the baffle (233), the buffer mechanism (231) is connected above the placing plate (235) in cooperation with the spring (232), the sponge body (234) is filled inside the placing plate (235), and the placing plate (235) is connected with the top end of the supporting frame (25).

4. A building material lifting device for high-rise building construction according to claim 3, wherein: the baffle (233) is made of nitrile rubber, is attached to the upper portion of the buffer mechanism (231), the sponge body (234) is made of wavy cotton and is arranged outside the spring (232), and the spring (232) is made of high-carbon steel and is fixed above the placing plate (235).

5. A building material lifting device for high-rise building construction according to claim 3, wherein: buffer gear (231) is including buffer board (2311), connecting plate (2312), brace (2313), brace piece (2314), buffer board (2311) sets up in spring (232) top, connecting plate (2312) connect with brace (2313) and baffle (233) between, brace piece (2314) fixed connection is in buffer board (2311) top, brace (2313) set up in brace piece (2314) top inside position.

6. The building material lifting device for high-rise building construction according to claim 5, wherein: the supporting piece (2314) is made of beryllium copper, and the supporting piece (2314) and the brace (2313) are at least provided with ten parts and uniformly encircle below the baffle plate (233).

7. The building material lifting device for high-rise building construction according to claim 5, wherein: the brace (2313) comprises a joint ring (a 1), a short spring coil (a 2) and a long spring coil (a 3), wherein the short spring coil (a 2) and the long spring coil (a 3) are connected to four sides of the joint ring (a 1) in a nested mode.

8. The building material lifting device for high-rise building construction according to claim 7, wherein: the short spring coil (a 2) and the long spring coil (a 3) are made of natural latex.

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