CN216376104U

CN216376104U - Device for collecting light building materials in lifting mode

Info

Publication number: CN216376104U
Application number: CN202123215345.3U
Authority: CN
Inventors: 杨思皓
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-20
Filing date: 2021-12-20
Publication date: 2022-04-26
Anticipated expiration: 2031-12-20

Abstract

The utility model relates to a device for collecting light building materials in a lifting mode, which comprises an inclined feeding structure, a material storage container, a blowing structure, a separation channel and a collecting room body, wherein the inclined feeding structure is arranged on the upper part of the material storage container; the light-weight type building materials at the bottom position are conveyed to the top position through the feeding structure and then enter the material storage container, then the materials are blown to the direction of the separation channel through the blowing effect of the blowing structure at the position of the buffering barrel body, the materials move upwards along the separation channel, so that the purpose of quickly collecting the light-weight foam type building materials is achieved, and the problem that a forklift cannot complete the process is solved. The collection process is completed as the foam moves from the separation channel into the collection chamber, and the loading vehicle can be completed after the collection is full.

Description

Device for collecting light building materials in lifting mode

Technical Field

The utility model relates to a device for collecting light building materials in a lifting mode, in particular to a device for quickly collecting light garbage materials such as foam materials in the building materials.

Background

In the field of building construction, some new materials emerge endlessly, and some emerging building materials have been widely used and advanced over the years. For example, many foam-type building materials are widely used in some building houses, and these building foams can be used for insulation, filling or local support or auxiliary support. For example, the wall support may be formed by pouring concrete into the interior of the basic support formed by foam-type panels.

That is, in the field of existing building construction, there is a large volume of lightweight foam type that needs to be collected either after the construction is completed or after the building is broken down and destroyed, and then transported to another location for further processing. Since these foam-type building materials are often irregular and have varying shapes, they require substantial processing, typically by crushing them to a certain extent to produce smaller sized foam block-like objects which are then collected in a container to complete the vehicle loading process. However, the number of broken foam-type materials is generally large, the area occupied is large, the work efficiency is very slow if the materials are transferred into the container by means of a forklift or the like, and the materials are very easy to fall down in the bucket of the forklift due to their light weight.

SUMMERY OF THE UTILITY MODEL

The main object of the present invention is to provide a device that facilitates the collection and collection of light-weight foam-type building materials.

In order to achieve the purpose, the utility model provides a device for collecting light building materials in a lifting mode, which comprises an inclined feeding structure, a storage container, an air blowing structure, a separation channel and a collection room body, wherein the inclined feeding structure comprises an inclined conveying belt, the storage container is arranged below an upstream port of the inclined conveying belt, a buffering barrel body is arranged at the bottom of the storage container, the air blowing structure is arranged on the first side of the buffering barrel body and used for providing positive pressure air flow to the buffering barrel body, the second side of the buffering barrel body is connected with a lower port of the separation channel, and the upper end of the separation channel is connected with the top of the collection room body.

The beneficial effect of above-mentioned scheme does: the light-weight type building materials at the bottom position are conveyed to the top position through the feeding structure and then enter the material storage container, then the materials are blown to the direction of the separation channel through the blowing effect of the blowing structure at the position of the buffering barrel body, the materials move upwards along the separation channel, so that the purpose of quickly collecting the light-weight foam type building materials is achieved, and the problem that a forklift cannot complete the process is solved. The collection process is completed as the foam moves from the separation channel into the collection chamber, and the loading vehicle can be completed after the collection is full.

According to a preferred scheme, the feeding structure further comprises a first driving motor, a rotating shaft rod, a driving wheel, a driven wheel and a driven shaft rod which are sequentially connected, the driven shaft rod is sleeved with the inclined conveying belt, the feeding structure further comprises a supporting frame, inclined arc-shaped protection plates are arranged on two sides of the supporting frame through connection of an extending rod body, and the inclined arc-shaped protection plates are respectively located on two sides of the inclined conveying belt.

The beneficial effect of above-mentioned scheme does, and first driving motor provides power and makes the rotatory axostylus axostyle rotate, and the rotatory axostylus axostyle drives the drive wheel and rotates, then makes from the driving wheel rotation, makes the driven axostylus axostyle rotate and drives the conveyer belt of putting to one side afterwards and rotate.

The supporting frame is characterized in that a square frame is arranged in the middle of the supporting frame, an installation piece is arranged in the square frame, the installation piece is connected through a plurality of hinged supporting rollers at two sides, and the plurality of hinged supporting rollers are located below the inclined conveying belt.

According to a preferable scheme, the separation channel comprises a bottom transverse section, an inclined feeding section and a top transverse section, the bottom transverse section is connected with the buffering barrel body, and a plurality of material leaking openings are formed in the inclined feeding section; the inclined feeding section is of a cylindrical structure, an inclined material leaking frame is arranged on the bottom surface of the cylindrical structure, and a material leaking port is formed at the bottom of the inclined material leaking frame. For moisture entrained in the foam material, it is also blown into the inclined feed section at the point of blowing and is separated from the discharge opening in the inclined feed section.

A preferred scheme is that the collecting room body is of a grid structure, the grid structure comprises a plurality of main body frame rods and connecting rods which are connected, and two ends of each connecting rod are respectively connected with the main body frame rods; an openable door is arranged at one side of the grid structure. The opening door is opened when the foam material inside needs to be unloaded.

One preferred scheme is, put to one side and leak the material frame and have curb plate and the bottom plate of both sides, the upper end of bottom plate articulates on the curb plate, the bottom plate moves and adjusts the size of drain hole between two curb plates, just a plurality of mounting holes have on the curb plate, two pass fastening screw in the mounting hole and carry out position fixing. Through the arrangement of the structure, the size of the material leakage opening can be adjusted through the rotation of the bottom plate.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a front view of the building lightweight material collecting device by lifting and lowering according to the present invention;

FIG. 2 is a schematic structural diagram of a perspective view of the apparatus for building lightweight materials collection by lifting and lowering according to the present invention;

FIG. 3 is a schematic structural diagram of a feeding structure of the device for collecting light building materials in a lifting mode;

fig. 4 is a schematic structural diagram of a device part for collecting light building materials in a lifting mode.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the drawings in the embodiments of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

The first embodiment:

as shown in fig. 1 to 4, the present invention provides an apparatus for collecting lightweight building materials by a lifting manner, which includes an inclined feeding structure 10, a storage container 20, a blowing structure 30, a separation channel 40, and a collection room body 50, wherein the inclined feeding structure 10 includes an inclined conveyor belt 11, the storage container 20 is disposed below an upstream port of the inclined conveyor belt 11, a buffering barrel body 21 is disposed at a bottom position of the storage container 20, the blowing structure 30 is disposed at a first side of the buffering barrel body 21, the blowing structure 30 provides a positive pressure air flow to the buffering barrel body 21, a second side of the buffering barrel body 21 is connected to a lower port of the separation channel 40, and an upper end of the separation channel 40 is connected to a top portion of the collection room body 50.

The lightweight type building materials at the bottom position are transported to the top position through the feeding structure 10 and then enter the storage container 20, then the materials are blown to the direction of the separation channel 40 at the position of the buffer barrel body 21 through the blowing action of the blowing structure 30, and the materials move upwards along the separation channel 40, so that the purpose of quickly collecting the lightweight foam type building materials is achieved, and the problem that the forklift cannot complete the process is avoided. When the foam material is moved from the separation channel 40 into the collecting chamber 50, the collecting process is completed, and the loading vehicle is completed after the collecting process is completed.

Second embodiment:

as shown in fig. 2 and 3, the feeding structure 10 further includes a first driving motor 12, a rotating shaft 13, a driving wheel 14, a driven wheel 15, and a driven shaft 16, which are connected in sequence, the inclined conveyor belt 11 is sleeved on the driven shaft 16, the feeding structure 10 further includes a supporting frame 17, two inclined arc-shaped guard plates 19 are connected and arranged at two side positions of the supporting frame 17 through an extending rod 18, and the two inclined arc-shaped guard plates 19 are respectively located at two side positions of the inclined conveyor belt 11.

The first driving motor 12 provides power to rotate the rotating shaft 13, the rotating shaft 13 drives the driving wheel 14 to rotate, then the driven wheel 15 rotates, and then the driven shaft 16 rotates to drive the inclined conveyor belt 11 to rotate.

As shown in fig. 3, a square frame 110 is disposed in the middle of the supporting frame 11, a mounting piece 111 is disposed in the square frame 110, the mounting pieces 111 disposed at two sides are connected by a plurality of hinged supporting rollers 112, and the hinged supporting rollers 112 are located below the inclined conveyor belt 11.

As shown in fig. 1, the separation channel 40 includes a bottom transverse section 41, an inclined feeding section 42 and a top transverse section 43, the bottom transverse section 41 is connected to the buffering barrel body 21, and a plurality of material leaking ports 44 are arranged on the inclined feeding section 42; the inclined feeding section 42 is of a cylindrical structure, an inclined material leaking frame 45 is arranged on the bottom surface of the cylindrical structure, and a material leaking port 44 is formed at the bottom of the inclined material leaking frame 45. For moisture entrained in the foam material, it is also blown into the inclined feed section 42 at the point of blowing and is separated from the discharge opening 44 in the inclined feed section 42.

Preferably, as shown in fig. 2, the collecting chamber body 50 is a grid structure 51 or may also be a closed frame structure, the grid structure includes a plurality of connected main body frame rods 52 and connecting rods 53, and both ends of the connecting rods 53 are respectively connected with the main body frame rods 52; an openable door 54 is provided at one side of the lattice structure 51. The opening door 54 is opened when it is desired to unload the foam material from the interior.

Preferably, as shown in fig. 4, the inclined material leaking frame 45 has a side plate 450 and a bottom plate 451 at both sides, the upper end of the bottom plate 451 is hinged to the side plate 450, the bottom plate 451 moves between the two side plates 450 to adjust the size of the material leaking port 44, the side plate 450 has a plurality of mounting holes 452, and the two mounting holes 452 are fixed in position by passing fastening screws 453 through, that is, the bottom of the bottom plate 451 may be supported by the fastening screws 453, or the fastening screws 453 may be fixed by passing through shaft holes of the bottom plate 451. With this arrangement, the size of the drain opening 44 can be adjusted by the rotation of the bottom plate 451.

It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims

1. The utility model provides a device that building light material gui ji is carried out through lift mode, a serial communication port, including putting feed structure, storage container, air blast structure, separation channel to one side, put feed structure to one side has included to put the conveyer belt to one side, the below position of the upper reaches port of putting the conveyer belt to one side sets up storage container, storage container's bottom position has the buffering staving, the first side of buffering staving sets up the air blast structure, the air blast structure to the position of buffering staving provides the positive pressure air current, the second side of buffering staving with separation channel's lower port is connected, separation channel's upper end with the top of collecting the room body is connected.

2. The device for collecting lightweight building materials in a lifting manner according to claim 1, wherein the feeding structure further comprises a first driving motor, a rotating shaft rod, a driving wheel, a driven wheel and a driven shaft rod which are sequentially connected, the inclined conveyor belt is sleeved on the driven shaft rod, the feeding structure further comprises a supporting frame, inclined arc-shaped guard plates are connected and arranged at two sides of the supporting frame through an extending rod body, and the two inclined arc-shaped guard plates are respectively located at two sides of the inclined conveyor belt.

3. The device for collecting lightweight building materials by lifting according to claim 2, wherein a square frame is arranged in the middle of the supporting frame, a mounting piece is arranged in the square frame, the mounting pieces arranged at two sides of the supporting frame are connected by a plurality of supporting rollers connected in a hinged manner, and the supporting rollers connected in a hinged manner are positioned below the inclined conveyor belt.

4. The device for collecting lightweight building materials by lifting according to claim 1, wherein the separation channel comprises a bottom transverse section, an inclined feeding section and a top transverse section, the bottom transverse section is connected with the buffer barrel body, and a plurality of material leaking ports are formed in the inclined feeding section; the inclined feeding section is of a cylindrical structure, an inclined material leaking frame is arranged on the bottom surface of the cylindrical structure, and a material leaking port is formed at the bottom of the inclined material leaking frame.

5. The device for collecting lightweight building materials by lifting according to claim 1, wherein the collecting room body is of a grid structure, the grid structure comprises a plurality of connected main frame rods and connecting rods, and two ends of each connecting rod are respectively connected with the main frame rods; an openable door is arranged at one side of the grid structure.

6. The device for collecting lightweight building materials by lifting according to claim 1, wherein the inclined material leaking frame is provided with side plates and a bottom plate at two sides, the upper end of the bottom plate is hinged to the side plates, the bottom plate moves between the two side plates to adjust the size of the material leaking port, the side plates are provided with a plurality of mounting holes, and the two mounting holes are internally fixed by passing through fastening screws.