CN117302844B

CN117302844B - Material conveying device for building construction

Info

Publication number: CN117302844B
Application number: CN202311624931.4A
Authority: CN
Inventors: 李闽飞
Original assignee: Laiyang Xingwang Construction Co ltd
Current assignee: Laiyang Xingwang Construction Co ltd
Priority date: 2023-11-30
Filing date: 2023-11-30
Publication date: 2024-02-02
Anticipated expiration: 2043-11-30
Also published as: CN117302844A

Abstract

The invention belongs to the field of material conveying, in particular to a material conveying device for building construction, which comprises a conveying mechanism, wherein the conveying mechanism is provided with a first conveying belt component and two second conveying belt components, and the running direction of the second conveying belt components is opposite to that of the first conveying belt components; the first conveyer belt component and the second conveyer belt component are separated by a first partition board, and a second partition board is arranged on the side edge of the second conveyer belt component; a second port is formed in the first partition plate positioned at the conveying terminal of the first conveying belt assembly; the frame is also provided with a case through a supporting leg support; the conveying mechanism also comprises a plugging assembly and a measuring assembly. The material conveying device can realize quantitative conveying of building materials under the condition that the first conveying belt assembly and the second conveying belt assembly are not stopped.

Description

Material conveying device for building construction

Technical Field

The invention belongs to the field of material conveying, and particularly relates to a material conveying device for building construction.

Background

Materials such as some sand and stone are often required to be conveyed in the building construction process.

At present, the existing conveying device generally adopts a conveying belt with a single structure, the conveying belt drives a motor to realize an operation process, and sand materials are conveyed into a material processing machine by using the operation conveying belt; however, in the actual working process of the material processing machine, the feeding of the sand and stone materials is required to be controlled, the sand and stone materials are prevented from being stacked, the sand and stone materials with controllable quantity cannot be conveyed by the conveying device in the form of a single conveying belt at the conveying end, the sand and stone materials are further prevented from being stacked, the material processing machine is required to be frequently stopped and maintained, the construction progress of the building engineering is influenced, and the construction efficiency of the building engineering is further influenced.

Disclosure of Invention

The embodiment of the invention aims to provide a material conveying device for building construction, and aims to solve the technical problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions.

The material conveying device for the building construction comprises a frame and a conveying mechanism, wherein the conveying mechanism is arranged on the frame and is provided with a first conveying belt assembly and two second conveying belt assemblies, and the running direction of the second conveying belt assemblies is opposite to that of the first conveying belt assemblies;

the first conveyer belt component and the second conveyer belt component are separated by a first partition board, a second partition board is arranged on the side edge of the second conveyer belt component, the second partition board is used for preventing building materials on the second conveyer belt component from falling, and the first partition board is used for separating materials of the first conveyer belt component and the second conveyer belt component;

a second port is formed in the first partition plate positioned at the conveying terminal of the first conveying belt assembly;

the frame is also provided with a case through a supporting leg support;

the conveying mechanism further comprises a plugging assembly and a measuring assembly, the plugging assembly comprises a semicircular roller, the semicircular roller is rotatably connected and installed on a rotating shaft, the rotating shaft is fixedly installed on a bottom plate, the bottom plate is fixedly connected with a supporting shaft, an arc surface matched with the arc surface of the semicircular roller is further arranged on the bottom plate, the top end of the supporting shaft is fixedly connected with a box shell, the plugging assembly is supported by the box shell, the bottom plate is tightly attached to the surface of the first conveying belt assembly, and building materials on the surface of the first conveying belt assembly can pass through the upper surface of the bottom plate;

the plugging assembly further comprises a guide post, and the guide post is fixedly arranged at one corner of the semicircular roller;

the measuring assembly comprises a measuring cover, a strip-shaped channel matched with the guide post is formed in an open side top plate at one end of the measuring cover, the guide post slides and abuts against the strip-shaped channel, and when the measuring cover moves, the semicircular roller rotates around a rotating shaft by a certain angle.

As a further limitation of the scheme of the invention, the opening at the other end of the measuring cover is closed through the material baffle, the material baffle is fixedly connected with the telescopic end of the second electric telescopic rod, the material baffle is enabled to move upwards by utilizing the telescopic function of the second electric telescopic rod, the opening at the other end of the measuring cover can be in an opening state, and at the moment, building materials in the measuring cover can be conveyed to a conveying terminal position by the first conveying belt component.

As a further limitation of the scheme of the invention, the second electric telescopic rod is fixedly connected with one end of the second support plate, the other end of the second support plate is fixedly connected with the first support plate, the first support plate is fixedly installed on the top plate of the measuring cover, the mounting plate is fixedly installed on the box shell, the first electric telescopic rod is fixedly installed on the mounting plate, and the telescopic end of the first electric telescopic rod is fixedly connected with the first support plate so as to utilize the telescopic action of the first electric telescopic rod, so that the measuring cover is displaced, and the lifting of the baffle plate is realized without being influenced by the telescopic action of the second electric telescopic rod.

As a further limitation of the scheme of the invention, the second port is of an arc surface structure, so that the arc surface of the semicircular roller is matched with the second port, and the first conveyor belt component is fixedly provided with a material guiding seat which is used for guiding building materials.

As a further limitation of the scheme of the invention, the first conveyer belt component and the second conveyer belt component are arranged on the frame, the two second conveyer belt components are respectively arranged on two sides of the first conveyer belt component, the frame is provided with a first driving component for driving the first conveyer belt component to operate, and the frame is also provided with a second driving component for driving the second conveyer belt component to operate.

As a further limitation of the scheme of the invention, one end of the frame is provided with a hopper, the hopper is provided with a discharge hole, and the discharge hole is overlapped with the conveying starting end of the first conveying belt assembly through a discharge guide plate, so that building materials in the hopper are conveyed to the conveying starting end of the first conveying belt assembly through the discharge guide plate.

As a further limitation of the scheme of the invention, the other end of the frame is provided with a material guiding inclined plate, the material guiding inclined plate is connected with the conveying terminal of the first conveying belt assembly, and the quantitative materials conveyed on the first conveying belt assembly are conveyed to the material guiding inclined plate.

As a further limitation of the scheme of the invention, a first through hole is formed in a first baffle plate positioned at the conveying start end of the first conveying belt component, an arc-shaped material guide plate is further connected between the first baffle plate and the second baffle plate, one end of the arc-shaped material guide plate is fixedly connected with the second baffle plate, and the other end of the arc-shaped material guide plate penetrates through the first through hole and extends to the first conveying belt component, so that materials on the second conveying belt component can return to the second conveying belt component under the flow guiding effect of the arc-shaped material guide plate.

Compared with the prior art, the material conveying device provided by the invention has the beneficial effects that:

firstly, when the semicircular roller is in a state of plugging the second port, under the conveying action of the first conveying belt assembly, building materials are continuously conveyed into the measuring cover after passing through the bottom plate, and as the baffle plate plugs the opening at the other end of the measuring cover, the building materials can be measured along with the accumulation of the building materials in the measuring cover;

secondly, the telescopic function of the first electric telescopic rod is utilized to enable the measuring cover to move, the semicircular roller rotates a certain angle until the arc surface of the semicircular roller is propped against the arc surface, and at the moment, the semicircular roller is separated from the second port, building materials which are continuously conveyed through the first conveying belt component are conveyed to the second conveying belt component through the second port under the flow guiding effect of the straight surface of the semicircular roller, and the building materials are conveyed back to the conveying start end of the first conveying belt component through the second port, so that the process can independently control the telescopic operation of the second electric telescopic rod, enable the baffle plate to move upwards, enable the other end of the measuring cover to be opened, and enable the quantitative materials in the measuring cover to be continuously conveyed to the guide inclined plate through the first conveying belt component;

in summary, the material conveying device of the invention can realize quantitative conveying of building materials under the condition that the first conveying belt assembly and the second conveying belt assembly are not stopped.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the following description will briefly introduce the drawings that are needed in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the present invention.

FIG. 1 is a block diagram of a material handling apparatus for construction of the present invention;

FIG. 2 is a front view of a material handling apparatus for construction of the present invention;

FIG. 3 is a schematic view of a part of a material conveying device according to the present invention;

FIG. 4 is a top view of a conveyor mechanism in a material conveying apparatus according to the present invention;

FIG. 5 is an enlarged partial schematic view of FIG. 4 at A;

FIG. 6 is a schematic illustration of a closure assembly in a delivery mechanism provided by the present invention;

FIG. 7 is a schematic view of a measuring assembly in a conveying mechanism according to the present invention;

fig. 8 is a schematic diagram of the cooperation between the measuring assembly and the case provided by the invention.

The reference numerals are as follows:

100. a frame; 101. a first drive assembly; 102. a second drive assembly; 200. a hopper; 201. a discharge guide plate; 202. a discharge port; 300. a first conveyor belt assembly; 301. a first separator; 302. a first port; 303. a second port; 304. a material guiding seat; 400. a second conveyor belt assembly; 401. a second separator; 500. an arc-shaped material guide plate; 600. a material guiding sloping plate; 700. a case shell; 701. a support leg; 702. a mounting plate; 703. a first electric telescopic rod; 704. a first support plate; 705. a second support plate; 800. a semicircular roller; 801. a support shaft; 802. an arc surface; 803. a bottom plate; 804. a rotating shaft; 805. a guide post; 900. measuring a cover; 901. a strip-shaped channel; 902. a second electric telescopic rod; 903. and a striker plate.

Detailed Description

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1 to 4, in one embodiment of the present invention, there is provided a material conveying apparatus for construction, which includes a conveying mechanism having a first conveyor belt assembly 300 and two second conveyor belt assemblies 400, the first conveyor belt assembly 300 and the second conveyor belt assembly 400 being disposed on a frame 100, the two second conveyor belt assemblies 400 being disposed on both sides of the first conveyor belt assembly 300, respectively, the operation of the first conveyor belt assembly 300 being driven by a first driving assembly 101, the operation of the second conveyor belt assembly 400 being driven by a second driving assembly 102, the operation of the second conveyor belt assembly 400 being opposite to the operation of the first conveyor belt assembly 300.

Further, a hopper 200 is disposed at one end of the frame 100, a discharge port 202 is disposed on the hopper 200, and the discharge port 202 is overlapped with a conveying start end of the first conveyor belt assembly 300 through a discharge guide 201, so that building materials in the hopper 200 are sent to the conveying start end of the first conveyor belt assembly 300 through the discharge guide 201.

Further, a guiding inclined plate 600 is disposed at the other end of the frame 100, the guiding inclined plate 600 is connected to the conveying terminal of the first conveying belt assembly 300, and the quantitative materials conveyed on the first conveying belt assembly 300 are conveyed to the guiding inclined plate 600.

Preferably, the first driving assembly 101 and the second driving assembly 102 provided by the invention have the same structure, and the first conveying belt assembly 300 and the second conveying belt assembly 400 are driven by motors to operate, and the first driving assembly 101 and the second driving assembly 102 are different in that the rotation directions of motor output shafts of the first driving assembly 101 and the second driving assembly 102 are opposite.

With continued reference to fig. 1-3, in the embodiment of the present invention, the first conveyor belt assembly 300 is separated from the second conveyor belt assembly 400 by a first partition 301, a second partition 401 is disposed on a side of the second conveyor belt assembly 400, the second partition 401 is disposed to avoid building materials on the second conveyor belt assembly 400 from falling, and the first partition 301 is disposed to separate materials of the first conveyor belt assembly 300 and the second conveyor belt assembly 400.

Further, a first through hole 302 is formed in the first partition 301 at the conveying start end of the first conveying belt assembly 300, a second through hole 303 is formed in the first partition 301 at the conveying end of the first conveying belt assembly 300, an arc-shaped material guide plate 500 is further connected between the first partition 301 and the second partition 401, one end of the arc-shaped material guide plate 500 is fixedly connected with the second partition 401, and the other end of the arc-shaped material guide plate 500 penetrates through the first through hole 302 to extend to the first conveying belt assembly 300, so that materials on the second conveying belt assembly 400 can return to the second conveying belt assembly 400 under the guiding effect of the arc-shaped material guide plate 500.

With continued reference to fig. 2 and 4, the housing 700 is further supported by the legs 701 on the frame 100.

With continued reference to fig. 4-8, in the embodiment of the present invention, the conveying mechanism further includes a plugging assembly and a measuring assembly, where the plugging assembly includes a semicircular roller 800, the semicircular roller 800 is rotatably connected to and installed on a rotating shaft 804, the rotating shaft 804 is fixedly installed on a base plate 803, the base plate 803 is fixedly connected to a supporting shaft 801, the base plate 803 is further provided with an arc surface 802 that matches with the arc surface of the semicircular roller 800, the top end of the supporting shaft 801 is fixedly connected to a casing 700, and the casing 700 is used to support the plugging assembly, where the base plate 803 is tightly attached to the surface of the first conveying belt assembly 300, so that building materials on the surface of the first conveying belt assembly 300 can pass through the upper surface of the base plate 803.

Further, the plugging assembly further comprises a guide post 805, and the guide post 805 is fixedly installed at a corner of the semicircular roller 800.

In addition, the measuring assembly includes a measuring cover 900, a strip-shaped channel 901 is formed on a top plate of an opening side of one end of the measuring cover 900 and is matched with the guide post 805, the guide post 805 slides and abuts against the strip-shaped channel 901, and when the measuring cover 900 moves, the semicircular roller 800 rotates around the rotating shaft 804 by a certain angle.

Further, the opening at the other end of the measuring cover 900 is closed by the stop plate 903, the stop plate 903 is fixedly connected with the telescopic end of the second electric telescopic rod 902, and by utilizing the telescopic function of the second electric telescopic rod 902, the stop plate 903 moves upwards, so that the opening at the other end of the measuring cover 900 is in an open state, and at this time, the building material in the measuring cover 900 can be conveyed to a conveying terminal position by the first conveying belt assembly 300.

Further, the second electric telescopic rod 902 is fixedly connected with one end of the second support plate 705, the other end of the second support plate 705 is fixedly connected with the first support plate 704, the first support plate 704 is fixedly installed on the top plate of the measuring cover 900, the mounting plate 702 is fixedly installed on the case 700, the first electric telescopic rod 703 is fixedly installed on the mounting plate 702, and the telescopic end of the first electric telescopic rod 703 is fixedly connected with the first support plate 704 so as to utilize the telescopic action of the first electric telescopic rod 703, so that the measuring cover 900 is displaced, and the lifting of the striker plate 903 is realized without influencing the telescopic action of the second electric telescopic rod 902.

With continued reference to fig. 5 and fig. 6, the second opening 303 has an arc surface structure, so that the arc surface of the semicircular roller 800 is matched with the second opening 303, and the first conveyor belt assembly 300 is further fixedly provided with a guiding seat 304, where the guiding seat 304 is used for guiding building materials.

The following description of the delivery device of the present invention is specifically presented in connection with the following description of the delivery device of the present invention:

firstly, the semicircular roller 800 is in a state of blocking the second port 303, namely, in the state shown in fig. 4 and 5, at this time, under the conveying action of the first conveying belt assembly 300, the building material passes through the bottom plate 803 and is continuously conveyed into the measuring cover 900, and as the blocking plate 903 blocks the opening at the other end of the measuring cover 900, at this time, along with the accumulation of the building material in the measuring cover 900, the measuring of the building material can be realized;

then, the cover 900 is moved by using the telescopic function of the first electric telescopic rod 703, at this time, the semicircular roller 800 rotates by a certain angle until the arc surface of the semicircular roller 800 abuts against the arc surface 802, at this time, the semicircular roller 800 is separated from the second port 303, and the building material continuously conveyed by the first conveyor belt assembly 300 is conveyed to the second conveyor belt assembly 400 by the second port 303 under the guiding function of the straight surface of the semicircular roller 800, and the building material is conveyed back to the conveying start end of the first conveyor belt assembly 300 by using the second conveyor belt assembly 400, so that the process can independently control the second electric telescopic rod 902 to stretch and retract, so that the baffle 903 moves upwards, the other end of the cover 900 is opened, and the quantitative material measured in the cover 900 is continuously conveyed to the guide inclined plate 600 by the first conveyor belt assembly 300.

The above embodiments are merely illustrative of a preferred embodiment, but are not limited thereto. In practicing the present invention, appropriate substitutions and/or modifications may be made according to the needs of the user.

The number of equipment and the scale of processing described herein are intended to simplify the description of the present invention. Applications, modifications and variations of the present invention will be readily apparent to those skilled in the art.

Although embodiments of the invention have been disclosed above, they are not limited to the use listed in the specification and embodiments. It can be applied to various fields suitable for the present invention. Additional modifications will readily occur to those skilled in the art. Therefore, the invention is not to be limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims

1. The material conveying device for building construction comprises a frame (100) and a conveying mechanism, wherein the conveying mechanism is arranged on the frame (100) and is provided with a first conveying belt assembly (300) and two second conveying belt assemblies (400), and the material conveying device is characterized in that the running direction of the second conveying belt assemblies (400) is opposite to the running direction of the first conveying belt assemblies (300);

the first conveyer belt assembly (300) is separated from the second conveyer belt assembly (400) by a first partition plate (301), and a second partition plate (401) is arranged on the side edge of the second conveyer belt assembly (400); a second port (303) is formed in a first partition board (301) positioned at the conveying terminal of the first conveying belt assembly (300);

also comprises a case (700);

the device comprises a first conveying belt component (300), a second conveying belt component (300) and a sealing component, and is characterized by further comprising a sealing component and a measuring component, wherein the sealing component comprises a semicircular roller (800), the semicircular roller (800) is rotatably connected and installed on a rotating shaft (804), the rotating shaft (804) is fixedly installed on a bottom plate (803), the bottom plate (803) is fixedly connected with the supporting shaft (801), the bottom plate (803) is further provided with an arc surface (802) matched with the arc surface of the semicircular roller (800), the top end of the supporting shaft (801) is fixedly connected with the box shell (700), and the bottom plate (803) is tightly attached to the surface of the first conveying belt component (300); the plugging assembly further comprises a guide post (805), and the guide post (805) is fixedly arranged at one corner of the semicircular roller (800);

the measuring assembly comprises a measuring cover (900), a strip-shaped channel (901) matched with the guide post (805) is formed in a top plate at one end of the measuring cover (900), and the guide post (805) slides and abuts against the strip-shaped channel (901);

the other end opening of the measuring cover (900) is closed through a striker plate (903), and the striker plate (903) is fixedly connected with the telescopic end of the second electric telescopic rod (902);

the second electric telescopic rod (902) is fixedly connected with one end of the second support plate (705), the other end of the second support plate (705) is fixedly connected with the first support plate (704), the first support plate (704) is fixedly arranged on a top plate of the measuring cover (900), the mounting plate (702) is fixedly arranged on the box shell (700), the first electric telescopic rod (703) is fixedly arranged on the mounting plate (702), and the telescopic end of the first electric telescopic rod (703) is fixedly connected with the first support plate (704);

the second port (303) is of an arc surface structure, so that the arc surface of the semicircular roller (800) is matched with the second port (303), and the first conveyor belt assembly (300) is fixedly provided with a material guide seat (304);

the first conveying belt assembly (300) and the second conveying belt assembly (400) are arranged on the frame (100), the two second conveying belt assemblies (400) are respectively arranged on two sides of the first conveying belt assembly (300), the frame (100) is provided with a first driving assembly (101) for driving the first conveying belt assembly (300) to operate, and the frame (100) is also provided with a second driving assembly (102) for driving the second conveying belt assembly (400) to operate;

one end of the frame (100) is provided with a hopper (200), the hopper (200) is provided with a discharge hole (202), and the discharge hole (202) is overlapped with the conveying initial end of the first conveying belt assembly (300) through a discharge guide plate (201);

the other end of the frame (100) is provided with a material guiding inclined plate (600), the material guiding inclined plate (600) is connected with a conveying terminal of the first conveying belt assembly (300), and quantitative materials conveyed on the first conveying belt assembly (300) are conveyed to the material guiding inclined plate (600);

a first through hole (302) is formed in a first partition plate (301) positioned at the conveying start end of the first conveying belt assembly (300), an arc-shaped material guide plate (500) is further connected between the first partition plate (301) and the second partition plate (401), one end of the arc-shaped material guide plate (500) is fixedly connected with the second partition plate (401), and the other end of the arc-shaped material guide plate (500) penetrates through the first through hole (302) and extends to the first conveying belt assembly (300).