CN221699863U - Building engineering waste material transfer device - Google Patents

Abstract

The utility model discloses a construction engineering waste transfer device, which relates to the technical field of construction engineering waste treatment and comprises a movable bottom plate, wherein a transfer device is arranged on the movable bottom plate and comprises a rolling unit and a dumping unit, one side of the transfer device is provided with a storage box, the rolling unit comprises a mounting bottom plate, two ends of the mounting bottom plate are symmetrically distributed with hollowed-out plates, one side of each hollowed-out plate is provided with a concave plate, the concave plates and the hollowed-out plates form an inclined feeding groove, a sliding guide rail is arranged on each hollowed-out plate, sliding rollers and positioning rollers are symmetrically distributed at the left end and the right end of each sliding guide rail, and rolling rollers are arranged on the sliding rollers. According to the utility model, the rolling roller is driven to reciprocate on the mounting bottom plate through the sliding property of the sliding roller in the rolling unit and the sliding guide rail, so that waste in a cavity formed by the mounting bottom plate and the hollowed-out plate is rolled in a reciprocating manner, the volume of the waste is reduced, the transferring capacity of the whole device is improved, the transferring times are reduced, and the processing efficiency is improved.

Description

Construction waste transfer device

Technical Field

The utility model relates to the technical field of construction engineering waste treatment, in particular to a construction engineering waste transfer device.

Background Art

Construction projects refer to the planning, investigation, design, construction, completion and other technical work and completed engineering entities for the construction, reconstruction or expansion of buildings and ancillary structures and facilities, as well as the installation of supporting lines, pipelines and equipment. A large amount of waste will be generated during construction, which needs to be transferred using transfer equipment.

When the existing transfer device is transferring the waste, the waste is prone to fall and pollute the environment. When the existing transfer device is unloading the waste, most of the waste is unloaded manually, which is time-consuming, labor-intensive and inefficient.

For example, a waste transfer device for construction projects disclosed in Chinese patent publication number CN215706539U, is characterized in that a first electric telescopic rod is provided to drive a first pressure plate to move up and down, so that a buffer spring and a second pressure plate can move synchronously, which is convenient for flattening the top of the transfer box to prevent waste from falling during transportation; a servo motor is provided to drive the lead screw to rotate, so that the lead screw can drive the threaded sleeve to move in the Z-axis direction, and the threaded sleeve can pull the transfer box through a wire rope; when the transfer box is in an inclined state, the sealing plate can be opened to facilitate the unloading of waste, without the need for manual unloading by staff, thus saving time and effort and improving work efficiency; a second electric telescopic rod is provided to drive the push plate to move, so that the waste inside the transfer box can be pushed out to avoid residue.

The existing technology has the following problems:

The above device drives the pressure plate to press down through the electric push rod, thereby limiting the waste in the box to prevent the waste from falling during the transfer process. However, since the volume of the box is fixed and most of the waste shapes are irregular, the device has a small capacity for storing waste and a low space utilization rate. When a pile of waste is transferred, multiple transfers may occur, affecting the processing efficiency.

Utility Model Content

The utility model provides a construction engineering waste transfer device to solve the problems raised in the above background technology.

In order to solve the above technical problems, the technical solution adopted by the utility model is:

A construction waste transfer device, comprising a mobile base plate, a transfer device is arranged on the mobile base plate, the transfer device comprises a rolling unit and a dumping unit, a storage box is arranged on one side of the transfer device, and the storage box is installed on the mobile base plate;

The rolling unit includes a mounting base plate, hollow plates are symmetrically distributed at both ends of the mounting base plate, and a concave plate is provided on one side of the two hollow plates, the concave plate and the hollow plate form an inclined feeding trough, a sliding guide rail is opened on the hollow plate, and sliding rollers and positioning rollers are symmetrically distributed at the left and right ends of the sliding guide rail, and a rolling roller is provided on the sliding roller.

The utility model uses the sliding property of the sliding roller in the sliding guide rail to drive the rolling roller to reciprocate on the mounting base plate before the construction waste is transported, thereby reciprocatingly rolling the waste in the cavity formed by the mounting base plate and the hollow plate, thereby reducing the volume of the waste and increasing the transport capacity of the overall device, thereby reducing the number of transports and improving processing efficiency.

A further improvement of the technical solution of the utility model is that: the mounting base plate is fixedly connected to the hollow plate, and the concave plate is welded to the two hollow plates, the sliding guide rail is opened in the middle of the hollow plate, the sliding roller is slidingly connected to the hollow plate through the sliding guide rail, and the positioning roller is positioned and installed on one side of the sliding guide rail.

A further improvement of the technical solution of the utility model is that: a sleeve wheel is provided on one side of the sliding roller and the positioning roller, a sleeve opening is provided on the sleeve wheel, an elastic shrinkage rope is provided in the sleeve opening, a stretching rod is provided in the middle of the elastic shrinkage rope, the stretching rod is located on a threaded sleeve, and the threaded sleeve is located on a thread rod.

A further improvement of the technical solution of the utility model is that: the sliding roller and the positioning roller are both welded to the sleeve wheels, and the elastic shrinkage rope is sleeved on the two sleeve wheels through the sleeve opening, the stretching rod is welded to the threaded sleeve, the threaded sleeve is threadedly connected to the threaded part of the screw rod, the screw rod is connected to a rotating motor through a coupling, the rotating motor is installed on a motor frame, and the motor frame is welded to the outer wall of the mounting base plate.

A further improvement of the technical solution of the utility model is that the tipping unit includes an arc-shaped connecting block, which is located in the middle of the bottom of the mounting base plate, and an installation groove is provided in the arc-shaped connecting block, a sliding rod is provided at the installation groove, connecting rods are symmetrically distributed at both ends of the sliding rod, the other end of the connecting rod is connected to the mounting base plate, positioning rods are symmetrically distributed on the four sides of the mounting base plate, the other ends of the positioning rods are provided with connecting sleeves, and a telescopic rod is provided at the bottom of the connecting sleeve.

The utility model adopts the dumping method for collecting the construction waste after rolling. The sliding rod is connected with the arc-shaped connecting block by rotation, and the positioning rod is connected with the connecting sleeve by rotation. The rolling unit as a whole can be tilted at a certain angle, so as to complete the dumping of the waste after rolling, and greatly improve the storage efficiency of the waste.

A further improvement of the technical solution of the utility model is that: the arc-shaped connecting block is welded to the bottom of the mounting base plate, and the arc-shaped connecting block is slidably connected to the sliding rod through the mounting groove, the connecting rod is sleeved on the sliding rod, the other end of the connecting rod is connected to the mounting base plate, the positioning rod is fixedly installed on the mounting base plate, the positioning rod is rotatably connected to the connecting sleeve, the connecting sleeve is welded to the telescopic rod, and the telescopic rod is vertically fixedly installed on the movable base plate.

Due to the adoption of the above technical solution, the utility model has achieved the following technical progress compared with the prior art:

1. The utility model provides a construction waste transfer device, which drives the rolling roller to reciprocate on the installation base plate through the sliding performance of the sliding roller in the rolling unit and the sliding guide rail, so as to reciprocate and roll the waste in the cavity formed by the installation base plate and the hollow plate, thereby reducing the volume of the waste and increasing the transfer capacity of the overall device, thereby reducing the number of transfers and improving processing efficiency.

2. The utility model provides a construction waste transfer device, which enables the whole compaction unit to be tilted at a certain angle through the rotational connection between the sliding rod and the arc-shaped connecting block in the dumping unit, and the rotational connection between the positioning rod and the connecting sleeve, so as to complete the dumping of the compacted waste and greatly improve the storage efficiency of the waste.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of the overall structure of the utility model;

Figure 2 is a schematic diagram of the structure of the rolling unit of the utility model;

FIG3 is a schematic diagram of the internal structure of the rolling unit of the utility model;

FIG. 4 is a schematic structural diagram of the dumping unit of the present invention.

In the figure: 1. movable bottom plate; 2. storage box; 301. installation bottom plate; 302. hollow plate; 303. concave plate; 304. feed trough; 305. sliding guide rail; 306. sliding roller; 307. positioning roller; 308. rolling roller; 309. sleeve wheel; 310. elastic shrinkage rope; 311. stretching rod; 312. threaded sleeve; 313. screw rod; 314. rotating motor; 401. arc connecting block; 402. sliding rod; 403. connecting rod; 404. positioning rod; 405. connecting sleeve; 406. telescopic rod.

DETAILED DESCRIPTION

The following will be combined with the drawings in the embodiments of the utility model to clearly and completely describe the technical solutions in the embodiments of the utility model. Obviously, the described embodiments are only part of the embodiments of the utility model, not all of the embodiments. Based on the embodiments in the utility model, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the utility model.

Please refer to Figures 1 to 4. The utility model provides a technical solution:

Example

A construction waste transfer device comprises a mobile base plate 1, a transfer device is arranged on the mobile base plate 1, the transfer device comprises a rolling unit and a dumping unit, a storage box 2 is arranged on one side of the transfer device, and the storage box 2 is installed on the mobile base plate 1;

The rolling unit includes a mounting base plate 301, at both ends of which hollow plates 302 are symmetrically distributed, and one side of the two hollow plates 302 is provided with a concave plate 303, the concave plate 303 and the hollow plate 302 form an inclined feed trough 304, and a sliding guide rail 305 is opened on the hollow plate 302, and sliding rollers 306 and positioning rollers 307 are symmetrically distributed on the left and right ends of the sliding guide rail 305, and a rolling roller 308 is provided on the sliding roller 306.

The utility model drives the rolling roller 308 to reciprocate on the mounting base plate 301 through the sliding properties of the sliding roller 306 and the sliding guide rail 305 before the construction waste is transported, so as to reciprocately roll the waste in the cavity formed by the mounting base plate 301 and the hollow plate 302, thereby reducing the volume of the waste and increasing the transport capacity of the overall device, thereby reducing the number of transports and improving processing efficiency.

The installation base plate 301 is fixedly connected to the hollow plate 302, and the concave plate 303 is welded to the two hollow plates 302. The sliding guide rail 305 is opened in the middle of the hollow plate 302. The sliding roller 306 is slidingly connected to the hollow plate 302 through the sliding guide rail 305. The positioning roller 307 is positioned and installed on one side of the sliding guide rail 305.

A sleeve wheel 309 is provided on one side of the sliding roller 306 and the positioning roller 307. A sleeve opening is provided on the sleeve wheel 309. An elastic shrinkage rope 310 is provided in the sleeve opening. A stretching rod 311 is provided in the middle of the elastic shrinkage rope 310. The stretching rod 311 is located on a threaded sleeve 312, and the threaded sleeve 312 is located on a threaded rod 313.

The sliding roller 306 and the positioning roller 307 are both welded to the sleeve wheel 309, and the elastic shrinkage rope 310 is sleeved on the two sleeve wheels 309 through the sleeve opening, the stretching rod 311 is welded to the threaded sleeve 312, the threaded sleeve 312 is threadedly connected to the threaded part of the screw rod 313, the screw rod 313 is connected to a rotating motor 314 through a coupling, the rotating motor 314 is installed on the motor frame, and the motor frame is welded to the outer wall of the mounting base plate 301.

Example

On the basis of Example 1: the tipping unit includes an arc-shaped connecting block 401, which is located in the middle of the bottom of the mounting base plate 301, and a mounting groove is provided in the arc-shaped connecting block 401, and a sliding rod 402 is provided at the mounting groove, and connecting rods 403 are symmetrically distributed at both ends of the sliding rod 402, and the other end of the connecting rod 403 is connected to the mounting base plate 301, and positioning rods 404 are symmetrically distributed on the four sides of the mounting base plate 301, and the other ends of the positioning rods 404 are provided with connecting sleeves 405, and a telescopic rod 406 is provided at the bottom of the connecting sleeve 405.

The utility model adopts the dumping method for collecting the construction waste after compaction. The sliding rod 402 is connected with the arc-shaped connecting block 401 by rotation, and the positioning rod 404 is connected with the connecting sleeve 405 by rotation. The compaction unit as a whole can be tilted at a certain angle, so as to complete the dumping of the compacted waste and greatly improve the storage efficiency of the waste.

The arc-shaped connecting block 401 is welded to the bottom of the mounting base plate 301, and the arc-shaped connecting block 401 is slidably connected to the sliding rod 402 through the mounting groove, the connecting rod 403 is sleeved on the sliding rod 402, and the other end of the connecting rod 403 is connected to the mounting base plate 301, the positioning rod 404 is fixedly installed on the mounting base plate 301, the positioning rod 404 is rotatably connected to the connecting sleeve 405, the connecting sleeve 405 is welded to the telescopic rod 406, and the telescopic rod 406 is vertically fixedly installed on the movable base plate 1.

It should be noted that, in this article, relational terms such as first and second, etc. are only used to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Moreover, the terms "include", "comprise" or any other variants thereof are intended to cover non-exclusive inclusion, so that a process, method, article or device including a series of elements includes not only those elements, but also other elements not explicitly listed, or also includes elements inherent to such process, method, article or device. In the absence of further restrictions, the elements defined by the statement "comprise a ..." do not exclude the presence of other identical elements in the process, method, article or device including the elements.

Claims (6)

1. The utility model provides a building engineering waste material transfer device, includes movable bottom plate (1), its characterized in that: a transfer device is arranged on the movable bottom plate (1), the transfer device comprises a rolling unit and a dumping unit, a storage box (2) is arranged on one side of the transfer device, and the storage box (2) is arranged on the movable bottom plate (1);

The rolling unit comprises a mounting base plate (301), hollowed-out plates (302) are symmetrically distributed at two ends of the mounting base plate (301), concave plates (303) are arranged on one sides of the hollowed-out plates (302), an inclined feeding groove (304) is formed by the concave plates (303) and the hollowed-out plates (302), sliding guide rails (305) are arranged on the hollowed-out plates (302), sliding rollers (306) and positioning rollers (307) are symmetrically distributed at the left end and the right end of the sliding guide rails (305), and rolling rollers (308) are arranged on the sliding rollers (306).

2. The construction waste transfer device according to claim 1, wherein: the mounting base plate (301) is fixedly connected with the hollowed-out plates (302), the concave plates (303) are welded with the two hollowed-out plates (302), the sliding guide rail (305) is arranged in the middle of the hollowed-out plates (302), the sliding roller (306) is in sliding connection with the hollowed-out plates (302) through the sliding guide rail (305), and the positioning roller (307) is arranged on one side of the sliding guide rail (305) in a positioning mode.

3. A construction waste transfer device according to claim 2, wherein: the sliding roller (306) and the positioning roller (307) are respectively provided with a sleeved wheel (309), the sleeved wheels (309) are provided with sleeved openings, elastic shrinkage ropes (310) are arranged in the sleeved openings, stretching rods (311) are arranged at the middle parts of the elastic shrinkage ropes (310), the stretching rods (311) are located on a threaded sleeve (312), and the threaded sleeve (312) is located on a screw rod (313).

4. A construction waste transfer device according to claim 3, wherein: the sliding roller (306) and the positioning roller (307) are welded with the sleeved wheels (309), the elastic shrinkage rope (310) is sleeved on the two sleeved wheels (309) through the sleeved openings, the stretching rod (311) is welded with the threaded sleeve (312), the threaded sleeve (312) is in threaded connection with the threaded part of the screw rod (313), the screw rod (313) is connected with a rotating motor (314) through a coupler, the rotating motor (314) is mounted on a motor frame, and the motor frame is welded with the outer wall of the mounting base plate (301).

5. The construction waste transfer device according to claim 1, wherein: the pouring unit comprises an arc-shaped connecting block (401), the arc-shaped connecting block (401) is located in the middle of the bottom of a mounting base plate (301), a mounting groove is formed in the arc-shaped connecting block (401), a sliding rod (402) is arranged at the mounting groove, connecting rods (403) are symmetrically distributed at two ends of the sliding rod (402), the other ends of the connecting rods (403) are connected with the mounting base plate (301), positioning rods (404) are symmetrically distributed on four sides of the mounting base plate (301), connecting sleeves (405) are respectively arranged at the other ends of the positioning rods (404), and telescopic rods (406) are arranged at the bottoms of the connecting sleeves (405).

6. The construction waste transfer device according to claim 5, wherein: the arc connecting block (401) is welded at the bottom of the mounting base plate (301), the arc connecting block (401) is connected with the sliding rod (402) in a sliding mode through the mounting groove, the connecting rod (403) is sleeved on the sliding rod (402), the positioning rod (404) is fixedly mounted on the mounting base plate (301), the positioning rod (404) is rotationally connected with the connecting sleeve (405), the connecting sleeve (405) is welded with the telescopic rod (406), and the telescopic rod (406) is vertically and fixedly mounted on the moving base plate (1).