CN216379629U

CN216379629U - Slope retaining structure for open-air nonmetal mine

Info

Publication number: CN216379629U
Application number: CN202123094880.8U
Authority: CN
Inventors: 邓红梅
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-10
Filing date: 2021-12-10
Publication date: 2022-04-26
Anticipated expiration: 2031-12-10

Abstract

The utility model relates to the field of slope retaining devices, and particularly discloses a slope retaining structure for an open-air nonmetal mine, which comprises a base, wherein the upper end surface of the base is provided with at least 2 mounting columns which are vertical to the base, and the heights of the mounting columns are adjustable; the mounting column is characterized by further comprising a shielding part connected with the mounting column, the height of the shielding part is equal to that of the mounting column, the shielding part comprises at least 1 baffle connected with the mounting column, and the baffle is provided with a connecting mechanism connected with the mounting column. When the earthwork of the mine slope slides down, the baffle can better block the sliding earthwork, thereby better ensuring the safety of the mine operators.

Description

Slope retaining structure for open-air nonmetal mine

Technical Field

The utility model relates to the field of slope soil retaining devices, in particular to a slope soil retaining structure for an open-pit nonmetallic mine.

Background

During production on the strip mine, in order to prevent the earthwork slip on the side slope from causing damage to the operating personnel on the mine, the edge of the side slope is required to be provided with a baffle plate for blocking the earthwork slip on the side slope, and the current baffle plate is usually fixed and cannot be adjusted according to the height of the side slope, so that the earthwork slip on the side slope cannot be effectively blocked.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model is solved by the following technical scheme:

a slope soil-retaining structure for an open-pit nonmetallic mine comprises a base, wherein the upper end surface of the base is provided with at least 2 mounting columns which are perpendicular to the base, and the heights of the mounting columns are adjustable; the mounting column is characterized by further comprising a shielding part connected with the mounting column, the height of the shielding part is equal to that of the mounting column, the shielding part comprises at least 1 baffle connected with the mounting column, and the baffle is provided with a connecting mechanism connected with the mounting column.

When the earthwork of the mine slope slides down, the baffle can better block the sliding earthwork, thereby better ensuring the safety of the mine operators.

Preferably, the connecting mechanism comprises a connecting plate arranged on the baffle, and a connecting plate through hole in clearance fit with the mounting column is formed in the connecting plate.

According to the utility model, the connection between the baffle and the mounting column is realized more conveniently through the arrangement of the connecting mechanism structure.

Preferably, the mounting column comprises a bottom column fixedly connected with the base, and a bottom column screw hole is formed in the upper end of the bottom column; the mounting column further comprises at least one connecting column used for being connected with the bottom column, two end portions of the connecting column in the axis direction are respectively provided with a threaded connector and a connecting column screw hole, the threaded connector on the connecting column is used for being connected with a connecting column screw hole or a bottom column screw hole on an adjacent connecting column, and the connecting column screw hole on the connecting column is used for being connected with a threaded connector on an adjacent connecting column.

According to the utility model, the height of the mounting column is conveniently adjusted by arranging the mounting column structure.

Preferably, the bottom column is equal to the connecting column in length, and the baffle is equal to the bottom column in height.

According to the utility model, the installation of the baffle is better facilitated through the arrangement of the bottom column, the connecting column and the height of the baffle.

Preferably, the bottom column is connected with the base in a welding mode.

In the utility model, the base is connected with the bottom column in a welding manner, so that the connection between the bottom column and the base can be realized more conveniently.

Preferably, the base is provided with a fixing mechanism for fixing the base on the ground, the fixing mechanism comprises a base through hole arranged on the base, and the fixing mechanism further comprises a pin penetrating through the base through hole.

In the utility model, the fixing of the base is realized more conveniently through the arrangement of the fixing mechanism structure.

Preferably, a reinforcing rib is arranged between the baffle and the connecting plate.

According to the utility model, through the arrangement of the reinforcing ribs, the connection strength between the connecting plate and the baffle plate is better improved.

Drawings

Fig. 1 is a schematic structural view of a side slope soil retaining structure for a non-metallic open-pit mine according to example 1.

Fig. 2 is a schematic structural view of the baffle plate in fig. 1.

Fig. 3 is a schematic structural diagram of the base in fig. 1.

Fig. 4 is a schematic structural view of the connecting column in embodiment 1.

Detailed Description

For a further understanding of the utility model, reference should be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the utility model and not limiting.

Example 1

As shown in fig. 1, the embodiment provides a slope soil-retaining structure for an open-pit nonmetallic mine, which includes a base 110, wherein at least 2 mounting columns 120 perpendicular to the base 110 are arranged on the upper end surface of the base 110, and the height of the mounting columns 120 is adjustable; the mounting column 120 is provided with a shielding part, the shielding part is connected with the mounting column 120, the height of the shielding part is equal to that of the mounting column 120, the shielding part comprises at least 1 baffle 130 connected with the mounting column 120, and the baffle 130 is provided with a connecting mechanism connected with the mounting column 120.

When the slope soil retaining structure in this embodiment is installed, the base 110 is first fixed to the slope of the mine, then the height of the mounting columns 120 is adjusted according to the height of the slope, and then the baffles 130 are installed between the mounting columns 120 so that the upper ends of the baffles 130 are equal to the height of the mounting columns 120. When the earthwork of the mine slope falls, the baffle 130 can better block the fallen earthwork, thereby better ensuring the safety of the mine operators. Compare in ordinary retention device, the side slope retaining structure in this embodiment can be according to the height adjustment occlusion part's of side slope height to the protective effect to the side slope has further been promoted.

Referring to fig. 2, the connection mechanism includes a connection plate 140 disposed on the baffle 130, a reinforcing rib 220 is disposed between the baffle 130 and the connection plate 140, and a connection plate through hole 210 which is in clearance fit with the mounting post 120 is disposed on the connection plate 140.

In this embodiment, through the arrangement of the connection mechanism structure, the connection between the baffle 130 and the mounting column 120 can be realized through the cooperation between the connection plate through hole 210 and the mounting column 120, so that the connection between the baffle 130 and the mounting column 120 is realized more conveniently.

The arrangement of the reinforcing ribs 220 preferably improves the connection strength between the connecting plate 140 and the baffle 130.

As shown in fig. 3 and 4, the mounting post 120 includes a bottom post 310 fixedly connected to the base 110, and the bottom post 310 is welded to the base 110. The upper end of the bottom pillar 310 is provided with a bottom pillar screw hole 320; the mounting post 120 further comprises at least one connecting post 410 for connecting with the bottom post 310, two ends of the connecting post 410 along the axial direction are respectively provided with a threaded connector 420 and a connecting post screw hole 430, the threaded connector 420 on the connecting post 410 is used for being connected with the connecting post screw hole 430 or the bottom post screw hole 320 on the adjacent connecting post 410, and the connecting post screw hole 430 on the connecting post 410 is used for being connected with the threaded connector 420 on the adjacent connecting post 410. In this embodiment, the bottom pillars 310 and the connecting pillars 410 have the same length, and the height of the baffle 130 is the same as that of the bottom pillars 310.

In this embodiment, through the setting of erection column 120 structure for when carrying out the installation to this side slope soil retaining structure for the non-metallic mine in open pit, can connect with the height of adjusting erection column 120 according to the spliced pole 410 of selecting different quantity, thereby comparatively convenient realization is to the regulation of erection column 120 height.

The welding connection between the base 110 and the bottom pillar 310 can conveniently realize the connection between the bottom pillar 310 and the base 110.

The height of the bottom column 310, the height of the connecting column 410 and the height of the baffle 130 are set, so that when the baffle 130 is installed, the same number of baffles 130 can be selected to be installed on the installation column 120 according to the sum of the numbers of the bottom column 310 and the connecting column 410, and the installation of the baffles 130 is facilitated.

In this embodiment, the base 110 is provided with a fixing mechanism for fixing the base 110 on the ground, the fixing mechanism includes a base through hole 330 disposed on the base 110, and the fixing mechanism further includes a pin 150 penetrating through the base through hole 330.

In this embodiment, when the base 110 is installed, the base 110 can be fixed on the ground by the pin 150 passing through the base through hole 330, so that the base 110 can be conveniently fixed.

In summary, the above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made in the claims of the present invention should be covered by the claims of the present invention.

Claims

1. The utility model provides a surface nonmetal is slope retaining structure for mine which characterized in that: the device comprises a base (110), wherein at least 2 mounting columns (120) vertical to the base (110) are arranged on the upper end face of the base (110), and the height of each mounting column (120) is adjustable; the mounting structure is characterized by further comprising a shielding part connected with the mounting column (120), the height of the shielding part is equal to that of the mounting column (120), the shielding part comprises at least 1 baffle (130) connected with the mounting column (120), and the baffle (130) is provided with a connecting mechanism connected with the mounting column (120).

2. The slope soil retaining structure for the open-pit non-metal mine according to claim 1, wherein: the connecting mechanism comprises a connecting plate (140) arranged on the baffle (130), and a connecting plate through hole (210) in clearance fit with the mounting column (120) is formed in the connecting plate (140).

3. The slope soil retaining structure for the open-pit non-metal mine according to claim 1, wherein: the mounting column (120) comprises a bottom column (310) fixedly connected with the base (110), and the upper end part of the bottom column (310) is provided with a bottom column screw hole (320); the mounting column (120) further comprises at least one connecting column (410) used for being connected with the bottom column (310), two end portions of the connecting column (410) in the axial direction are respectively provided with a threaded connector (420) and a connecting column screw hole (430), the threaded connector (420) on the connecting column (410) is used for being connected with the connecting column screw hole (430) or the bottom column screw hole (320) on the adjacent connecting column (410), and the connecting column screw hole (430) on the connecting column (410) is used for being connected with the threaded connector (420) on the adjacent connecting column (410).

4. The slope soil retaining structure for the open-pit non-metal mine according to claim 3, wherein: the bottom column (310) and the connecting column (410) are equal in length, and the baffle (130) is equal in height to the bottom column (310).

5. The slope soil retaining structure for the open-pit non-metal mine according to claim 3, wherein: the bottom column (310) is connected with the base (110) in a welding way.

6. The slope soil retaining structure for the open-pit non-metal mine according to claim 1, wherein: the base (110) is provided with a fixing mechanism used for fixing the base (110) on the ground, the fixing mechanism comprises a base through hole (330) arranged on the base (110), and the fixing mechanism further comprises a pin (150) penetrating through the base through hole (330).

7. The slope soil retaining structure for the open-pit non-metal mine according to claim 2, wherein: and reinforcing ribs (220) are arranged between the baffle (130) and the connecting plate (140).