CN220915584U - Dustproof structure of underground coal mine operating platform - Google Patents

Abstract

The utility model discloses a dustproof structure of an underground coal mine operating platform, and relates to the technical field of underground coal mine equipment protection. The utility model comprises triangular support legs, beam frames, glass door plates and a control box, wherein the two triangular support legs are connected through the two beam frames, two symmetrically arranged glass door plates are connected between the two beam frames in a sliding manner, the control box is fixed on the outer side surface of one triangular support leg, and two electric telescopic rods are fixed on the top surface of the beam frame. The utility model can be covered on the top surface of the operation desk, and can shield the operation area on the operation desk when not in use, thereby achieving the purpose of dust prevention, the dust prevention structure can be simply folded, the transportation is convenient, the dust prevention structure is additionally arranged to be matched with a magnetic card for use, and the two glass door plates of the dust prevention structure can be automatically opened after the magnetic card is identified, thereby being convenient for operators to use, preventing the dust prevention structure from being easily opened by people to be touched by mistake when not in use, and improving the use safety performance.

Description

Dustproof structure of underground coal mine operating platform

Technical Field

The utility model belongs to the technical field of protection of underground coal mine equipment, and particularly relates to a dustproof structure of an underground coal mine operation table.

Background

The utility model provides a colliery is control center in pit for colliery is used for control and control equipment and technology in pit, in current publication, CN 205297127U-a novel colliery is multi-functional operation panel of operation in pit, is disclosed to be provided with the operation panel body, and the operation panel body outer wall is provided with the display screen, and the outer wall of operation panel body is provided with the keyboard. Although the existing underground coal mine operation table is commonly used for underground coal mine, the following defects still exist in actual use:

1. The existing underground coal mine operation table is easy to accumulate dust when used underground coal mines, and a plurality of dead angles are cleaned by operation buttons on the operation table.

2. The existing underground coal mine operation table has the defects that the operation buttons on the operation table are mostly exposed outside and are placed underground coal mines for use, so that the operation buttons are easy to be mistakenly touched by people, and great potential safety hazards exist.

Disclosure of utility model

The utility model aims to provide a dustproof structure of an underground coal mine operation table, which is formed by triangular support legs, beam frames, glass door plates and a control box, so that the problems that the existing underground coal mine operation table is easy to accumulate dust during underground use of the coal mine, operation buttons on the operation table have a plurality of cleaning dead angles, once the dust is accumulated, the operation buttons are very difficult to clean, long-term dust accumulation can affect the use, and the operation buttons on the operation table are exposed out and put in the underground coal mine for use, are easy to be mistakenly touched by people, and have great potential safety hazards are solved.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

The utility model relates to a dustproof structure of an underground coal mine operation table, which comprises triangular support legs, beam frames, glass door plates and a control box, wherein the triangular support legs comprise a top plate and a bottom plate, two sides of the inner side surface of the top plate are respectively and movably connected with two sides of the inner side surface of the bottom plate through a first hinge, the two triangular support legs are connected through two beam frames, the beam frames comprise a first beam plate and a second beam plate, the top surfaces of the first beam plate and the second beam plate, which are close to one another, are respectively and fixedly provided with a cushion, the cushion of the first beam plate and the cushion of the second beam plate are movably connected through a second hinge, two symmetrically arranged glass door plates are connected between the two beam frames in a sliding mode, the outer side surface of one triangular support leg is fixedly provided with the control box, and the top surface of the beam frames is fixedly provided with two electric telescopic rods which drive the glass door plates.

Further, the side of the top plate is provided with a transverse through groove, and the size of the through groove is matched with that of the glass door plate.

Further, the side of the first beam plate and the side of the second beam plate are provided with movable grooves, and the sizes of the movable grooves are matched with the sizes of the glass door plates.

Further, the extending directions of the two electric telescopic rods on the beam frame are opposite, and the two electric telescopic rods on the beam frame are positioned on two parallel lines and staggered with each other.

Further, one electric telescopic rod on the beam frame is connected with the outer end plate of the glass door plate on one side, and the other electric telescopic rod on the beam frame is connected with the outer end plate of the glass door plate on the other side.

Further, a scanning area is arranged on the outer surface of the control box, an identification module is fixed in the control box corresponding to the scanning area, and a control module and an information processing module are fixed in the control box located on one side of the identification module.

Further, the scanning area in the control box, the identification module in the control box, the control module in the control box and the information processing module in the control box are all electrically connected, the control module in the control box is electrically connected with each electric telescopic rod, a switch is arranged on one side of the control box, and the switch of the control box is electrically connected with each electric telescopic rod.

The utility model has the following beneficial effects:

1. The dustproof structure formed by the triangular support legs, the beam frame, the glass door plate and the control box can be covered on the top surface of the operation table, when the dustproof structure is not used, the operation area on the operation table can be shielded, the dustproof purpose is achieved, and in addition, the dustproof structure can be simply folded, and is convenient to transport.

2. The dustproof structure that sets up cooperates the magnetic card to use, and during operating personnel used, need utilize the magnetic card that matches to use, can open two glass door plant of dustproof structure after discernment magnetic card automatically, both make things convenient for operating personnel to use, can prevent again when not using that to be opened easily by the people and bump by mistake, improved the security performance of using.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the drawings used for describing the embodiments will be briefly described below.

FIG. 1 is a schematic view of a dust-proof structure of a coal mine underground operation table;

FIG. 2 is a schematic view of the folded structure of FIG. 1;

FIG. 3 is a schematic view of the two glass door panels of FIG. 1 after being unfolded;

FIG. 4 is a schematic view of the structure of a triangular support leg;

Fig. 5 is a schematic structural view of a connection portion between a first beam plate and a second beam plate.

In the drawings, the list of components represented by the various numbers is as follows:

100. Triangular support legs; 110. a top plate; 111. a through groove; 120. a bottom plate; 130. a first hinge; 200. a beam frame; 210. an electric telescopic rod; 201. a first beam plate; 202. a second beam plate; 203. a pad seat; 204. a second hinge; 205. a movable groove; 300. a glass door panel; 400. a control box; 410. and (5) scanning the area.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-5, the utility model discloses a dust-proof structure of a coal mine underground operation table, which comprises triangle supporting legs 100, a beam frame 200, a glass door plate 300 and a control box 400, wherein the triangle supporting legs 100 comprise a top plate 110 and a bottom plate 120, the two triangle supporting legs 100 are connected through two beam frames 200, two electric telescopic rods 210 are fixed on the top surface of the beam frame 200, the two electric telescopic rods 210 on the beam frame 200 extend in opposite directions, the two electric telescopic rods 210 on the beam frame 200 are positioned on two parallel lines and are staggered mutually, one electric telescopic rod 210 on the beam frame 200 is connected with the outer end plate of the glass door plate 300 on one side, the other electric telescopic rod 210 on the beam frame 200 is connected with the outer end plate of the glass door plate 300 on the other side, the electric telescopic rod 210 drives the glass door plate 300, the beam frame 200 comprises a beam plate 201 and a beam plate 202 on the side surface of the top plate 110 is provided with a transverse through groove 111, the size of the through groove 111 is matched with that of the glass door plate 300, the side surface of the first beam plate 201 and the side surface of the second beam plate 202 are respectively provided with a movable groove 205, the size of the movable groove 205 is matched with that of the glass door plate 300, two symmetrically arranged glass door plates 300 are connected between two beam frames 200 in a sliding way, a control box 400 is fixed on the outer side surface of one triangular support leg 100, a scanning area 410 is arranged on the outer surface of the control box 400, an identification module is fixed inside the control box 400 corresponding to the scanning area 410, a control module and an information processing module are fixed inside the control box 400 positioned on one side of the identification module, the scanning area 410 in the control box 400, the identification module in the control box 400 and the information processing module in the control box 400 are electrically connected, the control module in the control box 400 is electrically connected with each electric telescopic rod 210, a switch is installed at one side of the control box 400, and the switch of the control box 400 is electrically connected with each electric telescopic rod 210.

The specific application of the arrangement is as follows: when in use, a worker firstly places a magnetic card in the scanning area 410, at the moment, the scanning area 410 can read information on the magnetic card and convey the information to an information processing module in the control box 400, after the scanned information is correct, each electric telescopic rod 210 is synchronously started by the control module in the control box 400, and under the action of the two groups of electric telescopic rods 210, the two glass door plates 300 are driven to synchronously move outwards to open an area between the two beam frames 200, and at the moment, the worker can operate on an operation desk;

After the device is used, the switches on the control box 400 immediately start the electric telescopic rods 210, and the two glass door plates 300 are driven to move inwards synchronously again under the action of the two groups of electric telescopic rods 210, so that the area between the two beam frames 200 is closed, and the operation area on the operation table is shielded.

As shown in fig. 1-2 and fig. 4-5, two sides of the inner side of the top plate 110 are respectively movably connected with two sides of the inner side of the bottom plate 120 through a first hinge 130, a cushion 203 is fixed on the top surface of the side, which is close to the first beam plate 201 and the second beam plate 202, and a movable connection is formed between the cushion 203 of the first beam plate 201 and the cushion 203 of the second beam plate 202 through a second hinge 204.

The specific application of the arrangement is as follows: during transportation, the bottom plate 120 of the triangular support leg 100 is directly folded through the first hinge 130 of the triangular support leg 100, after the triangular support legs 100 are respectively folded one by one, the two beam frames 200 are synchronously folded through the second hinge 204 of the beam frames 200, and therefore the whole protection structure can be folded.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (7)

1. The utility model provides a dustproof construction of colliery underground operation platform, includes triangle supporting leg (100), roof beam structure (200), glass door plant (300) and control box (400), its characterized in that: two triangular support legs (100) are connected through two beam frames (200), two symmetrically arranged glass door plates (300) are connected between the two beam frames (200) in a sliding mode, a control box (400) is fixed on the outer side face of one triangular support leg (100), two electric telescopic rods (210) are fixed on the top face of the beam frame (200), and the electric telescopic rods (210) drive the glass door plates (300);

The triangular support leg (100) comprises a top plate (110) and a bottom plate (120), wherein two sides of the inner side surface of the top plate (110) are respectively and movably connected with two sides of the inner side surface of the bottom plate (120) through a first hinge (130);

The beam frame (200) comprises a first beam plate (201) and a second beam plate (202), wherein the top surfaces of the first beam plate (201) and the second beam plate (202) close to one side are respectively fixedly provided with a cushion seat (203), and the cushion seats (203) of the first beam plate (201) and the cushion seats (203) of the second beam plate (202) are movably connected through a second hinge (204).

2. The dust-proof structure of a coal mine underground operation table according to claim 1, wherein: a transverse through groove (111) is formed in the side face of the top plate (110), and the size of the through groove (111) is matched with that of the glass door plate (300).

3. The dust-proof structure of a coal mine underground operation table according to claim 2, wherein: the side of the first beam plate (201) and the side of the second beam plate (202) are both provided with movable grooves (205), and the size of each movable groove (205) is matched with that of the glass door plate (300).

4. The dust-proof structure of a coal mine underground operation table according to claim 1, wherein: the extending directions of the two electric telescopic rods (210) on the beam frame (200) are opposite, and the two electric telescopic rods (210) on the beam frame (200) are positioned on two parallel lines and are staggered with each other.

5. The dust-proof structure of a coal mine underground operation table according to claim 4, wherein: one electric telescopic rod (210) on the beam frame (200) is connected with the outer end plate of the glass door plate (300) on one side, and the other electric telescopic rod (210) on the beam frame (200) is connected with the outer end plate of the glass door plate (300) on the other side.

6. The dust-proof structure of a coal mine underground operation table according to claim 1, wherein: the outer surface of the control box (400) is provided with a scanning area (410), an identification module is fixed inside the control box (400) corresponding to the scanning area (410), and a control module, an information processing module and an information processing module are fixed inside the control box (400) at one side of the identification module.

7. The dust-proof structure of a coal mine underground operation table as claimed in claim 6, wherein: the scanning area (410) in the control box (400), the identification module in the control box (400), the control module in the control box (400) and the information processing module in the control box (400) are all electrically connected, the control module in the control box (400) is electrically connected with each electric telescopic rod (210), a switch is arranged on one side of the control box (400), and the switch of the control box (400) is electrically connected with each electric telescopic rod (210).