CN113556453A - Integrated supervision platform for safety production of smart mine - Google Patents

Abstract

The invention discloses an integrated supervision platform for safety production of an intelligent mine, which structurally comprises a supporting rod, a solar panel, a monitoring device, a distribution box and a loudspeaker, wherein the monitoring device comprises a fixed seat, a connecting rod and a monitoring head, the monitoring head comprises a camera, a protective cover, an airflow groove, a waterproof frame, an air guide device airflow groove comprises a circulation groove, an air inlet groove, a guide plate, a guide groove, a rectification block and a rectification piece, the rectification block comprises an air collection groove, a downward flow groove, a vertical flow piece and a diversion groove, the vertical flow piece comprises a ventilation groove, a slow flow groove and an air inlet port, the invention utilizes the downward flow of airflow from the circulation groove to impact dust attached to the end surface of the protective cover, prevents the dust from attaching to the end surface of the protective cover and enables supervision personnel to monitor the condition in the mine in real time, the safety of the construction environment of the workers can be ensured while the working efficiency of the workers is improved.

Description

Integrated supervision platform for safety production of smart mine

Technical Field

The invention relates to the technical field of mine safety production, in particular to an intelligent mine safety production integrated supervision platform.

Background

The safety production supervisory systems in wisdom mine can carry out effective integration, centralized monitoring early warning and emergency command to mine safety production management, can also monitor the environment of mine production to carry out real-time supervision to the personnel and the equipment of mine production, and be equipped with supervisory equipment, speaker, circuit integrated system in the supervision platform, can realize the integration to the function of mine supervision.

Based on the discovery of the inventor, the existing intelligent mine safety production integrated supervision platform mainly has the following defects, for example: the supervisory equipment in the supervision platform is installed in the mine, because the concentration of the operational environment dust of ore is great for the dust attaches the terminal surface at supervisory equipment along with the drive of crosswind, can block the shooting picture of camera, leads to the picture that supervisory equipment shot unclear.

Disclosure of Invention

Aiming at the problems, the invention provides an integrated supervision platform for safety production of an intelligent mine.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an integrated supervision platform of wisdom mine safety in production, its structure includes bracing piece, solar panel, supervisory equipment, block terminal, speaker, the top side of bracing piece is equipped with solar panel, solar panel is equipped with two, and sets up the both ends at the bracing piece respectively, supervisory equipment connects in the rear end of bracing piece, the block terminal sets up the lower extreme at solar panel, the speaker is located the other end of block terminal, supervisory equipment includes fixing base, connecting rod, control head, the fixing base welds in the bracing piece, the connecting rod welds in the bottom of fixing base, the control head is located the connecting rod under.

Furthermore, the monitoring head comprises a camera head, a protective cover, an airflow groove, a waterproof frame and an air guide device, the camera head is arranged in the middle of the bottom of the monitoring head, the protective cover is positioned under the camera head and covers the camera head, the airflow groove is arranged at the inner side end of the monitoring head, the waterproof frame is embedded in the bottom side end of the monitoring head, the air guide device is positioned under the airflow groove, and the protective cover is made of glass.

Furthermore, the airflow groove comprises a circulation groove, an air inlet groove, a guide plate, a guide groove, more than five rectification blocks and rectification pieces, the circulation groove is arranged at the inner side end of the monitoring head, the air inlet groove is vertically arranged on the side end face of the circulation groove, the guide plate is vertically arranged in the middle of the inner part of the circulation groove, the guide grooves are more than three, the guide grooves are vertically arranged on the end face of the guide plate, the rectification blocks are fixedly embedded at the bottom of the guide plate, the rectification pieces are six and are transversely arranged at the bottom of the circulation groove, the top end of the guide plate is arc-shaped, and an included angle between the guide groove and the horizontal plane is 45 degrees.

Further, the rectification piece includes gas collecting channel, underflow groove, vertical flow piece, splitter box, the gas collecting channel is equipped with two, and sets up respectively at the both ends of rectification piece, the underflow groove is located the bottom of rectification piece is middle in the middle, vertical flow piece inlays the bottom of underflow groove in the middle, the splitter box is equipped with four, and two liang of settings are in the both sides of rectification piece, the top of underflow groove is connected with the lower extreme of two gas collecting channels.

Further, vertical flow piece includes draft slot, slow-flowing groove, air inlet port, the draft slot is located vertical flow piece's inside, the slow-flowing groove sets up at the inside side that the draft slot is right, the air inlet port is located the top of draft slot, the width in slow-flowing groove is dwindled to both ends by the centre gradually.

Furthermore, the air guiding device comprises an air guiding frame, two air collecting openings, two air storage grooves and two air guiding blocks, wherein the end surfaces of the air guiding frame are bent from the side ends to the middle, the two air collecting openings are respectively arranged at the two ends of the top of the air guiding frame, the two air storage grooves are arranged at the inner side end surfaces of the air guiding frame, the air guiding blocks are fixedly embedded at the bottom of the air guiding frame, and the depth of the air storage grooves gradually becomes deeper from the upper ends to the lower ends.

Further, the wind-guiding piece includes wind-guiding body, guiding gutter, splitter box, guide vane, the terminal surface of wind-guiding body is by outside to inboard bending, the guiding gutter is equipped with more than three, and encircles the inner terminal surface range in the wind-guiding body, the splitter box is equipped with more than six, and uses three as a set of, and transverse arrangement is in the guiding gutter, the guide vane is equipped with more than six, and uses two to inlay the bottom at the guiding gutter as a set of symmetry, splitter box perpendicular to horizontal plane.

Furthermore, the guide plate comprises a guide body, guide grooves and through holes, the guide grooves are formed in the end faces of the inner sides of the guide body, the number of the through holes is three, the through holes are located at the bottom ends of the guide grooves, and the depth of each guide groove is gradually reduced from the upper end to the lower end.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. the protective cover is used for covering the camera head, so that dust is prevented from attaching to the end face of the protective cover, the definition of an image shot by the camera head is guaranteed, the airflow is guided downwards through the guide groove, the airflow flows downwards from the circulation groove to impact the dust attached to the end face of the protective cover, the dust is prevented from attaching to the end face of the protective cover, a supervisor can monitor the condition in a mine in real time, the working efficiency of workers is improved, and meanwhile, the safety of the construction environment of the workers can be guaranteed.

2. According to the invention, the depth of the air storage groove is set to gradually become deeper from the upper end to the lower end, so that the air flow can flow along the end surface of the air storage groove, and when the air flow is arranged at the bottom end of the air storage groove, the air flow can be guided to flow towards the end surface of the protective cover, so that the dust attached to the end surface of the protective cover can be taken away by the air flow, the camera can clearly shoot the conditions in the mine, and the supervision personnel can supervise the safety of the personnel and the working environment in the mine.

Drawings

Fig. 1 is a schematic view of a main perspective structure of an integrated monitoring platform for safety production of an intelligent mine.

Fig. 2 is a schematic front view of the monitoring device of the present invention.

Fig. 3 is a schematic front view of the monitor head according to the present invention.

Fig. 4 is a schematic view of the front view structure of the air flow groove of the present invention.

Fig. 5 is a schematic front view of a rectifying block according to the present invention.

FIG. 6 is a front view of the vertical flow sheet of the present invention.

Fig. 7 is a schematic front view of the air guiding device of the present invention.

Fig. 8 is a schematic cross-sectional view of the air guide block of the present invention.

Fig. 9 is a schematic cross-sectional view of the guiding sheet of the present invention.

In the figure: the device comprises a support rod 1, a solar panel 2, a monitoring device 3, a distribution box 4, a loudspeaker 5, a fixed seat 31, a connecting rod 32, a monitoring head 33, a camera 331, a protective cover 332, an airflow groove 333, a waterproof frame 334, an air guide 335, a circulation groove a1, an air inlet groove a2, a guide plate a3, a guide groove a4, a rectifier block a5, a rectifier sheet a6, an air collection groove a51, a downward flow groove a52, a vertical flow sheet a53, a diversion groove a54, a ventilation groove b1, a slow flow groove b2, an air inlet port b3, an air guide frame c1, an air collection port c2, an air storage groove c3, an air guide block c4, an air guide body c41, a flow guide groove c42, a diversion groove c43, a guide sheet a44, a guide body d1, a guide groove d2 and a through hole d 3.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows: referring to fig. 1-6, the embodiments of the present invention are as follows:

its structure includes bracing piece 1, solar panel 2, supervisory equipment 3, block terminal 4, speaker 5, the top side of bracing piece 1 is equipped with solar panel 2, solar panel 2 is equipped with two, and sets up respectively at the both ends of bracing piece 1, supervisory equipment 3 connects in the rear end of bracing piece 1, block terminal 4 sets up the lower extreme at solar panel 2, speaker 5 is located block terminal 4's the other end, supervisory equipment 3 includes fixing base 31, connecting rod 32, first 33 of monitoring, fixing base 31 welds in bracing piece 1, connecting rod 32 welds in fixing base 31's bottom, first 33 of monitoring is located connecting rod 32 under.

The monitoring head 33 comprises a camera 331, a protective cover 332, an airflow slot 333, a waterproof frame 334 and an air guide device 335, the camera 331 is installed in the middle of the bottom of the monitoring head 33, the protective cover 332 is located right below the camera 331 and covers the camera 331, the airflow slot 333 is arranged at the inner side end of the monitoring head 33, the waterproof frame 334 is embedded and fixed at the bottom side end of the monitoring head 33, the air guide device 335 is located right below the airflow slot 333, the protective cover 332 is made of glass, the camera 331 is covered by the protective cover 332, and dust is prevented from attaching to the end face of the protective cover 332.

The air flow groove 333 comprises a flow groove a1, an air inlet groove a2, a guide plate a3, a guide groove a4, a rectifying block a5 and a rectifying sheet a6, the circulation grooves a1 are provided at the inner side end of the monitoring head 33, the inlet grooves a2 are provided with more than five, and is vertically arranged on the side end surface of the circulation groove a1, the guide plate a3 is vertically arranged in the middle of the inside of the circulation groove a1, more than three guide grooves a4 are arranged, and are vertically arranged on the end surface of the guide plate a3, the rectifying block a5 is embedded at the bottom of the guide plate a3, six rectifying pieces a6 are arranged, and is transversely arranged at the bottom of the circulation groove a1, the top end of the guide plate a3 is arc-shaped, the included angle between the guide groove a4 and the horizontal plane is 45 degrees, which is beneficial to the air flow entering the circulation groove a1 from the air inlet groove a2, the air flow is rectified by the guide plate a3 and is guided downwards by the guide groove a 4.

The rectification block a5 comprises a gas collecting groove a51, a lower flow groove a52, vertical flow sheets a53 and a flow dividing groove a54, two gas collecting grooves a51 are arranged and are respectively arranged at two ends of a rectification block a5, the lower flow grooves a52 are located in the middle of the bottom of the rectification block a5, the vertical flow sheets a53 are embedded in the middle of the bottom of the lower flow groove a52, four flow dividing grooves a54 are arranged and are arranged on two sides of the rectification block a5 in pairs, the top ends of the lower flow grooves a52 are connected with the lower ends of the two gas collecting grooves a51, and the gas collecting grooves a51 are favorable for concentrating the gas flow in the lower flow grooves a52 to flow downwards so as to increase the flow rate of the gas flow.

Vertical flow piece a53 includes draft groove b1, slow-flow groove b2, air inlet port b3, draft groove b1 is located vertical flow piece a 53's inside, slow-flow groove b2 sets up the inside side end to draft groove b1, air inlet port b3 is located draft groove b 1's top, the width of slow-flow groove b2 is dwindled to both ends by the centre gradually, is favorable to reducing the area that the air current flows through slow-flow groove b2, increases the flow velocity of air current.

Based on the above embodiment, the specific working principle is as follows: when dust in a mine is attached to the monitoring equipment 3, so that the influence of the monitoring equipment 3 on shooting is unclear, the camera 331 can be covered by the protective cover 332 to prevent the dust from being attached to the end face of the protective cover 332, so that the definition of an image shot by the camera 331 is ensured, the airflow entering the circulation groove a1 from the air inlet groove a2 is rectified by the guide plate a3, the airflow is guided downwards by the guide groove a4 to flow downwards from the circulation groove a1 to impact the dust attached to the end face of the protective cover 332, then the top end of the lower circulation groove a52 is connected with the lower ends of the two air collecting grooves a51, the air collecting grooves a51 can concentrate the airflow to flow downwards in the lower circulation groove a52 to increase the flow rate of the airflow so that the airflow can take away the dust attached to the end face of the protective cover 332, and finally the airflow is concentrated by the slow flow grooves b2 in the flow sheets a53 and then flows downwards, can reduce the area that the air current flows, increase the flow velocity of air current for the air current can be taken away and attached the dust at protection casing 332 terminal surface, prevents that the dust from attaching the terminal surface at protection casing 332, makes the picture that camera 331 was shot have higher definition, lets the supervisor can be to the condition real time monitoring in the mine, when improving workman work efficiency, can also ensure staff construction environment's safety.

Example two: referring to fig. 7-9, the embodiment of the present invention is as follows:

the air guide device 335 comprises an air guide frame c1, an air collection opening c2, an air storage groove c3 and an air guide block c4, wherein the end face of the air guide frame c1 is bent from the side end to the middle, two air collection openings c2 are arranged and are respectively arranged at two ends of the top of the air guide frame c1, two air storage grooves c3 are arranged and are arranged at the inner side end face of the air guide frame c1, the air guide block c4 is embedded and fixed at the bottom of the air guide frame c1, the depth of the air storage groove c3 is gradually increased from the upper end to the lower end, and air flow is guided along the end face of the air storage groove c3 and then flows to the end face of the protective cover 332.

The air guide block c4 comprises an air guide body c41, a diversion trench c42, a diversion trench c43 and a guide vane a44, the end face of the air guide body c41 is bent from the outer side to the inner side, the diversion trench c42 is provided with more than three, the diversion trench c41 is arranged around the end face of the inner end of the air guide body c41, the diversion trench c43 is provided with more than six, the diversion trench c43 is in a group of three and transversely arranged in the diversion trench c42, the guide vane a44 is provided with more than six and symmetrically embedded and fixed at the bottom of the diversion trench c42 by taking two as a group, and the diversion trench c43 is vertical to the horizontal plane, so that the air flow is guided vertically downwards through the diversion trench c43, and the air flow is concentrated and accelerated.

The guide piece a44 includes director d1, guide way d2, through-hole d3, the inboard terminal surface of director d1 is equipped with guide way d2, through-hole d3 is equipped with threely, and is located the bottom of guide way d2, the degree of depth of guide way d2 is become shallow gradually by upper end lower extreme, is favorable to being dispersed form with the air current through guide way d2 and leads for the air current can be abundant contact with protection casing 332 terminal surface.

Based on the above embodiment, the specific working principle is as follows: the depth of the air storage groove c3 is set to be gradually deepened from the upper end to the lower end, so that air flow can flow along the end face of the air storage groove c3, when the air flow is arranged at the bottom end of the air storage groove c3, the air flow can be guided to flow towards the end face of the protective cover 332, so that dust attached to the end face of the protective cover 332 can be taken away by the air flow, the diversion groove c43 is set to be perpendicular to the horizontal plane, the air flow can be guided vertically downwards through the diversion groove c43, the air flow can impact the guide sheet a44 at a higher flowing speed and is uniformly distributed on the end face of the protective cover 332, finally, the air flow is guided in a dispersion mode through the guide groove d2, the air flow can be fully contacted with the end face of the protective cover 332, the impact effect of the air flow on the dust attached to the end face of the protective cover 332 is improved, the dust is prevented from being attached to the protective cover 332, and the condition in a mine can be clearly shot by the photographic head 331, and the safety of personnel and working environment in the mine can be monitored by the monitoring personnel.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides an integrated supervision platform of wisdom mine safety in production, its structure includes bracing piece (1), solar panel (2), supervisory equipment (3), block terminal (4), speaker (5), the top side of bracing piece (1) is equipped with solar panel (2), solar panel (2) are equipped with two, and set up the both ends at bracing piece (1) respectively, supervisory equipment (3) are connected in the rear end of bracing piece (1), block terminal (4) set up the lower extreme at solar panel (2), speaker (5) are located the other end of block terminal (4), its characterized in that:

monitoring equipment (3) include fixing base (31), connecting rod (32), monitoring head (33), fixing base (31) weld in bracing piece (1), connecting rod (32) weld in the bottom of fixing base (31), monitoring head (33) are located connecting rod (32) under.

2. The integrated supervision platform for safety production of the smart mine according to claim 1, characterized in that: the monitoring head (33) comprises a camera (331), a protective cover (332), an air flow groove (333), a waterproof frame (334) and an air guide device (335), the camera (331) is installed in the middle of the bottom of the monitoring head (33), the protective cover (332) is located right below the camera (331) and covers the camera (331), the air flow groove (333) is arranged at the inner side end of the monitoring head (33), the waterproof frame (334) is embedded at the bottom side end of the monitoring head (33), and the air guide device (335) is located right below the air flow groove (333).

3. The integrated supervision platform for safety production of the smart mine according to claim 2, characterized in that: the airflow groove (333) comprises a circulation groove (a1), an air inlet groove (a2), a guide plate (a3), a guide groove (a4), a rectifying block (a5) and rectifying pieces (a6), wherein the circulation groove (a1) is arranged at the inner side end of the monitoring head (33), the air inlet groove (a2) is provided with more than five and is vertically arranged on the side end surface of the circulation groove (a1), the guide plate (a3) is vertically arranged in the middle of the inner part of the circulation groove (a1), the guide groove (a4) is provided with more than three and is vertically arranged on the end surface of the guide plate (a3), the rectifying block (a5) is embedded at the bottom of the guide plate (a3), and the rectifying pieces (a6) are provided with six and are transversely arranged at the bottom of the circulation groove (a 1).

4. The integrated supervision platform for safety production of the smart mine according to claim 3, characterized in that: rectifying block (a5) includes gas-collecting channel (a51), lower chute (a52), vertical flow piece (a53), splitter box (a54), gas-collecting channel (a51) is equipped with two, and sets up respectively at the both ends of rectifying block (a5), lower chute (a52) is located the bottom centre of rectifying block (a5), vertical flow piece (a53) inlays in the bottom centre of lower chute (a52), splitter box (a54) is equipped with four, and two liang sets up the both sides at rectifying block (a 5).

5. The integrated supervision platform for safety production of the smart mine according to claim 4, characterized in that: vertical flow piece (a53) includes draft slot (b1), slow current groove (b2), air inlet port (b3), draft slot (b1) are located the inside of vertical flow piece (a53), slow current groove (b2) set up the inside side end to draft slot (b1), air inlet port (b3) are located the top of draft slot (b 1).

6. The integrated supervision platform for safety production of the smart mine according to claim 2, characterized in that: the air guide device (335) comprises an air guide frame (c1), an air collecting opening (c2), two air collecting grooves (c3) and an air guide block (c4), wherein the end face of the air guide frame (c1) is bent from the side end to the middle, the two air collecting openings (c2) are arranged and are respectively arranged at the two ends of the top of the air guide frame (c1), the two air storing grooves (c3) are arranged and are arranged on the inner side end face of the air guide frame (c1), and the air guide block (c4) is fixedly embedded at the bottom of the air guide frame (c 1).

7. The integrated supervision platform for safety production of the smart mine according to claim 6, characterized in that: the air guide block (c4) comprises an air guide body (c41), guide grooves (c42), a diversion trench (c43) and guide vanes (a44), the end face of the air guide body (c41) is bent from the outer side to the inner side, more than three diversion trenches (c42) are arranged and surround the end face of the inner end of the air guide body (c41) to be arranged, more than six diversion trenches (c43) are arranged and form a group of three, the three diversion trenches are transversely arranged in the guide grooves (c42), more than six diversion vanes (a44) are arranged, and two diversion trenches are symmetrically embedded and fixed at the bottom of the guide trenches (c42) in a group of two diversion trenches.

8. The integrated supervision platform for safety production of the smart mine according to claim 7, characterized in that: the guide piece (a44) comprises a guide body (d1), guide grooves (d2) and a through hole (d3), wherein the guide grooves (d2) are formed in the end face of the inner side of the guide body (d1), and the through holes (d3) are three and located at the bottom end of the guide grooves (d 2).

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