CN117682404B - Shaft guide potential safety hazard identification monitoring device - Google Patents

Abstract

The invention belongs to the technical field of potential safety hazard monitoring, in particular to a shaft guide potential safety hazard identification monitoring device, aiming at the problem that a monitoring point position of a monitoring device is fixed, and a part of areas cannot be effectively monitored, so that potential safety hazard points cannot be identified and early warned. The shaft guide potential safety hazard identification monitoring device disclosed by the invention has the effect of improving the monitoring safety effect, and the device can drive the monitoring equipment body to change the monitoring point position along with the operation of the lifting device in the shaft guide when in use, so that the monitoring potential safety hazard identification range is increased, the occurrence of monitoring dead angles is avoided, and the safety of the device is increased.

Description

Shaft guide potential safety hazard identification monitoring device

Technical Field

The invention relates to the technical field of potential safety hazard monitoring, in particular to a shaft guide potential safety hazard identification monitoring device.

Background

A wellbore refers to a vertical or inclined type of project that is excavated from the surface toward the ore body, referred to as a vertical, or an inclined type of project, referred to as a deviated well, in the construction of an underground or underground project. The shaft is the main entrance and exit of the mine to the ground, and is the throat engineering for lifting and transporting coal (or gangue), transporting personnel, materials and equipment, and ventilating and draining water during the production of the mine.

The shaft equipment refers to equipment arranged in a shaft well and mainly comprises a cage guide and a cage guide beam. The ladder room, the pipeline, the cable, the bottom metal supporting structure, the steel wire rope terminal facility, the pipe supporting beam, the cable bracket, the overwinding device and the like are also arranged; the cage guide has the function of providing guiding function of the lifting container in the shaft, and eliminating transverse swing and distortion generated by the lifting container in the running process. The guide is divided into a rigid guide and a flexible guide according to different structural forms, wherein the rigid guide comprises a wood guide and a profile steel guide, and the flexible guide comprises a steel wire guide.

After the existing shaft guide is used for a long time, the internal structure of the shaft guide is easy to generate structural change to generate potential safety hazards, and the monitoring device has certain dead angles during monitoring, so that partial areas cannot be effectively monitored.

Disclosure of Invention

The invention discloses a shaft guide safety hidden danger identification and monitoring device, which aims to solve the technical problems that the internal structure of the existing shaft guide is easy to generate structural change to generate safety hidden danger after the shaft guide is used for a long time in the background technology, the monitoring device has a certain dead angle during monitoring, so that partial areas cannot be effectively monitored, and when the internal structure of the shaft guide is changed, the monitoring device cannot identify and early warn the safety hidden danger points and the safety effect is poor.

The invention provides a shaft guide potential safety hazard identification monitoring device which comprises a mounting rectangular frame and a monitoring equipment body, wherein a mounting notch is formed in the mounting rectangular frame, a guide opening is formed in the top of the mounting rectangular frame and is communicated with the mounting notch, a rectangular opening is formed in the inner wall of one side of the mounting rectangular frame and is communicated with the mounting notch, an area monitoring component is arranged in the mounting notch, a movable frame is arranged in the mounting notch, the movable frame is positioned in the guide opening, a synchronous adjusting component is arranged outside the movable frame, four guide pieces are fixedly connected to the inner wall of the top of the mounting notch, a protection component is arranged outside the monitoring equipment body, and the monitoring equipment body is positioned above the movable frame.

Through being provided with guiding mouth, guide, movable frame, regional control subassembly, protection component, supervisory equipment body and synchronous regulation subassembly, the guiding mouth can carry out spacingly to the mobile position of movable frame when using, and the guide can carry out spacingly to the connecting band simultaneously, guarantees that the connecting band is located inside the installation notch, avoids influencing hoisting device operation, and regional control subassembly can change the monitoring point position when using, increases control result of use to satisfy potential safety hazard discernment demand; the protection component can protect the monitoring equipment body when in use, so that the damage of the monitoring equipment body is avoided, and the service life of the monitoring equipment body is prolonged; the synchronous regulation subassembly can carry out synchronous regulation to supervisory equipment body and light when using, guarantees the control effect, improves the control definition simultaneously, satisfies control discernment demand.

In a preferred scheme, the area monitoring assembly comprises a driving rod piece and mounting bases, two mounting openings are formed in the inner wall of the bottom of the mounting notch, the two mounting bases are respectively and movably connected to the inner parts of the two mounting openings, two ends of the driving rod piece are movably connected to the inner walls of two sides of the mounting notch, the outer wall of the driving rod piece is fixedly connected with a driving wheel, the driving wheel is located in the rectangular opening, and the outer wall of the driving rod piece is fixedly connected with two worm kits; the top of each mounting base is movably connected with an upright rod, the outer walls of the two upright rods are fixedly connected with worm gears, the two worm gears are respectively meshed with the two worm kits, the inner wall of one side of each mounting base is fixedly connected with a clockwork spring, one end of each clockwork spring is fixedly connected with the outer walls of the two upright rods, the outer walls of the two upright rods are fixedly connected with rolling parts, the inner walls of the two rolling parts are provided with the same connecting belt, and the movable frame is fixedly connected with the outer wall of the connecting belt; the bottom of the mounting rectangular frame is fixedly connected with a fixing frame, the inner walls of the two sides of the fixing frame are fixedly connected with the same fixing rod piece, the outer wall of the fixing rod piece is movably connected with a rotating plate, the outer wall of the fixing rod piece is sleeved with a torsion spring, one end of the torsion spring is fixedly connected with the inner wall of one side of the fixing frame, and the other end of the torsion spring is fixedly connected with the outer wall of one side of the rotating plate; the outer wall of two mounting base has all seted up the through-hole, and the same connecting rod of inner wall fixedly connected with of two through-holes, the outer wall swing joint of connecting rod has two ganged plates, and the same fixed connecting rod of relative one side outer wall fixedly connected with of two ganged plates, and the outer wall swing joint of fixed connecting rod has the connection external member, the inner wall of connection external member and the outer wall fixed connection who rotates the plate.

Through being provided with regional monitoring subassembly, regional monitoring subassembly can increase the control recognition effect of the inside potential safety hazard of cage guide when using, the control effect when increasing supervisory equipment uses, regional monitoring subassembly can make the supervisory equipment body drive supervisory equipment body along with the operation of the inside hoisting device of cage guide and carry out the change of control point position when using, thereby increase the potential safety hazard recognition range of control, avoid appearing the control dead angle, increase the security of device, and regional monitoring subassembly can carry out automatic re-setting to the supervisory equipment body, thereby carry out the change of control point position many times when hoisting device operates, further improve the potential safety hazard monitoring effect of device; when monitoring, the lifting device operates and the regional monitoring assembly cooperates to drive the monitoring equipment body to move, the monitoring equipment can monitor the loading on the lifting device, and the monitoring applicability diversity of the device is improved.

In a preferred scheme, the protection component comprises a mounting frame, the inner wall of the mounting frame is fixedly connected with the outer wall of the monitoring equipment body, the outer walls of the two sides of the mounting frame are both movably connected with impact pieces, two mounting rod pieces are arranged outside the monitoring equipment body, the outer walls of the two mounting rod pieces are movably connected with the same protection plate, and two elastic rod pieces are arranged outside the protection plate; the both sides outer wall of protection plate all swing joint has the connecting rod spare, is in the same connecting rod spare of one side and the equal swing joint of striking piece one end have same connection axostylus axostyle, and the outer wall of two installation member all overlaps and is equipped with reset spring, the outer wall fixed connection of two reset spring's one end and supervisory equipment body, the other end of two reset spring all with one side outer wall fixed connection of protection plate.

Through being provided with the protective component, the protective component can protect supervisory equipment body when using, supervisory equipment damages when avoiding using, in order to increase the life of device, when the cage guide uses, the loading thing can appear in the hoisting device operation in-process and drop, the protection plate can avoid loading thing to drop and direct and supervisory equipment body contact this moment, simultaneously when cage guide inner structure appears changing, hoisting device operation can appear rocking, and collide with the protective component, the protective component can carry out reverse striking this moment, offset the impact force that the collision produced, in order to further increase the protective effect of device.

In a preferred scheme, the synchronous adjusting assembly comprises a fixed seat, the fixed seat is fixedly connected to the top of the movable frame, the inner walls of the two sides of the fixed seat are movably connected with the same adjusting rod piece, the outer wall of one side of the movable frame is movably connected with a transmission rod piece, the transmission rod piece and the outer wall of the adjusting rod piece are fixedly connected with transmission wheels, and the outer walls of the two transmission wheels are provided with the same transmission belt; the inner wall of one side of the movable frame is fixedly connected with a driving motor, an output shaft of the driving motor is connected with a driving gear through a coupler, the outer wall of the transmission rod is fixedly connected with a driven gear, the driving gear is meshed with the driven gear, the outer wall of the transmission rod is fixedly connected with a mounting frame, the mounting frame is positioned in the movable frame, and the inner wall of the mounting frame is fixedly connected with an illuminating lamp; the outer wall fixedly connected with of adjusting the member adjusts the seat, and the bottom of supervisory equipment body and the top fixed connection who adjusts the seat.

Through being provided with synchronous regulation subassembly, synchronous regulation subassembly can carry out synchronous regulation by the angle of illumination lamp and supervisory equipment body when using to make the illumination zone of illumination lamp correspond all the time with the control area of supervisory equipment body, thereby guarantee the control result of use of device, and synchronous regulation subassembly can adjust control area and illumination zone as required, in order to further increase the monitoring scope of supervisory equipment body, thereby improve the practicality of device, the illumination lamp can increase the definition of cage guide inside monitoring simultaneously, improve potential safety hazard recognition effect.

Therefore, the device for identifying and monitoring the potential safety hazards of the shaft guide has the function of improving the monitoring safety effect, and can drive the monitoring equipment body to change the monitoring point positions along with the operation of the lifting device in the shaft guide when in use, so that the identification range of the potential safety hazards of monitoring is increased, the occurrence of monitoring dead angles is avoided, and the safety of the device is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a device for identifying and monitoring potential safety hazards of a shaft guide;

FIG. 2 is a schematic diagram of the internal structure of a mounting rectangular frame of a shaft guide potential safety hazard identification monitoring device;

FIG. 3 is a schematic diagram of a regional monitoring component of a device for identifying and monitoring potential safety hazards of a shaft guide;

FIG. 4 is a schematic view of a combined structure of a vertical rod and a driving rod of a shaft guide potential safety hazard identification and monitoring device;

FIG. 5 is a schematic diagram of a combination structure of a mounting base and a fixed rod of a device for identifying and monitoring potential safety hazards of a shaft guide;

FIG. 6 is a schematic diagram of a combination structure of a movable frame and a monitoring device body of a device for identifying and monitoring potential safety hazards of a shaft guide;

FIG. 7 is a schematic diagram of a synchronous adjusting assembly of a device for identifying and monitoring potential safety hazards of a shaft guide;

fig. 8 is a schematic diagram of a protective component of a device for identifying and monitoring potential safety hazards of a shaft guide.

In the figure: 1. installing a rectangular frame; 2. monitoring the equipment body; 3. a guide port; 4. a mounting recess; 5. a rectangular opening; 6. a guide member; 7. a protective assembly; 701. an elastic rod member; 702. a protective plate; 703. a link member; 704. a connecting shaft lever; 705. a mounting frame; 706. a striker; 707. a return spring; 708. installing a rod piece; 8. a synchronization adjustment assembly; 801. an adjusting seat; 802. an adjusting rod piece; 803. a fixing seat; 804. a lighting lamp; 805. a mounting frame; 806. a transmission rod; 807. a driving motor; 808. a drive gear; 809. a driving wheel; 810. a driven gear; 811. a transmission belt; 9. a zone monitoring component; 901. a connecting belt; 902. a winding piece; 903. a worm set; 904. a driving wheel; 905. a connection kit; 906. a fixing frame; 907. a mounting base; 908. a driving rod piece; 909. a worm gear; 910. a clockwork spring; 911. a vertical rod; 912. a connecting rod; 913. a torsion spring; 914. rotating the plate; 915. a fixed connecting rod; 916. a fixed rod piece; 917. a linkage plate; 10. a mounting port; 11. a movable frame.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

The invention discloses a shaft guide safety hidden danger identification monitoring device which is mainly applied to the scene that the internal structure of the existing shaft guide is easy to generate structural change to generate safety hidden danger after the existing shaft guide is used for a long time, and the monitoring device has a certain dead angle during monitoring, so that partial areas cannot be effectively monitored, and when the internal structure of the shaft guide is changed, the monitoring device cannot identify and early warn the safety hidden danger points and has poor safety effect.

Referring to fig. 1-8, a shaft cage guide potential safety hazard identification monitoring device comprises a mounting rectangular frame 1 and a monitoring equipment body 2, wherein a mounting notch 4 is formed in the mounting rectangular frame 1, a guide opening 3 is formed in the top of the mounting rectangular frame 1, the guide opening 3 is communicated with the mounting notch 4, a rectangular opening 5 is formed in the inner wall of one side of the mounting rectangular frame 1, the rectangular opening 5 is communicated with the mounting notch 4, an area monitoring component 9 is arranged in the mounting notch 4, a movable frame 11 is arranged in the mounting notch 4, the movable frame 11 is positioned in the guide opening 3, a synchronous adjusting component 8 is arranged outside the movable frame 11, four guide pieces 6 are fixedly connected to the inner wall of the top of the mounting notch 4, a protection component 7 is arranged outside the monitoring equipment body 2, and the monitoring equipment body 2 is positioned above the movable frame 11.

Specifically, the guide port 3 can limit the moving position of the movable frame 11 when in use, meanwhile, the guide piece 6 can limit the connecting belt 901, so that the connecting belt 901 is located inside the installation notch 4, the operation of the lifting device is prevented from being influenced, the monitoring point position of the area monitoring assembly 9 can be changed when in use, the monitoring using effect is increased, and the potential safety hazard identification requirement is met; the protection component 7 can protect the monitoring equipment body 2 when in use, so that the monitoring equipment body 2 is prevented from being damaged, and the service life of the monitoring equipment body is prolonged; the synchronous regulation component 8 can carry out synchronous regulation to supervisory equipment body 2 and light 804 when using, guarantees the monitoring effect, improves the control definition simultaneously, satisfies the control discernment demand.

Referring to fig. 2, 3, 4 and 5, in a preferred embodiment, the area monitoring assembly 9 includes a driving rod 908 and a mounting base 907, two mounting openings 10 are formed in the bottom inner wall of the mounting recess 4, the two mounting bases 907 are respectively slidably connected to the inside of the two mounting openings 10, two ends of the driving rod 908 are connected to two side inner walls of the mounting recess 4 through bearings, the outer wall of the driving rod 908 is fixedly connected with a driving wheel 904, the driving wheel 904 is located in the rectangular opening 5, and two worm kits 903 are fixedly connected to the outer wall of the driving rod 908; the tops of the two mounting bases 907 are connected with vertical rods 911 through bearings, the outer walls of the two vertical rods 911 are fixedly connected with worm gears 909, the two worm gears 909 are respectively meshed with the two worm sleeve members 903, the inner walls of one sides of the two mounting bases 907 are fixedly connected with spring springs 910, one ends of the two spring springs 910 are respectively fixedly connected with the outer walls of the two vertical rods 911, the outer walls of the two vertical rods 911 are fixedly connected with winding pieces 902, the same connecting belt 901 is arranged on the inner walls of the two winding pieces 902, and the movable frame 11 is fixedly connected with the outer walls of the connecting belt 901; the bottom of the mounting rectangular frame 1 is fixedly connected with a fixing frame 906, the inner walls of two sides of the fixing frame 906 are fixedly connected with the same fixing rod piece 916, the outer wall of the fixing rod piece 916 is rotationally connected with a rotating plate 914, the outer wall of the fixing rod piece 916 is sleeved with a torsion spring 913, one end of the torsion spring 913 is fixedly connected with one side inner wall of the fixing frame 906, and the other end of the torsion spring 913 is fixedly connected with one side outer wall of the rotating plate 914; the through openings are all formed in the outer walls of the two mounting bases 907, the same connecting rod 912 is fixedly connected to the inner walls of the two through openings, two linkage plates 917 are rotatably connected to the outer walls of the connecting rod 912, the same fixed connecting rod 915 is fixedly connected to the outer walls of the opposite sides of the two linkage plates 917, the connecting sleeve 905 is rotatably connected to the outer walls of the fixed connecting rods 915, and the inner walls of the connecting sleeve 905 are fixedly connected with the outer walls of the rotating plates 914.

Specifically, when monitoring is performed, when the lifting device is operated, the driving wheel 904 can contact with the outer wall of the lifting device, so that the driving wheel 904 drives the driving rod 908 to rotate, and then the driving rod 908 drives the worm sleeve 903 to rotate, at this time, when the lifting device is operated, the outer wall of the lifting device contacts with the inner wall of the installation rectangular frame 1, so that the rotating plate 914 rotates, when the rotating plate 914 rotates, the connecting sleeve 905 can be driven to rotate, and the connecting sleeve 905 drives the fixed connecting rod 915 to move with the linkage plate 917, so that the linkage plate 917 pulls the connecting rod 912 to move with the mounting base 907, and the mounting base 907 drives the worm gear 909 to be meshed with the worm sleeve 903, at this time, the vertical rod 911 can be driven to rotate through the worm gear 909, and then the winding 902 can be driven to rotate, so that one winding 902 is wound, and the other winding 901 is wound, so that the connecting belt 901 moves, and then the monitoring device body 2 moves, and when the moving device is separated from the rotating plate 914, the torsion spring is driven to reset, so that the mounting base drives the worm gear 907 to move with the worm sleeve 903 to be separated from the worm sleeve 903, and the monitoring device is changed again;

In a specific application scene, the area monitoring assembly 9 is suitable for a potential safety hazard monitoring link in a shaft guide, namely the area monitoring assembly 9 can increase the monitoring identification effect of the potential safety hazard in the guide when in use, and the monitoring effect of monitoring equipment when in use is increased, and the area monitoring assembly 9 can enable the monitoring equipment body 2 to drive the monitoring equipment body 2 to change monitoring points along with the operation of a lifting device in the guide when in use, so that the monitoring potential safety hazard identification range is increased, the monitoring dead angle is avoided, the safety of the device is increased, the area monitoring assembly 9 can automatically reset the monitoring equipment body 2, and therefore the potential safety hazard monitoring effect of the device is further improved by carrying out multiple monitoring point change when the lifting device operates;

When needing to be explained, when carrying out the control, hoisting device operation and regional monitoring subassembly 9 cooperation drive supervisory equipment body 2 when removing supervisory equipment can monitor the loading thing on the hoisting device, improves the control adaptation variety of device.

Referring to fig. 2,6 and 8, in a preferred embodiment, the protection assembly 7 includes a mounting frame 705, an inner wall of the mounting frame 705 is fixedly connected with an outer wall of the monitoring device body 2, impact members 706 are rotatably connected to outer walls of both sides of the mounting frame 705, two mounting bars 708 are provided on the outer side of the monitoring device body 2, the outer walls of the two mounting bars 708 are slidably connected to the same protection plate 702, and two elastic bars 701 are provided on the outer side of the protection plate 702; the both sides outer wall of protection plate 702 all rotates and is connected with connecting rod 703, and connecting rod 703 and the striking piece 706 one end that is in same one side all are connected with same connecting shaft 704 through the bearing, and the outer wall of two installation member 708 all overlaps and is equipped with reset spring 707, and the one end of two reset springs 707 all is with the outer wall fixed connection of supervisory equipment body 2, and the other end of two reset springs 707 all is with one side outer wall fixed connection of protection plate 702.

Specifically, when the lifting device shakes, the lifting device contacts with the guard plate 702, at this time, the impact force makes the guard plate 702 move on the mounting rod 708, so that the guard plate 702 pushes the link member 703, and since the link member 703 is connected with the impact member 706 through the connecting shaft 704, the link member 703 can drive the impact member 706 to rotate, and the impact member 706 contacts with the outer wall of the guard plate 702, and provides a reverse impact force to offset the impact force, and then the return spring 707 can drive the guard plate 702 to return;

In specific application scenario, the protection component 7 is applicable to the cage guide inner structure change and cage guide use link, the protection component 7 can protect supervisory equipment body 2 when using, supervisory equipment damages when avoiding using, so as to increase the life of device, when the cage guide is used, the loading thing can appear in the hoisting device operation in-process and drop, the protection plate 702 can avoid loading thing to drop and directly contact with supervisory equipment body 2 this moment, simultaneously when the cage guide inner structure changes, the hoisting device operation can appear rocking, and collide with protection component 7, the protection component 7 can carry out reverse striking this moment, offset the impact force that the collision produced, in order to further increase the protection effect of device.

Referring to fig. 2,6 and 7, in a preferred embodiment, the synchronous adjusting assembly 8 includes a fixed seat 803, the fixed seat 803 is fixedly connected to the top of the movable frame 11, two side inner walls of the fixed seat 803 are movably connected with the same adjusting rod 802 through bearings, one side outer wall of the movable frame 11 is connected with a transmission rod 806 through bearings, the transmission rod 806 and the outer wall of the adjusting rod 802 are fixedly connected with transmission wheels 809, and the outer walls of the two transmission wheels 809 are provided with the same transmission belt 811; the inner wall of one side of the movable frame 11 is fixedly connected with a driving motor 807, an output shaft of the driving motor 807 is connected with a driving gear 808 through a coupling, the outer wall of a transmission rod 806 is fixedly connected with a driven gear 810, the driving gear 808 is meshed with the driven gear 810, the outer wall of the transmission rod 806 is fixedly connected with a mounting frame 805, the mounting frame 805 is positioned in the movable frame 11, and the inner wall of the mounting frame 805 is fixedly connected with an illuminating lamp 804; the outer wall of the adjusting rod piece 802 is fixedly connected with an adjusting seat 801, and the bottom of the monitoring device body 2 is fixedly connected with the top of the adjusting seat 801.

Specifically, when the monitoring device is used, the driving motor 807 is started, the driving gear 808 can be driven to rotate through the driving motor 807, and the driving gear 808 is meshed with the driven gear 810, so that the driving gear 808 can drive the driven gear 810 to rotate, and the driven gear 810 drives the transmission rod 806 to rotate, at the moment, the transmission rod 806 can drive the mounting frame 805 to perform angle adjustment with the illuminating lamp 804, and meanwhile, the transmission rod 806 can drive the transmission wheel 809 to rotate when rotating, and then the transmission wheel 809 and the transmission belt 811 enable the adjustment rod 802 to synchronously drive the transmission rod 806 to rotate, and further enable the adjustment rod 802 to drive the adjustment seat 801 to perform angle adjustment with the monitoring device body 2;

In specific application scenario, synchronous regulation subassembly 8 is applicable to the inside potential safety hazard monitoring link of cage guide, synchronous regulation subassembly 8 can carry out synchronous regulation when using the angle of illumination lamp 804 and supervisory equipment body 2 to make the illumination zone of illumination lamp 804 correspond with supervisory equipment body 2's control area all the time, thereby guarantee the control result of use of device, and synchronous regulation subassembly 8 can adjust the control zone with the illumination zone according to the control needs, so as to further increase supervisory equipment body 2's control scope, thereby improve the practicality of device, the definition of cage guide internal monitoring can be increased to illumination lamp 804 simultaneously, improve the potential safety hazard recognition effect.

Working principle: when the monitoring device is used, the driving motor 807 is started, the driving gear 808 can be driven to rotate through the driving motor 807, and the driving gear 808 is meshed with the driven gear 810, so that the driving gear 808 can drive the driven gear 810 to rotate, the driven gear 810 drives the transmission rod 806 to rotate, at the moment, the transmission rod 806 can drive the mounting frame 805 to perform angle adjustment with the illuminating lamp 804, meanwhile, the transmission rod 806 can drive the transmission wheel 809 to rotate when rotating, and the adjustment rod 802 can synchronously drive the transmission rod 806 to rotate through the transmission wheel 809 and the transmission belt 811, so that the adjustment rod 802 drives the adjustment seat 801 to perform angle adjustment with the monitoring device body 2; when the lifting device is in operation, the driving wheel 904 can be in contact with the outer wall of the lifting device, so that the driving wheel 904 drives the driving rod piece 908 to rotate, and then the driving rod piece 908 drives the worm sleeve piece 903 to rotate, at the moment, when the lifting device is in operation, the outer wall of the lifting device is in contact with the inner wall of the installation rectangular frame 1, so that the rotating plate 914 rotates, the connecting sleeve piece 905 can be driven to rotate when the rotating plate 914 rotates, the connecting sleeve piece 905 drives the fixed connecting rod 915 to move with the linkage plate 917, so that the linkage plate 917 pulls the connecting rod 912 to move with the installation base 907, the installation base 907 drives the worm gear 909 to be meshed with the worm sleeve piece 903, at the moment, the worm gear 909 can drive the vertical rod 911 to rotate, and then drive the winding piece 902 to rotate, one winding piece 902 is wound, and the other winding piece 901 is wound, so that the connecting belt 901 moves, and then the monitoring equipment body 2 moves, and at the moment, when the moving device is separated from the rotating plate 914, the torsion spring 913 drives the rotating plate 914 to reset, so that the installation base drives the worm gear 909 to move with the worm sleeve piece 917 to move with the worm sleeve piece 903, and the point of the monitoring equipment is changed again; when the lifting device shakes, the lifting device contacts with the protection plate 702, at this time, the impact force makes the protection plate 702 move on the mounting rod 708, so that the protection plate 702 pushes the connecting rod 703, and since the connecting rod 703 is connected with the impact member 706 through the connecting shaft 704, the connecting rod 703 can drive the impact member 706 to rotate, the impact member 706 contacts with the outer wall of the protection plate 702, and a reverse impact force is provided to offset the impact force, and then the protection plate 702 can be driven to reset through the reset spring 707.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (5)

1. The utility model provides a pit shaft cage guide potential safety hazard discernment monitoring device, includes installation moment frame (1) and supervisory equipment body (2), its characterized in that, installation notch (4) have been seted up to the inside of installation moment frame (1), and guide mouth (3) have been seted up at the top of installation moment frame (1), guide mouth (3) are linked together with installation notch (4), rectangular mouth (5) have been seted up to one side inner wall of installation moment frame (1), rectangular mouth (5) are linked together with installation notch (4), and the inside of installation notch (4) is provided with regional control subassembly (9), the inside of installation notch (4) is provided with movable frame (11), and movable frame (11) are located the inside of guide mouth (3), and the outside of movable frame (11) is provided with synchronous regulation subassembly (8), and the top inner wall fixedly connected with four guides (6) of installation notch (4), the outside of supervisory equipment body (2) is provided with protective component (7), and supervisory equipment body (2) are located the top of movable frame (11).

The area monitoring assembly (9) comprises a driving rod piece (908) and a mounting base (907), two mounting openings (10) are formed in the inner wall of the bottom of the mounting notch (4), the two mounting bases (907) are respectively and movably connected to the inner parts of the two mounting openings (10), two ends of the driving rod piece (908) are movably connected to the inner walls of the two sides of the mounting notch (4), a driving wheel (904) is fixedly connected to the outer wall of the driving rod piece (908), the driving wheel (904) is located in the rectangular opening (5), and two worm kits (903) are fixedly connected to the outer wall of the driving rod piece (908);

The protection assembly (7) comprises a mounting frame (705), wherein the inner wall of the mounting frame (705) is fixedly connected with the outer wall of the monitoring equipment body (2), impact pieces (706) are movably connected to the outer walls of the two sides of the mounting frame (705), two mounting rod pieces (708) are arranged outside the monitoring equipment body (2), the same protection plate (702) is movably connected to the outer walls of the two mounting rod pieces (708), and two elastic rod pieces (701) are arranged outside the protection plate (702);

The synchronous adjusting assembly (8) comprises a fixed seat (803), the fixed seat (803) is fixedly connected to the top of the movable frame (11), the inner walls of the two sides of the fixed seat (803) are movably connected with the same adjusting rod piece (802), the outer wall of one side of the movable frame (11) is movably connected with a transmission rod piece (806), the transmission rod piece (806) and the outer wall of the adjusting rod piece (802) are fixedly connected with transmission wheels (809), and the outer walls of the two transmission wheels (809) are provided with the same transmission belt (811);

The top of the two mounting bases (907) is movably connected with vertical rods (911), the outer walls of the two vertical rods (911) are fixedly connected with worm gears (909), the two worm gears (909) are respectively meshed with the two worm sleeve pieces (903), spring springs (910) are fixedly connected with the inner walls of one sides of the two mounting bases (907), one ends of the two spring springs (910) are respectively fixedly connected with the outer walls of the two vertical rods (911), rolling parts (902) are fixedly connected with the outer walls of the two vertical rods (911), the same connecting belt (901) is arranged on the inner walls of the two rolling parts (902), and the movable frame (11) is fixedly connected with the outer walls of the connecting belt (901);

The bottom fixedly connected with mount (906) of installation rectangular frame (1), the same dead lever (916) of both sides inner wall fixedly connected with of mount (906), the outer wall swing joint of dead lever (916) has rotation plate (914), and the outer wall cover of dead lever (916) is equipped with torsional spring (913), one end fixedly connected with of torsional spring (913) is in one side inner wall of mount (906), the other end fixedly connected with of torsional spring (913) is in one side outer wall of rotation plate (914).

2. The shaft guide safety hidden trouble identification and monitoring device according to claim 1, wherein the outer walls of the two mounting bases (907) are provided with through holes, the inner walls of the two through holes are fixedly connected with the same connecting rod (912), the outer walls of the connecting rod (912) are movably connected with two linkage plates (917), the outer walls of opposite sides of the two linkage plates (917) are fixedly connected with the same fixed connecting rod (915), the outer walls of the fixed connecting rods (915) are movably connected with a connecting sleeve (905), and the inner walls of the connecting sleeve (905) are fixedly connected with the outer walls of the rotating plates (914).

3. The shaft guide safety hidden trouble identification and monitoring device according to claim 1, wherein the two side outer walls of the protection plate (702) are movably connected with a connecting rod (703), one end of the connecting rod (703) on the same side is movably connected with the same connecting shaft (704) with one end of the impact piece (706), the outer walls of the two mounting rods (708) are sleeved with return springs (707), one ends of the two return springs (707) are fixedly connected with the outer wall of the monitoring equipment body (2), and the other ends of the two return springs (707) are fixedly connected with one side outer wall of the protection plate (702).

4. The shaft guide safety hidden trouble identification and monitoring device according to claim 1, wherein a driving motor (807) is fixedly connected to an inner wall of one side of the movable frame (11), an output shaft of the driving motor (807) is connected with a driving gear (808) through a coupling, an outer wall of the transmission rod member (806) is fixedly connected with a driven gear (810), the driving gear (808) is meshed with the driven gear (810), an outer wall of the transmission rod member (806) is fixedly connected with a mounting frame (805), the mounting frame (805) is located in the movable frame (11), and an illuminating lamp (804) is fixedly connected to an inner wall of the mounting frame (805).

5. The shaft guide safety hazard identification and monitoring device according to claim 4, wherein the outer wall of the adjusting rod piece (802) is fixedly connected with an adjusting seat (801), and the bottom of the monitoring equipment body (2) is fixedly connected with the top of the adjusting seat (801).