CN111664409A - Lighting vehicle capable of automatically driving dust and changing illumination distance for mine hole - Google Patents

Abstract

The invention discloses an illuminating vehicle capable of automatically removing dust and changing illumination distance for a mine hole, which comprises a vehicle shell, wherein a drill bit power space is arranged in the vehicle shell, a vehicle shell upper space is arranged above the drill bit power space, a vehicle shell vertical partition plate is fixedly connected to the upper surface of the vehicle shell partition plate, an air blower is fixedly connected to the left side surface of the vehicle shell, the illumination is realized by using a control device and a dust removing device, when dust is too large, the control device can automatically turn on the air blower to supply air to a part needing dust removing, so that air flow is accelerated, the heat dissipation of a lamp is accelerated, two purposes are achieved by one action, and in the aspect of a lamp illumination mode, a zooming mechanism is used, different lenses are combined to realize zooming of the lamp, and more illumination modes are selected.

Description

Lighting vehicle capable of automatically driving dust and changing illumination distance for mine hole

Technical Field

The invention relates to the field of vehicle illumination, in particular to an illuminating vehicle which is used for a mine hole and can automatically remove dust and change illumination distance.

Background

The utility model provides a vehicle lighting car is used for zero hour to build and has the higher job site who requires to illumination, the main component part has the generator, the light, the telescopic link, remove the wheel, the defect that exists now has, because the light application is in building site, in adverse circumstances such as mine hole, there is dust often to get into the generator, reduce the life-span of generator, the shortcoming in the aspect of the illumination has, can only adjust the light and shade of light under a focus, can not provide focus light, do not do any measure in the aspect of the heat dissipation.

Disclosure of Invention

The invention aims to provide a lighting vehicle which is used for a mine cave and can automatically remove dust and change illumination distance so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a lighting vehicle capable of automatically driving dust and changing illumination distance for a mine hole comprises a vehicle shell, wherein a drill bit power space is arranged in the vehicle shell, a vehicle shell upper space is arranged above the drill bit power space, vehicle shell partition plates are fixedly connected to the left inner side wall and the right inner side wall of the vehicle shell, a vehicle shell vertical partition plate is fixedly connected to the upper surface of the vehicle shell partition plate, an air blower is fixedly connected to the left surface of the vehicle shell, an air inlet pipe is fixedly connected to the upper inner wall of the vehicle shell, the air blower is fixedly connected to the left side of the air inlet pipe, a zoom device for changing the illumination focal length is arranged above a telescopic rod device, the zoom device comprises two fixed telescopic rods which are symmetrically distributed about the center line of the vehicle shell and fixedly connected to the inner walls of the fixed telescopic rods, a telescopic rod motor is fixedly connected to the, the inner wall of the inner space of the rope rod is connected with a movable telescopic rod in a sliding way, the lower surface of the movable telescopic rod is fixedly connected with a movable telescopic rod rack, the right side of the movable telescopic rod rack is meshed with the rope rod gear, the upper surface of the movable telescopic rod is fixedly connected with a zooming space shell, the left and right inner side walls of the zooming space are fixedly connected with zooming space partition plates, the upper sides of the zooming space partition plates can be abutted against the zooming hinges, the zooming hinges are hinged with two zooming rods, the zooming hinge is fixedly connected with a zooming ejection torsion spring, the upper sides of the zooming rods are fixedly connected with zooming lenses, the two zooming lenses are a group, four groups are equidistantly distributed on the zooming partition plates, both sides of the zooming lenses can be connected with the left and right inner side walls of the zooming space shell in a sliding, the right inner wall of the zooming space is fixedly connected with a vertical moving motor, the left side of the vertical moving motor is dynamically connected with a vertical moving shaft, the left side of the vertical moving shaft is fixedly connected with a vertical moving bevel gear, the right inner wall of the zooming space shell is rotatably and fixedly connected with a vertical rack moving gear, the rear side of the vertical rack moving gear is meshed with the vertical moving bevel gear, the right inner wall of the zooming space is slidably connected with a vertical moving rack, the right side of the vertical moving rack is meshed with the vertical rack moving gear, the lower side of the vertical moving rack is slidably connected with a serial rack, the right side of the serial rack is slidably connected with the right side wall of the zooming space shell, the left side of the serial rack can be slidably connected with the zooming hinge, the lower inner wall of the zooming space shell is fixedly connected with a transverse moving motor, a transverse moving bevel gear is fixedly connected to the upper side of the transverse moving shaft, a rack displacement gear is meshed to the front side of the transverse moving bevel gear, a serial rack is meshed to the upper side of the rack displacement gear, when zooming is required, the transverse moving motor is turned on to select a lens to be lifted, then the serial rack is driven by the rotation of the rack displacement gear to translate leftwards to pass through a round hole slide way in the zooming hinge, when a specified number of lenses are passed, the transverse moving motor is turned off, the vertical moving motor is turned on, the vertical rack moving gear is rotated by the vertical moving motor, so that the vertical moving rack translates upwards, the serial rack drives the zooming lens to slide upwards along the inner wall of the zooming space shell, and the zooming ejection torsion spring gradually recovers deformation along with the upward sliding of the zooming lens, work as when vertical removal rack reachs the assigned position, two the zoom lens is in zoom and pop out the effect of torsional spring and expand down, make two the zoom lens reachs two thereby the place ahead of lamps and lanterns reaches the purpose of alternate focal length, the hull surface about hull central line symmetric distribution fixedly connected with is used for control two sets of negative pole contacts and the positive pole contact of air-blower switch, positive pole contact below is equipped with the controlling means who is used for controlling air-blower switch, in the hull upper portion space with the hull upper surface is equipped with the dust repellent device that is used for the air supply, the hull upper surface is equipped with the telescopic link device that is used for lift lamps and lanterns, drill bit power space with be equipped with in the hull lower lateral wall and be used for device and ground fixed connection's perforating device.

Preferably, the control device comprises a dust collecting box slidably connected to the left side surface of the car shell, a rotary push rod hinged to the upper portion of the dust collecting box, a control fixed hinge fixedly connected to the inner side wall of the car shell, a control torsion spring fixedly connected to the control fixed hinge and the rotary push rod directly, a rotary push rod groove formed in the rotary push rod, a control fixed hinge passing through the rotary push rod groove and enabling the rotary push rod to slide and rotate around the control fixed hinge, a rotary push rod groove spring fixedly connected to the control fixed hinge and the right side of the rotary push rod groove, a control push rod slidably connected to the inner side wall of the left side of the car shell, a rotary push rod groove formed in the vertical partition plate of the car shell, a central balance hinge slidably connected to the rotary push rod groove, and a central balance spring fixedly connected between the central balance hinge and the upper side wall of the rotary push rod groove, the central balance hinge is hinged with a central balance rod, the upper side of each control ejector rod is abutted against the central balance rod, when the two dust collecting boxes collect dust with certain mass, the dust collecting boxes slide downwards, so that the rotating push rod rotates and compresses the rotating push rod groove spring, the rotating push rod groove translates towards the left lower direction, the control ejector rods are pushed to translate upwards, the two control ejector rods push the central balance rod upwards, the central balance spring is compressed, the central balance rod is in contact with the cathode contact, a circuit for providing power for the air blower is closed, and the air blower operates.

Preferably, the dust removing device comprises a blower fixedly connected with the left side surface of the vehicle shell, a filter screen fixedly connected with the inner side wall of the air inlet pipe, an air outlet fixedly connected with the upper surface of the vehicle shell, an air inlet pipe fixedly connected with the lower volume of the air outlet, when the blower is opened, air enters the air inlet pipe, and is blown out from the air outlet through the filter screen.

Preferably, the telescopic rod device comprises two fixed telescopic rods which are symmetrically distributed about a central line and fixedly connected to the upper surface of the shell, the inner space of the rope rod is arranged in the fixed telescopic rod, a telescopic rod motor is fixedly connected to the inner wall of the fixed telescopic rod, the front side of the telescopic rod motor is in power connection with the rope rod gear, the inner wall of the inner space of the rope rod is in sliding connection with a movable telescopic rod, the lower surface of the movable telescopic rod is fixedly connected with a movable telescopic rod rack, the right side of the movable telescopic rod rack is meshed with the rope rod gear, the upper surface of the movable telescopic rod is fixedly connected with a zooming space shell, when a lamp needs to be lifted, the telescopic rod motor is turned on to rotate the rope rod gear, so that the movable telescopic rod rack translates upwards, and the movable telescopic rod moves upwards, thereby allowing the fixture to reach a specified height.

Preferably, the punching device comprises a rotary internal thread sleeve rotatably connected to the upper inner wall and the lower inner wall of the drill bit power space, a punching motor fixedly connected to the car shell partition plate, a rotary internal thread sleeve rotatably connected to the lower side of the punching motor, a lead screw outer gear fixedly connected to the surface of the rotary internal thread sleeve, a rotary internal thread sleeve fixedly connected to the lower side of the car shell partition plate, a threaded hole formed in the rotary internal thread sleeve, a drill bit upper threaded rod connected to the threaded hole, a drill bit fixedly connected to the lower side of the drill bit upper threaded rod, a sleeve outer gear fixedly connected to the surface of the rotary internal thread sleeve, and a lead screw outer gear meshed with the left side of the sleeve outer gear, wherein when the punching device needs to be started, the punching motor is turned on so that the rotary internal thread sleeve, the sleeve outside gear rotates to enable the screw rod outside gear to rotate, so that the threaded rod on the drill bit in threaded connection with the screw rod outside gear rotates and moves downwards, and the punching effect is achieved.

In conclusion, the beneficial effects of the invention are as follows: the multifunctional lamp is realized by utilizing the control device and the dust driving device, when the dust is too large, the control device can automatically turn on the air blower to supply air to the part needing dust driving, so that the air flow is accelerated, the heat dissipation of the lamp is accelerated, two purposes are achieved, and in the aspect of the lighting mode of the lamp, the zooming mechanism is utilized, different lenses are combined to realize the zooming of the lamp, and the selection of more lighting modes is provided.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view of an overall full-section structure of a lighting vehicle for automatically removing dust and changing illumination distance in a mine;

FIG. 2 is a sectional view taken along the plane A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B in accordance with the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 1 at C in accordance with the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 1 at D in accordance with the present invention;

FIG. 6 is an enlarged view of a portion E of FIG. 1 according to the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, front and rear directions described below correspond to the front, back, left, right, top and bottom directions of the view direction of fig. 1, fig. 1 is a front view of the apparatus of the present invention, and the directions shown in fig. 1 correspond to the front, back, left, right, top and bottom directions of the apparatus of the present invention.

Referring to fig. 1-6, an embodiment of the present invention is shown: a lighting vehicle capable of automatically driving dust and changing illumination distance for a mine hole comprises a vehicle shell 11, wherein a drill bit power space 12 is arranged in the vehicle shell 11, a vehicle shell upper space 16 is arranged above the drill bit power space 12, vehicle shell partition plates 17 are fixedly connected to the left inner side wall and the right inner side wall of the vehicle shell 11, a vehicle shell vertical partition plate 53 is fixedly connected to the upper surface of the vehicle shell partition plate 17, an air blower 60 is fixedly connected to the left surface of the vehicle shell 11, an air inlet pipe 18 is fixedly connected to the upper inner wall of the vehicle shell 11, the air blower 60 is fixedly connected to the left side of the air inlet pipe 18, a zoom device for changing the illumination focal length is arranged above a telescopic rod device, the zoom device comprises two fixed telescopic rods 23 which are symmetrically distributed about the central line of the vehicle shell 11 and fixedly connected to the upper surface of the vehicle shell 11, and a motor 57, the front side of the telescopic rod motor 57 is in power connection with the rope rod gear 58, the inner wall of the rope rod inner space 21 is in sliding connection with the movable telescopic rod 24, the lower surface of the movable telescopic rod 24 is fixedly connected with a movable telescopic rod rack 56, the right side of the movable telescopic rod rack 56 is meshed with the rope rod gear 58, the upper surface of the movable telescopic rod 24 is fixedly connected with a zooming space shell 25, the left inner side wall and the right inner side wall of the zooming space 22 are fixedly connected with a zooming space partition plate 26, the upper side of the zooming space partition plate 26 can be abutted against the zooming hinge 31, the zooming hinge 31 is hinged with two zooming rods 30, the zooming hinge 31 is fixedly connected with a zooming ejection torsion spring 82, the upper side of the zooming rod 30 is fixedly connected with a zooming lens 29, two zooming lenses 29 are a group, and four groups are equidistantly distributed, both sides of the zoom lens 29 can be slidably connected with the left and right inner side walls of the zoom space housing 25, the right side of the zoom space 22 is provided with a zoom power space 81, the inner wall of the right side of the zoom power space 81 is fixedly connected with a vertical moving motor 44, the left side of the vertical moving motor 44 is power connected with a vertical moving shaft 40, the left side of the vertical moving shaft 40 is fixedly connected with a vertical moving bevel gear 41, the inner wall of the right side of the zoom space housing 25 is rotatably linked with a vertical rack moving gear 42, the rear side of the vertical rack moving gear 42 is engaged with the vertical moving bevel gear 41, the inner wall of the right side of the zoom space 22 is slidably connected with a vertical moving rack 43, the right side of the vertical moving rack 43 is engaged with the vertical rack moving gear 42, the lower side of the vertical moving rack 43 is slidably connected with a series rack 32, the left side of the serial rack 32 can be connected with the zoom hinge 31 in a sliding manner, the inner wall of the lower side of the zoom space shell 25 is fixedly connected with a transverse moving motor 38, the upper side of the transverse moving motor 38 is connected with a transverse moving shaft 37 in a power manner, the upper side of the transverse moving shaft 37 is fixedly connected with a transverse moving bevel gear 36, the front side of the transverse moving bevel gear 36 is engaged with a rack displacement gear 33, the upper side of the rack displacement gear 33 is engaged with a serial rack 32, when zooming is required, the transverse moving motor 38 is opened to select a lens to be lifted, then the serial rack 32 is driven by the rotation of the rack displacement gear 33 to translate leftwards to pass through a circular hole slide way in the zoom hinge 31, when a specified number of lenses are passed, the transverse moving motor 38 is closed, the vertical moving motor 44 is opened, and the vertical moving motor 44 enables the vertical rack moving gear, so that the vertical moving rack 43 translates upwards, so that the serial rack 32 drives the zoom lens 29 to slide upwards along the inner wall of the zoom space housing 25, the zoom pop-up torsion spring 82 gradually recovers deformation along with the upward sliding of the zoom lens 29, when the vertical moving rack 43 reaches a specified position, the two zoom lenses 29 are unfolded under the action of the zoom pop-up torsion spring 82, so that the two zoom lenses 29 reach the front of the two lamps 28 to achieve the purpose of changing focal length, two sets of cathode contacts 50 and anode contacts 49 for controlling the on and off of the blower 60 are fixedly distributed on the surface of the vehicle shell 11 symmetrically with respect to the central line of the vehicle shell 11, a control device for controlling the on and off of the blower 60 is arranged below the anode contacts 49, and a dust removing device for blowing air is arranged in the upper space 16 of the vehicle shell and on the upper surface of the vehicle shell 11, the upper surface of the vehicle shell 11 is provided with a telescopic rod device for lifting a lamp, and the drill bit power space 12 and the lower side wall of the vehicle shell 11 are internally provided with a punching device for fixedly connecting the device with the ground.

In addition, in one embodiment, the control device comprises a dust collecting box 45 slidably connected to the left side surface of the vehicle shell 11, a rotating push rod 46 hinged above the dust collecting box 45, a control fixed hinge 47 fixedly connected to the inner side wall of the vehicle shell 11, a control torsion spring 48 fixedly connected to the control fixed hinge 47 and the rotating push rod 46 directly, a rotating push rod groove 84 opened on the rotating push rod 46, a control fixed hinge 47 passing through the rotating push rod groove 84 to enable the rotating push rod 46 to slide and rotate around the control fixed hinge 47, a rotating push rod groove spring 83 fixedly connected to the right side of the control fixed hinge 47 and the rotating push rod groove 84, a control push rod 51 slidably connected to the inner side wall of the left side of the vehicle shell 11, the lower side of the control push rod 51 abutting against the rotating push rod 46, a rotating push rod groove 84 opened in the vertical partition plate 53 of the vehicle shell, a central balance hinge 54 is slidably connected in the rotary push rod groove 84, a central balance spring 55 is fixedly connected between the central balance hinge 54 and the upper side wall of the rotary push rod groove 84, the central balance hinge 54 is hinged with a central balance rod 52, the upper side of the control push rod 51 is abutted against the central balance rod 52, when a certain mass of dust is collected in both the dust collection boxes 45, the dust collection boxes 45 slide downwards, so that the rotary push rod 46 rotates and compresses the rotary push rod groove spring 83, the rotary push rod groove 84 translates towards the left and the lower, so that the control push rod 51 translates upwards, the two control push rods 51 push the central balance rod 52 upwards, the central balance spring 55 is compressed, the central balance rod 52 is in contact with the cathode contact 50, so that the circuit for providing power for the blower 60 is closed, so that the blower 60 operates.

In addition, in one embodiment, the dust removing device includes the vehicle shell 11, the air blower 60 is fixedly connected to the left side surface of the vehicle shell, the filter screen 80 is fixedly connected to the inner side wall of the air inlet pipe 18, the air outlet 79 is fixedly connected to the upper surface of the vehicle shell 11, the air inlet pipe 18 is fixedly connected to the lower side of the air outlet 79, and when the air blower 60 is turned on, air enters the air inlet pipe 18, passes through the filter screen 80, and is blown out from the air outlet 79.

In addition, in one embodiment, the telescopic rod device comprises two fixed telescopic rods 23 which are symmetrically distributed about a central line and fixedly connected to the upper surface of the shell 11, the rope rod inner space 21 is arranged in the fixed telescopic rod 23, a telescopic rod motor 57 is fixedly connected to the inner wall of the fixed telescopic rod 23, the rope rod gear 58 is dynamically connected to the front side of the telescopic rod motor 57, the movable telescopic rod 24 is slidably connected to the inner wall of the rope rod inner space 21, a movable telescopic rod rack 56 is fixedly connected to the lower surface of the movable telescopic rod 24, the right side of the movable telescopic rod rack 56 is meshed with the rope rod gear 58, the zoom space housing 25 is fixedly connected to the upper surface of the movable telescopic rod 24, when the lamp needs to be raised, the telescopic rod motor 57 is turned on to rotate the rope rod gear 58, so that the movable telescopic rod 56 is translated upwards, so that the movable telescopic rod 24 moves upwards, and the lamp reaches the designated height.

In addition, in one embodiment, the punching device comprises a rotary internal thread sleeve 74 rotatably connected to the upper and lower inner walls of the drill power space 12, a punching motor 61 fixedly connected to the car shell partition 17, the rotary internal thread sleeve 74 connected to the lower side of the punching motor 61, a lead screw outer gear 73 fixedly connected to the surface of the rotary internal thread sleeve 74, a rotary internal thread sleeve 74 fixedly connected to the lower side of the car shell partition 17, a threaded hole formed in the rotary internal thread sleeve 74, a drill upper threaded rod 75 connected to the threaded hole in a threaded manner, a drill 76 fixedly connected to the lower side of the drill upper threaded rod 75, a sleeve outer gear 72 fixedly connected to the surface of the rotary internal thread sleeve 74, the sleeve outer gear 72 left side engaging with the lead screw outer gear 73, and when the punching device needs to be started, the punching motor 61 is turned on so that the rotary, the sleeve outer gear 72 is rotated by the rotation of the internal thread sleeve 74, and the screw rod outer gear 73 is rotated by the rotation of the sleeve outer gear 72, so that the bit upper side threaded rod 75 screwed with the screw rod outer gear 73 moves downward while rotating, thereby achieving the punching effect.

In the initial state, the drill bit 76 is in the drill bit space 15, the blower 60 is not activated, and the movable extension rod 24 is at the lowest position.

When the lamp needs to be lifted, the telescopic rod motor 57 is opened, the rope rod gear 58 is rotated, the movable telescopic rod rack 56 is enabled to translate upwards, the movable telescopic rod 24 is enabled to move upwards, the lamp reaches a specified height, when the punching device needs to be started, the punching motor 61 is opened, the rotating internal thread sleeve 74 is enabled to rotate, the sleeve external gear 72 is enabled to rotate, the screw rod external gear 73 is enabled to rotate, the drill bit upper side threaded rod 75 in threaded connection with the screw rod external gear 73 is enabled to move downwards while rotating, a punching effect is achieved, when zooming is needed, the transverse moving motor 38 is opened to select a lens needing to be lifted, and then the serial rack 32 is driven to translate leftwards through a circular hole slide way in the zooming hinge 31 through the rotation of the rack displacement gear 33, when the prescribed number of lenses are passed, the transverse moving motor 38 is closed, the vertical moving motor 44 is opened, the vertical moving motor 44 rotates the vertical rack moving gear 42, so that the vertical moving rack 43 is translated upwards, so that the series rack 32 drives the zoom lens 29 to slide upwards along the inner wall of the zoom space housing 25, the zoom ejecting torsion spring 82 gradually restores the deformation along with the upward sliding of the zoom lens 29, when the vertical moving rack 43 reaches the designated position, the two zoom lenses 29 are unfolded under the action of the zoom ejecting torsion spring 82, so that the two zoom lenses 29 reach the front of the two lamps 28 to achieve the purpose of changing the focal length, when the two dust boxes 45 collect a certain mass of dust, the dust boxes 45 slide downwards, so that the rotating push rod 46 rotates and compresses the rotating push rod groove spring 83, so that the rotating push rod groove 84 translates to the left and downwards, thereby pushing the control ejector rods 51 to translate upwards, the two control ejector rods 51 pushing the central balance rod 52 upwards, so that the central balance spring 55 is compressed, so that the central balance rod 52 contacts with the cathode contact 50, so that the circuit for supplying power to the blower 60 is closed, so that the blower 60 operates, and when the blower 60 is turned on, air enters the air inlet pipe 18, passes through the filter screen 80, and is blown out from the air outlet 79.

The invention has the beneficial effects that: the multifunctional lamp is realized by utilizing the control device and the dust driving device, when the dust is too large, the control device can automatically turn on the air blower to supply air to the part needing dust driving, so that the air flow is accelerated, the heat dissipation of the lamp is accelerated, two purposes are achieved, and in the aspect of the lighting mode of the lamp, the zooming mechanism is utilized, different lenses are combined to realize the zooming of the lamp, and the selection of more lighting modes is provided.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (5)

1. The utility model provides a but be used for mine hole automatic dust driving transform illumination distance's illumination car, includes the car shell, its characterized in that: the vehicle shell is internally provided with a drill bit power space, the upper part of the drill bit power space is provided with a vehicle shell upper part space, the left and right inner side walls of the vehicle shell are fixedly connected with a vehicle shell partition plate, the upper surface of the vehicle shell partition plate is fixedly connected with a vehicle shell vertical partition plate, the left side surface of the vehicle shell is fixedly connected with an air blower, the upper side inner wall of the vehicle shell is fixedly connected with an air inlet pipe, the left side of the air inlet pipe is fixedly connected with the air blower, a zoom device for changing the illumination focal length is arranged above the telescopic rod device, the zoom device comprises two fixed telescopic rods which are symmetrically distributed about the central line of the vehicle shell, the inner wall of each fixed telescopic rod is fixedly connected with a telescopic rod motor, the front side power of each telescopic rod motor is connected with a rope rod gear, the lower surface of the movable telescopic rod is fixedly connected with a movable telescopic rod rack, the right side of the movable telescopic rod rack is meshed with the rope rod gear, the upper surface of the movable telescopic rod is fixedly connected with a zooming space shell, the left and right inner side walls of the zooming space are fixedly connected with zooming space partition plates, the upper sides of the zooming space partition plates can be abutted against the zooming hinges, the zooming hinges are hinged with two zooming rods, zooming ejection torsional springs are fixedly connected onto the zooming hinges, zooming lenses are fixedly connected onto the upper sides of the zooming rods, two zooming lenses are a group, four groups are equidistantly distributed on the zooming partition plates, both sides of the zooming lenses can be in sliding connection with the left and right inner side walls of the zooming space shell, a zooming power space is arranged on the right side of the zooming space, and a vertical moving motor is fixedly connected onto the, the left side of the vertical moving motor is dynamically connected with a vertical moving shaft, the left side of the vertical moving shaft is fixedly connected with a vertical moving bevel gear, the inner wall of the right side of the zooming space shell is rotatably linked with a vertical rack moving gear, the rear side of the vertical rack moving gear is meshed with the vertical moving bevel gear, the inner wall of the right side of the zooming space is slidably connected with a vertical moving rack, the right side of the vertical moving rack is meshed with the vertical rack moving gear, the lower side of the vertical moving rack is slidably connected with a series rack, the right side of the series rack is slidably connected with the right side wall of the zooming space shell, the left side of the series rack can be slidably connected with the zooming hinge, the inner wall of the lower side of the zooming space shell is fixedly connected with a transverse moving motor, the upper side of the transverse moving motor, the front side of the transverse moving bevel gear is engaged with a rack displacement gear, the upper side of the rack displacement gear is engaged with a serial rack, when zooming is required, the transverse moving motor is opened to select a lens to be lifted, then the rack displacement gear rotates to drive the serial rack to translate leftwards to pass through a round hole slide way in the zooming hinge, when a specified number of lenses are passed, the transverse moving motor is closed, the vertical moving motor is opened, the vertical moving motor enables the vertical rack moving gear to rotate, so that the vertical moving rack translates upwards, the serial rack drives the zooming lens to slide upwards along the inner wall of the zooming space shell, the zooming ejecting torsion spring gradually restores deformation along with the upward sliding of the zooming lens, and when the vertical moving rack reaches a specified position, two become the burnt lens and be in it expandes under the effect of torsional spring to zoom, make two thereby it reachs two to become the burnt lens the place ahead of lamps and lanterns reaches the purpose of alternate focal length, the car shell surface about car shell central line symmetric distribution fixedly connected with is used for control two sets of negative pole contacts and the positive pole contact of air-blower switch, positive pole contact below is equipped with the controlling means who is used for controlling air-blower switch, in the car shell upper space with the car shell upper surface is equipped with the dust repellent device that is used for the air supply, the car shell upper surface is equipped with the telescopic link device that is used for lift lamps and lanterns, drill bit power space with be equipped with the perforating device who is used for device and ground fixed connection in the car shell downside wall.

2. The lighting vehicle for mine cavern capable of automatically removing dust and changing illumination distance according to claim 1, wherein: the control device comprises a dust collecting box connected to the left side surface of the car shell in a sliding manner, a rotary push rod hinged to the upper part of the dust collecting box, a control fixed hinge fixedly connected to the inner side wall of the car shell, a control torsion spring fixedly connected to the control fixed hinge and the rotary push rod directly, a rotary push rod groove formed in the rotary push rod and penetrated by the control fixed hinge to enable the rotary push rod to slide and rotate around the control fixed hinge, a rotary push rod groove spring fixedly connected to the right side of the control fixed hinge and the rotary push rod groove, a control push rod connected to the inner side wall of the left side of the car shell in a sliding manner, a rotary push rod groove formed in the vertical partition plate of the car shell and connected with a central balance hinge in a sliding manner, and a central balance spring fixedly connected between the central balance hinge and the upper side wall of the rotary push, the central balance hinge is hinged with a central balance rod, the upper side of each control ejector rod is abutted against the central balance rod, when the two dust collecting boxes collect dust with certain mass, the dust collecting boxes slide downwards, so that the rotating push rod rotates and compresses the rotating push rod groove spring, the rotating push rod groove translates towards the left lower direction, the control ejector rods are pushed to translate upwards, the two control ejector rods push the central balance rod upwards, the central balance spring is compressed, the central balance rod is in contact with the cathode contact, a circuit for providing power for the air blower is closed, and the air blower operates.

3. The lighting vehicle for mine cavern capable of automatically removing dust and changing illumination distance according to claim 1, wherein: the dust driving device comprises a vehicle shell left side fixedly connected with air blower, an air inlet pipe inner side wall fixedly connected with filter screen, a vehicle shell upper surface fixedly connected with air outlet, an air outlet lower volume fixedly connected with air inlet pipe, when the air blower is opened, air enters the air inlet pipe, passes through the filter screen, and then blows out from the air outlet.

4. The lighting vehicle for mine cavern capable of automatically removing dust and changing illumination distance according to claim 1, wherein: the telescopic rod device comprises two fixed telescopic rods which are symmetrically distributed about a central line and are fixedly connected to the upper surface of the shell, the inner space of the rope rod is arranged in each fixed telescopic rod, a telescopic rod motor is fixedly connected to the inner wall of each fixed telescopic rod, the front side of each telescopic rod motor is in power connection with a rope rod gear, the inner wall of the inner space of each rope rod is in sliding connection with a movable telescopic rod, the lower surface of each movable telescopic rod is fixedly connected with a movable telescopic rod rack, the right side of each movable telescopic rod rack is meshed with the rope rod gear, the upper surface of each movable telescopic rod is fixedly connected with a zooming space shell, when a lamp needs to be lifted, the telescopic rod motor is turned on to enable the rope rod gear to rotate, so that the movable telescopic rod rack is enabled to translate upwards, and, thereby allowing the fixture to reach a specified height.

5. The lighting vehicle for mine cavern capable of automatically removing dust and changing illumination distance according to claim 1, wherein: the punching device comprises a drill bit power space, wherein the upper inner wall and the lower inner wall of the drill bit power space are rotatably connected with a rotary internal thread sleeve, a punching motor is fixedly connected to the car shell partition plate, the lower side of the punching motor is in power connection with the rotary internal thread sleeve, the surface of the rotary internal thread sleeve is fixedly connected with a lead screw outer gear, the lower side of the car shell partition plate is fixedly connected with a rotary internal thread sleeve, a threaded hole is formed in the rotary internal thread sleeve, the threaded hole is in internal thread connection with a drill bit upper threaded rod, the lower side of the drill bit upper threaded rod is fixedly connected with a drill bit, the surface of the rotary internal thread sleeve is fixedly connected with a sleeve outer gear, the left side of the sleeve outer gear is meshed with the lead screw outer gear, when the, the sleeve outside gear rotates to enable the screw rod outside gear to rotate, so that the threaded rod on the drill bit in threaded connection with the screw rod outside gear rotates and moves downwards, and the punching effect is achieved.

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