CN114475832B - Multifunctional mine personnel safety transport vehicle integrating self-adjustment and danger avoiding and survival seeking - Google Patents

Abstract

The invention discloses a multifunctional mine personnel safety transport vehicle integrating self-adjustment and danger avoiding and survival seeking, which comprises a multi-terrain stable transport vehicle, a preset survival and danger avoiding carriage and a dynamically adjustable multifunctional seat. The invention belongs to the technical field of safe transportation equipment for mine personnel, and particularly relates to a multifunctional safe transportation vehicle for mine personnel, which integrates self-adjustment and danger avoiding and survival seeking; the invention fully utilizes the self gravity of miners to convert the gravity into the kinetic energy of the horizontal movement of the pedal, and is matched with the arc-shaped porous dust collecting seat, thereby realizing the design targets of automatically adjusting the pedal and collecting scraps under the condition of no sensor; the triangular stability and the contact survival water supply device are combined, the design function of supplying water when people are trapped is realized while the support effect of the triangular structure support is not influenced, and the design problems that the existing mine personnel transportation equipment is poor in adaptability to unstable terrains, cannot automatically adjust the postures of seats and cannot supply water to trapped people in an emergency mode are fully solved.

Description

Multifunctional mine personnel safety transport vehicle integrating self-adjustment and danger avoiding and survival seeking

Technical Field

The invention belongs to the technical field of mine personnel safety transportation equipment, and particularly relates to a multifunctional mine personnel safety transportation vehicle integrating self-adjustment and danger avoiding survival.

Background

The existing transportation vehicles for mine personnel mostly adopt round wheels, but the round wheels hardly realize the effective ground gripping effect on the rugged road surface after the mine surface is mined.

In addition, current personnel conveyer adopts fixed seat more, to the constructor who just comes back from mining area work, can't accomplish the function of releiving to its shank muscle to the constructor is on one's body the piece granule along with the vibrations of automobile body are all dropped in the carriage, can cause the dirty in the carriage in disorder and be difficult to clean.

When the mining area personnel transport vechicle of promoting down adopts the flat top carriage more, does not do not make protection in advance to the collapse condition that can appear, in case take place to collapse, the upper end roof breaks, and inside carrier must be buried in the twinkling of an eye, even if stranded personnel are stranded temporarily, nevertheless under the condition that nobody was rescued, the internal environment does not have water and does not have food, can lead to stranded personnel to be difficult to persist and obtain the rescue.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the multifunctional mine personnel safety transport vehicle integrating self-adjustment and danger avoiding survival provided by the invention fully utilizes the self gravity of miners, converts the self gravity into the kinetic energy of horizontal movement of the pedals, and is matched with the arc-shaped porous dust collection seat, so that the design goals of automatically adjusting the pedals and collecting debris under the condition without a sensor are realized; the invention combines the stability of the triangle with the contact survival water supply device, realizes the design function of supplying water when people are trapped without influencing the support effect of the triangle structure support, and fully solves the design problems that the existing mine personnel transportation equipment has poor adaptability to unstable terrain, can not automatically adjust the seat posture and can not supply water to the trapped people in an emergency way.

The technical scheme adopted by the invention is as follows: the invention provides a multifunctional mine personnel safety transport vehicle integrating self-adjustment and danger avoiding and survival seeking, which comprises a multi-terrain stable transport vehicle, a preset survival and danger seeking carriage and a dynamically adjustable multifunctional seat, wherein the preset survival and danger seeking carriage is arranged on the multi-terrain stable transport vehicle, and the dynamically adjustable multifunctional seat is arranged on the preset survival and danger seeking carriage; the multi-functional seat of developments adjustable type includes that many curved surfaces dust is from collecting the seat, the flexible footboard of self-interacting and turning over a table with adjustable, many curved surfaces dust is from collecting the seat and seeking survival with the presetting and keeping away the dangerous carriage and link to each other, the flexible footboard of self-interacting links to each other with many curved surfaces dust from collecting the seat, it locates many curved surfaces dust from collecting on the seat to turn over a table with adjustable.

Furthermore, the multi-curved surface dust self-collecting seat comprises an equilateral triangle dust collecting groove, an arc-shaped convex edge at the front end of the triangle collecting groove, arc-shaped convex edges at two sides of the front end of the triangle collecting groove, a concave-convex equidistant bearing seat, an inward turning arc-shaped dust collecting plate, a bottom dust temporary storage plate, an oblique dust temporary storage groove, a seat lifting clamping block and a seat lifting clamping groove, wherein the seat lifting clamping groove is arranged on the preset survival danger avoiding carriage, the seat lifting clamping block is clamped and slidably arranged on the seat lifting clamping groove, the concave-convex equidistant bearing seat is arranged on the seat lifting clamping block, the bottom dust temporary storage plate is arranged on the preset survival danger avoiding carriage, the utility model discloses a seat, including base dust temporary storage plate, equilateral triangle dust collection groove, triangle collection groove front end arc bead, base dust collection groove, base dust temporary storage plate, equilateral triangle dust collection groove, the base dust temporary storage plate is located on the base dust temporary storage plate, the equilateral triangle dust collection groove is located on unsmooth equidistance bearing seat, turn over an arc collection plate and link to each other with the equilateral triangle dust collection groove inwards, triangle collection groove front end arc bead links to each other with the nodical point of equilateral triangle dust collection groove and triangle collection groove front end arc bead, utilizes the stability of the triangle structure on the equilateral triangle dust collection groove, and is present on the prerequisite that does not influence seat stability, realizes the dust and collects the function.

Further, the self-adjusting telescopic pedal comprises hydraulic adjusting pipes with uneven inlet and outlet areas, a single-side sliding support of the hydraulic adjusting pipes, a single-side synchronous sliding support of the hydraulic pipes, a lifting sliding rack, a clamping rotating gear, a synchronous rotating gear, an extending sleeve plate, an extending rotating gear, a temporary placing pedal, a pedal sliding limiting rack, a clamping block of the hydraulic adjusting pipes, a clamping groove of the hydraulic adjusting pipes, a clamping block of the pedal, a clamping groove of the pedal and a sliding clamping groove of the sliding support in the hydraulic pipes, wherein the hydraulic adjusting pipes with uneven inlet and outlet areas are connected with the temporary storage plate for dust at the bottom end, the single-side sliding support of the hydraulic adjusting pipes is connected with a concave-convex equidistant bearing seat, the single-side sliding support of the hydraulic adjusting pipes is clamped and slidably arranged at one end of the hydraulic adjusting pipes with uneven inlet and outlet areas, the single-side synchronous sliding support of the hydraulic pipes is clamped and slidably arranged at the other end of the hydraulic adjusting pipes with uneven inlet and outlet areas, the lifting sliding rack is connected with a unilateral synchronous sliding bracket of a hydraulic pipe, the clamping rotating gear is clamped and rotatably arranged on the bottom dust temporary storage plate, the synchronous rotating gear is connected with the clamping rotating gear, the extension sleeve plate is arranged on the bottom wall of the bottom dust temporary storage plate, the extension rotating gear is clamped and rotatably arranged on the extension sleeve plate, the lifting sliding rack is meshed and connected with the clamping rotating gear, the extension sleeve plate is meshed and connected with the synchronous rotating gear, the temporary placement pedal is arranged below the bottom dust temporary storage plate, the pedal sliding limiting rack is arranged on the temporary placement pedal, the pedal sliding limiting rack is meshed and connected with the extension rotating gear, the clamping groove of the hydraulic regulating pipe is arranged on the temporary placement pedal, and the clamping blocks of the hydraulic regulating pipe are arranged on hydraulic regulating pipes with unequal inlet and outlet areas, the hydraulic pressure control pipe block is slidably arranged on the hydraulic pressure control pipe block groove, the pedal block is arranged on the bottom wall of the bottom dust temporary storage plate, the pedal block groove is arranged on the temporary storage pedal, the pedal block is slidably arranged on the pedal block groove, the sliding support sliding block groove in the hydraulic pressure pipe is arranged on the temporary storage pedal, the unilateral synchronous sliding support block in the hydraulic pressure pipe is slidably arranged on the sliding support sliding block groove in the hydraulic pressure pipe, the gravity of a human body is converted into the kinetic energy of rack movement through the hydraulic pressure control pipes with uneven inlet and outlet area sizes, and the gravity of the human body is subjected to equal proportion adjustment to the size of rack end pressure according to the Pascal law, so that the pedal end is more stable.

Further, a table that turns over with adjustable it includes that auditorium handrail turns over a table, the table hides places case, seat position control picture peg, picture peg block groove and the spacing spring of picture peg, the table hides and places the case and locate on the bottom dust temporary storage board, the table hides and places the case block and slides and locate on unsmooth equidistance bears the seat, auditorium handrail turns over a table block and rotates and locates on the table hides and places the case, picture peg block groove is located on the table hides and places the case, picture peg spacing spring locates on unsmooth equidistance bears the seat, seat position control picture peg is located on the spacing spring of picture peg, seat position control picture peg block slides and locates on picture peg block groove, realizes bearing the spacing that seat lift removed to unsmooth equidistance through the seat position control picture peg that predetermines.

Furthermore, the preset survival risk avoiding carriage comprises a safe and stable survival risk avoiding carriage and a drinking water device for emergency survival, the safe and stable survival risk avoiding carriage is arranged on the multi-terrain stable transport vehicle, and the drinking water device for emergency survival is arranged on the safe and stable survival risk avoiding carriage; promptly seeking survival and using watering device includes that stable diagonal bracing support, lift block screw thread, internal thread groove stock solution hollow tube, basin, play liquid tank, separation tin foil paper, rivers guiding gutter spiral pipe and tin foil paper destroy the plastics arch in the car, stable diagonal bracing support locates safe firm dangerous carriage of keeping away and links to each other in the car, lift block screw thread is located on the stable diagonal bracing support in the car, internal thread groove stock solution hollow tube rotates with lift block screw thread block and links to each other, the basin is located on the internal thread groove stock solution hollow tube, go out the liquid tank and link to each other with the basin, separation tin foil paper is located on the liquid tank, rivers guiding gutter spiral pipe is located on the stable diagonal bracing support in the car, on the basin spiral pipe is located to tin foil paper destruction plastics arch, tin foil destruction plastics arch is connected with separation tin foil paper contact, utilizes rivers guiding gutter spiral pipe to lead the transportation to the rivers of pouring out.

Further, safe firm keep away dangerous carriage includes that personnel transport car, the outer triangular supports frame in carriage, locomotive upper end arc shielding plate and exit slide and shelter from the door, personnel transport car is located on the transport vechicle is stabilized to many topography, the outer triangular supports frame in carriage is located on personnel transport car, locomotive upper end arc shielding plate is located on personnel transport car, exit slide and shelter from the door block and slide and locate on personnel transport car, utilize the outer triangular supports frame in carriage to realize the fixed stay function to personnel transport car.

Further, the multi-terrain stable transport vehicle comprises a transport vehicle body, multi-terrain adaptive tracks and a personnel climbing ladder, wherein the transport vehicle body is connected with the pre-set survival risk avoiding carriage, the multi-terrain adaptive tracks are arranged on the transport vehicle body, the personnel climbing ladder is arranged on the transport vehicle body, and the ground grabbing effect of the transport vehicle on the irregular mountain body on the surface of the mine is guaranteed through the multi-terrain adaptive tracks.

Furthermore, one corner of the equilateral triangle dust collecting groove is arranged on the convex edge of the concave-convex equidistant bearing seat, the other two corners of the equilateral triangle dust collecting groove are arranged on the concave edge line of the concave-convex equidistant bearing seat, and the arc-shaped convex edge at the front end of the triangle dust collecting groove is connected with the corner with the highest spatial position of the equilateral triangle dust collecting groove.

Furthermore, the width of the spiral pipe of the water flow diversion trench is larger than the thickness of the liquid storage hollow pipe of the internal thread trench, and the width of the plastic bulge damaged by the tin foil paper is smaller than the width of the liquid outlet trench.

Further, the roof of personnel's transportation car is established to arc, the one corner of the outer triangular supports frame in carriage links to each other with the roof of personnel's transportation car, stable diagonal bracing support is equipped with two sets ofly in the car, the nodical on the inner wall of the roof of personnel's transportation car is located to stable diagonal bracing support's in two sets of cars.

Furthermore, the area of one end, connected with the unilateral sliding support of the hydraulic adjusting pipe, of the hydraulic adjusting pipe with unequal inlet and outlet area sizes is larger than that of one end, connected with the unilateral synchronous sliding support of the hydraulic adjusting pipe, so that the temporary placement of the pedal is kept stable in the using process by using the Pascal law, and the telescopic distance is longer.

Further, the upper wall of the temporary pedal is wave-shaped.

Further, the inner thread groove liquid storage hollow pipe and the stable oblique supporting bracket in the car are wrapped by plastic films and are relatively fixed.

The invention with the structure has the following beneficial effects: the multifunctional mine personnel safety transport vehicle that can automatically regulated footboard, have the collection self-interacting of first aid water supply, adaptable multiple topography and keep away dangerous survival that this scheme provided, its beneficial effect as follows:

(1) The Pascal law is combined with hydraulic adjusting pipes with unequal sizes of the areas of the inlet and the outlet of the U-shaped structure, the design target of converting the self gravity of a passenger into the movement kinetic energy of the pedal is realized through a cutting design mode, and the design effect of horizontal movement of the temporarily placed pedal under the condition without a direct power source is realized by matching a plurality of groups of hinged gears;

(2) On the premise of not influencing the sitting function of personnel, the shape of the traditional seat is changed, the characteristic that the arc-shaped curved surface is uneven is utilized, and the triangular groove is adopted, so that the stability of the seat is ensured, and the design goal of automatic collection after dust particles automatically fall is realized;

(3) The falling particles are transported in a single direction by the inward-turning arc-shaped dust collecting plates and matched with the inclined dust temporary storage groove with the inclined bottom end, so that the ore particles are convenient to collect subsequently;

(4) The sliding clamping groove of the sliding support in the hydraulic pipe is arranged, so that the possibility that the unilateral synchronous sliding support of the hydraulic pipe collides with the temporarily placed pedal in the moving process is avoided;

(5) The lifting and moving functions of the concave-convex equidistant bearing seat can be adjusted by a user according to the self requirement through the preset seat position adjusting inserting plate;

(6) The drinking water storage device with the spiral clamping structure does not adopt a movable clamping structure in the linear direction, so that the phenomenon that drinking water is lost due to rupture of barrier tinfoil paper caused by misoperation of a user is avoided;

(7) The triangular support frame consisting of two groups of stable inclined support frames in the lift car in the personnel transportation lift car and the triangular support frame outside the lift car are used for carrying out preset support on the personnel transportation lift car, so that the personal safety of internal personnel can be protected when the lift car is extruded from the upper end;

(8) The multi-terrain adaptive crawler is beneficial to adapting to the road surface structure with uneven mountain surface of a mine.

Drawings

FIG. 1 is a top cross-sectional view of a multi-functional mine personnel safety transportation vehicle integrating self-adjustment and risk avoidance and survival proposed by the present invention;

FIG. 2 is a left side sectional view of the multi-functional mine personnel safety transportation vehicle integrating self-adjustment and danger avoidance survival proposed by the present invention;

FIG. 3 is a perspective view of a safe and stable refuge compartment;

FIG. 4 is a top cross-sectional view of a safe and secure refuge compartment;

FIG. 5 is a front sectional view of a safe and stable refuge compartment;

FIG. 6 is a left side sectional view of a safe and stable refuge compartment;

FIG. 7 is a perspective view of a concavo-convex isometric load-bearing seat;

FIG. 8 is a left side cross-sectional view of a concavo-convex isometric load-bearing seat;

FIG. 9 is a front cross-sectional view of the emergency drinking device;

FIG. 10 is a top view of a hydraulic pressure regulating pipe with unequal inlet and outlet area sizes;

FIG. 11 is an enlarged view of a portion A of FIG. 4;

fig. 12 is a partially enlarged view of a portion B in fig. 6.

Wherein, 1, a multi-terrain stable transport vehicle, 2, a preset survival risk avoiding carriage, 3, a dynamic adjustable multifunctional seat, 4, a multi-curved surface dust self-collecting seat, 5, a self-adjusting telescopic pedal, 6, an adjustable folding table plate, 7, an equilateral triangle dust collecting tank, 8, an arc-shaped convex edge at the front end of the triangle collecting tank, 9, arc-shaped convex edges at two sides of the front end of the triangle collecting tank, 10, a concave-convex equidistant bearing seat, 11, an inward folding arc-shaped dust collecting plate, 12, a bottom dust temporary storage plate, 13, an oblique dust temporary storage tank, 14, a seat lifting clamping block, 15, a seat lifting clamping tank, 16, hydraulic adjusting pipes with uneven inlet and outlet area, 17, a hydraulic adjusting pipe unilateral sliding support, 18, a hydraulic pipe unilateral synchronous sliding support, 19, a lifting sliding rack, 20, a clamping rotating gear, 21, a synchronous rotating gear, 22, an extending sleeve plate, 23 and an extending rotating gear, 24, a temporary pedal, 25, a pedal sliding limiting rack, 26, a hydraulic adjusting pipe clamping block, 27, a hydraulic adjusting pipe clamping groove, 28, a pedal clamping block, 29, a pedal clamping groove, 30, a sliding bracket sliding clamping groove in a hydraulic pipe, 31, a hall handrail turnover table plate, 32, a table plate hidden placing box, 33, a seat position adjusting insertion plate, 34, an insertion plate clamping groove, 35, an insertion plate limiting spring, 36, a safe and stable danger avoiding carriage, 37, a drinking device for emergency survival, 38, a stable inclined supporting bracket in the carriage, 39, a lifting clamping thread, 40, an internal thread groove liquid storage hollow pipe, 41, a water storage groove, 42, a liquid outlet groove, 43, a barrier tinfoil paper, 44, a water flow diversion groove spiral pipe, 45, a tinfoil paper damage plastic bulge, 46, a personnel transportation carriage, 47, a carriage outer triangular supporting frame, 48, a vehicle head upper end arc-shaped baffle plate, 49. the entrance and exit sliding shielding door 50, the transportation vehicle body 51, the multi-terrain adaptive crawler belt 52 and the personnel climbing ladder.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1 and fig. 2, the multifunctional mine personnel safety transport vehicle integrating self-adjustment and danger-avoiding survival provided by the invention comprises a multi-terrain stable transport vehicle 1, a preset survival-seeking danger-avoiding carriage 2 and a dynamically adjustable multifunctional seat 3, wherein the preset survival-seeking danger-avoiding carriage 2 is arranged on the multi-terrain stable transport vehicle 1, and the dynamically adjustable multifunctional seat 3 is arranged on the preset survival-seeking danger-avoiding carriage 2.

As shown in fig. 1 and 2, the multi-terrain stable transport vehicle 1 includes a transport vehicle body 50, a multi-terrain adaptive crawler 51 and a personnel climbing ladder 52, wherein the transport vehicle body 50 is connected with the preset survival risk seeking carriage 2, the multi-terrain adaptive crawler 51 is arranged on the transport vehicle body 50, and the personnel climbing ladder 52 is arranged on the transport vehicle body 50.

As shown in fig. 1, 2 and 9, the preset survival risk avoiding carriage 2 comprises a safe and stable survival risk avoiding carriage 36 and a water drinking device 37 for emergency survival, the safe and stable survival risk avoiding carriage 36 is arranged on the multi-terrain stable transport vehicle 1, and the water drinking device 37 for emergency survival is arranged on the safe and stable survival risk avoiding carriage 36; emergency drinking device 37 for use includes stable diagonal support frame 38 in the car, lift block screw thread 39, internal thread groove stock solution hollow tube 40, water storage tank 41, go out liquid tank 42, separation tin foil paper 43, water flow diversion groove spiral tube 44 and tin foil paper destroy plastics arch 45, stable diagonal support frame 38 locates safe firm danger-avoiding carriage 36 and links to each other in the car, lift block screw thread 39 locates in the car on stable diagonal support frame 38, internal thread groove stock solution hollow tube 40 rotates with lift block screw thread 39 block and links to each other, water storage tank 41 locates on internal thread groove stock solution hollow tube 40, go out liquid tank 42 and water storage tank 41 and link to each other, separation tin foil paper 43 locates on liquid tank 42, water flow diversion groove spiral tube 44 locates in the car on stable diagonal support frame 38, tin foil paper destroys plastics arch 45 and locates on water flow diversion groove spiral tube 44, tin foil paper destroys plastics arch 45 and separation tin foil paper 43 contact and is connected.

As shown in fig. 3 and 4, the safe and stable danger avoiding carriage 36 includes a personnel transportation carriage 46, an outer triangular support frame 47 of the carriage, an upper end arc-shaped shielding plate 48 of a head of the vehicle and an inlet and outlet sliding shielding door 49, the personnel transportation carriage 46 is arranged on the transport vehicle 1 with stable terrain, the outer triangular support frame 47 of the carriage is arranged on the personnel transportation carriage 46, the upper end arc-shaped shielding plate 48 of the head of the vehicle is arranged on the personnel transportation carriage 46, and the inlet and outlet sliding shielding door 49 is clamped and slidably arranged on the personnel transportation carriage 46.

As shown in fig. 4, 5 and 11, the dynamically adjustable multifunctional seat 3 includes a multi-curved-surface dust self-collecting seat 4, a self-adjusting retractable pedal 5 and an adjustable folding table 6, the multi-curved-surface dust self-collecting seat 4 is connected with the pre-set survival risk-avoiding carriage 2, the self-adjusting retractable pedal 5 is connected with the multi-curved-surface dust self-collecting seat 4, and the adjustable folding table 6 is disposed on the multi-curved-surface dust self-collecting seat 4.

As shown in fig. 5, 7 and 8, the multi-curved surface dust self-collecting seat 4 comprises an equilateral triangle dust collecting groove 7, an arc-shaped convex rib 8 at the front end of the triangle collecting groove, arc-shaped convex ribs 9 at two sides of the front end of the triangle collecting groove, concave-convex equidistant bearing seats 10, inward-folded arc-shaped dust collecting plates 11, a bottom end dust temporary storage plate 12, an oblique dust temporary storage groove 13, a seat lifting clamping block 14 and a seat lifting clamping groove 15, wherein the seat lifting clamping groove 15 is arranged on the preset survival danger avoiding carriage 2, the seat lifting clamping block 14 is clamped and slidably arranged on the seat lifting clamping groove 15, unsmooth equidistance bears seat 10 and locates on seat lift block 14, bottom dust is kept in board 12 and is located on the predetermined nature survival is sought danger-avoiding carriage 2, slant dust is kept in groove 13 and is located on bottom dust is kept in board 12 temporarily, equilateral triangle dust collecting groove 7 is located on unsmooth equidistance bears seat 10, turn over an arc dust collecting plate 11 and link to each other with equilateral triangle dust collecting groove 7 to the enstrophe, triangle collecting vat front end arc bead 8 links to each other with equilateral triangle dust collecting groove 7, triangle collecting vat front end both sides arc bead 9 links to each other with the nodical of equilateral triangle dust collecting groove 7 and triangle collecting vat front end arc bead 8.

As shown in fig. 6, 10 and 12, the self-adjusting retractable pedal 5 comprises a hydraulic adjusting tube 16 with uneven inlet and outlet areas, a single-sided sliding bracket 17 of the hydraulic adjusting tube, a single-sided synchronous sliding bracket 18 of the hydraulic tube, a lifting sliding rack 19, a clamping rotating gear 20, a synchronous rotating gear 21, an extending sleeve plate 22, an extending rotating gear 23, a temporary placing pedal 24, a pedal sliding limit rack 25, a hydraulic adjusting tube clamping block 26, a hydraulic adjusting tube clamping groove 27, a pedal clamping block 28, a pedal clamping groove 29 and a sliding bracket sliding clamping groove 30 of the hydraulic tube inner sliding bracket, wherein the hydraulic adjusting tube 16 with uneven inlet and outlet areas is connected with a bottom dust temporary storage plate 12, the single-sided sliding bracket 17 of the hydraulic adjusting tube is connected with a concave-convex equidistant bearing seat 10, the single-sided sliding bracket 17 of the hydraulic adjusting tube is clamped and slidably arranged at one end of the hydraulic adjusting tube 16 with uneven inlet and outlet areas, a hydraulic pipe unilateral synchronous sliding bracket 18 is clamped and slidably arranged at the other end of a hydraulic adjusting pipe 16 with unequal inlet and outlet area, a lifting sliding rack 19 is connected with the hydraulic pipe unilateral synchronous sliding bracket 18, a clamping rotating gear 20 is clamped and rotatably arranged on a bottom dust temporary storage plate 12, a synchronous rotating gear 21 is connected with the clamping rotating gear 20, an extension sleeve plate 22 is arranged on the bottom wall of the bottom dust temporary storage plate 12, an extension rotating gear 23 is clamped and rotatably arranged on an extension sleeve plate 22, the lifting sliding rack 19 is meshed and connected with the clamping rotating gear 20, the extension sleeve plate 22 is meshed and connected with the synchronous rotating gear 21, a temporary placing pedal 24 is arranged below the bottom dust temporary storage plate 12, a pedal sliding limiting rack 25 is arranged on the temporary placing pedal 24, the pedal sliding limiting rack 25 is meshed and connected with the extension rotating gear 23, a hydraulic adjusting pipe clamping groove 27 is arranged on the temporary placing pedal 24, the hydraulic pressure adjusting pipe clamping block 26 is arranged on the hydraulic pressure adjusting pipe 16 with uneven inlet and outlet area, the hydraulic pressure adjusting pipe clamping block 26 is clamped and slidably arranged on the hydraulic pressure adjusting pipe clamping groove 27, the pedal clamping block 28 is arranged on the bottom wall of the bottom dust temporary storage plate 12, the pedal clamping groove 29 is arranged on the temporary placement pedal 24, the pedal clamping block 28 is clamped and slidably arranged on the pedal clamping groove 29, the hydraulic pressure pipe inner sliding support sliding clamping groove 30 is arranged on the temporary placement pedal 24, and the hydraulic pressure pipe single-side synchronous sliding support 18 is clamped and slidably arranged on the hydraulic pressure pipe inner sliding support sliding clamping groove 30.

As shown in fig. 4, fig. 11, a table 6 turns over including auditorium's handrail turns over a table 31 with adjustable, the table hides places case 32, seat position control picture peg 33, picture peg joint groove 34 and picture peg spacing spring 35, the table hides places case 32 and locates on bottom dust temporary storage board 12, the table hides places case 32 block and slides and locate on unsmooth equidistance bears seat 10, auditorium's handrail turns over a table 31 block and rotates and locates on the table hides places case 32, picture peg joint groove 34 locates on the table hides places case 32, picture peg spacing spring 35 locates on unsmooth equidistance bears seat 10, seat position control picture peg 33 locates on picture peg spacing spring 35, seat position control picture peg 33 block slides and locates on picture peg joint groove 34.

As shown in fig. 7 and 8, one corner of the equilateral triangle dust collecting groove 7 is arranged on the rib edge of the concave-convex equidistant bearing seat 10, the other two corners of the equilateral triangle dust collecting groove 7 are arranged on the concave ridge line of the concave-convex equidistant bearing seat 10, and the arc-shaped rib 8 at the front end of the triangle collecting groove is connected with the corner with the highest spatial position of the equilateral triangle dust collecting groove 7.

As shown in FIG. 9, the width of the spiral tube 44 of the water flow guiding slot is larger than the thickness of the hollow liquid storage tube 40 of the internal thread slot, and the width of the plastic protrusion 45 damaged by the tin foil paper is smaller than the width of the liquid outlet slot 42.

As shown in fig. 1 and 3, the top wall of the passenger transportation car 46 is arc-shaped, one corner of the triangular support frame 47 outside the car is connected with the top wall of the passenger transportation car 46, two groups of stable oblique support frames 38 in the car are provided, and the intersection point of the two groups of stable oblique support frames 38 in the car is arranged on the inner wall of the top wall of the passenger transportation car 46.

As shown in fig. 10 and 12, the area of the end of the hydraulic pressure adjusting pipe 16 connected to the hydraulic pressure adjusting pipe single-side sliding bracket 17, which has the uneven inlet and outlet areas, is larger than the area of the end connected to the hydraulic pressure pipe single-side synchronous sliding bracket 18.

As shown in fig. 5, the upper wall of the temporarily placed step 24 is formed in a wave shape.

As shown in fig. 9, the liquid storage hollow pipe 40 with the internal thread groove and the stable oblique supporting bracket 38 in the cage are relatively fixed by wrapping with a plastic film.

When the device is used specifically, mine workers enter a personnel transportation car 46 through a personnel climbing ladder 52, slide and close an inlet and outlet sliding blocking door 49, when the personnel need to place feet or personal tools on a temporary placement pedal 24, a seat position adjusting insertion plate 33 is pulled outwards along an insertion plate clamping groove 34, an insertion plate limiting spring 35 deforms, a table plate hiding placement box 32 can slide up and down along the clamping groove on a concave-convex equidistant bearing seat 10, after the personnel sit on the concave-convex equidistant bearing seat 10, the pressure on the seat is transmitted to a hydraulic adjusting pipe 16 with uneven inlet and outlet area size through a hydraulic adjusting pipe single-side sliding support 17, the liquid in the hydraulic adjusting pipe 16 is transmitted to a hydraulic pipe single-side synchronous sliding support 18, the hydraulic pipe single-side synchronous sliding support 18 drives a lifting sliding rack 19 to move up and down based on the Pascal law, a clamping rotating gear 20 rotates along with the lifting sliding rack 19, so that the synchronous rotating gear 21 rotates together, the temporary placement pedal 24 is connected with the extension rotating rack 25 through the meshing of the pedal sliding rack 23, the horizontal sliding function of the clamping sliding of the pedal is realized, only the temporary placement pedal 24 and the hydraulic adjusting pipe can be placed in the horizontal sliding groove 24 under the effect of avoiding the temporary placement of the hydraulic adjusting pipe 24 and the temporary placement along with the hydraulic adjusting pipe 24; after the temporary placement pedal 24 is completely moved out, mine personnel also sit on the uneven equidistant bearing seat 10, due to the uneven equidistant bearing seat 10 with the uneven wavy structure, ore particles on the surface of the body of the miners drop on the seat along with the movement of the vehicle body, and the debris particles move to the groove part of the uneven equidistant bearing seat 10 along the arc-shaped convex edges 8 at the front end of the triangular collecting tank and the arc-shaped convex edges 9 at two sides of the front end of the triangular collecting tank, and due to the fact that the equilateral triangular dust collecting tank 7 is lower than the peripheral convex edges, the particulate matters can all slide into the equilateral triangular dust collecting tank 7 along the arc-shaped inclined plane, and then are guided to the bottom end dust temporary storage plate 12 below the equilateral triangular dust collecting tank through the inward turning arc-shaped dust collecting plate 11 at the bottom end in a one-way manner, and due to the fact that the bottom wall of the oblique dust temporary storage tank 13 is in a state that one side is higher and the other side is lower, the particulate matters can be finally accumulated at one end of the oblique dust temporary storage tank 13, and the collection and the subsequent personnel can conveniently collect and clean; when a person sits down, the table plate hiding and placing box 32 slides along the clamping groove, the horizontal height of the table plate hiding and placing box 32 is larger than the horizontal height of the concave-convex equidistant bearing seat 10, and then the auditorium armrest folding table plate 31 is rotated and folded, so that the auditorium armrest folding table plate 31 is opened, and the use by a user is facilitated; when the carriage is sealed due to collapse of an ore cave or emergency situation outside, the rescue probability of the trapped person can be reduced due to long-time water shortage, the trapped person can control the liquid storage hollow pipe 40 of the internal thread groove to rotate along the lifting clamping thread 39, and after the barrier tinfoil paper 43 on the liquid outlet groove 42 is contacted with the tinfoil paper damage plastic bulge 45, the introduced water in the water storage groove 41 flows out along the water flow diversion groove spiral pipe 44, so that the trapped person can take an emergency; when a heavy object falls from the upper end of the carriage, the heavy object can slide down along the arc-shaped top plate by the arc-shaped top plate at the upper end of the personnel transportation car 46, the stable oblique supporting bracket 38 in the car with two intersected end points and the bottom plate of the personnel transportation car 46 form a stable triangle, so that the ceiling of the carriage is more stable, and the triangular supporting frame 47 outside the carriage at the rear end can further effectively support one end of the top wall of the personnel transportation car 46; when a person leaves the concave-convex equidistant bearing seat 10, the hydraulic pressure in the hydraulic adjusting pipes 16 with unequal inlet and outlet areas gradually tends to be balanced, the single-side synchronous sliding bracket 18 of the hydraulic pipe contracts to drive the lifting sliding rack 19 to move reversely, the extension rotating gear 23 is forced to rotate reversely, and the temporary placement pedal 24 is contracted to a state below the bottom dust temporary storage plate 12.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. Collect self-interacting and keep away dangerous multi-functional mine personnel safety transport vechicle of seeking survival, its characterized in that: the multi-terrain survival and danger avoiding vehicle comprises a multi-terrain stable transport vehicle (1), a preset survival and danger avoiding carriage (2) and a dynamically adjustable multifunctional seat (3), wherein the preset survival and danger avoiding carriage (2) is arranged on the multi-terrain stable transport vehicle (1), and the dynamically adjustable multifunctional seat (3) is arranged on the preset survival and danger avoiding carriage (2); the dynamic adjustable multifunctional seat (3) comprises a multi-curved-surface dust self-collecting seat (4), a self-adjusting telescopic pedal (5) and an adjustable turnover table plate (6), the multi-curved-surface dust self-collecting seat (4) is connected with a preset survival risk avoiding carriage (2), the self-adjusting telescopic pedal (5) is connected with the multi-curved-surface dust self-collecting seat (4), and the adjustable turnover table plate (6) is arranged on the multi-curved-surface dust self-collecting seat (4); the multi-curved-surface dust self-collecting seat (4) comprises an equilateral triangle dust collecting groove (7), arc-shaped convex ridges (8) at the front end of the triangle collecting groove, arc-shaped convex ridges (9) at two sides of the front end of the triangle collecting groove, concave-convex equidistant bearing seats (10), inward-folded arc-shaped dust collecting plates (11), a bottom dust temporary storage plate (12), an oblique dust temporary storage groove (13), a seat lifting clamping block (14) and a seat lifting clamping groove (15), the seat lifting clamping groove (15) is arranged on the preset survival risk-seeking carriage (2), the seat lifting clamping block (14) is clamped and arranged on the seat lifting clamping groove (15) in a sliding way, the concave-convex equidistant bearing seat (10) is arranged on the seat lifting clamping block (14), the bottom dust temporary storage plate (12) is arranged on the preset survival risk seeking carriage (2), the inclined dust temporary storage groove (13) is arranged on the dust temporary storage plate (12) at the bottom end, the equilateral triangle dust collecting groove (7) is arranged on the concave-convex equidistant bearing seat (10), the inward-folded arc-shaped dust collecting plate (11) is connected with the equilateral triangle dust collecting groove (7), the arc-shaped convex edge (8) at the front end of the triangular collecting groove is connected with the equilateral triangle dust collecting groove (7), the arc-shaped convex edges (9) at the two sides of the front end of the triangular collecting groove are connected with the intersection point of the equilateral triangle dust collecting groove (7) and the arc-shaped convex edge (8) at the front end of the triangular collecting groove; the self-adjusting telescopic pedal (5) comprises hydraulic adjusting pipes (16) with unequal inlet and outlet areas, a single-side sliding support (17) of the hydraulic adjusting pipes, a single-side synchronous sliding support (18) of the hydraulic pipes, a lifting sliding rack (19), a clamping rotating gear (20), a synchronous rotating gear (21), an extending sleeve plate (22), an extending rotating gear (23), a temporary placing pedal (24), a pedal sliding limiting rack (25), a hydraulic adjusting pipe clamping block (26), a hydraulic adjusting pipe clamping groove (27), a pedal clamping block (28), a pedal clamping groove (29) and a sliding support sliding clamping groove (30) in the hydraulic pipes, wherein the hydraulic adjusting pipes (16) with unequal inlet and outlet areas are connected with a bottom dust temporary storage plate (12), the single-side sliding support (17) of the hydraulic adjusting pipes is connected with a concave-convex equidistant bearing seat (10), the single-side sliding support (17) of the hydraulic adjusting pipes is clamped and slidably arranged at one ends of the hydraulic adjusting pipes (16) with unequal inlet and outlet areas, the single-side sliding support (18) is clamped at one end of the hydraulic adjusting pipes (16) with unequal inlet and outlet areas, the hydraulic adjusting pipes, the single-side sliding support (18) is arranged at the other end of the hydraulic adjusting pipes (16) with unequal inlet and outlet areas, the lifting sliding support (19) and the hydraulic adjusting pipes, the hydraulic adjusting pipes are connected with the clamping rack sliding support (20), the sliding support (18) synchronously and the hydraulic adjusting pipe sliding support (12), the device is characterized in that the synchronous rotating gear (21) is connected with the clamping rotating gear (20), the extension sleeve plate (22) is arranged on the bottom wall of the bottom dust temporary storage plate (12), the extension rotating gear (23) is clamped and rotatably arranged on the extension sleeve plate (22), the lifting sliding rack (19) is meshed and connected with the clamping rotating gear (20), the extension sleeve plate (22) is meshed and connected with the synchronous rotating gear (21), the temporary placement pedal (24) is arranged below the bottom dust temporary storage plate (12), the pedal sliding limiting rack (25) is arranged on the temporary placement pedal (24), the pedal sliding limiting rack (25) is meshed and connected with the extension rotating gear (23), the hydraulic adjusting pipe clamping groove (27) is arranged on the temporary placement pedal (24), the hydraulic adjusting pipe clamping block (26) is arranged on the hydraulic adjusting pipe (16) with uneven inlet and outlet area, the hydraulic adjusting pipe clamping block (26) is clamped and slidably arranged on the hydraulic adjusting pipe clamping groove (27), the pedal clamping block (28) is arranged on the pedal bottom temporary placement pedal (12), the temporary placement bracket (29) is arranged on the temporary placement pedal (24), the temporary placement sliding bracket (29), the hydraulic pipe single-side synchronous sliding support (18) is clamped and slidably arranged on the sliding clamping groove (30) of the sliding support in the hydraulic pipe.

2. The multifunctional mine personnel safety transport vehicle integrating self-adjustment, risk avoidance and survival seeking according to claim 1, characterized in that: it turns over a table (6) and turns over a table (31) including the auditorium handrail, the table is hidden and places case (32), seat position control picture peg (33), picture peg block groove (34) and the spacing spring of picture peg (35), the table is hidden and is placed case (32) and locate on bottom dust temporary storage board (12), the table is hidden and is placed case (32) block and slide and locate on unsmooth equidistance bears seat (10), the auditorium handrail turns over a table (31) block and rotates and locates on the table is hidden and places case (32), picture peg block groove (34) are located the table and are hidden and are placed on case (32), unsmooth equidistance is located and is born seat (10) in picture peg spacing spring (35) in picture peg position control picture peg (33), seat position control picture peg (33) block slides and locates on picture peg groove (34).

3. The multifunctional mine personnel safety transport vehicle integrating self-adjustment, risk avoidance and survival seeking according to claim 2, characterized in that: the preset survival seeking danger avoiding carriage (2) comprises a safe and stable danger avoiding carriage (36) and an emergency survival seeking water drinking device (37), the safe and stable danger avoiding carriage (36) is arranged on the multi-terrain stable transport vehicle (1), and the emergency survival seeking water drinking device (37) is arranged on the safe and stable danger avoiding carriage (36); promptly seek to use watering device (37) including stable diagonal bracing support (38) in the car, lift block screw thread (39), internal thread groove stock solution hollow tube (40), water storage tank (41), play liquid tank (42), separation tinfoil paper (43), rivers guiding gutter spiral pipe (44) and tinfoil paper destroy plastics arch (45), stable diagonal bracing support (38) is located safe firm danger-avoiding carriage (36) and is linked to each other in the car, lift block screw thread (39) are located in the car on stable diagonal bracing support (38), internal thread groove stock solution hollow tube (40) rotate with lift block screw thread (39) block and link to each other, water storage tank (41) are located on internal thread groove stock solution hollow tube (40), go out liquid tank (42) and water storage tank (41) and link to each other, separation tinfoil paper (43) are located on liquid tank (42), rivers guiding gutter (44) are located in the car on stable diagonal bracing support (38), tinfoil paper destroys plastics arch (45) and separates plastics spiral pipe (43) and contact plastics.

4. The multifunctional mine personnel safety transport vehicle integrating self-adjustment, risk avoidance and survival seeking according to claim 3, characterized in that: safe firm keep away dangerous carriage (36) including personnel transportation car (46), the outer triangular supports frame of carriage (47), locomotive upper end arc shielding plate (48) and exit slip and shelter from door (49), personnel transportation car (46) are located many topography and are stabilized on transport vechicle (1), the outer triangular supports frame of carriage (47) are located on personnel transportation car (46), on personnel transportation car (46) is located in locomotive upper end arc shielding plate (48), exit slip and shelter from door (49) block and slide and locate on personnel transportation car (46).

5. The multifunctional mine personnel safety transport vehicle integrating self-adjustment and danger avoiding and survival according to claim 4, characterized in that: the multi-terrain stable transport vehicle (1) comprises a transport vehicle body (50), multi-terrain adaptive tracks (51) and a personnel climbing ladder (52), wherein the transport vehicle body (50) is connected with a predesigned survival risk seeking carriage (2), the multi-terrain adaptive tracks (51) are arranged on the transport vehicle body (50), and the personnel climbing ladder (52) is arranged on the transport vehicle body (50).

6. The multifunctional mine personnel safety transport vehicle integrating self-adjustment, risk avoidance and survival seeking according to claim 5, characterized in that: one corner of the equilateral triangle dust collecting groove (7) is arranged on a convex edge of the concave-convex equidistant bearing seat (10), the other two corners of the equilateral triangle dust collecting groove (7) are arranged on a concave edge line of the concave-convex equidistant bearing seat (10), and the arc-shaped convex edge (8) at the front end of the equilateral triangle dust collecting groove is connected with the highest corner of the spatial position of the equilateral triangle dust collecting groove (7).

7. The multifunctional mine personnel safety transport vehicle integrating self-adjustment, risk avoidance and survival seeking according to claim 6, characterized in that: the width of the spiral pipe (44) of the water flow diversion groove is larger than the thickness of the liquid storage hollow pipe (40) of the internal thread groove, and the width of the plastic bulge (45) damaged by the tin foil paper is smaller than the width of the liquid outlet groove (42); the area of one end, connected with the hydraulic adjusting pipe single-side sliding support (17), of the hydraulic adjusting pipe (16) with the unequal inlet and outlet areas is larger than that of one end, connected with the hydraulic pipe single-side synchronous sliding support (18), of the hydraulic adjusting pipe (16) with the unequal inlet and outlet areas; the upper wall of the temporary placing pedal (24) is wave-shaped.

8. The multifunctional mine personnel safety transport vehicle integrating self-adjustment and danger avoiding and survival seeking according to claim 7, characterized in that: the top wall of the personnel transportation car (46) is arc-shaped, one corner of the triangular support frame (47) outside the car is connected with the top wall of the personnel transportation car (46), two groups of stable oblique support frames (38) in the car are arranged, and the intersection point of the two groups of stable oblique support frames (38) in the car is arranged on the inner wall of the top wall of the personnel transportation car (46); the inner thread groove liquid storage hollow pipe (40) and the stable oblique supporting bracket (38) in the lift car are relatively fixed through being wrapped by a plastic film.

Images