CN112922054A

CN112922054A - Application of bulldozing device

Info

Publication number: CN112922054A
Application number: CN202110125745.0A
Authority: CN
Inventors: 陈明治
Original assignee: Nanan Shanghong Machinery Technology Co Ltd
Current assignee: Nanan Shanghong Machinery Technology Co Ltd
Priority date: 2018-10-10
Filing date: 2018-10-10
Publication date: 2021-06-08
Also published as: CN109138019B; CN109138019A

Abstract

The invention discloses an application of a bulldozing device, which structurally comprises a sand and stone push plate, a sand and stone accumulation living body pushing device, a living body push port, a push plate connecting shell and a push plate connecting stress rod, wherein the sand and stone accumulation living body pushing device comprises an elastic rope fixing shaft, a living body pushing block, a living body induction elastic rope, a living body back-running prevention output end, a live body pushing device, a trigger whole body lead, a living body trigger control end and a living body push plate, the trigger whole body lead is arranged between the bottom end of the live body pushing device and the right end of the living body trigger control end, and can be used for pushing a bulldozer to run, it is dug up the originally compact sand and stone, becomes loose at a moment, so that it triggers the internal equipment, the living body pushing plate moves upwards along the living body pushing limiting rail, the living body pushing plate pushes the living body out of the living body pushing port, and the movable one-way tilting plate is placed to run backwards inwards.

Description

Application of bulldozing device

The application is a divisional application of a bulldozing device of a seaside bulldozer for preventing amphibians in sand and stones, wherein the application date is 2018, 10 months and 10 days, and the application number is CN 201811178043.3.

Technical Field

The invention belongs to the field of bulldozers, and particularly relates to an application of a bulldozer.

Background

The existing bulldozer is wide in application range and uses a plurality of places, for example, the bulldozer is used for pushing sand and stones at seaside to help the sand and stones to be uniformly compacted, the sand and stones are wet and are close to seaside because the sand and stones are not like ordinary dry sand on the land, and some amphibians such as turtles, crabs, razor clams and the like exist in the sand and stones.

Based on the findings of the inventor, the existing seaside bulldozer mainly has the following defects, such as:

its bull-dozer promotes, when compacting at the in-process of seaside operation to its moist sand and soil, has avoided in the gravel and sand to have some living things, if at the in-process of operation, can not make its living things out, is compacted under the gravel and sand more easily, or seeks to live the stronger meeting and drills out at the position that originally had been compacted, appears some soft gravel and sand and holes.

It is therefore desirable to provide a dozing device for use in applications

Disclosure of Invention

The bulldozer aims to solve the problems that when the bulldozer performs bulldozing and compaction on sand and stones close to the seaside, living objects exist inside the bulldozer, the bulldozer is easy to press the bulldozer inside, and if the bulldozer has a strong desire to live, the bulldozer can easily damage the originally processed ground.

The application purpose and the effect of the bulldozing device are achieved by the following specific technical means:

the structure of the device comprises a sand and stone push plate, a sand and stone accumulation living body pushing device, a living body push port, a push plate connection shell and a push plate connection stress rod.

The gravel and sand accumulation living body pushing device is installed between a gravel and sand pushing plate and a living body pushing port, the pushing plate connecting shell is welded on the surface of the right end of the gravel and sand accumulation living body pushing device, and the pushing plate connecting stress rod penetrates through the pushing plate connecting shell.

The gravel pile up living body pusher includes stretch cord fixed axle, living body propelling movement piece, living body response stretch cord, prevents that the living body from running back output, circular telegram propelling movement living body device, triggers whole body wire, living body trigger control end, living body push plate, the stretch cord fixed axle is equipped with nine and evenly distributed and runs through inside living body push plate, living body propelling movement piece cover is located living body response stretch cord surface inclined to one side bottom and swing joint, living body response stretch cord runs through inside preventing the living body from running back output end bottom, living body push plate right-hand member welds in circular telegram propelling movement living body device left end and swing joint, it installs between circular telegram propelling movement living body device bottom and living body trigger control end right-hand member to trigger whole body wire, the living body response stretch cord is kept away from the one end of preventing the living body from running back output and is run through inside living body trigger control end.

As a further improvement of the invention, the anti-back-running living body output end comprises a living body unidirectional rotation output wheel, an auxiliary living body output block and a movable unidirectional tilting plate, wherein one left end of the leftmost end of the movable unidirectional tilting plate penetrates through the inside of the living body unidirectional rotation output wheel, the bottom end of the auxiliary living body output block is welded to the top end of the living body unidirectional rotation output wheel and is positioned in the middle of the top end of the living body unidirectional rotation output wheel, the movable unidirectional tilting plate is of a round-head triangular structure, and the auxiliary living body output block is of a trapezoidal structure with a narrow top and a wide bottom.

As a further improvement of the invention, the living body unidirectional rotation output wheel comprises a living body pushing stress shaft, a living body stressed slide block, a sliding limit rail, a sliding extrusion spring, a living body stressed arc rod, a movable output limit slide block, a movable output limit slide rail and a living body output wane mounting groove, wherein the living body output wane mounting groove is provided with two mounting grooves which are symmetrically distributed and penetrate through the inside of the living body pushing stress shaft, the living body stressed slide block is mounted in the internal groove of the sliding limit rail and is movably connected, the right end of the sliding extrusion spring is vertically welded on the outer surface of the left end of the living body stressed slide block, the top end of the living body stressed arc rod is welded on one end of the outer surface of the living body pushing stress shaft and is hinged, the movable output limit slide block is welded on the outer surface of the living body pushing stress shaft, the internal, the movable output limiting slide rail is of a semi-arc structure, and the living body stress arc-shaped rod is of a micro-arc structure.

As a further improvement of the invention, the electrified living body pushing device comprises an electroactive polymer, a gradually electrified conductor, a movable trigger wire, a living body pushing main rod, a living body pushing limiting block and a living body pushing limiting rail, wherein sixteen gradually electrified conductors are arranged at the right end of the electroactive polymer, one end, far away from the electroactive polymer, of the gradually electrified conductor is connected with the movable trigger wire, the left end of the living body pushing main rod is welded on the right surface of the living body pushing limiting block, the living body pushing limiting block is arranged in an inner groove of the living body pushing limiting rail and is movably connected with the inner groove, and the living body pushing main rod is a closed movable cylinder.

As a further improvement of the invention, the living body trigger control end comprises a living body stress rope engagement grid, a trigger energy conversion grid, a trigger conductor and a living body stress mobile trigger device, wherein the living body stress rope engagement grid is arranged above the left side of the trigger energy conversion grid, the right end of the trigger conductor is electrically connected with the left end of the trigger energy conversion grid, one end of the trigger conductor, far away from the trigger energy conversion grid, is connected with the living body stress mobile trigger device, the number of the trigger conductors is six, and the living body stress rope engagement grid is in an inverted trapezoidal structure.

As a further improvement of the invention, the living body forced movement triggering device comprises a living body movable triggering conductor, a living body movable friction wheel, a living body movable driving body and a gravity drop block, wherein the left end of the living body movable triggering conductor is connected with the right end of the living body movable friction wheel, the bottom end of the gravity drop block is welded on the top of the living body movable driving body and is positioned in the middle, and the living body movable friction wheels are vertically and uniformly arranged.

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

when the bulldozer runs, the bulldozer is dug up originally compact sand and stones, becomes loose at once, the living body hidden inside the bulldozer moves quickly, the elastic rope is pulled to induce the living body inside the bulldozer while the bulldozer moves, the internal equipment is triggered, the living body pushing plate moves upwards along the living body pushing limiting rail, the living body is pushed out of the living body pushing port, and the movable one-way tilting plate is used for placing the living body to run backwards.

Drawings

Fig. 1 is a schematic structural view of an application of a dozing device according to the present invention.

Fig. 2 is a schematic front view of an internal structure of a pushing device for living sand and stone accumulation according to the present invention.

FIG. 3 is a schematic diagram of the front view of the output end for preventing the back-running of the living body according to the present invention.

Fig. 4 is a schematic front view of the internal structure of a unidirectional rotating output wheel of a living body according to the present invention.

FIG. 5 is a front view of an internal structure of a device for electrically pushing living bodies according to the present invention.

Fig. 6 is a schematic front view of an internal structure of a living body triggering control terminal according to the present invention.

Fig. 7 is an enlarged front view of the triggering device for the forced movement of the living body according to the present invention.

In the figure: a sandstone push plate-1, a sandstone accumulation living body pushing device-2, a living body pushing port-3, a push plate connecting shell-4, a push plate connecting stress rod-5, an elastic rope fixing shaft-21, a living body pushing block-22, a living body induction elastic rope-23, a living body back-running prevention output end-24, a live body pushing device-25, a trigger whole body lead-26, a living body trigger control end-27, a living body pushing plate-28, a living body unidirectional rotation output wheel-241, an auxiliary living body output block-242, a movable unidirectional tilting plate-243, a living body pushing stress shaft-2411, a living body stress slide block-2412, a sliding limit rail-2413, a sliding extrusion spring-2414, a living body stressed arc rod-2415, a movable output limit slide block-2416, a movable output limit slide rail-2417, A living body output wane mounting groove-2418, an electroactive polymer-251, a gradual electrifying conductor-252, a movable trigger wire-253, a living body pushing main rod-254, a living body pushing limiting block-255, a living body pushing limiting rail-256, a living body stressed rope engagement grid-271, a trigger energy conversion grid-272, a trigger conductor-273, a living body stressed movement trigger device-274, a living body movable trigger conductor-2741, a living body movable friction wheel-2742, a living body movable driving body-2743 and a gravity drop block-2744.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 7:

the invention provides application of a bulldozing device, which structurally comprises a sand and stone push plate 1, a sand and stone accumulation living body pushing device 2, a living body pushing port 3, a push plate connecting shell 4 and a push plate connecting stress rod 5.

Gravel pile up live body pusher 2 and install in gravel push pedal 1 and the live body and release between port 3, the push pedal links up shell 4 and welds and pile up 2 right-hand members surfaces of live body pusher in gravel and sand, the push pedal links up stress bar 5 and runs through in the push pedal links up inside shell 4.

The sandstone accumulation living body pushing device 2 comprises an elastic rope fixing shaft 21, a living body pushing block 22, a living body induction elastic rope 23, a living body back-running prevention output end 24, an electrified living body pushing device 25, a trigger whole body conducting wire 26, a living body trigger control end 27 and a living body pushing plate 28, nine elastic rope fixing shafts 21 are uniformly distributed and penetrate through the interior of the living body pushing plate 28, the living body pushing block 22 is sleeved on the lower end of the outer surface of the living body induction elastic rope 23 and is movably connected, the living body induction elastic rope 23 penetrates through the bottom end of the living body back-running prevention output end 24, the right end of the living body pushing plate 28 is welded at the left end of the electrified living body pushing device 25 and is movably connected, the trigger through-body lead 26 is arranged between the bottom end of the electrified living body pushing device 25 and the right end of the living body trigger control end 27, one end of the living body induction elastic rope 23 far away from the living body back-running prevention output end 24 penetrates through the inside of the living body trigger control end 27.

Wherein, the anti-living body back-running output end 24 comprises a living body unidirectional rotation output wheel 241, an auxiliary living body output block 242 and a movable unidirectional tilting plate 243, a left end of the leftmost end of the movable unidirectional tilting plate 243 penetrates through the inside of the living body unidirectional rotation output wheel 241, the bottom end of the auxiliary living body output block 242 is welded at the top end of the living body unidirectional rotation output wheel 241 and is positioned in the middle of the center, the movable unidirectional tilting plate 243 is of a round-head triangular structure, the auxiliary living body output block 242 is of a trapezoidal structure with a narrow upper part and a wide lower part, the movable angle of the movable unidirectional tilting plate 243 is 30-95 degrees compared with the horizontal position, the smooth surface of the auxiliary living body is helpful for assisting in pushing out the living body, the limiting angle is used for preventing the living body which is pushed out from back-falling again, when the living body is pushed out to open the movable unidirectional tilting plate 243, the movable unidirectional tilting plate 243 is moved to, and placing the running backwards.

Wherein the living body unidirectional rotation output wheel 241 comprises a living body pushing stress shaft 2411, a living body stress slider 2412, a sliding limit rail 2413, a sliding extrusion spring 2414, a living body stress arc rod 2415, a movable output limit slider 2416, a movable output limit slide rail 2417 and a living body output rocker mounting groove 2418, the living body output rocker mounting grooves 2418 are arranged in two and symmetrically distributed and penetrate through the inside of the living body pushing stress shaft 2411, the living body stress slider 2412 is arranged in an inner groove of the sliding limit rail 2413 and is movably connected, the right end of the sliding extrusion spring 2414 is vertically welded on the outer surface of the left end of the living body stress slider 2412, the top end of the living body stress arc rod 2415 is welded at one end of the outer surface of the living body pushing stress shaft 2411 and is hinged, the movable output limit slider 2416 is welded on the outer surface of the living body pushing stress shaft 2411, the movable output limit slider 2416 is embedded in an inner groove of the movable, the movable output limit slide rail 2417 is of a semi-arc structure, the living body stress arc rod 2415 is of a micro-arc structure, the living body stress arc rod 2415 can move together according to the pushing stress shaft 2411 of a living body, the living body stress slide block 2412 is driven while the living body stress slide block moves, when the living body stress arc rod loses the pulling force, the sliding extrusion spring 2414 assists the whole return of the living body stress slide block, the object which is installed outside is effectively promoted to return quickly, the length of the movable output limit slide rail 2417 is the movable length of the object which is installed outside, the movable output limit slide rail is used for effectively limiting the movable area, the object which is installed outside cannot move excessively, and the internal parts are blocked or damaged due to excessive bearing.

Wherein, the live body electrifying and pushing device 25 comprises an electroactive polymer 251, a gradually electrifying conductor 252, a movable trigger wire 253, a live body pushing main rod 254, a live body pushing limiting block 255 and a live body pushing limiting rail 256, the gradually electrifying conductor 252 is provided with sixteen and is arranged at the right end of the electroactive polymer 251, one end of the gradually electrifying conductor 252 far away from the electroactive polymer 251 is connected with the movable trigger wire 253, the left end of the live body pushing main rod 254 is welded on the right surface of the live body pushing limiting block 255, the live body pushing limiting block 255 is arranged in a groove in the live body pushing limiting rail 256 and is movably connected, the live body pushing main rod 254 is a closed movable cylinder, the electroactive polymer 251 can be deformed into a required shape by electrifying, the live body pushing main rod 254 is pushed by the special condition, and the gradual conduction of the gradually electrifying conductor, so that the polymer can gradually rise upwards, and when the polymer is powered on, the electroactive polymer 251 can quickly return to the original position, so that an external pushed object can quickly return to the original position.

Wherein, living body trigger control end 27 includes living body atress rope and links up check 271, triggers energy conversion check 272, trigger conductor 273, living body atress removal trigger device 274, living body atress rope links up check 271 and locates to trigger energy conversion check 272 upper left side, trigger conductor 273 right-hand member and trigger energy conversion check 272 left end electric connection, the one end that triggers energy conversion check 272 was kept away from to trigger conductor 273 is connected with living body atress removal trigger device 274, it is equipped with six to trigger conductor 273, living body atress rope links up check 271 and is the structure of falling the trapezium, living body atress rope links up check 271 can be fixed its object of installing in inside, spacing, makes it can not cross knot.

The living body forced movement trigger device 274 comprises a living body movable trigger conductor 2741, a living body movable friction wheel 2742, a living body movable driving body 2743 and a gravity drop block 2744, wherein the left end of the living body movable trigger conductor 2741 is connected with the right end of the living body movable friction wheel 2742, the bottom end of the gravity drop block 2744 is welded to the top of the living body movable driving body 2743 and is positioned in the middle of the top, the living body movable friction wheels 2742 are vertically and uniformly arranged, the living body movable driving body 2743 pushes the living body movable friction wheel 2742 to rotate while moving, energy is generated by friction and is transmitted by the living body movable trigger conductor 2741 when rotating, and the gravity drop block 2744 presses the living body movable driving body 2743 to the original position through gravity after the living body movable driving body 2743 is moved and is static to prepare for the next operation.

The specific use mode and function of the embodiment are as follows:

in the invention, when the device is operated, the sand and stone are pushed to the inside of the sand and stone accumulation living body pushing device 2, when the sand and stone are loosened, the living body inside starts to move, the living body induction elastic rope 23 is pulled while the living body induction elastic rope 23 is moved, the living body movable belt body 2743 connected with the bottom end moves upwards by the pulling of the living body movable belt body 2743, the living body movable friction wheel 2742 is pushed to rotate in the moving process, the living body movable friction wheel 2742 rotates to generate energy, the energy is guided into the trigger conductor 273 by the living body movable trigger conductor 2741, so that the energy is collected and converted, the movable trigger conductor 253 is guided to the gradually electrified conductor 252 to enable the gradually upwards transmission, the electroactive polymer 251 connected with the movable trigger conductor 251 generates electrified deformation, the gradual upwards deformation is gradually formed along the gradual opening of the gradually electrified conductor 252, the living body above the electroactive polymer 251 is pushed to push the main rod 254 together, therefore, the living body pushing plate 28 installed together is driven to move together, the living body is pushed upwards by the living body pushing plate 28 along the living body induction elastic rope 23 through the living body pushing block 22, when the living body is pushed to the movable one-way tilting plate 243, the movable one-way tilting plate 243 is connected with the living body pushing force bearing shaft 2411, and simultaneously the movable output limiting slide block 2416 is driven to move together with the living body force bearing arc-shaped rod 2415, when the living body is pushed to the upper part of the movable one-way tilting plate 243, the sliding extrusion spring 2414 rapidly drives the internal equipment to return, so that the living body cannot fall inwards or run backwards.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides an amphibian's bulldozing device in seaside bull-dozer prevents that evil sand and stone, its structure includes that sand and stone push pedal (1), sand and stone pile up live body pusher (2), living body release port (3), push pedal link up shell (4), push pedal link up stress bar (5), its characterized in that:

the gravel accumulation living body pushing device (2) is arranged between a gravel pushing plate (1) and a living body pushing port (3), the pushing plate connecting shell (4) is welded on the surface of the right end of the gravel accumulation living body pushing device (2), and the pushing plate connecting stress rod (5) penetrates through the pushing plate connecting shell (4);

the gravel and sand accumulation living body pushing device (2) comprises an elastic rope fixing shaft (21), a living body pushing block (22), a living body induction elastic rope (23), a living body back-running prevention output end (24), an electrifying pushing living body device (25), a trigger whole body lead (26), a living body trigger control end (27) and a living body pushing plate (28), wherein the elastic rope fixing shaft (21) is provided with nine elastic ropes and uniformly distributed to penetrate through the inside of the living body pushing plate (28), the living body pushing block (22) is sleeved on the outer surface of the living body induction elastic rope (23) at the bottom end and is movably connected with the outer surface of the living body induction elastic rope (23), the living body induction elastic rope (23) penetrates through the inside of the bottom end of the living body back-running prevention output end (24), the right end of the living body pushing plate (28) is welded at the left end and is movably connected with the electrifying pushing living body device (25), the trigger whole body lead (26) is arranged between the, one end of the living body induction elastic rope (23) far away from the living body back-running prevention output end (24) penetrates through the inside of the living body trigger control end (27).

Prevent living body run-back output (24) including living body unidirectional rotation output wheel (241), supplementary living body output piece (242), the one-way board (243) of perk of activity one-way left end is run through inside living body unidirectional rotation output wheel (241), supplementary living body output piece (242) bottom welding is in living body unidirectional rotation output wheel (241) top and is located the centre.

2. The device of claim 1 for protecting amphibians in sand against earthmoving on a seaside bulldozer, characterized in that: the living body unidirectional rotation output wheel (241) comprises a living body pushing stress shaft (2411), a living body stress sliding block (2412), a sliding limiting rail (2413), a sliding extrusion spring (2414), a living body stress arc rod (2415), a movable output limiting sliding block (2416), a movable output limiting sliding rail (2417) and a living body output wane mounting groove (2418), wherein the two living body output wane mounting grooves (2418) are symmetrically distributed and penetrate through the inside of the living body pushing stress shaft (2411), the living body stress sliding block (2412) is mounted in an inner groove of the sliding limiting rail (2413) and is movably connected, the right end of the sliding extrusion spring (2414) is vertically welded on the outer surface of the left end of the living body stress sliding block (2412), the top end of the living body stress arc rod (2415) is welded at one end of the outer surface of the living body pushing stress shaft (2411) and is connected with a hinge, the movable output limiting sliding block (2416) is welded on the outer surface of the living, the movable output limiting sliding block (2416) is embedded in an inner groove of the movable output limiting sliding rail (2417) and is movably connected.

3. The device of claim 1 for protecting amphibians in sand against earthmoving on a seaside bulldozer, characterized in that: the live body pushing device (25) comprises an electroactive polymer (251), a gradually electrified conductor (252), a movable trigger wire (253), a live body pushing main rod (254), a live body pushing limiting block (255) and a live body pushing limiting rail (256), wherein the gradually electrified conductor (252) is provided with sixteen and is installed at the right end of the electroactive polymer (251), one end, away from the electroactive polymer (251), of the gradually electrified conductor (252) is connected with the movable trigger wire (253), the left end of the live body pushing main rod (254) is welded to the right surface of the live body pushing limiting block (255), and the live body pushing limiting block (255) is installed in an inner groove of the live body pushing limiting rail (256) and is movably connected with the inner groove.

4. The device of claim 1 for protecting amphibians in sand against earthmoving on a seaside bulldozer, characterized in that: the living body trigger control end (27) comprises a living body stress rope engagement grid (271), a trigger energy conversion grid (272), a trigger conductor (273) and a living body stress mobile trigger device (274), wherein the living body stress rope engagement grid (271) is arranged above the left side of the trigger energy conversion grid (272), the right end of the trigger conductor (273) is electrically connected with the left end of the trigger energy conversion grid (272), and one end, far away from the trigger energy conversion grid (272), of the trigger conductor (273) is connected with the living body stress mobile trigger device (274).

5. Use of an earthmoving device according to any one of claims 1-4, characterised in that:

when the device is operated, the sand and the stone are pushed to the inside of a sand and stone accumulation living body pushing device (2), when the sand and the stone are loosened, the living body in the device starts to move, the living body induction elastic rope (23) is pulled while the living body induction elastic rope moves, when the living body induction elastic rope (23) is pulled, the living body movable driving body (2743) connected with the bottom end moves upwards through the pulling of the living body movable driving body, the living body movable friction wheel (2742) is pushed to rotate in the moving process, the living body movable friction wheel (2742) rotates to generate energy, and the energy is guided into the trigger conductor (273) through the living body movable trigger conductor (2741), so that the energy is collected and converted;

the gradually electrified conductor (252) is guided by a movable trigger wire (253) to be gradually transmitted upwards, the connected electroactive polymer (251) is electrified to generate deformation and gradually deforms upwards along the gradual opening of the gradually electrified conductor (252) to push the living body above the electroactive polymer (251) to push the main rod (254) together, so that the living body pushing plate (28) installed together is driven to move together, the living body pushing plate (28) pushes the living body upwards along the living body induction elastic rope (23) through the living body pushing block (22), when the living body is pushed to the movable one-way tilting plate (243), the movable one-way tilting plate (243) is connected with the living body pushing stress shaft (2411), and simultaneously, the movable output limiting slide block (2416) and the living body stressed arc-shaped rod (2415) are driven to move together, when the living body is pushed to the position above the movable one-way tilting plate (243), the sliding extrusion spring (2414) can quickly drive the internal equipment to return, so that the living body can not fall inwards or run backwards.