CN112429101B - Sand soil transfer device for long jump in field - Google Patents

Abstract

The invention relates to a sand transferring device, in particular to a long-jump sand transferring device for a field, which comprises a device support, a containing mechanism, a sand transporting mechanism, a sand storing mechanism, a shielding mechanism, a lifting mechanism, a sand leveling mechanism I and a sand leveling mechanism II, wherein the position of the sand transporting mechanism can be adjusted through the containing mechanism, the sand transporting mechanism can transport sand into the sand storing mechanism, the sand storing mechanism can uniformly drop out sand, the shielding mechanism can adjust the width of the sand falling out of the sand storing mechanism, the lifting mechanism can drive the sand leveling mechanism I and the sand leveling mechanism II to perform lifting movement, the sand leveling mechanism II is inserted below the sand, the sand leveling mechanism I is positioned on the sand, and the sand is quickly leveled by the cooperation of the sand leveling mechanism II and the sand leveling mechanism I.

Description

Sand soil transfer device for long jump in field

Technical Field

The invention relates to a sand transfer device, in particular to a soil transfer device for long jump in a field.

Background

For example, publication No. CN111792350A is a direction-adjustable sand transfer device for highway construction. The invention aims to solve the technical problems: the sand transfer device with adjustable direction for highway construction, which can rotate and transfer sand in multiple directions, is provided. The invention provides a direction-adjustable sand transfer device for highway construction, which comprises: a bottom plate; the rollers are symmetrically arranged on the bottom plate; the mounting rack is mounted on the bottom plate; the guide assembly is arranged on the mounting frame; a transfer assembly mounted on the guide assembly; the driving assembly is arranged on the mounting frame; the invention has the defect that the rapid trowelling of the track and field long jump sandy soil cannot be realized.

Disclosure of Invention

The invention aims to provide a track and field long jump sandy soil transfer device which can quickly trowelle track and field long jump sandy soil.

The aim of the invention is achieved by the following technical scheme:

the utility model provides a long jump sand soil transfer device in field, includes· fixedly connected with receiving mechanism on the device support, fixedly connected with fortune sand mechanism on the receiving mechanism, fixedly connected with deposits sand mechanism on the device support, and sliding connection has the mechanism that shelters from on depositing sand mechanism, shelter from fixedly connected with compression spring between mechanism and the sand mechanism that deposits, be connected with elevating system on the device support, be connected with trowelling mechanism I and trowelling mechanism II on the elevating system.

As a further optimization of the technical scheme, the device support comprises a connecting support, a sliding support and a crawler mechanism, wherein the sliding support is fixedly connected to the front side of the connecting support, and the crawler mechanism is connected to the left side and the right side of the connecting support.

As a further optimization of the technical scheme, the storage mechanism comprises a telescopic mechanism I, a swinging motor I and a telescopic mechanism II, wherein the telescopic end of the telescopic mechanism I is fixedly connected with the swinging motor I, the output shaft of the swinging motor I is fixedly connected with the telescopic mechanism II, and the telescopic mechanism I is fixedly connected to the connecting bracket.

As a further optimization of the technical scheme, the sand transporting mechanism comprises a swing motor II, a sand transporting support, sand transporting wheels, sand transporting belts, sand transporting protrusions and a transporting motor, wherein the swing motor II is fixedly connected to the telescopic end of the telescopic mechanism II, a sand transporting Sha Zhijia is fixedly connected to an output shaft of the swing motor II, two sand transporting wheels are rotatably connected to the sand transporting support, the two sand transporting wheels are in transmission connection through the sand transporting belts, a plurality of sand transporting protrusions are fixedly connected to the sand transporting belts, the transporting motor is fixedly connected to the sand transporting support, and an output shaft of the transporting motor is in transmission connection with one sand transporting wheel.

As a further optimization of the technical scheme, the sand storage mechanism comprises a sand storage box body, closing plates, closing gears and a transmission gear, wherein the sand storage box body is fixedly connected to a connecting support, the two closing plates are rotatably connected to the lower end of the sand storage box body, the closing gears are fixedly connected to the two closing plates, the two closing gears are in transmission connection through the transmission gear, a motor is fixedly connected to the sand storage box body, a band-type brake is arranged on the motor, and an output shaft of the motor is in transmission connection with one of the closing gears.

As a further optimization of the technical scheme, the shielding mechanism comprises a shielding bracket, shielding side plates, shielding sliding plates and a pushing threaded rod, wherein the shielding side plates are fixedly connected to the shielding bracket, the shielding sliding plates are slidably connected to the shielding side plates, the pushing threaded rod is rotatably connected to the shielding sliding plates, the pushing threaded rod is connected to the shielding bracket through threads, the shielding bracket is slidably connected to the left side and the right side of the sand storage box body, compression springs are fixedly connected between the shielding bracket and the sand storage box body, and the upper sides of the two shielding side plates are in contact with the two closing plates.

As a further optimization of the technical scheme, the lifting mechanism comprises a lifting motor, a lifting sliding block and a lifting support, wherein the lifting sliding block is connected to the sliding support in a sliding manner, the lifting motor is fixedly connected to the sliding support, an output shaft of the lifting motor is connected with the lifting sliding block through threads, and the lifting sliding block is fixedly connected with the lifting support.

As a further optimization of the technical scheme, the invention provides a long jump soil transfer device for a field, wherein the trowelling mechanism I comprises a trowelling motor I, a trowelling wheel I and a trowelling screw I, the trowelling motor I is fixedly connected to a lifting support, the trowelling wheel I is rotatably connected to the lifting support, two trowelling screws I are arranged on the trowelling wheel I, the screw directions of the two trowelling screws I are opposite, and an output shaft of the trowelling motor I is in transmission connection with the trowelling wheel I.

As a further optimization of the technical scheme, the invention relates to a long jump soil transferring device for a field, wherein a trowelling mechanism II (8) comprises a lifting sliding column (801), a lifting sliding cylinder (802), a connecting column (803), a trowelling wheel II (804), a trowelling spiral II (805), an adjusting motor (806) and a trowelling motor II (807), the lifting sliding column (801) is fixedly connected to a lifting bracket (603), the adjusting motor (806) is fixedly connected to the lifting bracket (603), the lifting sliding cylinder (802) is provided with two lifting sliding cylinders, one lifting sliding cylinder (802) is connected onto a lifting sliding column (801) in a sliding manner, the other lifting sliding cylinder (802) is connected onto an output shaft of an adjusting motor (806) through threads, a connecting column (803) is fixedly connected between the two lifting sliding cylinders (802), a trowelling wheel II (804) is connected onto the connecting column (803) in a rotating manner, two trowelling screws II (805) are arranged on the trowelling wheel II (804), the rotation directions of the two trowelling screws II (805) are opposite, the adjusting motor (806) is fixedly connected onto a lifting bracket (603), a trowelling motor II (807) is fixedly connected onto the connecting column (803), the trowelling motor II (807) is located in the trowelling wheel II (804), and an output shaft of the trowelling motor II (807) is in transmission connection with the trowelling wheel II (804).

The invention discloses a soil transfer device for long jump in a field, which has the following beneficial effects:

According to the long jump sand soil transferring device for the field, the position of the sand conveying mechanism can be adjusted through the storage mechanism, the sand conveying mechanism can convey sand into the sand storage mechanism, the sand storage mechanism can uniformly drop out sand, the shielding mechanism can adjust the width of the sand falling out of the sand storage mechanism, the lifting mechanism can drive the trowelling mechanism I and the trowelling mechanism II to perform lifting movement, the trowelling mechanism II is inserted below the sand, the trowelling mechanism I is positioned on the sand, and the trowelling mechanism II and the trowelling mechanism I are matched to perform rapid trowelling on the sand.

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic diagram of the overall structure of an athletic long jump sand soil transfer device of the present invention;

FIG. 2 is a schematic view of the device holder structure of the present invention;

FIG. 3 is a schematic view of a housing mechanism according to the present invention;

FIG. 4 is a schematic diagram of the sand transporting mechanism of the present invention;

FIG. 5 is a schematic diagram of a sand storage mechanism according to the present invention;

FIG. 6 is a schematic diagram of a sand storage mechanism according to the present invention;

FIG. 7 is a schematic view of a shielding mechanism of the present invention;

FIG. 8 is a schematic view of the elevating mechanism of the present invention;

FIG. 9 is a schematic view of the trowelling mechanism I of the present invention;

FIG. 10 is a schematic view of the trowelling mechanism II of the present invention;

FIG. 11 is a schematic cross-sectional view of the trowelling mechanism II of the present invention.

In the figure: a device holder 1; a connection bracket 101; a sliding bracket 102; a crawler mechanism 103; a housing mechanism 2; a telescopic mechanism I201; swing motor I202; a telescopic mechanism II 203; a sand transporting mechanism 3; swing motor II 301; carrying Sha Zhijia to 302; sand wheel 303; a sand belt 304; carrying Sha Tuqi 305,305; a transport motor 306; a sand storage mechanism 4; a sand storage box 401; a closure plate 402; closing gear 403; a transmission gear 404; a shielding mechanism 5; a shielding bracket 501; a shielding side plate 502; a shielding slide plate 503; pushing the threaded rod 504; a lifting mechanism 6; a lifting motor 601; a lifting slide 602; a lifting bracket 603; trowelling mechanism I7; trowelling motor I701; trowelling wheel I702; trowelling helix i 703; a trowelling mechanism II 8; lifting the sliding column 801; a lifting slide cylinder 802; a connection column 803; trowelling wheel ii 804; trowelling spiral ii 805; adjusting the motor 806; trowelling motor ii 807.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and "upright", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, may be directly connected, or indirectly connected through an intermediary, or may be in communication with the inside of two members. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Furthermore, in the description of the present invention, unless otherwise indicated, the meaning of "a plurality", "a plurality of groups", "a plurality of roots" is two or more.

The first embodiment is as follows:

The following describes the embodiment with reference to fig. 1 to 11, the device comprises a device support 1, a storage mechanism 2, a sand transporting mechanism 3, a sand storing mechanism 4, a shielding mechanism 5, a lifting mechanism 6, a trowelling mechanism I7 and a trowelling mechanism II 8, wherein the storage mechanism 2 is fixedly connected to the device support 1, the sand transporting mechanism 3 is fixedly connected to the storage mechanism 2, the sand storing mechanism 4 is fixedly connected to the device support 1, the shielding mechanism 5 is slidingly connected to the sand storing mechanism 4, a compression spring is fixedly connected between the shielding mechanism 5 and the sand storing mechanism 4, the lifting mechanism 6 is connected to the device support 1, and the trowelling mechanism I7 and the trowelling mechanism II 8 are connected to the lifting mechanism 6; can transport sand mechanism 3 and can transport sand mechanism 4 with sand in through the position of receiving mechanism 2 adjustment sand mechanism 3, deposit sand mechanism 4 and can evenly fall out with sand, shelter from mechanism 5 and can adjust the width of depositing sand mechanism 4 and fall out sand, elevating system 6 can drive trowelling mechanism I7 and trowelling mechanism II 8 and go on elevating system, trowelling mechanism II 8 inserts below of sand, trowelling mechanism I7 is located the top of sand, trowelling mechanism II 8 and trowelling mechanism I7 cooperation motion carry out quick trowelling to sand.

The second embodiment is as follows:

In the following description of the present embodiment with reference to fig. 1 to 11, the device stand 1 includes a connection stand 101, a sliding stand 102 and a crawler 103, the sliding stand 102 is fixedly connected to the front side of the connection stand 101, and the crawler 103 is connected to both the left and right sides of the connection stand 101.

And a third specific embodiment:

In the following description of the present embodiment with reference to fig. 1 to 11, the second embodiment is further described, where the storage mechanism 2 includes a telescopic mechanism i 201, a swing motor i 202, and a telescopic mechanism ii 203, a telescopic end of the telescopic mechanism i 201 is fixedly connected with the swing motor i 202, an output shaft of the swing motor i 202 is fixedly connected with the telescopic mechanism ii 203, and the telescopic mechanism i 201 is fixedly connected with the connection bracket 101; the telescopic mechanism I201 is started, the telescopic mechanism I201 and the telescopic mechanism II 203 can be hydraulic cylinders or electric push rods, the telescopic end of the telescopic mechanism I201 drives the swing motor I202 to move, the horizontal height of the swing motor I202 is adjusted, the swing motor I202 is started, the output shaft of the swing motor I202 drives the telescopic mechanism II 203 to move, the deflection angle of the telescopic mechanism II 203 is adjusted, the telescopic end of the telescopic mechanism II 203 drives the swing motor II 301 to move, the relative position of the swing motor II 301 is adjusted, the output shaft of the swing motor II 301 rotates to drive the sand conveying support 302 to move, the relative position of the sand conveying support 302 is adjusted, the sand conveying wheel 303 and the sand conveying belt 304 are driven to move, the relative position of the sand conveying mechanism 3 can be adjusted through the storage mechanism 2, and the sand conveying requirements of different positions can be met by the sand conveying mechanism 3.

The specific embodiment IV is as follows:

In the following description of the present embodiment with reference to fig. 1 to 11, the third embodiment is further described, where the sand transporting mechanism 3 includes a swing motor ii 301, a sand transporting Sha Zhijia, a sand transporting wheel 303, a sand transporting belt 304, a sand transporting protrusion 305 and a transporting motor 306, the swing motor ii 301 is fixedly connected to a telescopic end of the telescopic mechanism ii 203, an output shaft of the swing motor ii 301 is fixedly connected with a sand transporting Sha Zhijia 302, two sand transporting wheels 303 are rotatably connected to the sand transporting bracket 302, the two sand transporting wheels 303 are in transmission connection with each other through the sand transporting belt 304, a plurality of sand transporting Sha Tuqi are fixedly connected to the sand transporting belt 304, the transporting motor 306 is fixedly connected to the sand transporting bracket 302, and an output shaft of the transporting motor 306 is in transmission connection with one of the sand transporting wheels 303; the transportation motor 306 is started, the output shaft of the transportation motor 306 drives the sand transporting wheel 303 to rotate, the sand transporting wheel 303 drives the sand transporting belt 304 to move, and the sand transporting belt 304 transports sand into the sand storage box 401.

Fifth embodiment:

In the following description of the present embodiment with reference to fig. 1 to 11, the fourth embodiment is further described, where the sand storage mechanism 4 includes a sand storage box 401, a closing plate 402, a closing gear 403 and a transmission gear 404, where the sand storage box 401 is fixedly connected to the connection bracket 101, two closing plates 402 are rotatably connected to the lower end of the sand storage box 401, closing gears 403 are fixedly connected to the two closing plates 402, the two closing gears 403 are in transmission connection with each other through the transmission gear 404, a motor is fixedly connected to the sand storage box 401, a band-type brake is provided on the motor, and an output shaft of the motor is in transmission connection with one of the closing gears 403; the lower extreme that two closure plates 402 were to depositing sand box 401 is closed for sand can be stored in depositing sand box 401, start crawler 103 again, crawler 103 drives the device and moves the position that needs to spread sand, make sand box 401 be located the top of sand pit, fixedly connected with motor on depositing sand box 401, be provided with the band-type brake on the motor, the output shaft of motor and one of them closure gear 403 transmission are connected, start the motor, the output shaft of motor drives closure gear 403 and rotates, closure gear 403 drives another closure gear 403 through drive gear 404 and rotates, the rotation direction of two closure gears 403 is opposite, two closure gears 403 drive two closure plates 402 respectively and swing, make the lower extreme that two closure plates 402 no longer close sand box 401, when falling sand between two closure plates 402 is carried out to the volume of falling sand according to the user demand adjustment, start crawler 103, crawler 103 drives the device and moves forward simultaneously, and then make sand box 401 can fall in the sand pit evenly.

Specific embodiment six:

In the following description of the fifth embodiment with reference to fig. 1 to 11, the shielding mechanism 5 includes a shielding bracket 501, a shielding side plate 502, a shielding slide plate 503 and a pushing threaded rod 504, the shielding side plate 502 is fixedly connected to the shielding bracket 501, the shielding slide plate 503 is slidably connected to the shielding side plate 502, the pushing threaded rod 504 is rotatably connected to the shielding slide plate 503, the pushing threaded rod 504 is connected to the shielding bracket 501 through threads, the left and right sides of the sand storage box 401 are slidably connected to the shielding bracket 501, a compression spring is fixedly connected between the shielding bracket 501 and the sand storage box 401, and the upper sides of the two shielding side plates 502 are contacted with the two closing plates 402; when needing to adjust the width that sand falls, rotate in advance and promote threaded rod 504, promote threaded rod 504 and drive through the screw thread and shelter from slide 503 and slide in sheltering from curb plate 502 when rotating, and then adjust the length that shelters from slide 503 to stretch out, the upside and the two closure boards 402 contact of two shelters from curb plate 502, two shelter from curb plate 502 under compression spring's promotion and two closure boards 402 contact, and then when two closure boards 402 are adjusted, two shelter from curb plate 502 and two closure boards 402 contact, two shelter from the slide 503 to the lower extreme of two closure boards 402, and then control the width of falling sand between two closure boards 402.

Seventh embodiment:

In the following description of the present embodiment with reference to fig. 1 to 11, the sixth embodiment is further described, where the lifting mechanism 6 includes a lifting motor 601, a lifting slider 602, and a lifting bracket 603, the lifting slider 602 is slidably connected to the sliding bracket 102, the lifting motor 601 is fixedly connected to the sliding bracket 102, an output shaft of the lifting motor 601 is connected to the lifting slider 602 through threads, and the lifting bracket 603 is fixedly connected to the lifting slider 602.

Eighth embodiment:

The seventh embodiment will be further described with reference to fig. 1 to 11, where the trowelling mechanism i 7 includes a trowelling motor i 701, a trowelling wheel i 702, and a trowelling screw i 703, where the trowelling motor i 701 is fixedly connected to the lifting support 603, the trowelling wheel i 702 is rotatably connected to the lifting support 603, two trowelling screws i 703 are provided on the trowelling wheel i 702, and the spiral directions of the two trowelling screws i 703 are opposite, and an output shaft of the trowelling motor i 701 is in transmission connection with the trowelling wheel i 702.

Detailed description nine:

In the following description of the present embodiment with reference to fig. 1 to 11, the eighth embodiment is further described, where the trowelling mechanism ii 8 includes a lifting sliding column 801, a lifting sliding column 802, a connecting column 803, a trowelling wheel ii 804, a trowelling screw ii 805, an adjusting motor 806 and a trowelling motor ii 807, the lifting sliding column 801 is fixedly connected to the lifting support 603, the adjusting motor 806 is fixedly connected to the lifting support 603, two lifting sliding columns 802 are provided, one of the lifting sliding columns 802 is slidingly connected to the lifting sliding column 801, the other lifting sliding column 802 is screwed to an output shaft of the adjusting motor 806, a connecting column 803 is fixedly connected between the two lifting sliding columns 802, a trowelling wheel ii 804 is rotatably connected to the connecting column 803, two trowelling screws ii 805 are provided on the trowelling wheel ii 804, the two trowelling screws ii 805 are opposite in direction, the adjusting motor 806 is fixedly connected to the lifting support 603, the trowelling motor ii 807 is fixedly connected to the connecting column 803, the trowelling motor ii is located in the trowelling wheel ii, and the output shaft of the trowelling motor ii is in transmission connection with the trowelling wheel ii 807.

The invention relates to a soil transfer device for long jump in a field, which has the following working principle:

When in use, the crawler mechanism 103 is started, the crawler mechanism 103 can drive the device to move when being started, the device is moved to a place needing to be shipped, the telescopic mechanism I201 is started, the telescopic mechanism I201 and the telescopic mechanism II 203 can be hydraulic cylinders or electric push rods, the telescopic end of the telescopic mechanism I201 drives the swinging motor I202 to move, the horizontal height of the swinging motor I202 is adjusted, the swinging motor I202 is started, the output shaft of the swinging motor I202 drives the telescopic mechanism II 203 to move, the deflection angle of the telescopic mechanism II 203 is adjusted, the telescopic end of the telescopic mechanism II 203 drives the swinging motor II 301 to move, further, the relative position of a swing motor II 301 is adjusted, an output shaft of the swing motor II 301 rotates to drive a sand conveying bracket 302 to move, the relative position of the sand conveying bracket 302 is adjusted, a sand conveying wheel 303 and a sand conveying belt 304 are driven to move by a sand conveying belt Sha Zhijia, the relative position of a sand conveying mechanism 3 can be adjusted through a storage mechanism 2, the sand conveying mechanism 3 can meet sand conveying requirements of different positions, a conveying motor 306 is started, an output shaft of the conveying motor 306 drives the sand conveying wheel 303 to rotate, the sand conveying wheel 303 drives the sand conveying belt 304 to move, and the sand conveying belt 304 conveys sand into a sand storage box 401; the two closing plates 402 are used for closing the lower end of the sand storage box body 401, so that sand can be stored in the sand storage box body 401, the crawler mechanism 103 is started again, the crawler mechanism 103 drives the device to move to a position where sand needs to be paved, the sand storage box body 401 is positioned above a sand pit, a motor is fixedly connected to the sand storage box body 401, a band-type brake is arranged on the motor, an output shaft of the motor is in transmission connection with one of the closing gears 403, the motor is started, the output shaft of the motor drives the closing gear 403 to rotate, the closing gear 403 drives the other closing gear 403 to rotate through the transmission gear 404, the rotation directions of the two closing gears 403 are opposite, the two closing gears 403 respectively drive the two closing plates 402 to swing, so that the two closing plates 402 do not close the lower end of the sand storage box 401 any more, the opening and closing angle between the two closing plates 402 is adjusted according to the use requirement, the sand falling amount between the two closing plates 402 is further adjusted, when the sand falling is carried out between the two closing plates 402, the crawler mechanism 103 is started, and the crawler mechanism 103 drives the device to move forwards at the same time, so that sand in the sand storage box 401 can uniformly fall into a sand pit; when the falling width of sand needs to be adjusted, the pushing threaded rod 504 is rotated in advance, the pushing threaded rod 504 drives the shielding slide plate 503 to slide in the shielding side plates 502 through threads when rotating, the extending length of the shielding slide plate 503 is adjusted, the upper sides of the two shielding side plates 502 are contacted with the two closing plates 402, the two shielding side plates 502 are contacted with the two closing plates 402 under the pushing of the compression springs, when the two closing plates 402 are adjusted, the two shielding side plates 502 are also contacted with the two closing plates 402, the two shielding slide plates 503 shield the lower ends of the two closing plates 402, thereby controlling the width of falling sand between the two closing plates 402; when the sand in the sand pit needs to be smoothed, or when the sand in the sand pit needs to be smoothed quickly during a match, the sand can not be smoothed completely due to the pit generated during long jump because of the simple smoothing of the sand from the upper side, so the crawler mechanism 103 is started, the crawler mechanism 103 drives the device to move to the sand pit needing to be smoothed, the smoothing motor II 807 is started, the smoothing wheel II 804 is driven to rotate by the output shaft of the smoothing motor II 807, the lifting motor 601 is started, the lifting slider 602 is driven to move downwards by the output shaft of the lifting motor 601 through threads, the lifting slider 602 drives the lifting bracket 603 to move downwards, lifting bracket 603 drives trowelling mechanism I7 and trowelling mechanism II 8 to move downwards simultaneously, trowelling wheel II 804 drives two trowelling screws II 805 to move when rotating, two trowelling screws II 805 generate transverse component force to push sandy soil to move outwards when rotating, so that trowelling wheel II 804 can be embedded into sandy soil, trowelling motor I701 is started simultaneously, the output shaft of trowelling motor I701 drives trowelling wheel I702 to rotate, trowelling wheel I702 drives two trowelling screws I703 to rotate, trowelling screw I703 generates transverse component force to push sandy soil to move inwards when rotating, the two trowelling spirals I703 and II 805 generate force circulation, and simultaneously, an adjusting motor 806 is started, an output shaft of the adjusting motor 806 drives a lifting sliding cylinder 802 to move through threads, the lifting sliding cylinder 802 drives a connecting column 803 to move, the connecting column 803 drives a trowelling wheel II 804 to move, and then the relative distance between the trowelling wheel II 804 and the trowelling wheel I702 is adjusted, so that the trowelling wheel II 804 is positioned on the lower side of sand, the trowelling wheel I702 is positioned on the upper side of sand, the trowelling wheel I702 rotates to generate an outward component force, the trowelling wheel II 804 rotates to generate an inward component force, the trowelling wheel I702 and the trowelling wheel II 804 form the circulation of power for the sandy soil circulates between trowelling wheel II 804 and trowelling wheel I702, trowelling wheel II 804 and trowelling wheel I702 pivoted tangential direction and the opposite direction of relative sandy soil motion, make sandy soil flow through from trowelling wheel II 804 and trowelling wheel I702 between, start crawler 103 simultaneously, crawler 103 drive trowelling wheel II 804 and trowelling wheel I702 through the sandy soil hole, trowelling mechanism II 8 and trowelling mechanism I7 cooperation motion carry out quick trowelling to sandy soil.

Of course, the above description is not intended to limit the invention, but rather the invention is not limited to the above examples, and variations, modifications, additions or substitutions within the spirit and scope of the invention will be within the scope of the invention.

Claims (1)

1. The utility model provides a long jump sand soil transfer device in field, includes device support (1), receiving mechanism (2), fortune sand mechanism (3), deposits sand mechanism (4), shelter from mechanism (5), elevating system (6), trowelling mechanism I (7) and trowelling mechanism II (8), its characterized in that: the device comprises a device support (1), a storage mechanism (2) is fixedly connected to the device support (1), a sand conveying mechanism (3) is fixedly connected to the storage mechanism (2), a sand storage mechanism (4) is fixedly connected to the device support (1), a shielding mechanism (5) is slidably connected to the sand storage mechanism (4), a compression spring is fixedly connected between the shielding mechanism (5) and the sand storage mechanism (4), a lifting mechanism (6) is connected to the device support (1), and a trowelling mechanism I (7) and a trowelling mechanism II (8) are connected to the lifting mechanism (6);

The device bracket (1) comprises a connecting bracket (101), a sliding bracket (102) and a crawler mechanism (103), wherein the sliding bracket (102) is fixedly connected to the front side of the connecting bracket (101), and the crawler mechanism (103) is connected to the left side and the right side of the connecting bracket (101);

the storage mechanism (2) comprises a telescopic mechanism I (201), a swing motor I (202) and a telescopic mechanism II (203), wherein the telescopic end of the telescopic mechanism I (201) is fixedly connected with the swing motor I (202), the output shaft of the swing motor I (202) is fixedly connected with the telescopic mechanism II (203), and the telescopic mechanism I (201) is fixedly connected to the connecting bracket (101);

The sand conveying mechanism (3) comprises a swing motor II (301), a sand conveying Sha Zhijia (302), sand conveying wheels (303), sand conveying belts (304), sand conveying bulges (305) and a conveying motor (306), wherein the swing motor II (301) is fixedly connected to the telescopic end of the telescopic mechanism II (203), the output shaft of the swing motor II (301) is fixedly connected with the sand conveying Sha Zhijia (302), the sand conveying Sha Zhijia (302) is rotationally connected with two sand conveying wheels (303), the two sand conveying wheels (303) are in transmission connection through the sand conveying belts (304), the sand conveying belts (304) are fixedly connected with a plurality of sand conveying bulges (305), the conveying motor (306) is fixedly connected to the sand conveying Sha Zhijia (302), and the output shaft of the conveying motor (306) is in transmission connection with one sand conveying wheel (303);

the sand storage mechanism (4) comprises a sand storage box body (401), a closing plate (402), closing gears (403) and a transmission gear (404), wherein the sand storage box body (401) is fixedly connected to the connecting support (101), the lower end of the sand storage box body (401) is rotatably connected with two closing plates (402), the two closing plates (402) are fixedly connected with the closing gears (403), the two closing gears (403) are in transmission connection through the transmission gear (404), a motor is fixedly connected to the sand storage box body (401), a band-type brake is arranged on the motor, and an output shaft of the motor is in transmission connection with one of the closing gears (403);

The shielding mechanism (5) comprises a shielding bracket (501), shielding side plates (502), shielding sliding plates (503) and a pushing threaded rod (504), wherein the shielding side plates (502) are fixedly connected to the shielding bracket (501), the shielding sliding plates (503) are connected to the shielding side plates (502) in a sliding mode, the pushing threaded rod (504) is connected to the shielding sliding plates (503) in a rotating mode, the pushing threaded rod (504) is connected to the shielding bracket (501) through threads, the shielding bracket (501) is connected to the left side and the right side of the sand storage box body (401) in a sliding mode, compression springs are fixedly connected between the shielding bracket (501) and the sand storage box body (401), and the upper sides of the two shielding side plates (502) are in contact with the two closing plates (402);

The lifting mechanism (6) comprises a lifting motor (601), a lifting slide block (602) and a lifting bracket (603), wherein the lifting slide block (602) is connected to the sliding bracket (102) in a sliding manner, the lifting motor (601) is fixedly connected to the sliding bracket (102), an output shaft of the lifting motor (601) is connected with the lifting slide block (602) through threads, and the lifting bracket (603) is fixedly connected to the lifting slide block (602);

The trowelling mechanism I (7) comprises a trowelling motor I (701), trowelling wheels I (702) and trowelling screws I (703), wherein the trowelling motor I (701) is fixedly connected to the lifting support (603), the trowelling wheels I (702) are rotationally connected to the lifting support (603), two trowelling screws I (703) are arranged on the trowelling wheels I (702), the screw directions of the two trowelling screws I (703) are opposite, and an output shaft of the trowelling motor I (701) is in transmission connection with the trowelling wheels I (702);

the trowelling mechanism II (8) comprises a lifting sliding column (801), lifting sliding cylinders (802), connecting columns (803), trowelling wheels II (804), trowelling screws II (805), an adjusting motor (806) and trowelling motors II (807), wherein the lifting sliding columns (801) are fixedly connected to the lifting support (603), the lifting sliding cylinders (802) are provided with two lifting sliding cylinders, one lifting sliding cylinder (802) is slidably connected to the lifting sliding columns (801), the other lifting sliding cylinder (802) is connected to an output shaft of the adjusting motor (806) through threads, connecting columns (803) are fixedly connected between the two lifting sliding cylinders (802), trowelling wheels II (804) are rotationally connected to the connecting columns (803), the trowelling wheels II (805) are arranged on the trowelling wheels II (804), the directions of the two trowelling screws II (805) are opposite, the adjusting motor (806) is fixedly connected to the lifting support (603), trowelling motors II (807) are fixedly connected to the connecting columns (803), the trowelling motors II (807) are located in the trowelling wheels II (804), and the trowelling wheels II (807) are connected to the trowelling wheels II.