阅读说明：本技术 一种5g光纤线路铺设填埋压实设备 (5G optical fiber line laying, burying and compacting equipment ) 是由 余作鹏 于 2019-10-27 设计创作，主要内容包括：本发明公开了一种5G光纤线路铺设填埋压实设备,其结构包括平板,所述平板上端面固设有用安装装置,所述安装装置下侧设置有位于所述平板下方且用于将土壤压实的碾压装置,所述安装装置两侧设置有对称且将土壤倾倒而出的泥土倾倒装置,此设备采用了安装装置、碾压装置和泥土倾倒装置的设计,实现了5G线路铺设过程中,将5G线路铺设的沟槽进行高效的泥土填埋与压实的功能,设备内部结构灵巧且便于拆卸安装,极大的提高了设备的实用性及可靠性。(The invention discloses a 5G optical fiber line laying, burying and compacting device which structurally comprises a flat plate, wherein an installation device is fixedly arranged on the upper end surface of the flat plate, a rolling device which is positioned below the flat plate and is used for compacting soil is arranged on the lower side of the installation device, soil dumping devices which are symmetrical and used for dumping soil are arranged on two sides of the installation device, the device adopts the design of the installation device, the rolling device and the soil dumping device, the efficient soil burying and compacting functions of grooves laid by 5G lines are realized in the 5G line laying process, the internal structure of the device is flexible and convenient to disassemble and install, and the practicability and reliability of the device are greatly improved.)

1. The utility model provides a landfill compaction equipment is laid to 5G fiber circuit, its characterized in that, includes dull and stereotyped (110), dull and stereotyped (110) up end sets firmly useful installation device (950), installation device (950) downside is provided with and is located dull and stereotyped (110) below just is used for rolling device (951) with the soil compaction, installation device (950) both sides are provided with the symmetry and empty soil and the earth that goes out topples over device (952).

2. The apparatus of claim 1, wherein the apparatus comprises: installation device (950) including set firmly in top curb plate (109) of dull and stereotyped (110) up end, the terminal surface sets firmly bilateral symmetry's transmission motor (108) under top curb plate (109), transmission motor (108) top power connection is provided with driving gear (107), keeps away from driving gear (107) top curb plate (109) terminal surface sets firmly solid fixed ring (104).

3. The apparatus of claim 1, wherein the apparatus comprises: the rolling device (951) comprises a bottom plate (102) which is fixed on the flat plate (110) and symmetrical front and back, an installation frame (103) is fixedly arranged on the lower end face of the bottom plate (102), an open inner cavity (112) is formed in the installation frame (103), and a roller assembly used for compacting soil is arranged in the inner cavity (112).

4. The apparatus of claim 3, wherein the apparatus comprises: the roller assembly comprises a clamping groove (204) which is arranged in the mounting frame (103) and is provided with an opening, a rotating bearing (205) is arranged in the clamping groove (204), a fixing structure for limiting and fixing the rotating bearing (205) in the clamping groove (204) is arranged on the lower end face of the mounting frame (103), a round shaft (201) is arranged in the rotating bearing (205) in a rotating mode, and a roller (101) is fixedly arranged between the round shafts (201).

5. The apparatus of claim 4, wherein the apparatus comprises: fixed knot constructs including set firmly in connecting plate (203) of terminal surface and symmetry around mounting bracket (103), the terminal surface sets firmly side solid board (202) under connecting plate (203), side solid board (202) will rolling bearing (205) dress card is fixed in dress draw-in groove (204), the fixed mode of side solid board (202) and connecting plate (203) can adopt bolt fastening cooperation to connect.

6. The apparatus of claim 1, wherein the apparatus comprises: device (952) is emptyd to earth include with solid fixed ring (104) normal running fit connects drum (106), be provided with the dress that runs through from top to bottom in drum (106) and receive chamber (305), be provided with in dress chamber (305) and be used for the promotion subassembly that upwards promotes soil, promote the subassembly upside and be provided with and be located drum (106) one side and with the flat push assembly that soil flat push away and go out, the flat push assembly offside is provided with the derivation subassembly that is used for deriving soil, drum (106) surface has set firmly meshing ring gear (105), meshing ring gear (105) with driving gear (107) meshing.

7. The apparatus of claim 6, wherein the apparatus comprises: the pushing assembly comprises a rear side shell (802) fixed to the rear end face of the cylinder (106), an open through cavity (801) is formed in the rear side shell (802), a pushing cylinder (803) is fixedly arranged on the end face of the rear side shell (802) far away from the cylinder (106), a circular shaft body (501) is arranged in the pushing cylinder (803) in a power connection mode, a through cavity (601) is arranged in the end wall of the accommodating cavity (305) in a communicating mode, the circular shaft body (501) penetrates through the through cavity (601) and extends into the accommodating cavity (305), and a push plate structure which is located in the accommodating cavity (305) and forms a flat plate structure to push soil is arranged on one side of the circular shaft body (501).

8. The apparatus of claim 7, wherein the apparatus comprises: the pushing structure comprises symmetrically arranged side fixing boxes (404), an open-ended inner rotating cavity (402) is arranged in each side fixing box (404), a meshing rotating wheel (403) is arranged between the inner rotating cavities (402) in a rotating mode, one side of the meshing rotating wheel (403) is provided with a side groove (407) which is located in each side fixing box (404) and is open, a connecting circular shaft (406) is fixedly arranged between the upper end wall and the lower end wall of each side groove (407), a rotating handle (408) is arranged in each connecting circular shaft (406) in a rotating mode, the rotating handle (408) is connected with the circular shaft body (501) in a rotating fit mode, an open-ended open groove (409) is formed in the lower side of each side fixing box (404), a pushing plate (401) is fixedly arranged in the open groove (409), the pushing plates (401) are mutually abutted and connected in a sliding fit mode, the left side pushing plate (401) is fixedly arranged on the front end, the pushing plate (401) on the right side is fixedly arranged on the rear end face of the open slot (409).

9. The apparatus of claim 6, wherein the apparatus comprises: the horizontal pushing assembly comprises a lifting plate (303) connected with the accommodating cavity (305) in a sliding fit mode, a bottom rotating seat (703) is fixedly arranged on the lower end face of the lifting plate (303), a connecting rod (701) is rotatably arranged in the bottom rotating seat (703), a transmission motor (901) is fixedly arranged on the rear end face of the cylinder (106), a rotating threaded shaft (903) is arranged in the transmission motor (901) in a power connection mode, the rotating threaded shaft (903) extends into the accommodating cavity (306) to be connected with the end wall of the accommodating cavity (305) in a rotating fit mode, an inner threaded block (902) is arranged on the outer surface of the rotating threaded shaft (903) in a threaded fit connection mode, and the inner threaded block (902) is connected with the connecting rod (701) in a rotating fit mode.

10. The apparatus of claim 6, wherein the apparatus comprises: the guiding-out assembly comprises a connecting cavity (304) communicated with the containing cavity (305), a material pouring shell (301) fixed with the cylinder (106) is arranged on one side of the connecting cavity (304), and an open sliding groove (302) is formed in the material pouring shell (301).

Technical Field

The invention belongs to the technical field of 5G line laying equipment, and particularly relates to 5G optical fiber line laying, burying and compacting equipment.

Background

Disclosure of Invention

The invention aims to solve the problems and provides equipment which has the advantages of compacting soil in the 5G line laying process, adding soil to further compact the soil and the like.

The invention is realized by the following technical scheme: the 5G optical fiber line laying, burying and compacting equipment comprises a flat plate, wherein an installation device is fixedly arranged on the upper end face of the flat plate, a rolling device which is positioned below the flat plate and is used for compacting soil is arranged on the lower side of the installation device, and soil dumping devices which are symmetrical and used for dumping soil are arranged on two sides of the installation device, so that the processes of compacting soil and supplementing fillers are realized by utilizing the device.

Further technical scheme, the installation device including set firmly in the top curb plate of dull and stereotyped up end, the terminal surface sets firmly bilateral symmetry's transmission motor under the top curb plate, transmission motor top power connection is provided with the driving gear, keeps away from the driving gear the top curb plate terminal surface has set firmly solid fixed ring, thereby utilizes the installation device installation the device is emptyd to earth.

According to the technical scheme, the rolling device comprises a bottom plate which is fixed with the flat plate and symmetrical front and back, a mounting frame is fixedly arranged on the lower end face of the bottom plate, an open inner cavity is formed in the mounting frame, and a roller assembly used for compacting soil is arranged in the inner cavity, so that the soil is compacted by the roller assembly.

According to the technical scheme, the roller assembly comprises a clamping groove which is arranged in the mounting frame and is provided with an opening, a rotating bearing is arranged in the clamping groove in a clamping mode, a fixing structure which limits and fixes the rotating bearing in the clamping groove is arranged on the lower end face of the mounting frame, a round shaft is arranged in the rotating bearing in a rotating mode, a rolling cylinder is fixedly arranged between the round shafts, and therefore soil is compacted by the rolling cylinder.

Further technical scheme, fixed knot constructs including set firmly in the connecting plate of terminal surface and symmetry around the mounting bracket, the terminal surface has set firmly the solid board of side under the connecting plate, the solid board of side will rolling bearing dress card is fixed in the dress draw-in groove, the solid board of side and the fixed mode of connecting plate can adopt bolt fixed cooperation to connect to utilize the solid board of side will the fixed dress card of rolling bearing.

Further technical scheme, earth empty the device include with the drum that solid fixed ring normal running fit connects, be provided with the dress that runs through from top to bottom in the drum and receive the chamber, the dress is received the intracavity and is provided with the promotion subassembly that is used for upwards promoting soil, and promotion subassembly upside is provided with and is located drum one side and with the flat push subassembly that soil flat push goes out, the flat push subassembly offside is provided with and is used for the derivation subassembly of deriving soil, the drum surface has set firmly the meshing ring gear, the meshing ring gear with driving gear engagement to utilize above-mentioned subassembly to realize that soil flat push derives.

According to a further technical scheme, the pushing assembly comprises a rear side shell fixed to the rear end face of the cylinder, an open through cavity is formed in the rear side shell, a pushing cylinder is fixedly arranged on the end face of the rear side shell far away from the cylinder, a circular shaft body is arranged in the pushing cylinder in a power connection mode, a through cavity is formed in the end wall of the accommodating cavity in a communication mode, the circular shaft body penetrates through the through cavity and extends into the accommodating cavity, and a push plate structure which is located in the accommodating cavity and forms a flat plate structure to push soil is arranged on one side of the circular shaft body, so that the soil is pushed under the comprehensive action of the pushing structure.

In a further technical scheme, the pushing structure comprises symmetrically arranged side fixed boxes, an open inner rotating cavity is arranged in each side fixed box, a meshing rotating wheel is rotatably arranged between the inner rotating cavities, a side groove which is positioned in the side fixing box and is provided with an opening is arranged at one side of the meshing rotating wheel, a connecting circular shaft is fixedly arranged between the upper end wall and the lower end wall of the side groove, a rotating handle is rotatably arranged in the connecting circular shaft, the rotating handle is connected with the round shaft body in a rotating fit manner, an open slot with an opening is arranged at the lower side of the side fixing box, the pushing plates are fixedly arranged in the open slot, the pushing plates are mutually abutted and are in sliding fit connection, the pushing plate on the left side is fixedly arranged on the front end face of the open slot, the pushing plate on the right side is fixedly arranged on the rear end face of the open slot, thereby utilizing the rotating handle to indirectly drive the side fixing box to move and then leading the pushing plates to slide mutually.

According to a further technical scheme, the horizontal pushing assembly comprises a lifting plate connected with the accommodating cavity in a sliding fit mode, a bottom rotating seat is fixedly arranged on the lower end face of the lifting plate, a connecting rod is arranged in the bottom rotating seat in a rotating mode, a transmission motor is fixedly arranged on the rear end face of the cylinder, a rotating threaded shaft is arranged in the transmission motor in a power connection mode, the rotating threaded shaft extends into the interior of the cylinder and is connected with the end wall of the accommodating cavity in a rotating fit mode, an inner threaded block is arranged on the outer surface of the rotating threaded shaft in a threaded fit connection mode, the inner threaded block is connected with the connecting rod in a rotating fit mode, and therefore the transmission motor is used for indirectly driving a related structure to enable the lifting plate.

According to a further technical scheme, the guiding component comprises a connecting cavity communicated with the containing cavity, a material pouring shell fixed with the cylinder is arranged on one side of the connecting cavity, an open sliding groove is formed in the material pouring shell, and therefore soil is guided out through the sliding groove.

The invention has the beneficial effects that: this equipment has adopted the design that installation device, rolling machine and earth emptyd the device, has realized the 5G circuit and has laid the in-process, carries out efficient earth landfill and compacted function with the slot that the 5G circuit was laid, and equipment inner structure is dexterous and convenient to detach installs, very big improvement the practicality and the reliability of equipment.

The advantages are expressed in that the design of the mounting frame, the clamping groove, the rolling bearing, the connecting plate, the side fixing plate, the round shaft and the rolling cylinder is utilized to facilitate the disassembly of the round shaft and the rolling bearing and the disassembly and the replacement of the rolling cylinder into parts with different sizes, the design of the top side plate has the advantages that the soil dumping device is respectively arranged at two sides, the soil dumping angle can be adjusted according to the actual working requirement when the soil dumping device pushes the soil out through the cylinder and the meshing gear ring under the action of the transmission motor and the driving gear, a sliding flat plate type structure is formed between the pushing plates by utilizing the structures of the ring groove, the meshing rotating wheel, the side fixing box, the rotating handle and the pushing plate under the indirect action of the round shaft body and the pushing cylinder, and the pushing plate can better guide the upper soil in the containing cavity out of the lower side of the equipment through the sliding groove, the work efficiency of the equipment is greatly improved, the design advantages of the through cavity, the rear shell and the through cavity are that the circular shaft body can slide in the through cavity, the rotation handle and the cylinder are prevented from interference due to the fact that the circular shaft body drives the rotation handle to swing, the through cavity is extremely good, the material pouring shell is provided with a certain inclination angle, soil can move downwards conveniently, the lifting plate, the bottom rotating seat, the connecting rod, the inner thread block, the rotating threaded shaft and the transmission motor can be indirectly used for pushing the soil on the upper side of the lifting plate upwards, the soil pushing amount can be controlled, and the process adjustable range of the equipment is increased.

Drawings

FIG. 1 is a schematic diagram of the apparatus of the present invention;

FIG. 2 is a schematic bottom view of the apparatus of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the mount of FIG. 2 taken in the direction A in accordance with the present invention;

FIG. 4 is an enlarged schematic view of the soil dumping apparatus of FIG. 1 in accordance with the present invention;

FIG. 5 is a schematic view of the receiving chamber of FIG. 4 taken in the direction B in the present invention;

FIG. 6 is a view in the direction C of the circular shaft body of FIG. 4 according to the present invention;

FIG. 7 is a schematic view of the circular shaft of FIG. 4 in the direction D according to the present invention;

FIG. 8 is a schematic bottom view of the soil dumping apparatus of FIG. 4 according to the present invention;

FIG. 9 is a schematic view of the invention in the direction E of the cylinder of FIG. 8;

FIG. 10 is a schematic view of the invention in the direction F of the cylinder of FIG. 8;

in the figure, a rolling cylinder 101, a bottom plate 102, a mounting frame 103, a fixed ring 104, an engaging gear ring 105, a cylinder 106, a driving gear 107, a transmission motor 108, a top side plate 109, a flat plate 110, an inner cavity 112, a circular shaft 201, a side fixing plate 202, a connecting plate 203, a clamping groove 204, a rotating bearing 205, a material pouring housing 301, a chute 302, a lifting plate 303, a connecting cavity 304, a containing cavity 305, a pushing plate 401, an inner rotating cavity 402, an engaging rotating wheel 403, a side fixing box 404, a ring groove 405, a connecting circular shaft 406, a side groove 407, a rotating handle 408, an open groove 409, a circular shaft body 501, a through cavity 601, a connecting rod 701, a bottom rotating seat 703, a through cavity 801, a rear side housing 802, a pushing cylinder 803, a transmission motor 901, an internal thread block 902, a rotating thread shaft 903, a mounting device 950, a rolling device 951 and.

Detailed Description

As shown in fig. 1 to 10, the present invention will be explained in detail, and for convenience of description, the following orientations will be defined as follows: the following up-down, left-right and front-back directions are consistent with the up-down, left-right and front-back directions of the projection relation of the figure 1, the 5G optical fiber line laying, burying and compacting equipment comprises a flat plate 110, wherein an installation device 950 is fixedly arranged on the upper end surface of the flat plate 110, a rolling device 951 which is positioned below the flat plate 110 and is used for compacting soil is arranged on the lower side of the installation device 950, soil dumping devices 952 which are symmetrical and used for dumping soil are arranged on two sides of the installation device 950, and therefore the processes of compacting soil and supplementing fillers are achieved through the devices.

Advantageously, the mounting device 950 includes a top side plate 109 fixed on the upper end surface of the plate 110, the lower end surface of the top side plate 109 is fixed with a bilateral symmetry transmission motor 108, a driving gear 107 is disposed above the transmission motor 108 in a power connection manner, a fixing ring 104 is fixed on the end surface of the top side plate 109 far away from the driving gear 107, and the top side plate 109 is of a Y-shaped structure, so that the soil dumping device 952 is mounted by using the mounting device 950.

Advantageously, the rolling device 951 comprises a base plate 102 fixed to the flat plate 110 and symmetrical in front and back, a mounting frame 103 is fixed to the lower end surface of the base plate 102, an open inner cavity 112 is formed in the mounting frame 103, and a roller assembly for compacting soil is formed in the inner cavity 112, so that the soil is compacted by the roller assembly.

Advantageously, the roller assembly comprises a clamping groove 204 which is arranged in the mounting frame 103 and is open, a rotating bearing 205 is arranged in the clamping groove 204, a fixing structure for limiting and fixing the rotating bearing 205 in the clamping groove 204 is arranged on the lower end face of the mounting frame 103, a circular shaft 201 is arranged in the rotating bearing 205 in a rotating mode, a rolling cylinder 101 is fixedly arranged between the circular shafts 201, the diameter of the rolling cylinder 101 is at least 50cm, and the diameter of the circular shaft 201 is at least 5cm, so that soil is compacted through the rolling cylinder 101.

Advantageously, the fixing structure includes connecting plates 203 which are symmetrically and fixedly arranged on the front and rear end surfaces of the mounting frame 103, side fixing plates 202 are fixedly arranged on the lower end surfaces of the connecting plates 203, the rotating bearing 205 is fixedly clamped and fixed in the clamping groove 204 by the side fixing plates 202, and the side fixing plates 202 and the connecting plates 203 are fixedly connected in a bolt fixing fit manner, so that the rotating bearing 205 is fixedly clamped and fixed by the side fixing plates 202.

Beneficially, the soil dumping device 952 includes a cylinder 106 connected with the fixing ring 104 in a rotation fit manner, a containing cavity 305 penetrating from top to bottom is formed in the cylinder 106, a pushing assembly used for pushing soil upwards is arranged in the containing cavity 305, a horizontal pushing assembly located on one side of the cylinder 106 and used for horizontally pushing the soil out is arranged on the upper side of the pushing assembly, a guiding assembly used for guiding the soil out is arranged on the opposite side of the horizontal pushing assembly, an engaging toothed ring 105 is fixedly arranged on the outer surface of the cylinder 106, and the engaging toothed ring 105 is engaged with the driving gear 107, so that soil horizontal pushing out is achieved by using the above assemblies.

Beneficially, the pushing assembly comprises a rear side shell 802 fixed to the rear end face of the cylinder 106, an open through cavity 801 is formed in the rear side shell 802, a pushing cylinder 803 is fixedly arranged on the end face of the rear side shell 802 far away from the cylinder 106, a circular shaft body 501 is arranged in the pushing cylinder 803 in a power connection mode, a through cavity 601 is arranged in the end wall of the accommodating cavity 305 in a communication mode, the circular shaft body 501 penetrates through the through cavity 601 and extends into the accommodating cavity 305, a push plate structure which is located in the accommodating cavity 305 and forms a flat plate structure to push soil is arranged on one side of the circular shaft body 501, the length of the circular shaft body 501 is at least 50cm, and therefore soil is pushed under the comprehensive effect of the structure through the pushing structure.

Advantageously, the pushing structure includes symmetrically disposed side fixing boxes 404, an open inner rotating cavity 402 is disposed in the side fixing boxes 404, a meshing rotating wheel 403 is rotatably disposed between the inner rotating cavities 402, an open side groove 407 is disposed on one side of the meshing rotating wheel 403 and located in the side fixing boxes 404, a connecting circular shaft 406 is fixedly disposed between the upper end wall and the lower end wall of the side groove 407, a rotating handle 408 is rotatably disposed in the connecting circular shaft 406, the rotating handle 408 is rotatably connected with the circular shaft body 501 in a matching manner, an open slot 409 is disposed on the lower side of the side fixing boxes 404, pushing plates 401 are fixedly disposed in the open slot 409, the pushing plates 401 abut against each other and are connected in a sliding manner, the lower end surfaces of the pushing plates 401 are flush with the related structures in the guiding-out assembly, the pushing plate 401 on the left side is fixedly disposed on the front end surface of the open slot 409, the pushing plate 401 on the right side is fixedly disposed on the rear end surface of the open slot, the rotating handle, the length of the pushing plates 401 is larger than the radius of the cylinder 106, so that the pushing plates 401 slide with each other after the side fixing boxes 404 are indirectly driven to move by the rotating handle 408.

Beneficially, the horizontal pushing assembly comprises a lifting plate 303 in sliding fit connection with the accommodating cavity 305, a bottom rotating base 703 is fixedly arranged on the lower end face of the lifting plate 303, a connecting rod 701 is rotatably arranged in the bottom rotating base 703, a transmission motor 901 is fixedly arranged on the rear end face of the cylinder 106, a rotating threaded shaft 903 is arranged in the transmission motor 901 in a power connection mode, the rotating threaded shaft 903 extends into the bottom rotating base 306 and is in rotating fit connection with the end wall of the accommodating cavity 305, an inner threaded block 902 is arranged on the outer surface of the rotating threaded shaft 903 in a threaded fit connection mode, the inner threaded block 902 is in rotating fit connection with the connecting rod 701, the length of the connecting rod 701 is at least 20cm, and therefore the transmission motor 901 is used for indirectly driving the related structure.

Advantageously, the discharging assembly comprises a connecting cavity 304 communicated with the containing cavity 305, a discharging shell 301 fixed with the cylinder 106 is arranged on one side of the connecting cavity 304, an open sliding groove 302 is arranged in the discharging shell 301, the depth of the sliding groove 302 is at least 10cm, and the included angle between the discharging shell 301 and the upper end face of the cylinder 106 is at least 45 degrees, so that soil is discharged by the sliding groove 302.

In the initial state, the device, the components and the structure are in the stop working state, and the equipment and the external mobile equipment need to be dragged and cooperated to work before the equipment works.

When the equipment works and is dragged by external equipment to move, the rolling cylinder 101 compacts soil in a groove paved with a 5G circuit, soil is required to be added continuously in the compacting process to further compact the soil filled in the groove so as to improve the efficiency of filling the 5G circuit, the soil is filled in the accommodating cavity 305 before the soil is filled in the accommodating cavity, the pushing cylinder 803 is driven to reciprocate after working in the moving process of the equipment, the circular shaft body 501 drives the rotating handle 408 to swing in the moving process of the circular shaft body 501, at the moment, the engaging rotating wheel 403 is connected with the annular groove 405 in a sliding fit manner, the pushing plates 401 are fixed with the open groove 409, the pushing plates 401 on the left side and the right side are connected in a sliding fit manner, the flat plate type structure formed by the pushing plates 401 at the moment enables the pushing plates 401 to push the soil in the accommodating cavity 305, and only push the soil on the upper side at each time, soil after the promotion falls to the equipment downside so that a section of thick bamboo 101 carries out the compaction in rolling through connecting chamber 304 and spout 302, need utilize lifter plate 303 with earth rebound compaction in the promotion process, then drive rotation threaded shaft 903 rotates after drive motor 901 work, make and rotate threaded shaft 903 and drive interior screw thread piece 902 and remove, interior screw thread piece 902 drives the swing of connecting rod 701 after removing, connecting rod 701 indirectly promotes lifter plate 303 rebound under the effect of connecting rod 701 and upwards promotes the earth of lifter plate 303 up end, when drum 106 carries out the angular position conversion, drive motor 108 drive driving gear 107 indirectly drives meshing ring gear 105 and drum 106 and rotates and can realize the angular position conversion of drum 106.

The invention has the beneficial effects that: this equipment has adopted installation device 950, rolling machine 951 and earth to empty the design of device 952, has realized the 5G circuit and has laid the in-process, carries out efficient earth landfill and compacted function with the slot that 5G circuit was laid, and equipment inner structure is dexterous and convenient to detach installs, very big improvement the practicality and the reliability of equipment.

The advantages are expressed in that the design of the mounting frame 103, the clamping groove 204, the rotating bearing 205, the connecting plate 203, the side fixing plate 202, the round shaft 201 and the rolling cylinder 101 is utilized to facilitate the disassembly of the round shaft 201 and the rotating bearing 205 and the disassembly and replacement of the rolling cylinder 101 into parts with different sizes, the design of the top side plate 109 has the advantages that the soil dumping device 952 is respectively arranged at two sides, the soil dumping angle can be adjusted according to the actual working requirement when the soil dumping device 952 pushes the soil out through the cylinder 106 and the meshing gear ring 105 under the action of the transmission motor 108 and the driving gear 107, the annular groove 405, the meshing rotating wheel 403, the side fixing box 404, the rotating handle 408 and the pushing plate 401 are utilized to form a slidable flat plate structure between the pushing plates 401 under the indirect action of the round shaft body 501 and the pushing cylinder 803, so that the pushing plate 401 can lead the upper soil in the containing cavity 305 out to the lower side of the equipment through the chute 302 better, the very big work efficiency who improves equipment, wherein the design advantage who leads to chamber 801 and rear shell 802 and break-through chamber 601 lies in, circular axis body 501 can slide in logical chamber 801, and because circular axis body 501 drives rotation handle 408 and swings, will make rotation handle 408 and drum 106 appear interfering phenomenon, wear to lead to the very good emergence of avoiding this condition in chamber 601, the design advantage of pouring casing 301 lies in, set up certain inclination, make earth be convenient for remove downwards, lifter plate 303, end swivel base 703, connecting rod 701, internal thread piece 902, the design advantage of rotating threaded shaft 903 and drive motor 901 lies in can utilizing drive motor 901 to upwards promote the earth of lifter plate 303 upside indirectly, can control the amount of push out, increase the technological adjustable range of equipment.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the rolling cylinder 101, the bottom plate 102, the mounting frame 103, the fixing ring 104, the meshing gear ring 105, the cylinder 106, the driving gear 107, the transmission motor 108, the top side plate 109, the flat plate 110, the inner cavity 112, the circular shaft 201, the side fixing plate 202, the connecting plate 203, the clamping groove 204, the rotating bearing 205, the material pouring housing 301, the sliding groove 302, the lifting plate 303, the connecting cavity 304, the accommodating cavity 305 and the pushing plate 401 are more used, the terms of the inner rotary cavity 402, the meshing rotary wheel 403, the side fixed box 404, the annular groove 405, the connecting circular shaft 406, the side groove 407, the rotary handle 408, the open groove 409, the circular shaft body 501, the through cavity 601, the connecting rod 701, the bottom rotary seat 703, the through cavity 801, the rear side shell 802, the pushing cylinder 803, the transmission motor 901, the internal thread block 902, the rotary threaded shaft 903, the mounting device 950, the rolling device 951, the earth pouring device 952 and the like are used, but the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.