CN214993724U - A bulldoze rammer soil device for afforestation construction - Google Patents

Abstract

The utility model relates to a road construction, concretely relates to bulldoze rammer device for afforestation construction, include: a frame body which is a movable apparatus; a soil pushing part arranged at one side of the frame body and used for pushing soil away when the frame body moves towards the one side; the ramming portion is arranged on the frame main body and comprises an upper portion capable of actively stretching and a lower portion used for ramming soil. Through adopting the neotype a bulldoze ramming device for afforestation construction of this experiment, remove foretell frame main part during the use, remove the in-process, through the effect of portion of bulldozing at the in-process of bulldozing promptly, can effectively arrange big granule hard soil block and stone and open, the soil of being convenient for tamp has effectively solved the problem that bulldozes and ram soil inefficiency.

Description

A bulldoze rammer soil device for afforestation construction

Technical Field

The utility model relates to a road construction, concretely relates to bulldoze rammer device for afforestation construction.

Background

The construction of expressway and road greening is one of the important construction links in engineering construction. Through the initial construction and the whole use process of the expressway and the road, greening construction work is required to be carried out at intervals, particularly on urban roads, particularly on main roads. After afforestation soil is transported to afforestation construction site, the soil is lifted off to the dress soil car, and constructor needs the manual work to push away the accumulational soil and level, makes soil evenly distributed in afforestation construction site, tamps soil afterwards, makes soil compact, the planting and the growth of the afforestation plant of being convenient for. For the traditional greening construction, a large amount of manpower and material resources are required to be consumed when soil is pushed and rammed, the accumulated soil needs to be pushed to be flat manually, a large amount of time is required to be consumed when the soil is uniformly distributed on a field, and the efficiency is low; meanwhile, a tamping machine is needed, the tamping machine is a machine for tamping, is used for leveling and tamping a foundation when being used for construction, and is a compaction machine for compacting backfill soil layer by utilizing the effects of impact and impact vibration.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a bulldoze rammer device for afforestation construction to efficiency is higher.

In order to achieve the above object, the technical scheme adopted by the application is a bulldozing rammer device for greening construction, comprising:

a frame body which is a movable apparatus;

a soil pushing part arranged at one side of the frame body and used for pushing soil away when the frame body moves towards the one side;

the ramming portion is arranged on the frame main body and comprises an upper portion capable of actively stretching and a lower portion used for ramming soil.

Through adopting the neotype a bulldoze ramming device for afforestation construction of this experiment, remove foretell frame main part during the use, remove the in-process, through the effect of portion of bulldozing at the in-process of bulldozing promptly, can effectively arrange big granule hard soil block and stone and open, the soil of being convenient for tamp has effectively solved the problem that bulldozes and ram soil inefficiency.

Further, the frame body includes a lateral portion on which an upper portion of the rammed earth portion is provided, and a longitudinal portion on which the dozing portion is provided.

Further, the frame body comprises a folded plate structure, and one edge of the transverse part and one edge of the longitudinal part are connected to form the folded plate structure.

The folded plate structure preferably employs a right-angled folded plate, the lateral portion is provided above, and when the rammed earth portion is mounted, the upper portion of the rammed earth portion is mounted on the lower side of the lateral plate, that is, on the inner side of the frame body, and the upper portion of the rammed earth portion is vertically extended and contracted.

Further, the frame body comprises a support frame, the transverse part is arranged above the support frame, and the longitudinal part is arranged on the side of the support frame; the lower portion is located within the support frame for passing through the underside of the support frame for ramming the earth.

Further, the support frame contains the underframe that is located the hollow out construction of frame main part downside, the last face of a side on this underframe with the bottom of vertical portion is connected, and the last face setting of another side of this underframe supports the stand of horizontal portion. The lower part can be a plate-shaped structure matched with the bottom frame with the hollow structure.

Further, the blade portion includes a blade, and the blade is connected to the frame body through a stay on a side facing the frame body.

Furthermore, the supporting rod is a telescopic rod, and a damping spring is sleeved on the supporting rod.

Further, the dozer plate is of a folding plate structure, and the dozer plate is folded in half towards one side away from the frame body, so that two sides of the dozer part in the horizontal direction are symmetrical relative to the folding line. The angle of the flap structure herein may not be limited as long as the front end of the frame body can be covered when the blade is moved forward.

Further, the upper part of the ramming part is a hydraulic impact cylinder. The upper part of the soil portion can be provided here with at least three, preferably four.

Furthermore, a driving motor and a driving wheel which is driven by the driving motor and drives the frame main body to move are arranged on the frame main body.

The present invention will be further described with reference to the accompanying drawings and the detailed description. Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description. Or may be learned by practice of the invention.

Drawings

The accompanying drawings, which form a part of the disclosure, are included to assist in understanding the disclosure, and the description provided herein and the accompanying drawings, which are related thereto, are intended to explain the disclosure, but do not constitute an undue limitation on the disclosure. In the drawings:

FIG. 1 is a schematic view of a bulldozer and a rammer device for green construction without a transmission mechanism according to an embodiment of the present invention;

FIG. 2 is a schematic view of the bulldozer ramming earth device for green construction according to the second embodiment after the transmission mechanism is assembled;

the labels in the figure are: 1-driving motor, 2-frame body, 210-transverse part, 220-longitudinal part, 230-supporting frame, 231-bottom frame, 3-upper ear seat, 4-hydraulic impactor, 5-lower ear seat, 6-ramming earth plate, 7-roller, 8-connecting support, 9-spring shock absorber, 10-bulldozing plate, 11-connecting ear seat and 12-driving wheel.

Detailed Description

The present invention will be described more fully with reference to the accompanying drawings. Those of ordinary skill in the art will be able to implement the invention based on these descriptions. Before the present invention is described with reference to the accompanying drawings, it is to be noted that:

the technical solutions and features provided in the present invention in each part including the following description may be combined with each other without conflict.

Moreover, the embodiments of the invention described in the following description are generally only examples of a subset of the invention, and not all examples. Therefore, all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention shall fall within the protection scope of the present invention.

With respect to the terms and units of the present invention. The term "comprises" and any variations thereof in the description and claims of this invention and the related art are intended to cover non-exclusive inclusions.

As shown in fig. 1, in the first embodiment: a soil ramming device for bulldozing for greening construction includes a frame body 2 as a base, a bulldozing part and a ramming part provided on the frame body 2; the frame body 2 is a movable device; the soil pushing part is arranged on one side of the frame body 2 and is used for pushing soil away when the frame body 2 moves towards the one side; the rammed earth portion is provided on the frame main body 2, and includes an upper portion that can be actively extended and retracted and a lower portion for ramming earth.

The above-mentioned movement of the frame body 2 may be to install rollers 7 on the lower side of the frame body 2 to facilitate the movement of the frame body 2. The driving motor 1 in fig. 1 may be connected to any transmission mechanism (not shown in the drawings) to rotate the roller 7, for example, a rotating shaft extending outward from the roller 7 is driven by the transmission mechanism, or a transmission box with a driving wheel 12 (as in the second embodiment described below) may be separately provided behind the frame main body 2, and the driving motor drives the transmission box, and so on.

Adopt the neotype a bulldoze rammer device for afforestation construction of this experiment, remove foretell frame main part 2 during the use, remove the in-process, through the effect of portion of bulldozing at the in-process of bulldozing promptly, can effectively arrange big granule hard soil block and stone and open, the soil of being convenient for tamp has effectively solved the problem that bulldozes and ram soil inefficiency.

The frame body 2 includes a lateral portion 210 and a longitudinal portion 220, an upper portion of the rammed earth portion is provided on the lateral portion 210, and the dozing portion is provided on the longitudinal portion 220. Here, the transverse portion 210 and the longitudinal portion 220 are both configured as a plate body, and one edge of the transverse portion 210 and one edge of the longitudinal portion 220 are connected to form a flap structure. The flap structure here preferably employs a right angle flap, the lateral portion 210 is provided above, and when the rammed earth portion is mounted, the upper portion of the rammed earth portion is mounted on the lower side of the lateral plate, that is, on the inner side of the frame body 2, and the upper portion of the rammed earth portion is vertically extended and contracted.

The frame body 2 includes a support frame 230, the horizontal portion 210 is disposed above the support frame 230, and the vertical portion 220 is disposed on the side of the support frame 230; the lower portion is located within the support frame 230 for passing through the underside of the support frame 230 for ramming the earth.

The supporting frame 230 includes a bottom frame 231 having a hollow structure and located at the lower side of the frame body 2, an upper plate surface of one side of the bottom frame 231 is connected to the bottom end of the longitudinal portion 220, and an upright 232 supporting the transverse portion 210 is disposed on an upper plate surface of the other side of the bottom frame 231. The lower portion may be a rammed earth plate 6 having a plate-like structure which is engaged with the bottom frame 231 having a hollow structure.

The blade portion includes a blade 10, and the blade 10 is connected to the frame body 2 through a stay on the side facing the frame body 2. The supporting rod is a telescopic rod, and a damping spring is sleeved on the supporting rod, so that a spring damper is formed, the spring damper is connected to the longitudinal part 220 of the frame main body 2 through a connecting support, and the spring damper is connected with the bulldozing plate 10 through a connecting lug seat 11. The blade 10 is a folding plate structure, and the blade 10 is folded back to the side away from the frame body 2 so that both sides of the blade in the horizontal direction are symmetrical with respect to the folding line. The angle of the flap structure herein is not limited as long as the front end of the frame body 2 can be covered when the blade 10 is moved forward.

The upper part of the ramming part is a hydraulic impact cylinder 4. The upper part of the soil portion can be provided here with at least three, preferably four. The hydraulic percussion cylinder 4 can be connected to the transverse section 210 of the frame body 2 via the upper lug 3, and the hydraulic percussion cylinder 4 can be connected to the soil compacting plate 6 via the lower lug 5.

The transmission mechanism of the driving motor 1 and the roller 7 may be preferably disposed inside the frame body 2, or the transmission mechanism may be built in the support frame 230, the upright 232, the longitudinal portion 220, and the lateral portion 210.

Example two: as shown in fig. 2, in addition to the first embodiment, in addition to the driven wheel such as the roller 7, a driving wheel 12 (for providing power) may be provided, the driving wheel 12 is connected to the driving motor 1 through a transmission mechanism, the driven wheel is a universal wheel (for controlling the direction) not connected to the transmission mechanism, the universal wheel may be directly installed at four corners of the lower side of the frame body 2, the driving wheel 12 may be separately provided with a mounting seat connected to the rear portion of the frame body 2, and the transmission mechanism of the driving motor 1 extends into the mounting seat to drive the driving wheel 12. The mounting seat may be detachably mounted on the rear end of the frame body 2, and the mounting seat with the driving wheel 12 may be fixed to the rear of the frame body 2 by a snap, a bolt, or the like. The transmission mechanism of the driving wheel 12 can adopt general gears, rotating shafts, chains or belts for transmission, and the like, as long as the rotation of the driving wheel 12 by the driving motor 1 can be ensured.

The driving motor 1 drives the driving wheel 12 to drive the roller 7 to drive the whole device to move forwards, the soil pushing plate 10 firstly contacts with the soil pile, the soil body can be well and uniformly pushed away by the V-shaped or folded plate structured soil pushing plate 10, fine soil passes through a gap below the soil pushing plate 10, and large hard soil blocks and stones are discharged. When encountering hard soil blocks and hard stones, the spring damper 9 can convert kinetic energy generated by collision into elastic potential energy to play a role in damping and keep the stability of the device in order to prevent the bulldozer blade 10 from being damaged. Then, when the soil body after being pushed flat reaches the position below the ramming plate 6, the driving motor 11 stops working, the device stops moving forwards, the hydraulic impact cylinder 4 works simultaneously, and the soil is quickly impacted downwards to be rammed. Then the motor 1 is driven to work 1, and soil is rammed by bulldozing for the next time. In order to prevent the edge stress concentration damage of the rammed earth plate 6, the rammed earth plate 6 is subjected to fillet treatment.

The contents of the present invention have been explained above. Those of ordinary skill in the art will be able to implement the invention based on these descriptions. Based on the above-mentioned contents of the present invention, all other embodiments obtained by those skilled in the art without creative efforts shall fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides a bulldoze rammer device for afforestation construction which characterized in that includes:

a frame body which is a movable apparatus;

a soil pushing part arranged at one side of the frame body and used for pushing soil away when the frame body moves towards the one side;

the ramming portion is arranged on the frame main body and comprises an upper portion capable of actively stretching and a lower portion used for ramming soil.

2. A dozing ramming device for green construction as claimed in claim 1, wherein the frame body includes a lateral portion on which an upper portion of the ramming part is disposed and a longitudinal portion on which the dozing part is disposed.

3. A dozing ram device for use in green construction as claimed in claim 2 wherein said frame body includes a flap structure formed by joining one edge of said lateral portion and one edge of said longitudinal portion.

4. A ramming earth device for afforestation construction according to claim 3, wherein the frame body includes a support frame, the lateral portion is provided above the support frame, and the longitudinal portion is provided at a side of the support frame; the lower portion is located within the support frame for passing through the underside of the support frame for ramming the earth.

5. A ramming earth device for green construction according to claim 4, wherein the supporting frame comprises a hollow bottom frame located at the lower side of the frame body, the upper plate surface of one side of the bottom frame is connected to the bottom end of the longitudinal portion, and the upper plate surface of the other side of the bottom frame is provided with a column for supporting the transverse portion.

6. A dozing ram device for use in afforestation work as claimed in claim 1, wherein the dozing portion includes a dozer plate, and a side of the dozer plate facing the frame body is connected to the frame body by a pole.

7. A ramming earth device for green construction according to claim 6, wherein the supporting rod is a telescopic rod, and a damping spring is sleeved on the supporting rod.

8. A ramming earth device for green construction according to claim 6, wherein the blade is a folded plate structure folded back on the side away from the frame body so that the blade is symmetrical with respect to the fold line.

9. A bulldozer ramming device for green construction according to claim 1, in which the upper portion of said ramming portion is a hydraulic ram cylinder.

10. A dozing ramming device for green construction as claimed in claim 1, wherein the frame body is provided with a driving motor and a driving wheel for being driven by the driving motor and moving the frame body.

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