CN201165672Y - Dome cutting machine - Google Patents

Abstract

The utility model relates to a slope cutting machine, which is composed of a travelling track (1), a travelling trolley (8), a truss frame (17), a rotary cultivation harrow (21) group, a spiral conveying scraper (12), a scraper blade conveyor (24) and a control stand (25). The slope cutting machine is characterized in that the whole equipment is positioned on the upper track and the lower track of the slope surface, firstly, the soil on the slope surface which is needed to be cut can be loosened by the rotary cultivation harrow (21) group which is installed at the lower part of the truss frame (17), then the loosened soil is delivered to the base of the slope by the spiral conveying scraper (12) installed behind the truss frame, the striking operation can be performed to the slope surface, and lastly, the scraper blade conveyor (24) installed at the bottom can be delivered outside the working surface. The slope cutting machine can be propelled in a full cross-section way, and can perform the continuous working, the efficiency is high, the smoothness is good, and the slope cutting machine can be suitable for different slope lengths and slope ratios.

Description

A kind of domatic sloping machine of cutting

Affiliated technical field

The utility model relates to a kind of domatic sloping machine of cutting, be a kind of can be with the domatic engineering machinery of scabbling in slope.

Background technology

Needs according to engineering construction, the domatic needs on many slopes scabble processing, guarantee the requirement of certain planeness, but most of this type of engineering does not guarantee the planeness (especially large-scale domatic) of requirement of engineering on the one hand by manually finishing, on the other hand because manually-operated, often the domatic soil body that should keep to compacting has carried out disturbance, has destroyed domatic degree of compaction, simultaneously time-consuming taking a lot of work, improve construction costs greatly, delayed the duration.

Summary of the invention

Manually cut the problem that engineering design requirement and inefficiency can't be satisfied in the slope in order to overcome, the utility model provides a kind of domatic sloping machine of cutting, this plant equipment can not only guarantee to cut the domatic engineering design of satisfying in slope and require (as planeness, degree of compaction etc.), has improved efficiency of construction simultaneously greatly.

The technical solution adopted in the utility model is: equipment mainly is made up of walking track, walking dolly, truss, Rotary tillage rake, helical feed soil scrapper, drag conveyer, console seven major parts.Entire equipment by walking dolly (8) be placed on domatic on, on the following walking track (1), walking dolly (8) links to each other with vehicle frame (30) by oil cylinder (7), walking dolly (8) contacts with square tube (2) with the chain of track respectively with roller (5) by sprocket wheel (4), truss (17) is connected with walking dolly vehicle frame (30) by joint roof beam structure (28), anterior Rotary tillage rake (21) group of installing in truss (17) bottom, Rotary tillage rake (21) links to each other with truss (17) with oil cylinder (23) by hinged (15), link to each other by turning cylinder (18) between Rotary tillage rake (21) and the Rotary tillage rake (21), helical feed soil scrapper (12) is installed at the rear portion, by hinged (15), oil cylinder (16) links to each other with truss (17), bottom walking dolly (8) is gone up drag conveyer (24) is installed, and console (25) is installed on truss (17) top.

1. walking track: according to engineering design line and design altitude, calculate the orbit of laying entire equipment work, divide upper and lower two tracks, entire equipment operates on the walking track.

2. walking dolly: walking dolly has settled dynamical system voluntarily to walk along track travel, and upper and lower in addition walking cart stationary the truss of equipment, and walking dolly is installed with the power set that Rotary tillage rake, helical feed soil scrapper etc. are provided simultaneously.

3. truss: two ends are connecting upper and lower walking dolly, and Rotary tillage rake, helical feed soil scrapper etc. are installed in the truss bottom.

4. Rotary tillage rake: be installed in the place ahead, truss bottom (work direction of advance), the power that provides by walking dolly unscrews soil property.

5. helical feed soil scrapper: mainly form, be fixed on below the truss by helical conveyor and outer cover, Rotary tillage rake back (work direction of advance), the soil of Rotary tillage rake being beaten pine is delivered to the bottom, slope by helical conveyor.Helical conveyor back, semi-surrounding the outer cover of helical conveyor, block soil on the one hand and do not flow backward, pass through its bottom scraper on the other hand with domatic further strickling.

6. drag conveyer: be positioned at walking dolly rear portion, the end, slope, corresponding helical feed soil scrapper, effect is the helical feed soil scrapper to be transported to the soil at the end, slope be discharged to outside the work-yard, guarantees the continuous operation of equipment.

7. console: the control centre of entire equipment, be installed in truss top, by control panel, control the operation of each parts and entire equipment.

The utility model beneficial effect is: improved efficiency of construction greatly, fallen at the end construction costs, guaranteed domatic planeness, avoided manually-operated to backbreak, cover simultaneously, guaranteed original domatic degree of compaction.Simultaneously the length of equipment can make up according to different lengths of grade, can satisfy different lengths of grade, by the gradient of conditioning equipment, and domatic applicable to different slope ratios.

Description of drawings

The utility model is described in further detail below in conjunction with drawing:

Figure 1 shows that the domatic general arrangement (truss partly illustrates) of cutting sloping machine of the utility model

Figure 2 shows that the domatic Rotary tillage rake of sloping machine and the position view of helical feed soil scrapper cut of the utility model

Figure 3 shows that the domatic walking track elevational schematic view of cutting sloping machine of the utility model

Figure 4 shows that the domatic walking orbit plane schematic diagram of cutting sloping machine of the utility model

Figure 5 shows that the domatic walking track generalized section of cutting sloping machine of the utility model

Figure 6 shows that the domatic truss elevational schematic view of cutting sloping machine of the utility model

Figure 7 shows that the domatic truss floor map of cutting sloping machine of the utility model

Figure 8 shows that the domatic truss A-A generalized section of cutting sloping machine of the utility model

Figure 9 shows that the domatic truss B-B generalized section of cutting sloping machine of the utility model

Figure 10 shows that the domatic truss of cutting sloping machine of the utility model is connected detail drawing

Figure 11 shows that the domatic Rotary tillage rake of cutting sloping machine of the utility model always joins elevational schematic view

Figure 12 shows that the domatic total trim face schematic diagram of Rotary tillage rake of cutting sloping machine of the utility model

Figure 13 shows that the domatic Rotary tillage rake of cutting sloping machine of the utility model always joins the A-A generalized section

Figure 14 shows that the domatic Rotary tillage rake of cutting sloping machine of the utility model always joins the B generalized section

Figure 15 shows that the domatic Rotary tillage rake of cutting sloping machine of the utility model always joins the C generalized section

Figure 16 shows that the domatic helical feed soil scrapper full-page proof detail drawing of cutting sloping machine of the utility model

Figure 17 shows that the domatic helical feed soil scrapper elevational schematic view of cutting sloping machine of the utility model

Figure 18 shows that the domatic helical feed soil scrapper floor map of cutting sloping machine of the utility model

Figure 19 shows that the domatic drag conveyer elevational schematic view of cutting sloping machine of the utility model

Figure 20 shows that the domatic drag conveyer floor map of cutting sloping machine of the utility model

Shown in Figure 21 is the domatic drag conveyer A generalized section of cutting sloping machine of the utility model

Among the figure: hinged 23 oil cylinders, 24 drag conveyers, 25 consoles, 26 steel plates, 27 pipes, 28 joint roof beams structure, 29 auger conveyors, 30 vehicle frames of 1 walking track 2 square tubes, 3 channel-section steel 4 sprocket wheels, 5 roller 6 movable motors, 7 oil cylinder 8 walking dollies, 9 Rotary tillage rake motor 10 helical feed soil scrapper motors, 11 turning cylinder 12 helical feed soil scrappers, 13 hood 14 scrapers, 15 hinged 16 oil cylinder 17 truss, 18 turning cylinder 19 Rotary tillage rake covers, 20 chain 21 Rotary tillage rakes, 22 rakes

The specific embodiment:

The utility model is domatic as shown in Figure 1 cuts sloping machine mainly by (25) seven most of compositions of walking track (1), walking dolly (8), truss (17), Rotary tillage rake (21), helical feed soil scrapper (12), drag conveyer (17), console.Wherein:

＜1〉walking track (1) (see Fig. 3～Fig. 5):

Walking track (1) is the orbit of entire equipment, and entire equipment is seated in upper and lower walking track (1), is the basis of guaranteeing construction quality.Walking track (1) is determined by the domatic design lines of engineering at position and elevation, therefore will accurately measure wiring, reduces vertical and horizontal distortion sedimentation simultaneously in the walking process as far as possible.This practicality walking track (1) adopts the Combination Welding part, bottom steel plate (26) has increased track and contact area of ground, reduced the track sedimentation, square tube (2) has increased orbit rigidity, chain is walked in the built-in clearance of both sides channel-section steel (3), has guaranteed the equipment smooth running, has evenly reached synchronism, simultaneously the track merogenesis, connect by the pipe of scurrying in the square tube (2) (27), made things convenient for and installed and transportation.

＜2〉walking dolly (8) (see figure 1):

Walking dolly (8) is along track (1) walking, also is the fixing support of entire equipment, settled movable motor (6) to walk, and Rotary tillage rake motor (9), helical feed soil scrapper motor (10) are installed on the car of walking simultaneously (8).

1. each walking dolly (8) links to each other with vehicle frame (30) by oil cylinder (7), can integral body carry the equipment of falling.

2. walking dolly (8) contacts with square tube (2) with the chain of track respectively with roller (5) by sprocket wheel (4), and it is steady that assurance is travelled.

＜3〉truss (17) (see Fig. 1, Fig. 6～Figure 10):

Two ends are connecting the car frame that walks up and down (30) by triangle or trapezoidal joint roof beam structure (28), in truss (17) bottom Rotary tillage rake (21), helical feed soil scrapper (12) etc. are installed.

1. can change the gradient of truss (17) by the shape of adjusting joint roof beam structure (28), make equipment be adapted to different ratios of slope.

2. truss (17) segmentation is connected and can satisfies different work lengths of grade.

＜4〉Rotary tillage rake (21) (see Fig. 2, Figure 11～Figure 15):

Be installed in truss (17) the place ahead, bottom (work direction of advance), the power that provides by the motor (9) that is installed on the walking dolly (8) unscrews soil property.

1. according to different work lengths of grade, the length and the quantity of Rotary tillage rake capable of being combined (21), rake with harrow between link to each other by turning cylinder (18).Each Rotary tillage rake (21) power is provided by the chain (20) that Rotary tillage rake (21) links to each other with turning cylinder (18).Rotary tillage rake (21) top is equipped with Rotary tillage rake cover (19), stirs up a cloud of dust when reducing work.

2. Rotary tillage rake (21) rake body links to each other with oil cylinder (23) by hinged (22) with truss (17), can guarantee the lifting of Rotary tillage rake (21), satisfies the different rotary tillage degree of depth.

＜5〉helical feed soil scrapper (12) (see Fig. 2, Figure 16～Figure 18):

Helical feed soil scrapper (12) mainly contains helical conveyor (29) and helical conveyor hood (13) two parts are formed, be installed in below the truss (17), the back (work direction of advance) of Rotary tillage rake (21) combination, the soil of Rotary tillage rake (21) being beaten pine is delivered to the bottom, slope by helical conveyor (29).Be positioned at helical conveyor (29) back, semi-surrounding helical conveyor hood (13), blocks soil on the one hand and does not flow backward, passes through its bottom scraper (14) on the other hand with domatic further strickling.

1. power is provided by the motor (10) that is installed on the walking dolly (8) by turning cylinder (11).

But different work lengths of grade is satisfied in 2. merogenesis combination.

3. link to each other with truss (17) by hinged (15), oil cylinder (16).Oil cylinder (16) can wholely promote helical feed soil scrapper (12) and adjust work plane.Each oil cylinder (16) can be adjusted height respectively, and whole helical conveyor bonnet bottom scraper (14) can be adjusted in one plane, has guaranteed to cut the planeness on slope.

＜6〉drag conveyer (24) (is seen Fig. 1, Figure 19～Figure 21)

Be placed on the bottom walking dolly (8), corresponding with helical conveyor (29) position, helical conveyor (29) is transported to the slope soil at the end, be discharged to outside the work-yard by scraper plate, guarantee the continuous operation of equipment.

＜7〉console (25) (see figure 1)

Console (25) is the control centre of entire equipment, is installed in truss (17) top, by control panel, and each position walking of commander's equipment (while or independent), lifting, switch etc.

The equipment operating procedure

1. at first, according to engineering design line and elevation, the bonding apparatus structure is laid track (1).

2. entire equipment is installed in (1) on the working track.

3. adjust the dolly oil cylinder (7) that walks up and down and highly make equipment and the suitable distance of domatic maintenance.

4. adjust Rotary tillage rake oil cylinder (23) highly, Rotary tillage rake (21) is beaten the native degree of depth be controlled at the domatic 1-2cm of going up of design.

5. adjust helical feed soil scrapper oil cylinder (16) highly, make the same design surface of helical feed soil scrapper bottom scraper (14),, helical feed soil scrapper bottom scraper (14) is kept in one plane simultaneously by each oil cylinder (16) is regulated.

6. start Rotary tillage rake (21), helical feed soil scrapper (12), drag conveyer (24), walking dolly (8) etc. respectively and start working, entire equipment limit walking edge work.

7. after Rotary tillage rake (21) is beaten pine with domatic satholith, by back helical feed soil scrapper (12) it is discharged to the end, slope, by slope end drag conveyer (24) soil is discharged to outside the work plane, helical feed soil scrapper bottom scraper (14) is scabbled domatic simultaneously.

Claims (1)

1. One kind domatic cut sloping machine mainly by the walking track (1), walking dolly (8), truss (17), Rotary tillage rake (21) group, helical feed soil scrapper (12), drag conveyer (24), console (25) seven most of compositions, it is characterized in that: entire equipment by walking dolly (8) be placed on domatic on, on the following walking track (1), walking dolly (8) links to each other with vehicle frame (30) by oil cylinder (7), walking dolly (8) contacts with square tube (2) with the chain of track respectively with roller (5) by sprocket wheel (4), truss (17) is connected with walking dolly vehicle frame (30) by joint roof beam structure (28), anterior Rotary tillage rake (21) group of installing in truss (17) bottom, Rotary tillage rake (21) links to each other with truss (17) with oil cylinder (23) by hinged (15), link to each other by turning cylinder (18) between Rotary tillage rake (21) and the Rotary tillage rake (21), helical feed soil scrapper (12) is installed at the rear portion, by hinged (15), oil cylinder (16) links to each other with truss (17), bottom walking dolly (8) is gone up drag conveyer (24) is installed, and console (25) is installed on truss (17) top.

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