CN206246124U - Hydroenergy storage station slope construction variable-angle digs chassis - Google Patents

Abstract

Chassis is digged the utility model discloses hydroenergy storage station slope construction variable-angle, it includes the chassis base plate (2) parallel with slope track (1), the side of correspondence slope track (1) is connected with bogie wheels (3) on chassis base plate (2), and the opposite side of chassis base plate (2) is connected with horizontally disposed main platform (6)；Chassis base plate (2) top is provided with the roller bearing (7) being rotatably connected with main platform (6) one end, main platform (6) other end is connected with tilting table car column (8), and the lower section in the middle part of main platform (6) is connected with vertical chassis post (9)；The tilting table car column (8) and vertical chassis post (9) middle part are respectively connected with jack (10).The utility model not only has the advantages that convenient disassembly and applied widely, additionally it is possible to reduce power station Enlargement excavation cost, reduces Site Welding workload, improves structural stability and security.

Description

Hydroenergy storage station slope construction variable-angle digs chassis

Technical field

The utility model is related to a kind of hydroenergy storage station slope construction to dig chassis, particularly a kind of hydroenergy storage station Slope construction variable-angle digs chassis.

Background technology

Chassis, i.e. platform truck, are generally used for tunnel, water power inclined shaft and mining system etc., are put down for constructor provides operation Platform.Conventional has tunnel-liner branch mould trolley, mine excavation chassis and excavation expansion of inclined well chassis etc..Hydroenergy storage station digs chassis Dismounting inconvenience.And the inclined shaft gradient is different in different hydroenergy storage stations, the existing chassis that digs cannot meet different gradient Construction requirement, the scope of application is smaller, and can only correspond to the inclined shaft gradient dig the Site Welding of chassis, causes power station Enlargement excavation It is relatively costly.Therefore, existing hydroenergy storage station dig chassis exist dismounting inconvenience, the scope of application is smaller and causes power station The relatively costly problem of Enlargement excavation.

Utility model content

The purpose of this utility model is, there is provided a kind of hydroenergy storage station slope construction variable-angle digs chassis, this Utility model not only has the advantages that convenient disassembly and applied widely, additionally it is possible to reduce power station Enlargement excavation cost.

The technical solution of the utility model：Hydroenergy storage station slope construction variable-angle digs chassis, including with inclined shaft The chassis base plate of parallel track, the side of correspondence slope track is connected with bogie wheels on chassis base plate, chassis base plate it is another Side is connected with horizontally disposed main platform；Chassis base plate top is provided with the roller bearing being rotatably connected with main platform one end, main platform The other end is connected with tilting table car column, and the lower section in the middle part of main platform is connected with vertical chassis post；The tilting table car column and vertically Chassis post middle part is respectively connected with jack.

Foregoing hydroenergy storage station slope construction variable-angle is digged in chassis, the vertical chassis post and incline chassis Post includes 2 sections of cylinders, and the top and bottom of jack are connected with 2 sections of cylinders respectively.

Foregoing hydroenergy storage station slope construction variable-angle is digged in chassis, balance is connected with the main platform and is passed Sensor.

Foregoing hydroenergy storage station slope construction variable-angle is digged in chassis, and the lower section of the main platform passes through stair Be connected with assistance platform, the lower section of assistance platform is connected with afterbody platform by stair, assistance platform and afterbody platform with it is perpendicular The bottom of straight chassis post, the connection of tilting table car column, vertical chassis post and tilting table car column is connected with chassis base plate.

Foregoing hydroenergy storage station slope construction variable-angle is digged in chassis, the main platform, assistance platform, afterbody Platform and chassis base plate are constituted by latticed chassis crossbeam and chassis longeron, and main platform, assistance platform and afterbody platform Upper surface at be equipped with flat board.

Foregoing hydroenergy storage station slope construction variable-angle is digged in chassis, the tilting table car column and chassis base plate Between angle be acute angle.

Foregoing hydroenergy storage station slope construction variable-angle is digged in chassis, the side of main platform two and vertical platform Support of encorbelmenting is connected between car column.

Foregoing hydroenergy storage station slope construction variable-angle is digged in chassis, and the slope track top is provided with work Make platform, hoist engine is provided with workbench, drag-line is connected between hoist engine and chassis base plate.

Foregoing hydroenergy storage station slope construction variable-angle is digged in chassis, and the slope track top is additionally provided with Directive wheel, directive wheel is connected with drag-line.

Compared with prior art, the utility model improve it is existing dig trolley structure, by setting platform floor, master Platform, tilting table car column and vertical chassis post dig chassis to constitute, and in advance can weld platform floor and main platform in factory Type is connected into, platform floor, main platform and tilting table car column, vertical chassis post need to be only connected with the scene, reduced Site Welding workload, and easy disassembly；Meanwhile, by setting tilting table car column, vertical chassis post, jack and roller bearing, Angle of the main platform with respect to chassis base plate can be adjusted according to the different inclined shaft gradients, so that main platform keeps level, energy Enough meet the Enlargement excavation requirement of the different inclined shaft gradients, expand the scope of application, dig so as to reducing hydroenergy storage station and apply Work cost.Additionally, the utility model is also provided with balance sensor, the convenient main platform of detection whether level, improve degree of regulation； By tilting table car column, main platform and chassis sole shape triangularity stabilising system, and vertical branch is formed by vertical chassis post Support body system, improves integrally-built stability and security；By encorbelmenting, support further improves support effect, further carries High integrally-built stability and security.Therefore, the utility model not only has convenient disassembly and applied widely excellent Point, additionally it is possible to reduce power station Enlargement excavation cost, reduces Site Welding workload, improves structural stability and security.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is explosive view of the present utility model.

Mark in accompanying drawing for：1- slope tracks, 2- chassis base plates, 3- bogie wheels, 4- afterbody platforms, 5- auxiliary is flat Platform, the main platforms of 6-, 7- roller bearings, 8- tilting table car columns, the vertical chassis posts of 9-, 10- jack, 11- balance sensors, 12- work Platform, 13- hoist engines, 14- drag-lines, 15- directive wheels, 16- encorbelments support.

Specific embodiment

The utility model is further described with reference to embodiment, but is not intended as to the utility model limitation Foundation.

Embodiment.Hydroenergy storage station slope construction variable-angle digs chassis, constitutes as shown in Figure 1, 2, including with it is oblique The parallel chassis base plate 2 of well track 1, the side of correspondence slope track 1 is connected with bogie wheels 3, chassis base plate on chassis base plate 2 2 opposite side is connected with horizontally disposed main platform 6；The top of chassis base plate 2 is provided with the roller bearing being rotatably connected with the one end of main platform 6 7, the other end of main platform 6 is connected with tilting table car column 8, and the lower section at the middle part of main platform 6 is connected with vertical chassis post 9；The inclination Chassis post 8 and the middle part of vertical chassis post 9 are respectively connected with jack 10.

The vertical chassis post 9 and tilting table car column 8 include 2 sections of cylinders, and the top and bottom of jack 10 are respectively with 2 Duan Zhuti is connected；The lower section of the main platform 6 is connected by stair with assistance platform 5, the lower section of assistance platform 5 by stair with Afterbody platform 4 is connected, and assistance platform 5 and afterbody platform 4 are connected with vertical chassis post 9, tilting table car column 8, vertical chassis post 9 Bottom with tilting table car column 8 is connected with chassis base plate 2；Balance sensor 11 is connected with the main platform 6；The master Platform 6, assistance platform 5, afterbody platform 4 and chassis base plate 2 are constituted by latticed chassis crossbeam and chassis longeron, and main flat Flat board is equipped with the upper surface of platform 6, assistance platform 5 and afterbody platform 4；Between the tilting table car column 8 and chassis base plate 2 Angle is acute angle；Support 16 of encorbelmenting is connected between 6 liang of sides of the main platform and vertical chassis post 9；The slope track 1 is pushed up Portion is provided with workbench 12, and hoist engine 13 is provided with workbench 12, and drawing is connected between hoist engine 13 and chassis base plate 2 Rope 14；The top of the slope track 1 is additionally provided with directive wheel 15, and directive wheel 15 is connected with drag-line 14.

Operation principle：The utility model constitutes chassis base plate 2, afterbody platform 4, auxiliary by chassis longeron and chassis crossbeam Platform 5 and main platform 6, chassis base plate 2, afterbody platform 4, assistance platform 5 and main platform 6 can be in advance welded in factory Shaping, then carries out modularization group using chassis base plate 2, afterbody platform 4, assistance platform 5 and main platform 6 as module at the scene Dress, tilting table car column 8 and vertical chassis post 9 and modules are bolted, and easy disassembly and reduce scene Welding job amount.Chassis longeron and chassis crossbeam are hot rolled H-shaped from Q345, in order to strengthen the intensity of chassis base plate 2, can be with The section of each chassis longeron on chassis base plate 2 and chassis crossbeam is increased；Bogie wheels 3 use cast iron ZG25, wheel shaft to use Other steel plates such as No. 45 carbon constructional quality steels, shaft bearing plate use Q345 steel；6 one-tenth octagons of main platform, the conventional chassis of removal The sharp corner of four of rectangle plane, tilting table car column 8 and vertical chassis post 9 are hot rolled H-shaped from Q345.Main platform 6 is led To be constructed for heap putting material, equipment and the powder charge of inclined shaft upper bore, assistance platform 5 is mainly for the waist of inclined shaft two and middle part drilling dress Medicine construction is used, and afterbody platform 4 is constructed for the powder charge of inclined shaft bottom hole.In addition can also be set manually in the bottom of afterbody platform 4 The pilot shaft security fence of cucurbit (or electric block) control, for sealing pilot shaft mouthful, plays protective action.

When using, the bogie wheels 3 on chassis base plate 2 are connected on slope track 1, make chassis base plate 2 and inclined shaft rail Road 1 is parallel；If now the balance sensor 11 on main platform 6 detects main platform 6 and is not on horizontal level, control very heavy The length of the vertical chassis post 9 of the regulation of top 10 and tilting table car column 8, makes main platform 6 turn to horizontal level (due to tail around roller bearing 7 Portion's platform 4, assistance platform 5 are connected with tilting table car column 8, vertical chassis post 9, thus afterbody platform 4, assistance platform 5 with The synchronous axial system of main platform 6) so that afterbody platform 4, assistance platform 5 and main platform 6 can carry out angle tune according to the inclined shaft gradient Section, meets the Enlargement excavation of the different inclined shaft gradients.Finally, hoist engine 13 is fixed on workbench 12 by anchor pole, is passed through Hoist engine 13 pulls drag-line 14, drag-line 14 to drive chassis base plate 2 to be walked on slope track 1, carry out Enlargement excavation.Can also be in tail Portion's platform 4, assistance platform 5 and the surrounding of main platform 6 set fence, protect the safety of workmen.

Claims (9)

1. hydroenergy storage station slope construction variable-angle digs chassis, it is characterised in that：Including parallel with slope track (1) Chassis base plate (2), the side of correspondence slope track (1) is connected with bogie wheels (3) on chassis base plate (2), chassis base plate (2) Opposite side is connected with horizontally disposed main platform (6)；Chassis base plate (2) top is provided with and is rotatably connected with main platform (6) one end Roller bearing (7), main platform (6) other end is connected with tilting table car column (8), and the lower section in the middle part of main platform (6) is connected with vertical platform Car column (9)；The tilting table car column (8) and vertical chassis post (9) middle part are respectively connected with jack (10).

2. hydroenergy storage station slope construction variable-angle according to claim 1 digs chassis, it is characterised in that：It is described Vertical chassis post (9) and tilting table car column (8) including 2 sections of cylinders, the top and bottom of jack (10) respectively with 2 sections of cylinders Connection.

3. hydroenergy storage station slope construction variable-angle according to claim 1 digs chassis, it is characterised in that：It is described Balance sensor (11) is connected with main platform (6).

4. hydroenergy storage station slope construction variable-angle according to claim 1 digs chassis, it is characterised in that：It is described The lower section of main platform (6) is connected with assistance platform (5) by stair, and the lower section of assistance platform (5) is connected with afterbody by stair Platform (4) is connected, and assistance platform (5) and afterbody platform (4) are connected with vertical chassis post (9), tilting table car column (8), vertically The bottom of chassis post (9) and tilting table car column (8) is connected with chassis base plate (2).

5. hydroenergy storage station slope construction variable-angle according to claim 4 digs chassis, it is characterised in that：It is described Main platform (6), assistance platform (5), afterbody platform (4) and chassis base plate (2) are by latticed chassis crossbeam and chassis longeron Constitute, and flat board is equipped with the upper surface of main platform (6), assistance platform (5) and afterbody platform (4).

6. hydroenergy storage station slope construction variable-angle according to claim 1 digs chassis, it is characterised in that：It is described Angle between tilting table car column (8) and chassis base plate (2) is acute angle.

7. hydroenergy storage station slope construction variable-angle according to claim 1 digs chassis, it is characterised in that：It is described Support (16) of encorbelmenting is connected between the side of main platform (6) two and vertical chassis post (9).

8. the hydroenergy storage station slope construction variable-angle according to any claim in claim 1 to 7 digs platform Car, it is characterised in that：Slope track (1) top is provided with workbench (12), and workbench is provided with elevator on (12) Machine (13), is connected with drag-line (14) between hoist engine (13) and chassis base plate (2).

9. hydroenergy storage station slope construction variable-angle according to claim 8 digs chassis, it is characterised in that：It is described Slope track (1) top is additionally provided with directive wheel (15), and directive wheel (15) is connected with drag-line (14).