CN109081549A - A kind of hydraulic engineering mud removes water collecting device - Google Patents

Abstract

The invention discloses a kind of hydraulic engineering mud of hydraulic engineering technical field to remove water collecting device, including pre-buried pedestal, fixed supporting foot is provided at the top of pre-buried pedestal, mounting plate, dock sliding rail, dock sliding block, compression chamber, feeding warehouse and docking hydraulic cylinder, compression hydraulic cylinder is installed on the left of compression chamber, the right side socket of compression hydraulic cylinder is provided with compression piston plate, the top right side of pre-buried pedestal is provided with support column, fixes sleeve, shaft one and shaft end sleeve, the lateral wall of shaft end sleeve is connected with the splicing strut and splicing cylinder that four groups are uniformly distributed along the circumference, driving motor is installed on the left of support column, it is sequentially connected between the rear side power output end of driving motor and the rear side end of shaft one by Geneva mechanism, splicing cylinder bottom is provided with splicing vehicle, draining loss of weight can be carried out to mud the present invention provides one kind improve transport Efficiency simultaneously sets the hydraulic engineering mud loss of weight block makeup easy to carry of its blockization.

Description

A kind of hydraulic engineering mud removes water collecting device

Technical field

The present invention relates to hydraulic engineering technical field, specially a kind of hydraulic engineering mud removes water collecting device.

Background technique

Hydraulic engineering is the surface water and groundwater for controlling and deploying nature, reaches and removes the evil emerging sharp purpose and build Engineering.Also referred to as Hydraulic Projects.Water is human being's production and essential precious resources of living, but the state of its naturally occurring is simultaneously Not in full conformity with the needs of the mankind.Hydraulic engineering is only built, just can control water flow, prevents flood, and carry out water It adjusts and distributes, to meet people's lives and production to the needs of water resource.It lets out in the smooth degree direct influence river in river Big vast flooding action, in especially annual flood season, the requirement for river smoothness degree is higher, and the mud siltation in river can be led It causes aerial drainage unsmooth, or even flood will be made directly to impact river levee, the serious life and property safety for threatening local resident.With The development of hydraulic structure enlargement and deep water, it is also more and more for the cleaning in river.

The method that general common hydraulic engineering dredging is taken at present is: using digging machine or other desilting equipments by mud first It digs, then mud is directly entrucked and carried away with engineering truck.Engineering truck is inevitably brought into largely when transporting mud Moisture, not only weight is big for moisture, and occupies a large amount of volume of engineering truck, reduce the freight volume of each mud, reduce Dredging conevying efficiency；When toppling over mud, since mud has certain viscosity, easily adheres in engineering truck, be not easy It is detached from from engineering truck completely, so that engineering truck cannot completely topple over the mud in engineering truck when toppling over every time Completely, it still has more mud to remain in work machine, the transport amount of sludge of transport next time is caused to reduce, Reduce mud conevying efficiency.

Based on this, the present invention devises a kind of hydraulic engineering mud except water collecting device, to solve the above problems.

Summary of the invention

The purpose of the present invention is to provide a kind of hydraulic engineering mud to remove water collecting device, to solve above-mentioned existing mud Even water transport, not only weight is big for moisture, and occupies a large amount of volume of engineering truck, reduces the freight volume of each mud, drops Low dredging conevying efficiency；Since mud has certain viscosity, easily adheres in engineering truck, lead to haulagman next time The problem of transport amount of sludge of work is reduced, and reduces mud conevying efficiency.

To achieve the above object, the invention provides the following technical scheme: a kind of hydraulic engineering mud removes water collecting device, packet Pre-buried pedestal is included, the top left side of the pre-buried pedestal is provided with fixed supporting foot, is provided at the top of the fixed supporting foot Mounting plate, the top right side of the mounting plate are provided with docking sliding rail, the top movable connection of the docking sliding rail There is docking sliding block, is provided with compression chamber at the top of the docking sliding block, the top right side of the mounting plate passes through mounting base Docking hydraulic cylinder is installed, the right side telescopic end of the docking hydraulic cylinder is connected with the left side outer wall of compression chamber, the compression Compression hydraulic cylinder is installed, the right side telescopic end of the compression hydraulic cylinder protrudes into 6 inside of compression chamber simultaneously in the middle part of the left side outer wall of chamber Socket is provided with compression piston plate, compresses the closed abutting of chamber inner sidewall, the compression chamber in the lateral wall of the compression piston plate Top be provided with and communicated with feeding warehouse, the right side of the compression chamber is open butt end, the docking hydraulic cylinder and compression hydraulic Cylinder is connected by control switch with extraneous hydraulic power supply device respectively；

The pre-buried base right side is provided with the support column existed side by side, and the support column top movable is connected with shaft one, is located at two The shaft one between a support column is provided with shaft end sleeve, and the lateral wall of the shaft end sleeve is connected with four groups along circle The splicing strut of Zhou Junbu, the free terminal of the splicing strut are connected with splicing cylinder, the splicing cylinder positioned at left side station Cooperation is docked with the right side butt end of compression chamber, the rear side of the support column is equipped with driving motor by motor mount, institute It states and is sequentially connected between the rear side power output end of driving motor and the rear side end of shaft one by Geneva mechanism, the lower section work The splicing cylinder bottom of position is provided with splicing vehicle, and the driving motor is electrically connected by control switch and extraneous power supply.

Further, the Geneva mechanism includes active driver plate, and the active driver plate is sequentially connected with driven sheave one, institute It states driven sheave one and is sequentially connected with driven sheave two, the active driver plate and driven sheave two are socketed on driving motor respectively In the rear side end of rear side power output end and shaft one；The active driver plate is provided with a straight pin, the driven sheave one It is provided with the radial slot cooperated with the straight pin of the active driver plate more than four；The driven sheave one is provided with a circle Pin, there are four the radial slots cooperated with the straight pin of the driven sheave one for the setting of driven sheave two.

Further, the driven sheave one is sequentially connected with driven sheave three and driven sheave four, the driven sheave Three are sequentially connected with turbine and worm mechanism one, and the driven sheave four is sequentially connected with turbine and worm mechanism two, the turbine snail Linkage one and the other end of turbine and worm mechanism two are coaxially connected with gear one, and the gear one is engaged with gear two, described Gear two is provided centrally with circular hole and is actively socketed on the end of the compression chamber, and the cylindrical hole of the gear two is located at the pressure The side of contracting chamber has been disposed radially inwardly annular ridge, and the compression cavity outer wall, which is provided with snap ring, keeps the gear two relatively described Compression chamber only has the freedom degree around two axis rotation of gear；The end of the splicing cylinder is provided with radially outer discontinuity Fin one, the side that the cylindrical hole of the gear two is located at the splicing cylinder have been disposed radially inwardly discontinuity fin two.

Further, the compression piston plate is the cavity structure cylindrical body with side open end, the compression piston The inner cavity right side wall of plate is provided with the installation sleeve to socket-connect with the telescopic end for docking hydraulic cylinder, the circumference of the compression piston plate Side wall is provided with rubber seal, and the right-hand end of the compression piston plate is uniformly provided with water seepage hole, the compression piston plate Right side wall is fixedly installed filter screen.

Further, the mesh diameter of the filter screen is 0.3-0.5 millimeters.

Further, the right side butt end bore of the nozzle edge of the splicing cylinder and compression chamber is in the same size, it is described simultaneously It is set as inclination interface.

Further, the right side interface of the compression chamber is provided with seal washer.

Further, the bottom left of the compression chamber is provided with discharge outlet.

It is another preferably, the support column is gradually curved to the left and in opposite directions.

Compared with prior art, the beneficial effects of the present invention are: structure of the invention is reasonable, the present invention passes through compression piston Plate, compression chamber and splicing cylinder cooperate, and constitute closed draining space, and mud is packed into after compression chamber and is driven by compression hydraulic cylinder Dynamic pressure contracting piston plate promotes, and carries out draining squeezing to mud, so that the most of moisture in mud is leached, it is aqueous to reduce mud Amount realizes the effect for mitigating mud weight, to mitigate transport load, improves conevying efficiency；Mud after draining simultaneously can connect It is blocky that cake formed on barrel bottom, and when splicing cylinder is rotated to lower work, mud block can be fallen automatically, and realization is unloaded automatically Material, it is easy to operate, stablize practical；I.e. the present invention provides one kind can to mud carry out draining loss of weight improve conevying efficiency and by its Blockization hydraulic engineering mud loss of weight block makeup easy to carry is set.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, will be described below to embodiment required Attached drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for ability For the those of ordinary skill of domain, without creative efforts, it can also be obtained according to these attached drawings other attached Figure.

Fig. 1 is schematic structural view of the invention；

Fig. 2 is splicing cylinder relevant portion structural side view of the present invention；

Fig. 3 is compression piston plate structural schematic diagram of the present invention；

Fig. 4 is the rearview that another embodiment of the present invention distinguishes part；

Fig. 5 is another embodiment of the present invention splicing cylinder relevant portion structural side view.

In attached drawing, parts list represented by the reference numerals are as follows:

The pre-buried pedestal of 1-, 2- fixed supporting foot, 3- mounting plate, 4- dock sliding rail, and 5- docks sliding block, 6- compression chamber, 7- peace Seat is filled, 8- docks hydraulic cylinder, 9- compression hydraulic cylinder, 10- compression piston plate, 101- rubber seal, 102- water seepage hole, 103- mistake Strainer, 104- installation sleeve, 11- feeding warehouse, 12- support column, 13- turbine and worm mechanism, 14- shaft one, the shaft end 15- sleeve, 16- splicing strut, 17- splicing cylinder, 171- discontinuity fin one, 18- motor mount, 19- driving motor, 20- Geneva mechanism, 201- active driver plate, 202- driven sheave one, 203- driven sheave two, 204- driven sheave three, 205- driven sheave four, 21- Splicing vehicle, 22- discharge outlet, 23- turbine and worm mechanism two, 24- gear one, 25- gear two, 251- annular ridge, 252- interruption Property fin two.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts all other Embodiment shall fall within the protection scope of the present invention.

Embodiment one

Please refer to Fig. 1-3, the present invention provides a kind of technical solution: a kind of hydraulic engineering mud is including pre-buried except water collecting device Pedestal 1, the top left side of pre-buried pedestal 1 are provided with fixed supporting foot 2, and the top of fixed supporting foot 2 is provided with mounting plate 3, the top right side of mounting plate 3 is provided with docking sliding rail 4, and the top movable of docking sliding rail 4 is connected with docking sliding block 5, right The top for connecing sliding block 5 is provided with compression chamber 6, and the right side interface of compression chamber 6 is provided with seal washer, improves cooperation tightness, Even if the bottom left of compression chamber 6 is provided with discharge outlet 22 convenient for the moisture discharge compression chamber 6 leached, the top of mounting plate 3 Docking hydraulic cylinder 8 is equipped with by mounting base 7 on the right side of portion, docks the right side telescopic end of hydraulic cylinder 8 and the left side outer wall of compression chamber 6 It is connected, compression hydraulic cylinder 9 is installed in the middle part of the left side outer wall of compression chamber 6, the right side telescopic end of compression hydraulic cylinder 9 protrudes into compression 6 inside of chamber and socket are provided with compression piston plate 10, and compression piston plate 10 is the cavity structure cylindrical body with side open end, The inner cavity right side wall of compression piston plate 10 is provided with the installation sleeve 104 to socket-connect with the telescopic end for docking hydraulic cylinder 8, and compression is lived The circumferential side wall of seben 10 is provided with rubber seal 101, guarantees that the outer wall of compression piston plate 10 can be with the inner wall of compression chamber 6 It seals against, the right-hand end of compression piston plate 10 is uniformly provided with water seepage hole 102, oozes out for the water quality in mud, compression piston The right side wall of plate 10 is fixedly installed filter screen 103, and the mesh diameter of filter screen 103 is 0.3-0.5 millimeters, to guarantee pair Sandy soil play a role in filtering in most of mud, play a role in filtering, and prevent sandy soil in mud from being leached, compression piston plate 10 The closed abutting of 6 inner sidewall of compression chamber in lateral wall, the top of compression chamber 6 are provided with and communicated with feeding warehouse 11, and the right side of compression chamber 6 is Open butt end docks hydraulic cylinder 8 and compression hydraulic cylinder 9 and is connected respectively by control switch with extraneous hydraulic power supply device It connects；The top right side of pre-buried pedestal 1 is provided with support column 12, and the top of support column 12 is connected with fixes sleeve along the longitudinal direction 13, the inner cavity rotation of fixes sleeve 13 is interspersed with shaft 1, and the front side of shaft 1 is socketed with shaft end sleeve 15, shaft end sleeve 15 lateral wall is connected with four groups of splicing struts 16 being uniformly distributed along the circumference, and the free terminal of splicing strut 16 is connected with splicing cylinder 17, cooperation, the nozzle edge and pressure of splicing cylinder 17 are docked with the right side butt end of compression chamber 6 positioned at the splicing cylinder 17 of left side station The right side butt end bore of contracting chamber 6 is in the same size, and is set as inclination interface, so that the right side of splicing cylinder 17 and compression chamber 6 Butt end can seal docking cooperation, and the left side of support column 12 is equipped with driving motor 19, driving electricity by motor mount 18 It is sequentially connected between the rear side power output end of machine 19 and the rear side end of shaft 1 by Geneva mechanism 20, Geneva mechanism 20 wraps Active driver plate 201 and driven sheave 1 are included, active driver plate 201 and driven sheave 1 are socketed on driving motor 19 respectively In the rear side end of rear side power output end and shaft 1, it is provided on active driver plate 201 and stirs round pin, driven sheave 1 On offer four groups with stir the mutually matched radial slot of round pin, Geneva mechanism 20 is four station interval sheaves, and playing will drive The continuous movement of motor 19 is converted to the effect of the intermittent movement of splicing cylinder 17, and 17 bottom of splicing cylinder of lower section station, which is provided with, to be connect Truck 21, driving motor 19 are electrically connected by control switch and extraneous power supply.

One concrete application of the present embodiment are as follows: the present apparatus is a kind of hydraulic engineering mud except water collecting device, in use, It will be dug with water slurry by digging machine scraper bowl or other desilting equipments and be packed into feeding warehouse 11, band water slurry is fallen by feeding warehouse 11 In seal washer 6, the initial position of compression piston plate 10 is located at the left side of feeding warehouse 11, and seal washer 6 and splicing cylinder 17 are pair State is connect, after band water slurry is fallen completely within, starts compression hydraulic cylinder 9, compression hydraulic cylinder 9 is made to push compression piston plate 10 right It moves, the inner cavity for all coming together in right side splicing cylinder 17 is pushed with the compressed piston plate 10 of water slurry, continue to promote compression piston plate 10,10 pairs of band water slurries of compression piston plate are squeezed, are oozed out from water seepage hole 102 with the moisture in water slurry, filter screen 103 filtration can prevent the sandy soil in mud from oozing out with moisture, as the moisture in mud gradually decreases, mud quality by It is decrescence light, and cake bulk, retraction compression hydraulic cylinder 9 to retracted position finally are formed in the intracavity bottom of splicing cylinder 17, and return Contracting docking hydraulic cylinder 8 makes compression chamber 6 with docking hydraulic cylinder 8 due to the slip cooperating relationship of docking sliding rail 4 and docking sliding block 5 Contraction is moved to the left, i.e., the right end of compression chamber 6 is docked with the disengaging of splicing cylinder 17, starts driving motor 19, and driving motor 19 passes through The rotation of 20 drive shaft 1 of Geneva mechanism, Geneva mechanism 20 is the sheave of four stations, and each station corresponds respectively to four groups Splicing cylinder 17, driving motor 19 are single-phase asynchronous The gear deceleration speed regulating motor, have speed regulation device, pass through the tune of driving motor 19 Speed variator can control the rotational frequency of Geneva mechanism 20, so that one station of every rotation of splicing cylinder 17, device can just be suppressed One mud block, after being filled with mud block in the splicing cylinder 17 for being located at left side, splicing cylinder 17 just turns to lower section station, connects Mud block in barrel 17 is fallen into splicing vehicle 21 due to gravity；And above-mentioned docking hydraulic cylinder 8,9 and of compression hydraulic cylinder Driving motor 19 is that the art often uses executive component, and working principle and application method are the related skill of the art Common knowledge known to art personnel, therefore do not repeat more.

Embodiment two

The difference is that, as illustrated in figures 4-5, it is provided with the support column 12 existed side by side on the right side of pre-buried pedestal 1 with embodiment one, supports 12 top movable of column is connected with shaft 1, and the shaft 1 between two support columns 12 is provided with shaft end sleeve 15, branch Dagger 12 is gradually curved to the left and in opposite directions.Driven sheave 1 is sequentially connected with driven sheave 2 203, active driver plate 201 and from Dynamic sheave 2 203 is socketed on respectively on the rear side power output end of driving motor 19 and the rear side end of shaft 1；Active driver plate 201 are provided with a straight pin, and driven sheave 1 is provided with the straight pin cooperation with active driver plate 201 more than four Radial slot；Driven sheave 1 is provided with a straight pin, and there are four the settings of driven sheave 2 203 and driven sheave 1 The radial slot of straight pin cooperation.Driven sheave 1 is sequentially connected with driven sheave 3 204 and driven sheave 4 205, driven slot It takes turns 3 204 and is sequentially connected with turbine and worm mechanism 1, driven sheave 4 205 is sequentially connected with turbine and worm mechanism 2 23, whirlpool The other end of worm and gear mechanism one and turbine and worm mechanism two is coaxially connected with gear 1, and gear 1 is engaged with gear two 25, gear 2 25 is provided centrally with circular hole and is actively socketed on the end of compression chamber 6, and the cylindrical hole of gear 2 25 is located at compression chamber 6 side has been disposed radially inwardly annular ridge 251, and 6 outer wall of compression chamber, which is provided with snap ring, makes gear 2 25 only with respect to compression chamber 6 There is the freedom degree around 2 25 axis rotation of gear；The end of splicing cylinder 17 is provided with radially outer discontinuity fin 1, tooth 2 25 cylindrical hole is taken turns to be located at the side of splicing cylinder 17 and be disposed radially inwardly discontinuity fin 2 252.

In the description of this specification, the description of reference term " one embodiment ", " example ", " specific example " etc. means Particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least one implementation of the invention In example or example.In the present specification, schematic expression of the above terms may not refer to the same embodiment or example. Moreover, particular features, structures, materials, or characteristics described can be in any one or more of the embodiments or examples to close Suitable mode combines.

Present invention disclosed above preferred embodiment is only intended to help to illustrate the present invention.There is no detailed for preferred embodiment All details are described, are not limited the invention to the specific embodiments described.Obviously, according to the content of this specification, It can make many modifications and variations.These embodiments are chosen and specifically described to this specification, is in order to better explain the present invention Principle and practical application, so that skilled artisan be enable to better understand and utilize the present invention.The present invention is only It is limited by claims and its full scope and equivalent.

Claims (9)

1. a kind of hydraulic engineering mud removes water collecting device, including pre-buried pedestal (1), it is characterised in that: the pre-buried pedestal (1) Top left side be provided with fixed supporting foot (2), be provided with mounting plate (3) at the top of the fixed supporting foot (2), it is described The top right side of mounting plate (3) is provided with docking sliding rail (4), and the top movable of docking sliding rail (4) is connected with docking Sliding block (5) is provided with compression chamber (6) at the top of the docking sliding block (5), and the top right side of the mounting plate (3) passes through Mounting base (7), which is equipped with, docks hydraulic cylinder (8), outside the right side telescopic end of docking hydraulic cylinder (8) and the left side of compression chamber (6) Wall is connected, and is equipped with compression hydraulic cylinder (9) in the middle part of the left side outer wall of the compression chamber (6), the right side of the compression hydraulic cylinder (9) Side telescopic end protrudes into 6 inside of compression chamber and is socketed and is provided with compression piston plate (10), the lateral wall of the compression piston plate (10) Interior compression chamber (6) inner sidewall closed abutting is provided with and communicated with feeding warehouse (11), the compression chamber at the top of the compression chamber (6) (6) right side is open butt end, the docking hydraulic cylinder (8) and compression hydraulic cylinder (9) respectively by control switch with outside The hydraulic power supply device in boundary is connected；

The support column (12) existed side by side is provided on the right side of the pre-buried pedestal (1), support column (12) top movable, which is connected with, to be turned Axis one (14), the shaft one (14) being located between two support columns (12) are provided with shaft end sleeve (15), the axis The lateral wall of end cap cylinder (15) is connected with four groups of splicing struts (16) being uniformly distributed along the circumference, the freely end of the splicing strut (16) End is connected with splicing cylinder (17), and the splicing cylinder (17) positioned at left side station is docked with the right side butt end of compression chamber (6) matches It closes, the rear side of the support column (12) is equipped with driving motor (19) by motor mount (18), the driving motor (19) Rear side power output end and shaft one (14) rear side end between by Geneva mechanism (20) be sequentially connected, the lower section station Splicing cylinder (17) bottom be provided with splicing vehicle (21), the driving motor (19) passes through control switch and extraneous power supply electricity Property connection.

2. a kind of hydraulic engineering mud according to claim 1 removes water collecting device, it is characterised in that: the Geneva mechanism It (20) include active driver plate (201), the active driver plate (201) is sequentially connected with driven sheave one (202), the driven sheave One (202) are sequentially connected with driven sheave two (203), and the active driver plate (201) and driven sheave two (203) are socketed on respectively On the rear side power output end of driving motor (19) and the rear side end of shaft one (14)；The active driver plate (201) is provided with one A straight pin, the driven sheave one (202) are provided with the straight pin cooperation with the active driver plate (201) more than four Radial slot；The driven sheave one (202) is provided with a straight pin, and there are four driven sheave two (203) settings and institute State the radial slot of the straight pin cooperation of driven sheave one (202).

3. a kind of hydraulic engineering mud according to claim 1 removes water collecting device, it is characterised in that: the driven sheave One (202) are sequentially connected with driven sheave three (204) and driven sheave four (205), driven sheave three (204) transmission connection There is turbine and worm mechanism one (13), the driven sheave four (205) is sequentially connected with turbine and worm mechanism two (23), the turbine Worm mechanism one and the other end of turbine and worm mechanism two are coaxially connected with gear one (24), and gear one (24) engagement is with teeth Two (25) are taken turns, the gear two (25) is provided centrally with circular hole and is actively socketed on the end of the compression chamber (6), the gear The side that the cylindrical hole of two (25) is located at the compression chamber (6) has been disposed radially inwardly annular ridge (251), the compression chamber (6) outer wall, which is provided with snap ring, turns the relatively described compression chamber (6) of the gear two (25) only around gear two (25) axle center Dynamic freedom degree；The end of the splicing cylinder (17) is provided with radially outer discontinuity fin one (171), the gear two (25) side that cylindrical hole is located at the splicing cylinder (17) has been disposed radially inwardly discontinuity fin two (252).

4. a kind of hydraulic engineering mud according to claim 1 removes water collecting device, it is characterised in that: the compression piston Plate (10) be the cavity structure cylindrical body with side open end, the inner cavity right side wall of the compression piston plate (10) be provided with The installation sleeve (104) that the telescopic end of docking hydraulic cylinder (8) socket-connects, the circumferential side wall of the compression piston plate (10) are provided with The right-hand end of rubber seal (101), the compression piston plate (10) is uniformly provided with water seepage hole (102), the compression piston The right side wall of plate (10) is fixedly installed filter screen (103).

5. a kind of hydraulic engineering mud according to claim 2 removes water collecting device, it is characterised in that: the filter screen (103) mesh diameter is 0.3-0.5 millimeters.

6. a kind of hydraulic engineering mud according to claim 1 removes water collecting device, it is characterised in that: the splicing cylinder (17) the right side butt end bore at nozzle edge and compression chamber (6) is in the same size, it is described and be set as inclination interface.

7. a kind of hydraulic engineering mud according to claim 1 removes water collecting device, it is characterised in that: the compression chamber (6) right side interface is provided with seal washer.

8. a kind of hydraulic engineering mud according to claim 1 removes water collecting device, it is characterised in that: the compression chamber (6) bottom left is provided with discharge outlet (22).

9. a kind of hydraulic engineering mud according to claim 1 removes water collecting device, it is characterised in that: the support column (12) it is gradually curved to the left and in opposite directions.