CN214618529U - Lifting mechanism of mobile pump station and mobile pump station - Google Patents

Abstract

The utility model discloses a lifting mechanism of a mobile pump station and the mobile pump station, wherein the lifting mechanism of the mobile pump station comprises a sliding mechanism, a turnover mechanism and a lifting support; the lifting support comprises a first cross beam and a second cross beam, the first cross beam and the second cross beam are arranged in parallel and are both arranged at a movable chassis of the movable pump station; the sliding mechanism comprises a sliding rail, a sliding piece and a sliding driving mechanism; the sliding piece is arranged at the sliding rail in a linear moving manner, and the moving direction of the sliding piece is orthogonal to the first cross beam; the sliding driving mechanism is used for driving the sliding piece to move linearly; the middle parts of the sliding rails are hinged to the first cross beam; the turnover mechanism comprises a turnover driving mechanism, the turnover driving mechanism is hinged to the second cross beam, the output end of the turnover driving mechanism is hinged to the slide rail, and the turnover oil cylinder drives the drainage mechanism to turn over. The mobile pump station comprises a mobile chassis, a lifting mechanism and a drainage mechanism, wherein the lifting mechanism is the lifting mechanism of the mobile pump station. The utility model has the advantage of stable structure.

Description

Lifting mechanism of mobile pump station and mobile pump station

Technical Field

The utility model relates to an emergency drainage equipment field of speedily carrying out rescue work especially relates to a remove lifting mechanism and removal pump station of pump station.

Background

The movable pump station is drainage equipment for emergency rescue and disaster relief, can conveniently work in various environments, and is provided with a lifting mechanism on a movable chassis, wherein the lifting mechanism can move the drainage mechanism to the outside of the movable chassis and realize downward overturning of the drainage mechanism, so that the drainage mechanism can extend into water to be drained. The lifting mechanism of the existing mobile pump station is directly arranged on a mobile chassis, the mounting structure of the lifting mechanism is unstable, and the setting height of the drainage mechanism only depends on the height of the mobile chassis.

SUMMERY OF THE UTILITY MODEL

Therefore, a lifting mechanism for moving the pump station and the mobile pump station need to be provided to solve the problem that the lifting mechanism for moving the pump station in the prior art is unstable in structure.

In order to achieve the purpose, the inventor provides a lifting mechanism of a mobile pump station, which comprises a sliding mechanism, a turnover mechanism and a lifting support;

the lifting support comprises a first cross beam and a second cross beam, the first cross beam and the second cross beam are arranged in parallel and are both arranged at a movable chassis of the movable pump station;

the sliding mechanism comprises a sliding rail, a sliding piece and a sliding driving mechanism; the sliding piece is arranged at the sliding rail in a linearly movable manner, and the moving direction of the sliding piece is orthogonal to the first cross beam; the sliding driving mechanism is in transmission connection with the sliding piece and is used for driving the sliding piece to move linearly relative to the sliding rail; the middle parts of the sliding rails are hinged to the first cross beam;

the turnover mechanism comprises a turnover driving mechanism, the turnover driving mechanism is hinged to the second cross beam, the output end of the turnover driving mechanism is hinged to the slide rail, and the output end of the turnover oil cylinder stretches to drive the drainage mechanism and the sliding mechanism to turn over up and down.

As a preferred structure of the utility model, the lifting support still includes the longeron, the longeron is on a parallel with the rectilinear movement direction of slider, and connects first crossbeam and second crossbeam.

As a preferred structure of the present invention, the longitudinal beam is provided with at least two.

As a preferred structure of the utility model, the lifting support is equipped with first articulated slab, the middle part of slide rail is equipped with the second articulated slab, first articulated slab and second articulated slab are articulated through the round pin axle.

As a preferred structure of the utility model, the sliding mechanism and the turnover mechanism are provided with two sets, the two sets of sliding mechanisms are arranged side by side, and the moving directions of the sliding parts of the two sets of sliding mechanisms are arranged in parallel; the output ends of the turnover driving mechanisms of one group of turnover mechanisms are hinged to the slide rails of one group of sliding mechanisms, and the output ends of the turnover driving mechanisms of the other group of turnover mechanisms are hinged to the slide rails of the other group of sliding mechanisms.

As the utility model discloses a preferred structure, slide actuating mechanism is the slip hydro-cylinder, upset actuating mechanism is the upset hydro-cylinder.

Different from the prior art, the lifting mechanism of the mobile pump station in the technical scheme is provided with the lifting support with the first cross beam and the second cross beam, the slide rail of the lifting mechanism is hinged with the first cross beam, and the overturning driving mechanism of the lifting mechanism is hinged with the second cross beam, so that the stability of the lifting mechanism is improved; in addition, the setting height of the drainage mechanism can be improved by setting the setting height of the lifting support.

The inventor also provides a mobile pump station, which comprises a mobile chassis, a lifting mechanism and a drainage mechanism, wherein the lifting mechanism is any one of the lifting mechanisms of the mobile pump station, and the drainage mechanism is arranged at a sliding part of the sliding mechanism.

As an optimized structure of the utility model, the mobile chassis is a caterpillar chassis.

Different from the prior art, in the mobile pump station in the technical scheme, the lifting mechanism is provided with the lifting support with the first cross beam and the second cross beam, the slide rail of the lifting mechanism is hinged with the first cross beam, and the overturning driving mechanism of the lifting mechanism is hinged with the second cross beam, so that the stability of the lifting mechanism is improved; in addition, the setting height of the drainage mechanism can be improved by setting the setting height of the lifting support.

Drawings

Fig. 1 is an installation diagram of a lifting mechanism of a mobile pump station according to an embodiment of the present invention;

fig. 2 is a top view of a lifting mechanism of a mobile pump station according to an embodiment of the present invention;

fig. 3 is a structural diagram of a mobile pump station according to an embodiment of the present invention.

Description of reference numerals:

1. a slide rail; 100. a second hinge plate;

2. a slider;

3. a sliding oil cylinder;

4. turning over the oil cylinder;

5. a first cross member; 500. a first hinge plate;

6. a second cross member;

7. a stringer;

8. a pin shaft;

9. moving the chassis;

10. a drainage mechanism.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

The utility model provides a lifting mechanism of mobile pump station for the drainage mechanism 10 of drive mobile pump station, so that drainage mechanism 10 can stretch into the aquatic of treating getting rid of, or receive to close to the removal chassis 9 of mobile pump station in, especially the structure is firm.

Referring to fig. 1 and 2, in an embodiment, the lifting mechanism of the mobile pump station includes a sliding mechanism, a turnover mechanism and a lifting bracket; the sliding mechanism is used for driving the drainage mechanism 10 to move linearly so that a water inlet of the drainage mechanism 10 moves out of the movable chassis 9 of the movable pump station or is withdrawn into the movable chassis 9 of the movable pump station; the turnover mechanism is used for driving the sliding mechanism provided with the drainage mechanism 10 to turn over up and down so as to enable the sliding mechanism and the drainage mechanism 10 to turn over up and down together, and therefore the water inlet of the drainage mechanism 10 extends into water to be drained; the lifting support is used for placing a sliding mechanism and a turnover mechanism,

the lifting support comprises a first cross beam 5 and a second cross beam 6, the first cross beam 5 and the second cross beam 6 are arranged in parallel and are arranged at the position of a moving chassis 9 of the moving pump station, specifically, the first cross beam 5 and the second cross beam 6 can be orthogonal to the direction of the moving chassis 9 to move forward or backward, when the sliding mechanism and the turnover mechanism are arranged on the lifting support, the water inlet of the drainage mechanism 10 is in the same direction as the direction of the moving chassis 9 of the moving pump station to move forward or backward, and drainage operation is convenient to perform.

The sliding mechanism comprises a sliding rail 1, a sliding part 2 and a sliding driving mechanism; the sliding part 2 is arranged at the sliding rail 1 in a linearly movable manner, and the moving direction of the sliding part 2 is orthogonal to the first cross beam 5; the sliding driving mechanism is in transmission connection with the sliding part 2 and is used for driving the sliding part 2 to linearly move relative to the sliding rail 1; the middle parts of the sliding rails 1 are hinged to the first cross beam 5.

The sliding driving mechanism can be a sliding oil cylinder 3, the body of the sliding oil cylinder 3 is connected with the sliding rail 1, the axial direction of a piston rod of the sliding oil cylinder 3 is consistent with the linear movement direction of the sliding piece 2, the piston rod of the sliding oil cylinder 3 is connected with the sliding piece 2, the piston rod of the sliding oil cylinder 3 is made to stretch, the sliding piece 2 can be driven to linearly move relative to the sliding rail 1, if the sliding piece 2 is required to drive the drainage mechanism 10 to linearly move forwards, the piston rod of the sliding oil cylinder 3 is extended, the sliding piece 2 is required to drive the drainage mechanism 10 to linearly move backwards, and the piston rod of the sliding oil cylinder 3 is shortened.

The turnover mechanism comprises a turnover driving mechanism, the turnover driving mechanism is hinged to the second cross beam 6, the output end of the turnover driving mechanism is hinged to the sliding rail 1, and the output end of the turnover oil cylinder 4 stretches to drive the drainage mechanism 10 and the sliding mechanism to turn over up and down. The overturning driving mechanism can be an overturning oil cylinder 4, the body of the overturning oil cylinder 4 is hinged to the movable chassis 9, and the piston rod of the overturning oil cylinder 4 is hinged to the sliding rail 1.

When needing the drainage, tilting mechanism's upset actuating mechanism drives slide mechanism and the upset of drainage mechanism 10 to make the water inlet upset of drainage mechanism 10 extremely down, slide mechanism's slip actuating mechanism drives 2 rectilinear movement of slider, in order to drive drainage mechanism 10 rectilinear movement, until the water inlet of drain pipe stretches into the aquatic, then can start the water pump, carry out the drainage operation.

The lifting mechanism is characterized in that a lifting support with a first cross beam 5 and a second cross beam 6 is arranged, a sliding rail 1 of the lifting mechanism is hinged to the first cross beam 5, a turnover driving mechanism of the lifting mechanism is hinged to the second cross beam 6, the stability of the lifting mechanism is improved, a hinge point of a body of a turnover oil cylinder 4, a hinge point of a piston rod of the turnover oil cylinder 4 and a hinge point of the sliding rail 1 and a movable chassis 9 are not the same, and three hinge points form three vertexes of a triangle; in addition, the setting height of the lifting support is set, so that the setting height of the drainage mechanism 10 can be improved, for example, the first cross beam 5 and the second cross beam 6 are arranged at a movable base of a movable pump station through vertical beams.

In a further embodiment, the lifting bracket further comprises longitudinal beams 7, the longitudinal beams 7 are parallel to the linear moving direction of the sliding member 2 and are connected with the first cross beam 5 and the second cross beam 6, such an arrangement can enable the structure of the lifting bracket to be more stable, specifically, the longitudinal beams 7 can be at least two, and the longitudinal beams 7 are sequentially arranged along the linear moving direction of the sliding member 2.

In order to hinge the middle part of the sliding rail 1 with the first cross beam 5, in one embodiment, the lifting bracket is provided with a first hinge plate 500, the middle part of the sliding rail 1 is provided with a second hinge plate 100, and the first hinge plate 500 and the second hinge plate 100 are hinged through a pin 8.

Because the lifting mechanism is used for driving the drainage mechanism 10, in order to ensure that the drainage mechanism 10 is stably driven, in a further embodiment, two sets of sliding mechanisms and two sets of overturning mechanisms are arranged, the two sets of sliding mechanisms are arranged side by side, the moving directions of the sliding parts 2 of the two sets of sliding mechanisms are arranged in parallel, in addition, a gap for installing the drainage mechanism 10 is reserved between the two sliding parts 2, the middle parts of the sliding rails 1 of the two sets of sliding mechanisms are hinged to the first cross beam 5, so that the two sets of sliding mechanisms can be overturned upwards or downwards relative to the moving chassis 9 to drive the drainage mechanism 10 to be overturned upwards or downwards, and the linear moving directions of the sliding parts 2 of the two sets of sliding mechanisms are also parallel to the advancing direction or the retreating direction of the moving chassis 9.

The drainage mechanism 10 is arranged between the two sets of sliding mechanisms, and the sliding parts 2 of the two sets of sliding mechanisms are connected with the drainage mechanism 10. The turnover driving mechanisms of the two turnover mechanisms are hinged to the second cross beam 6, the output ends of the turnover driving mechanisms of the turnover mechanisms are hinged to the slide rails 1 of the sliding mechanisms, the output ends of the turnover driving mechanisms of the other turnover mechanism are hinged to the slide rails 1 of the other sliding mechanism, and the two turnover mechanisms can respectively drive the two sliding mechanisms to turn over so as to drive the drainage mechanism 10 to turn over.

Referring to fig. 3, the present invention further provides a mobile pump station, which includes a mobile chassis 9, a lifting mechanism and a drainage mechanism 10, wherein the mobile chassis 9 may be a track chassis, the lifting mechanism is the lifting mechanism of any of the mobile pump stations, and the drainage mechanism 10 is disposed at the sliding part 2 of the sliding mechanism.

The lifting mechanism is provided with a lifting support with a first cross beam 5 and a second cross beam 6, a slide rail 1 of the lifting mechanism is hinged with the first cross beam 5, and a turnover driving mechanism of the lifting mechanism is hinged with the second cross beam 6, so that the stability of the lifting mechanism is improved; in addition, by setting the setting height of the lifting bracket, the setting height of the drainage mechanism 10 can be increased.

When needing the drainage, tilting mechanism drives the upset of drainage mechanism 10 to make the water inlet upset of drainage mechanism 10 to down, slide mechanism drives drainage mechanism 10 rectilinear movement, and the water inlet that stretches into the aquatic until the drain pipe then can start the water pump, carries out the drainage operation.

It should be noted that, although the above embodiments have been described herein, the scope of the present invention is not limited thereby. Therefore, based on the innovative concept of the present invention, the changes and modifications of the embodiments described herein, or the equivalent structure or equivalent process changes made by the contents of the specification and the drawings of the present invention, directly or indirectly apply the above technical solutions to other related technical fields, all included in the scope of the present invention.

Claims (8)

1. A lifting mechanism of a mobile pump station is characterized by comprising a sliding mechanism, a turnover mechanism and a lifting support;

the lifting support comprises a first cross beam and a second cross beam, the first cross beam and the second cross beam are arranged in parallel and are both arranged at a movable chassis of the movable pump station;

the sliding mechanism comprises a sliding rail, a sliding piece and a sliding driving mechanism; the sliding piece is arranged at the sliding rail in a linearly movable manner, and the moving direction of the sliding piece is orthogonal to the first cross beam; the sliding driving mechanism is in transmission connection with the sliding piece and is used for driving the sliding piece to move linearly relative to the sliding rail; the middle parts of the sliding rails are hinged to the first cross beam;

the turnover mechanism comprises a turnover driving mechanism, the turnover driving mechanism is hinged to the second cross beam, the output end of the turnover driving mechanism is hinged to the slide rail, and the output end of the turnover oil cylinder stretches to drive the drainage mechanism and the sliding mechanism to turn over up and down.

2. The lifting mechanism of the mobile pump station according to claim 1, wherein the lifting bracket further comprises a longitudinal beam parallel to the linear movement direction of the sliding member and connecting the first cross beam and the second cross beam.

3. The lifting mechanism of the mobile pump station according to claim 2, wherein at least two longitudinal beams are provided.

4. The lifting mechanism of the mobile pump station according to claim 1, wherein the lifting support is provided with a first hinged plate, the middle part of the slide rail is provided with a second hinged plate, and the first hinged plate and the second hinged plate are hinged through a pin shaft.

5. The lifting mechanism of the mobile pump station according to claim 1, wherein the sliding mechanisms and the turnover mechanism are provided in two groups, the two groups of sliding mechanisms are arranged side by side, and the moving directions of the sliding parts of the two groups of sliding mechanisms are arranged in parallel; the output ends of the turnover driving mechanisms of one group of turnover mechanisms are hinged to the slide rails of one group of sliding mechanisms, and the output ends of the turnover driving mechanisms of the other group of turnover mechanisms are hinged to the slide rails of the other group of sliding mechanisms.

6. The lifting mechanism of the mobile pump station according to claim 1, wherein the slide driving mechanism is a slide cylinder and the tilt driving mechanism is a tilt cylinder.

7. A mobile pump station is characterized by comprising a mobile chassis, a lifting mechanism and a drainage mechanism, wherein the lifting mechanism is the lifting mechanism of the mobile pump station according to any one of claims 1 to 6, and the drainage mechanism is arranged at a sliding part of a sliding mechanism.

8. The mobile pump station of claim 7, wherein the mobile chassis is a crawler chassis.

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