CN220518111U - High-flow drainage emergency vehicle - Google Patents

Abstract

The utility model discloses a high-flow drainage rescue vehicle, which belongs to the technical field of emergency rescue equipment and comprises a rescue vehicle body, and is characterized in that: the first lifting frame is arranged in a carriage side cavity of the emergency vehicle body, a water pump is arranged on the first lifting frame, the first lifting frame comprises a first base, a first connecting rod, a first connecting frame and a first placing plate, the first base is fixedly arranged in the side cavity, the upper ends of the first base are respectively hinged with the lower ends of the two first connecting rods, the upper ends of the two first connecting rods are hinged with the upper ends of the first connecting frames, the first placing plate is arranged at the lower end of the first connecting frame, and the first base is connected with the first connecting frames through a telescopic device; the two first connecting rods are arranged in parallel, and the connecting line at the upper end hinge position and the connecting line at the lower end hinge position of the two first connecting rods are arranged in parallel. Compared with the prior art, the device has the characteristics of reducing the labor intensity of workers and improving the working efficiency.

Description

High-flow drainage emergency vehicle

Technical Field

The utility model relates to the technical field of emergency rescue equipment, in particular to a large-flow drainage rescue vehicle.

Background

Along with frequent occurrence of flood disasters, the drainage emergency vehicle gradually becomes main equipment for emergency drainage operation in emergency equipment. The drainage emergency vehicle can be suitable for urban waterlogging rescue such as highway tunnel, overpass and underpass water accumulation drainage, and can also be used for drought resistance and water regulation operations such as farmland ditch irrigation. The drainage emergency vehicle can carry various drainage equipment such as hosepipe, water pump and drainage robot when the drainage, but because equipment such as water pump, drainage robot are comparatively heavy, adopt artifical transport to arrange, not only have great potential safety hazard, waste time and energy moreover, influence the work efficiency of rescue.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides a large-flow drainage emergency vehicle, so that the purposes of reducing the labor intensity of workers, improving the working efficiency and stably placing a water pump and a drainage robot are achieved.

The utility model provides a large-flow drainage rescue vehicle, which comprises a rescue vehicle body; the method is characterized in that: the side wall of the carriage of the emergency vehicle body is provided with a side cavity, a first lifting frame is arranged in the side cavity, a water pump is arranged on the first lifting frame, the first lifting frame comprises a first base, first connecting rods, first connecting frames and first placing plates, the first base is fixedly arranged in the side cavity, the upper ends of the first base are respectively hinged with the lower ends of the two first connecting rods, the upper ends of the two first connecting rods are hinged with the upper ends of the first connecting frames, the first placing plates are arranged at the lower ends of the first connecting frames, and the first base is connected with the first connecting frames through telescopic devices; the two first connecting rods are arranged in parallel, the connecting line at the hinged position of the upper ends of the two first connecting rods is arranged in parallel with the connecting line at the hinged position of the lower ends, and the first base, the two first connecting rods and the first connecting frame form a parallelogram mechanism.

Further, a second lifting frame is arranged in the carriage of the emergency vehicle body, the second lifting frame comprises a sliding frame, a second connecting rod, a second connecting frame and a second placing plate, a hinged plate is arranged on the sliding frame, the upper ends of the hinged plate are hinged with the lower ends of the two second connecting rods, the upper ends of the two second connecting rods are hinged with the upper ends of the second connecting frames, the lower ends of the second connecting frames are provided with the second placing plate, and the hinged plate is connected with the second connecting frames through a telescopic device; the two second connecting rods are arranged in parallel, the connecting line at the upper end hinge position of the two second connecting rods is arranged in parallel with the connecting line at the lower end hinge position, and the hinge plate, the two second connecting rods and the second connecting frame form a parallelogram mechanism.

Further, the sliding frame is in sliding fit with the second base, a motor is installed on the second base, a motor shaft of the motor is connected with a screw rod through a coupler, one end of the screw rod is in rotating fit with the second base, a screw rod nut is installed at the lower end of the sliding frame, and the screw rod is matched with the screw rod nut.

Further, the two sides of the sliding frame are respectively provided with a sliding block, the second base is provided with a corresponding sliding way, and the sliding blocks are in sliding fit with the sliding ways on the second base.

Further, the telescopic device is a hydraulic telescopic cylinder, a pneumatic telescopic cylinder or an electric telescopic rod.

Compared with the prior art, the utility model has the following outstanding beneficial effects:

1. the utility model is provided with a first lifting frame, the first lifting frame comprises a first base, a first connecting rod, a first connecting frame and a first placing plate, the first base, the two first connecting rods and the first connecting frame form a parallelogram mechanism, and when the telescopic device stretches, the first placing plate can always keep parallel with the ground in the moving process due to the action of the parallelogram mechanism;

2. the utility model is provided with a second lifting frame, the second lifting frame comprises a second base, a sliding frame, a second connecting rod, a second connecting frame and a second placing plate, the hinged plate, the two second connecting rods and the second connecting frame form a parallelogram mechanism, and when the telescopic device stretches, the second placing plate can always keep parallel with the ground in the moving process due to the action of the parallelogram mechanism.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of the first lifting frame of the present utility model.

Fig. 3 is a schematic structural view of the second lifting frame of the present utility model.

Detailed Description

The utility model is further described below with reference to the drawings and the detailed description.

As shown in fig. 1, the utility model comprises an emergency vehicle body 1, a first lifting frame 2 and a second lifting frame 3.

The emergency vehicle body 1 is in the prior art, and the specific structure thereof is not described again.

As shown in fig. 2, a side cavity is formed in a side wall of a carriage of the rescue vehicle body 1, a first lifting frame 2 is installed in the side cavity, a water pump is placed on the first lifting frame 2, the first lifting frame 2 comprises a first base 201, first connecting rods 202, first connecting frames 203 and first placing plates 204, the first base 201 is fixedly installed on two sides of the side cavity respectively, the upper end of each first base 201 is hinged to the lower ends of the two first connecting rods 202 respectively, the upper ends of the two first connecting rods 202 are hinged to the upper ends of the first connecting frames 203, the first placing plates 204 are installed at the lower ends of the two first connecting frames 203, and the first placing plates 204 are provided with water pumps which are connected between the first base 201 and the first connecting frames 203 through telescopic devices.

The two first connecting rods 202 are arranged in parallel, and the connecting lines of the upper end hinge positions and the connecting lines of the lower end hinge positions of the two first connecting rods 202 are arranged in parallel, so that the first base 201, the two first connecting rods 202 and the first connecting frame 203 form a parallelogram mechanism, when the telescopic device stretches, the first placing plate 204 can be driven to ascend or descend, and due to the effect of the parallelogram mechanism, the first placing plate 204 can always keep parallel with the ground in the moving process.

As shown in fig. 3, the second lifting frame 3 is installed in the carriage of the rescue vehicle body 1, the second lifting frame 3 includes a second base 301, a sliding frame 303, a second connecting rod 307, a second connecting frame 306 and a second placing plate 304, the second base 301 is fixedly installed in the carriage of the rescue vehicle body 1, the second base 301 is in sliding fit with the sliding frame 303, two sides of the sliding frame 303 are respectively provided with a sliding block, the second base 301 is provided with a corresponding sliding way, the sliding blocks are in sliding fit with the sliding ways on the second base 301, a motor 302 is installed on the second base 301, a motor shaft of the motor 302 is connected with a screw 305 through a coupler, one end of the screw 305 is in running fit with the second base 301, a screw nut is installed at the lower end of the sliding frame 303, the screw 305 is matched with the screw nut, two sides of the sliding frame 303 are respectively installed with a hinged plate 308, the upper end of each hinged plate 308 is respectively hinged with the lower ends of the two second connecting rods 307, the upper ends of the two second connecting frames 306 are respectively hinged with the upper ends of the second connecting frame 304, the lower ends of the two second connecting frames 306 are installed with the second placing plate 304, and a second placing plate 306 is connected with a telescopic device through a telescopic device.

The two second connecting rods 307 are arranged in parallel, and the connecting lines of the upper end hinge positions and the connecting lines of the lower end hinge positions of the two second connecting rods 307 are arranged in parallel, so that the hinge plates 308, the two second connecting rods 307 and the second connecting frame 306 form a parallelogram mechanism, when the telescopic device stretches, the second placing plate 304 can be driven to ascend or descend, and due to the effect of the parallelogram mechanism, the second placing plate 304 can always keep parallel with the ground in the moving process.

The telescopic device is a hydraulic telescopic cylinder, a pneumatic telescopic cylinder or an electric telescopic rod.

The operation flow is as follows: when the utility model is used, when the water pump needs to be dismounted from the carriage, the telescopic device is started, the telescopic device stretches to drive the first connecting frame 203 to rotate, and the first placing plate 204 drives the water pump to fall from the side cavity of the rescue vehicle body 1. When the drainage robot needs to be detached from the carriage, the motor 302 is started, the motor 302 drives the screw rod 305 to rotate, the screw rod 305 drives the sliding frame 303 to move, the sliding frame 303 drives the second placing plate 304 to move to the position of the opening of the carriage cavity of the rescue vehicle body 1, the telescopic device is started, the telescopic device stretches to drive the second connecting frame 306 to rotate, and the second placing plate 304 drives the drainage robot to fall from the carriage cavity of the rescue vehicle body 1.

It is noted that while the present utility model has been described in detail with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various modifications can be made therein without departing from the spirit and scope thereof.

Claims (5)

1. The large-flow drainage emergency vehicle comprises an emergency vehicle body (1); the method is characterized in that: the side wall of the carriage of the emergency vehicle body (1) is provided with a side cavity, a first lifting frame (2) is arranged in the side cavity, a water pump is arranged on the first lifting frame (2), the first lifting frame (2) comprises a first base (201), a first connecting rod (202), a first connecting frame (203) and a first placing plate (204), the first base (201) is fixedly arranged in the side cavity, the upper ends of the first base (201) are respectively hinged with the lower ends of the two first connecting rods (202), the upper ends of the two first connecting rods (202) are hinged with the upper ends of the first connecting frames (203), the lower ends of the first connecting frames (203) are provided with the first placing plate (204), and the first base (201) and the first connecting frames (203) are connected through a telescopic device; the two first connecting rods (202) are arranged in parallel, the connecting line of the upper end hinge position and the connecting line of the lower end hinge position of the two first connecting rods (202) are arranged in parallel, and the first base (201), the two first connecting rods (202) and the first connecting frame (203) form a parallelogram mechanism.

2. The high flow drainage emergency vehicle of claim 1, wherein: the second lifting frame (3) is arranged in the carriage of the emergency vehicle body (1), the second lifting frame (3) comprises a sliding frame (303), a second connecting rod (307), a second connecting frame (306) and a second placing plate (304), a hinged plate (308) is arranged on the sliding frame (303), the upper ends of the hinged plate (308) are hinged with the lower ends of the two second connecting rods (307), the upper ends of the two second connecting rods (307) are hinged with the upper ends of the second connecting frame (306), the second placing plate (304) is arranged at the lower end of the second connecting frame (306), and the hinged plate (308) is connected with the second connecting frame (306) through a telescopic device; the two second connecting rods (307) are arranged in parallel, the connecting line of the upper end hinge position of the two second connecting rods (307) is arranged in parallel with the connecting line of the lower end hinge position, and the hinge plates (308), the two second connecting rods (307) and the second connecting frame (306) form a parallelogram mechanism.

3. The high flow drainage emergency vehicle of claim 2, wherein: the sliding frame (303) is in sliding fit with the second base (301), a motor (302) is arranged on the second base (301), a motor shaft of the motor (302) is connected with a screw rod (305) through a coupler, one end of the screw rod (305) is in rotating fit with the second base (301), a screw rod nut is arranged at the lower end of the sliding frame (303), and the screw rod (305) is matched with the screw rod nut.

4. A high flow drainage emergency vehicle according to claim 3, wherein: the sliding frame (303) is characterized in that sliding blocks are respectively arranged on two sides of the sliding frame (303), corresponding sliding ways are arranged on the second base (301), and the sliding blocks are in sliding fit with the sliding ways on the second base (301).

5. The high flow drainage emergency vehicle according to claim 1 or 2, wherein: the telescopic device is a hydraulic telescopic cylinder, a pneumatic telescopic cylinder or an electric telescopic rod.