LU500107B1 - Self-advancing Dirt dredging-suction-filtering Circulating Device - Google Patents

Abstract

The present invention provides a self-advancing dirt dredging-suction-filtering circulating device, comprising a rotary self-advancing sprinkler, a front suction sleeve, a rear suction sleeve and a water tank. The left end of the front suction sleeve is provided with curved beams and support beams, the front suction sleeve is also provided with valves, the right end of the front suction sleeve is connected with the rear suction sleeve through a rubber hose A, the rear suction sleeve is connected to the upper side of the left chamber of the water tank through a rubber hose B, the left end of the left chamber of the water tank is connected to a vacuum suction pump, , the upper side of the right chamber of the water tank is connected to a high-pressure water pump through a high-pressure hose C, and the water pump is connected to the rotary self-advancing sprinkler.

Description

Self-advancing Dirt dredging-suction-filtering Circulating Device 500107 Field of the Invention The present invention relates to the technical field of high-pressure water jet equipment design, in particular to a self-advancing dirt dredging-suction-filtering circulating device.

Background of the Invention Compared to traditional manual cleaning, mechanical cleaning and chemical cleaning, high-pressure water jet cleaning has such features as high efficiency, no environmental pollution, good cost efficiency, no damage to equipment molds, easy implementation, mechanization, modernization as well as intelligent control.

In addition, it can also be applied in cleaning of complexly-shaped equipment and complexly-structured components, cleaning in limited space and severe environment, complex long-distance operation and cleaning in challenging dangerous locations.

However, the dirt after cleaning by using the existing high-pressure water jet cleaning devices may stay in the pipeline or equipment and cannot be removed easily; plenty of water used for cleaning cannot be recycled, leading to water waste.

Summary of the Invention The present invention provides a self-advancing dirt dredging-suction-filtering circulating device to overcome the shortcomings of the prior art.

To achieve the above purpose, the prevent invention applies the following technical solutions: a self-advancing dirt dredging-suction-filtering circulating device, wherein, the self-circulating system comprises a rotary self-advancing sprinkler, a front suction sleeve, a rear suction sleeve and a water tank.

The left side of the front suction sleeve is provided with curved beams, and the front suction sleeve and the rear suction sleeve are both provided with internal support beams, the front suction sleeve is also provided with an internal valve that is on the right end of the support beam in the front suction sleeve, and a high-pressure rigid tube A is installed inside to connect the curved beam, the support beam in the front suction sleeve and the valve, and the right end of the front suction sleeve is connected to a rubber hose A, the right end of the rubber hose is connected to the rear suction sleeve that is provided with a high-pressure rigid tube B through the support beam in the rear suction sleeve, the lower side of the rear suction sleeve is connected to a rubber hose B, the lower end of the rubber hose B is connected to the upper side of the water tank, the rubber hose B is also located on the left side of the water tank, the left side of the left chamber of the water tank is connected to the vacuum suction pump, the water tank is installed with an 00107 internal filter device, the upper side of the right chamber of the water tank is connected to a high-pressure hose C, and the other end of the high-pressure hose C is connected to a high-pressure water pump, the other end of the high-pressure water pump is connected to a high-pressure hose A, the other end of the high-pressure hose A is connected to a high-pressure rigid tube B, the other end of the high-pressure rigid tube B is connected to a high-pressure hose B, the other end of the high-pressure hose B is connected with a high-pressure rigid tube A, and the other end of the high-pressure rigid tube A is connected to the rotary self-advancing sprinkler.

The front suction sleeve is connected to the high-pressure rigid tube A through the evenly distributed four support beams and four curved beams.

The rear suction sleeve is connected to the high-pressure rigid tube B through the evenly distributed four support beams.

For site application, the operator may choose a high-pressure hose B with appropriate length and diameter to connect the high-pressure rigid tube A and the high-pressure rigid tube B according to the actual situation of dirt dredging, cleaning and suction, and choose an appropriate rubber hose A to connect the front suction sleeve and the rear suction sleeve to effectively control the effective working length.

The operator may choose an appropriate rotary self-advancing sprinkler according to the actual situation of dirt dredging, cleaning and suction on site to control the feed speed and dredging and cleaning range by adjusting the angle and diameter of the rotary self-advancing sprinkler.

The sewage suction device shall be filled up with water before installation to increase efficiency of the suction device because the water will not flow out of the rotary self-advancing sprinkler due to the existence of the valve, which is designed for flow guide and sewage backflow-prevention.

The operation can be started only after the equipment installation check is completed.

First, the operator loads a certain amount of water on the right side of the water tank, and then turns on the high-pressure water pump and the vacuum suction pump.

The water from the water tank passes through the high-pressure hose C to the high-pressure water pump and then passes through the high-pressure hose A, the high-pressure rigid tube B, high-pressure tube C and high-pressure rigid tube A, and ejects from the rotary self-advancing sprinkler for dredging and cleaning operations.

At the same time, under the action of the vacuum suction pump, the sewage passes through the front suction sleeve, rubber hose A,

rear suction sleeve, and rubber hose B to the left side of the water tank. Then, the sewage passes or through the filter device to become the reusable water and reaches the right side of the water tank, thus completing a cycle. Next, such cycles continue until the completion of the dredging and cleaning operations. In case the self-advancing speed is slow due to insufficient force provided by the rotary self-advancing sprinkler, the tube may be manually forwarded under safe conditions for higher work efficiency.

Compared to the prior art, the present invention has the beneficial effect of realizing simultaneous self-advancing dirt dredging, absorption and filtering, preventing pipeline re-blockage or re-absorption to the inner wall by the dirt dredged, saving water and labor, significantly improving pipeline removal rate, and improving work efficiency By adjusting the pressure of the high-pressure water pump and the angle and diameter of the rotary self-advancing sprinkler, the feed speed and the dredging cleaning range may be controlled to realize self-advancing dredging and cleaning; the collision resistance with the pipeline may be reduced by setting the arc-shaped curved beam; the dirt suction capacity may be controlled by setting the pressure of the negative pressure suction pump, the opening diameter of the front suction sleeve and the rear suction sleeve; the water is controlled not to flow from the rotary self-advancing sprinkler to realize flow guide and sewage backflow-prevention by setting a valve in the front suction sleeve, and the efficiency of the suction device may be increased by filling it up with water before installation; water resource can be reused by setting the filtering device in the water tank; the effective working range and working environment may be controlled effectively by setting the length, diameter and materials of the high-pressure hose and rubber hose connected among all parts of the device; the self-advancing circulation of dredging, cleaning, suction and filtering may be realized by setting the rotary self-advancing sprinkler, the front suction sleeve, the rear suction sleeve, the high-pressure water pump, the negative pressure suction pump and the water tank. Moreover, the device is simple in structure, easily operated, environment-friendly, economical and practical.

Brief Description of Drawings Fig. 1 is a schematic diagram of the structure of the present invention.

Fig. 2 is a schematic diagram of the front suction sleeve device.

Fig. 3 is a schematic diagram of the three-dimensional model of the front suction sleeve device. LU500107 Fig. 4 is a schematic diagram of the rear suction sleeve device. In the picture: 1. Rotary self-advancing sprinkler; 2. Front suction sleeve; 3. Rubber hose A;

4. Rear suction sleeve; 5. High-pressure rigid tube B; 6. High-pressure hose A; 7. High pressure water pump; 8. High pressure hose C; 9. Filter device; 10. Water tank; 11. Vacuum suction pump;

12. Rubber hose C; 13. Rubber hose B; 14, High pressure hose B; 15. High-pressure rigid tube A;

16. Valve device; 17. Support beam; 18. Curved beam. Detailed Description of the Preferred Embodiments The present invention is further described with reference to embodiments and drawings for a clear understanding of the purpose, technical solution and advantages of the present invention. It should be understood that the embodiments described herein are only for explaining and illustrating the Invention, and do not constitute any limitation to the present invention. As shown in Figs. 1, 2, 3 and 4, a self-advancing dirt dredging-suction-filtering circulating device, characterized by comprising a rotary self-advancing sprinkler 1, a front suction sleeve 2, a rear suction sleeve 4 and a water tank 10, wherein the left side of the front suction sleeve 2 is provided with curved beams 18, and the front suction sleeve 2 and the rear suction sleeve 4 are both provided with internal support beams 17, the front suction sleeve 2 is also provided with an internal valve 16 that is on the right end of the support beam 17 in the front suction sleeve 2, a high-pressure rigid tube A 15 is installed inside to connect the curved beam 18, the support beam 17 in the front suction sleeve 2 and the valve 16, the right end of the front suction sleeve 2 is connected to a rubber hose A 3, the right end of the rubber hose 3 is connected to a rear suction sleeve 4 that is provided with a high-pressure rigid tube B 5 through the support beam 17 in the rear suction sleeve 4, the lower side of the rear suction sleeve 4 is connected to a rubber hose B 13, the lower end of the rubber hose B 13 is connected to the upper side of the water tank 10, the rubber hose B 13 is also located on the left side of the water tank 10, the left side of the left chamber of the water tank 10 is connected to the vacuum suction pump 11, the water tank 10 is installed with an internal filter device 9, the upper side of the right chamber of the water tank 10 is connected to a high-pressure hose C 8, the other end of the high-pressure hose C 8 is connected to a high-pressure water pump 7, the other end of the high-pressure water pump 7 is connected to a high-pressure hose A 6, the other end of the high-pressure hose A 6 is connected to a high-pressure rigid tube B 5, the other end of the high-pressure rigid tube B 5 is connected to a high-pressure 00107 hose B 14, the other end of the high-pressure hose B 14 is connected with a high-pressure rigid tube A 15, and the other end of the high-pressure rigid tube A 15 is connected to the rotary self-advancing sprinkler 1. 5 As shown in Figs. 1, 2 and 3, the front suction sleeve 2 is connected to the high-pressure rigid tube A 15 through the evenly distributed four supporting beams 17 and four curved beams

18. As shown in Figs. 1 and 4, the rear suction sleeve 4 is connected to the high-pressure rigid tube B 5 through the evenly distributed four support beams 17. For site application, the operator may choose a high-pressure hose B 14 with appropriate length and diameter to connect the high-pressure rigid tube A 15 and the high-pressure rigid tube B 5 according to the actual situation of dirt dredging, cleaning and suction, and choose an appropriate rubber hose A 3 to connect the front suction sleeve 2 and the rear suction sleeve 4 to effectively control the effective working length. The operator may choose an appropriate rotary self-advancing sprinkler 1 according to the actual situation of dirt dredging, cleaning and suction on site to control the feed speed and dredging and cleaning range by adjusting the angle and diameter of the rotary self-advancing sprinkler 1. The sewage suction device shall be filled up with water before installation to increase efficiency of the suction device because the water will not flow out of the rotary self-advancing sprinkler 1 due to the existence of the valve 16, which is designed for flow guide and sewage backflow-prevention. The operation can be started only after the equipment installation check is completed. First, the operator loads a certain amount of water on the right side of the water tank 10, and then turns on the high-pressure water pump 7 and the vacuum suction pump 11. The water from the water tank passes through the high-pressure hose C 8 to the high-pressure water pump 7 and then passes through the high-pressure hose A 6, the high-pressure rigid tube B 5, high-pressure tube C 14 and high-pressure rigid tube A 15, and ejects from the rotary self-advancing sprinkler 1 for dredging and cleaning operations. At the same time, under the action of the vacuum suction pump 11, the sewage passes through the front suction sleeve 2, rubber hose A 3, rear suction sleeve 4, and rubber hose B 13 to the left side of the water tank 10. Then, the sewage passes through the filter device 9 to become the reusable water and reaches the right side of the water tank 10, thus completing a cycle. Next, such cycles continue until the completion of the dredging and cleaning operations.

In case the self-advancing 200107 speed is slow due to insufficient force provided by the rotary self-advancing sprinkler 1, the tube may be manually forwarded under safe conditions for higher work efficiency.

The foregoing is only a preferred embodiment of the present invention, and is not intended to limit the present invention.

Any modification, equivalent replacement and improvement made without departing from the spirit and principle of the present invention should fall within the protection scope of the present invention.

Claims (3)

Claims LU500107

1. A self-advancing dirt dredging-suction-filtering circulating device, characterized by comprising a rotary self-advancing sprinkler (1), a front suction sleeve (2), a rear suction sleeve (4) and a water tank (10), wherein the left end of the front suction sleeve (2) is provided with curved beams (18), and the front suction sleeve (2) and the rear suction sleeve (4) are both provided with internal support beams (17), the front suction sleeve (2) is also internally provided with a valve (16) that is on the right end of the support beam (17) in the front suction sleeve (2), a high-pressure rigid tube A (15) is installed inside to connect the curved beam (18), the support beam (17) in the front suction sleeve (2) and the valve (16), the right end of the front suction sleeve (2) is connected to a rubber hose A (3), the right end of the rubber hose (3) is connected to the rear suction sleeve (4) that is provided with a high-pressure rigid tube B (5) through the support beam (17) in the rear suction sleeve (4), the lower side of the rear suction sleeve (4) is connected to a rubber hose B (13), the lower end of the rubber hose B (13) is connected to the upper side of the water tank (10), the rubber hose B (13) is also located on the left side of the water tank (10), the left side of the left chamber of the water tank (10) is connected to the vacuum suction pump (11), the water tank (10) is installed with an internal filter device (9), the upper side of the right chamber of the water tank (10) is connected to a high-pressure hose C (8), the other end of the high-pressure hose C (8) is connected to a high-pressure water pump (7), the other end of the high-pressure water pump (7) is connected to a high-pressure hose A (6), the other end of the high-pressure hose A (6) is connected to a high-pressure rigid tube B (5), the other end of the high-pressure rigid tube B (5) is connected to a high-pressure hose B (14), the other end of the high-pressure hose B (14) is connected with a high-pressure rigid tube A (15), and the other end of the high-pressure rigid tube A (15) is connected to the rotary self-advancing sprinkler (1).

2. The self-advancing dirt dredging-suction-filtering circulating device according to claim 1, characterized in that the front suction sleeve (2) is connected to the high-pressure rigid tube A (15) through evenly distributed four support beams (17) and four curved beams (18).

3. The self-advancing dirt dredging-suction-filtering circulating device according to claim 1, characterized in that the rear suction sleeve (4) is connected to the high-pressure rigid tube B (5) through evenly distributed four support beams (17).