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CN-224225246-U - Circular buoy for navigation channel in inland mountain area

CN224225246UCN 224225246 UCN224225246 UCN 224225246UCN-224225246-U

Abstract

The application relates to the field of water transportation engineering, in particular to a circular buoy for a sea-way in a inland mountain area, which comprises a buoy shell, a telescopic device and anchor blocks, wherein the telescopic device is arranged and fixed in the buoy shell, a rotor is arranged in the shell of the telescopic device and is of a disc-shaped structure rotating around a rotating shaft, a rotor spring is arranged between the rotor and the rotating shaft, one end of a fiber rope is arranged on the rotor in a disc manner and is fixed on the rotor, through holes are respectively formed in the buoy shell and the shell of the telescopic device, one end of the fiber rope, which is not fixed, sequentially penetrates through the two through holes and is connected with the anchor blocks, and one end of the anchor chains, which is not connected with the fiber rope, is fixed on the anchor blocks. The circular buoy for the mountain channel of the inland river is internally provided with the rotor, and the fiber ropes coiled on the rotor can automatically stretch along with the water level so as to adapt to the characteristics of rapid fluctuation, etc. of the water level of the mountain channel, thereby ensuring that the buoy does not have anchor block frog jump, buoy body inundation, drifting, etc.

Inventors

  • LU HONGLI
  • XU SHUANGFENG
  • WANG JIAPING
  • Qiu Daichen
  • CHEN YONGFENG
  • CHEN XINQIAO

Assignees

  • 丽水市直属公路港航管理中心

Dates

Publication Date
20260512
Application Date
20250618

Claims (9)

  1. 1. A inland mountain channel circular buoy, comprising: A float housing; telescoping device, and An anchor block; the telescopic device is arranged and fixed on the inner wall of the buoy shell, The telescopic device comprises a shell, a rotor, a rotating shaft and a rotor spring, wherein the rotor is arranged in the shell and is in a disc-shaped structure rotating around the rotating shaft; one end of the fiber rope is coiled and fixed on the rotor; through holes are respectively formed in the buoy shell and the shell of the telescopic device, and one unfixed end of the fiber rope sequentially penetrates through the through holes and is connected with an anchor chain; one end of the anchor chain, which is not connected with the fiber rope, is fixed on the anchor block; A hook is arranged on the buoy shell.
  2. 2. The inland mountain channel circular buoy of claim 1, wherein the buoy housing is assembled from an upper half and a lower half and secured by bolts and nuts.
  3. 3. The inland mountain channel circular buoy of claim 1, wherein the telescoping device is secured to the interior wall of the buoy housing by a bolt and nut.
  4. 4. The inland mountain channel circular buoy of claim 1, wherein rubber seals are provided outside through holes in the buoy housing and/or through holes in the housing of the telescoping device.
  5. 5. The inland mountain channel circular buoy of claim 1, wherein the fiber rope is made of one selected from polyethylene, aramid and steel wire rope.
  6. 6. The inland mountain channel circular buoy of claim 1, wherein the buoy housing is made of one of High Density Polyethylene (HDPE), polypropylene (PP), ABS, nylon (PA), glass Fiber Reinforced Plastic (FRP), carbon fiber composite, polyurethane, stainless steel, and aluminum alloy.
  7. 7. The inland mountain channel circular buoy of claim 1, wherein the buoy housing has a diameter of 0.4-1.3 m.
  8. 8. The inland mountain channel circular buoy of claim 1, wherein the anchor blocks weigh 25-100 kg.
  9. 9. The inland mountain channel circular buoy of claim 1, wherein the anchor chain has a diameter of 2.5-4 mm.

Description

Circular buoy for navigation channel in inland mountain area Technical Field The application relates to the field of water transport engineering, in particular to a circular buoy for a navigation channel in a inland mountain area. Background In a inland waterway, a conventional buoy is connected to a weight by a fixed length anchor chain and anchored to the river bottom to indicate the waterway and navigation hazards. However, in mountain channels, the water level may rise or fall sharply due to the influence of factors such as rainy seasons and typhoons, and the height difference may be several meters to several tens of meters. The traditional buoy cannot adapt to the severe water level change due to the fixed length of the anchor chain, namely, the water level is too high, if the anchor chain is too short, the buoy is wholly immersed in water, the buoy loses the identification function, meanwhile, due to the buoyancy of the buoy, the buoy can possibly pull a heavy object away from the river bottom through the anchor chain and be flushed away by water flow, if the anchor chain is long, when the water level is too low, the long anchor chain is insufficient to bind the buoy, the buoy drifts under the water flow, the functions of accurately marking a channel and calibrating a water area are lost, and the risk of ship collision is increased. Disclosure of utility model In order to solve the problems, the application provides a circular buoy for a mountain area channel of a inland river, which automatically adjusts the length of a rope anchor along with the water level, and the circular buoy comprises the following specific schemes: A inland mountain channel circular buoy, comprising: A float housing; telescoping device, and An anchor block; the telescopic device is arranged and fixed on the inner wall of the buoy shell, The telescopic device comprises a shell, a rotor, a rotating shaft and a rotor spring, wherein the rotor is arranged in the shell and is in a disc-shaped structure rotating around the rotating shaft; one end of the fiber rope is coiled and fixed on the rotor; through holes are respectively formed in the buoy shell and the shell of the telescopic device, and one unfixed end of the fiber rope sequentially penetrates through the through holes and is connected with an anchor chain; one end of the anchor chain, which is not connected with the fiber rope, is fixed on the anchor block; A hook is arranged on the buoy shell. In one embodiment of the application, the float housing is formed from a combination of upper and lower halves and secured by bolts and nuts. In one embodiment of the application, the telescoping device is secured to the inner wall of the float housing by a bolt and nut. In one embodiment of the application, a rubber seal is provided on the float housing through-hole and/or outside the housing through-hole of the telescoping device. In one embodiment of the present application, the fiber rope is made of one selected from polyethylene, aramid and steel wire rope. In one embodiment of the present application, the material of the buoy housing is selected from one of High Density Polyethylene (HDPE), polypropylene (PP), ABS, nylon (PA), glass Fiber Reinforced Plastic (FRP), carbon fiber composite, polyurethane, stainless steel, and aluminum alloy. In one embodiment of the present application, the diameter of the buoy housing is 0.4-1.3 m. In one specific embodiment of the application, the weight of the anchor block is 25-100 kg. In a specific embodiment of the application, the diameter of the anchor chain is 2.5-4 mm. The beneficial effects of the application are as follows: the circular buoy for the mountain channel of the inland river is internally provided with the rotor, and the fiber ropes coiled on the rotor can automatically stretch along with the water level so as to adapt to the characteristics of rapid fluctuation, etc. of the water level of the mountain channel, thereby ensuring that the buoy does not have anchor block frog jump, buoy body inundation, drifting, etc. Meanwhile, the buoy is simple in structure, the fiber ropes can achieve the effect of adapting to water level change without being matched with other simple mechanical structures, abrasion of the fiber ropes is avoided to a certain extent, the telescopic device is arranged in the buoy and provided with a plurality of rubber seals, sundries such as branches in mountain channels can be prevented from winding the telescopic structure, and the service life of the buoy is prolonged. Drawings The drawings are included to provide a better understanding of the application and are not to be construed as unduly limiting the application. Wherein: FIG. 1 is a schematic view of a circular buoy according to the present application; FIG. 2 is a schematic view of a telescopic structure in a circular buoy according to the present application; Fig. 3 is a structural cross-sectional view of a telescopic structure in a circular buoy