RU153258U1 - RAINER - Google Patents

Abstract

A storm water inlet containing a chamber formed in a curbstone, consisting of a vertically located front with a longitudinal hole and a rear wall, an upper ceiling and a bottom, while the bottom of the chamber is inclined at an angle of 5-15 ° to the horizontal plane, the rear wall is located at an angle of 5-25 ° with respect to the front wall, over which the edge of the upper floor is placed, and the ratio of the bottom width to the height of the front wall in the initial part of the chamber is 0.8-1.5, characterized in that the top of the outlet well is made with ribbing in the form of a spiral curve, passing into a tube of constant diameter, the bottom of the chamber is inclined at an angle of 80-85 ° with respect to the rear wall.

Description

IPC E 03 F 5/046

Storm water inlet

The utility model relates to devices for receiving wastewater, in particular to storm water inlets, and can be used in industrial and urban sewage systems.

Known storm water inlet (see and.with. No. 1571157 IPC E 03 F 5 / 046. Published. 06/15/90, Bull. No. 22) containing a chamber formed in a curb stone, consisting of a vertically located front with a longitudinal hole and a rear wall , the upper floor and the bottom, while the bottom of the chamber is inclined at an angle of 5 - 15 ° to the horizontal plane, the rear wall is located at an angle of 5 - 25 ° with respect to the front wall, over which the edge of the upper floor is placed, and the ratio of the bottom width to height the front wall in the initial part of the chamber is 0.8 - 1.5.

The disadvantage is the low speed of the screw flow, which leads to the accumulation and stagnation of water near the storm water inlet, as a result of which its normal operation is disrupted.

The technical task of the proposed technical solution is to prevent the accumulation and stagnation of water near the storm water inlet by increasing the speed of the moving water stream due to its swirling as a result of fins in the form of a spiral curve and the bottom of the chamber at an angle of 80 - 85 ° relative to the back the wall.

The technical result is achieved by the fact that the storm water inlet contains a chamber formed in a curb stone, consisting of a vertically located front with a longitudinal hole and a rear wall, an upper ceiling and a bottom, while the bottom of the chamber is inclined at an angle of 5 - 15 ° to the horizontal plane, the rear wall is located at an angle of 5 - 25 ° with respect to the front wall, over which the edge of the upper floor is placed, and the ratio of the bottom width to the height of the front wall in the initial part of the chamber is 0.8 - 1.5, while the top of the outlet about the well is made with ribbing in the form of a spiral curve, turning into a pipe of constant diameter, the bottom of the chamber is made inclined at an angle of 80 - 85 ° with respect to the rear wall.

In FIG. 1 shows a schematic diagram of a storm water inlet, plan view without a top floor; in FIG. 2 - the same section; in FIG. 3 - section A - A in FIG. 2; in FIG. 4 - section B - B in FIG. 2.

The storm water inlet consists of a leading surface of the bridge 1 (roadway) to the longitudinal hole 2 between the curb stones 3 connected to the chamber 4 formed in the curb stone, which contains an inclined bottom 5, front 6 and rear 7 walls located vertically. A discharge well 8 is adjacent to the bottom 5 of the chamber 4. The outer wall 6 is made in the plane of the curb stones 3. The edge of the upper floor 9 is placed above the front wall 6. The bottom 5 of the chamber 4 is made at an angle of 5 - 15 ° to the horizontal plane, the rear wall 7 is located under angle 5 - 25 ° with respect to the front wall 6, and the ratio of the width of the bottom 5 to the height of the front wall 6 in the initial part of the chamber 4 is 0.8 - 1.5.

At the same time, the top of the outlet well 8 is made with ribbing in the form of a spiral curve turning into a pipe of constant diameter; the bottom 5 of the chamber 4 is made inclined at an angle of 80 - 85 ° with respect to the rear wall 7.

The device operates as follows.

On the supply surface of the bridge 1 to the longitudinal hole 2 between the curb stones 3 rainwater enters.

When the top of the curbstone 3 is not flooded during a non-pressure operation mode, the inflow uniformity is ensured by the fact that the cross section of the chamber 4 increases towards the outlet well 8. This allows a variable increasing flow rate to be passed along the length of the chamber 4 (see, for example, G. Zheleznyakov V. Hydraulics and hydrology. M.: Transport. 1989 - 375 p., Ill.).

When pressure, the most unfavorable, operating mode, the storm water inlet works as follows.

The flow through the longitudinal hole 2 flows into the chamber 4 and, interacting first with the rear wall 7, and then with the front wall 6, is twisted.

Helical flow with a horizontal axis of rotation of water along the length of the chamber 4 in the direction of the outlet well 8.

The inclination of the bottom 5 at an angle of 5 - 15 ° to the horizontal plane and the expansion of the chamber 4 in the plan ensures a steady helical flow along the length of the chamber 4, the uniformity of the input velocities along the length of the storm water inlet, and an increase in the specific costs entering it.

The execution of the bottom 5 inclined at an angle of 80 - 85 ° with respect to the rear wall 7 allows you to direct the mass of water along the ribbing of the top of the outlet well 8, and the execution of the top of the outlet well 8 with ribbing in the form of a spiral curve (see, for example, Vygodsky M. I. Handbook of Elementary Mathematics, Moscow: 2006. - 509 p., Ill.) Allows you to increase the speed of stable helical flow with a vertical axis (see, for example, Merkulov A.P. Vortex effect and its application in technology. 3rd ed. - M .: Energia, 1977. - 343 p., Ill.) And to prevent the adhesion of solid particles to the bottom of the 5th chamber 4 and the side surface of the outlet well 8.

Claims (1)

A storm water inlet containing a chamber formed in a curbstone, consisting of a vertically located front with a longitudinal hole and a rear wall, an upper ceiling and a bottom, while the bottom of the chamber is inclined at an angle of 5-15 ° to the horizontal plane, the rear wall is located at an angle of 5-25 ° with respect to the front wall, over which the edge of the upper floor is placed, and the ratio of the bottom width to the height of the front wall in the initial part of the chamber is 0.8-1.5, characterized in that the top of the outlet well is made with ribbing in the form of a spiral curve, passing into a tube of constant diameter, the bottom of the chamber is inclined at an angle of 80-85 ° with respect to the rear wall.

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