RU192125U1 - Plastic shield shutter - Google Patents

Abstract

The utility model relates to hydraulic engineering, namely to hermetic locking devices used in the chambers of gravity sewer channels and sewage treatment plants. The shield shutter comprises a housing mounted on the pipeline or mounted on the wall of the collector having guides in which a movable shield is connected with the lifting device. The body and shield of the shutter are made of a polymeric material - PE-500 polyethylene. The most critical parts that ensure the shutter’s operability, such as a steel shield frame, a screw-nut running gear and a spherical plain bearing of a sliding bearing, are placed in the sealed cavities of the shield and the bearing support, thereby isolated from the impact of an aggressive working environment. The spindle nut and the spherical plain bearing shell are made of chemically resistant composite material, and the spindle is made of acid-resistant stainless steel, which eliminates the possibility of corrosion in case of contact with an aggressive working medium. The applied composite material has antifriction properties that ensure the operability of the lifting device in the complete absence of lubrication of these nodes.

Description

The utility model relates to hydraulic engineering, namely to hermetic locking devices used in the chambers of gravity sewer channels and sewage treatment plants.

The patent gate of the Russian Federation No. 92141 (class F16L 29/00) published March 10, 2010 and the patent of the Russian Federation No. 63015 (class F16L 29/00) published May 10, 2007 are known in the prior art. The shield gates comprise a housing mounted on the pipeline or fixed to the manifold wall, having guides in which a shield is connected to the lifting device, the housing and the shield being made with means for pressing the shield to a seal placed on the housing along the perimeter of the channel to be blocked, the shield has a lining of fluoroplastic placed on its working surface. The lifting device of the shield contains a lead screw and a nut placed inside a pipe filled with oil and rigidly connected to the shield. The lead screw is fixed to the pipe, and the lead nut is mounted on a shaft that is connected to the drive.

The shield shutter is also known for RF patent No. 32507 (class E02B 7/30, F16K 31/50), published on September 20, 2003, which is equipped with a screw gear housing mounted on the shield, inside of which several nuts are installed, and the lead screw is made with a long cylindrical rod and a short screw part, the distance between the nuts does not exceed the length of the screw part of the screw.

A disadvantage of the known solutions is that the details of the shield valves, such as the housing and the shield, are made of stainless steel using welded joints. When operating in an aggressive environment in places of welds, the details of the shield shutters are more intensely susceptible to corrosion, relative to the rest of the structure, which reduces their reliability and significantly reduces the service life of the shield shutter, there is a need to replace the shutter or to carry out expensive repairs. To interact with the ring rubber seal of the shutter, a fluoroplastic lining is installed on the shield, a material with lower adhesive and frictional properties than steel, which avoids damage to the seal when the shutter is opened or closed. The installation of such a cladding of plates or ring elements complicates the design, increases the material costs of its manufacture. The screw-nut pair of the lifting device works in an oil bath. For the shutter to operate smoothly during operation, its lifting device requires regular maintenance, including adding or changing oil. Also, for the correct operation of the transmission of the screw-nut of the third sample, increased rigidity of its body and the shield itself is required to prevent bending from the load under the pressure of the working medium, during which the screw, when lifting the shield, can deviate from the axis of the nut and not get into the next nut or jam in it, which will lead to the failure of the entire shutter. Increasing the rigidity of the shield entails an increase in material consumption and the complexity of its manufacture.

The technical result of the claimed utility model is to simplify the manufacture of a shield shutter, improve the corrosion protection of power components, increase the reliability of operation and increase the life of the shutter without maintenance. There is no need to regularly add oil to the lifting device. All this significantly reduces labor and material costs for the manufacture and operation of the shutter.

The specified result is achieved by the fact that the body and shield of the shutter are made of a polymeric material - polyethylene PE-500, which has sufficient strength and increased wear resistance. This polymer material with high antifriction and low adhesive properties is chemically resistant to aggressive working environments. The most loaded structural elements, such as the steel power frame of the shield and the transmission of the screw-nut of the lifting device, are placed inside a sealed polymer shield and isolated from the effects of an aggressive working environment. The running nut and bearing assembly of the lifting device are made of chemically resistant composite material, and the lead screw is made of acid-resistant stainless steel, which eliminates the possibility of their corrosion in case of contact with an aggressive working environment. In addition, the composite material from which the running nut and bearing assembly are made has high strength and antifriction properties that ensure the operation of the lifting device in the absence of lubrication of these components.

The drawings show the design of a plastic shield shutter:

Figure 1 shows a general view of the plastic shield shutter from the side of the shield;

Figure 2 shows a side view of a plastic shield shutter;

Figure 3 shows a movable plastic shield assembly with a power frame;

Figure 4 shows a section of a plastic shield in the area of the movable rib of the power frame;

Figure 5 shows a screw lifting device.

Name of positions in the drawings:

1 - plastic guide rails;

2 - movable plastic shield;

3 - plastic wall of the shield shutter housing;

4 - ring rubber seal of the shutter;

5 - aperture of the shutter;

6 - shaft of the lifting device;

7 - bearing support of the lifting device;

8 - the supporting frame of the lifting device of the shield shutter;

9 - wedge clamping surface;

10 - knife element of the shield;

11 - shaft seal housing of the lifting device;

12 - transmission housing screw-nut lifting device;

13 - movable stiffening rib of the shield;

14 - panel board in contact with the rubber seal;

15 - panel board with wedge clamping surfaces;

16 - a running nut;

17 - lead screw;

18 - shaft seal of the lifting device;

19 - the lower flange of the housing of the bearing support of the lifting device;

20 - upper flange of the bearing housing;

21 - wall of the housing of the bearing support;

22 - spherical insert of a bearing support;

23 - a coupling bolt.

The plastic shield shutter consists of a housing, a movable shield 2 with wedge clamping surfaces 9 and a lifting device with a screw-nut transmission 12. The shield shutter housing consists of two vertical plastic guides 1 rigidly connected at the bottom with a plastic wall 3. From above, the guides are connected by a support stainless steel lifting frame 8. In the wall of the housing 3, a bore of the shutter 5 is made for the passage of the flow of the working medium, an annular rubber seal 4 is placed around its perimeter. To wedge the shield 2 against the seal 4, wedge surfaces 9 are made in the guides 1 and on the shield 2. Uniform pressing of the shield against the seal is ensured by accuracy processing of wedge surfaces of guides and panels using technological equipment.

The plastic shield 2 consists of two vertical panels 14 and 15, rigidly interconnected by screws. Inside the shield is a transmission housing screw-nut lifting device 12 with stiffening ribs made of stainless steel. The upper stiffener of the power frame is rigidly connected to the transmission housing of the screw-nut of the lifting device. The lower ribs 13 are made with the possibility of vertical movement relative to the transmission housing. The mobility of the lower ribs compensates for temperature changes in the gaps due to the difference in the thermal expansions of the plastic and the metal. The bottom of the shield is closed with a stainless steel knife element 10. A housing 11 of the shaft seal of the lifting device 6 is installed on the top of the shield, in which a hole for the passage of the shaft is made, the connection is protected by an annular seal 18. As a result, the inner space of the shield is completely isolated from the influence of the aggressive working medium, in which the screw-nut transmission of the lifting device is located.

The lifting device of the shield consists of a lead nut 16, a screw 17, a shaft 6 and a bearing support 7. The lead nut 16 is made of composite material and is made for the entire course of the shield. A short lead screw 17 is pivotally mounted on the shaft 6 of the lifting device. The housing of the bearing support 7, bolted to the support frame 8, consists of an upper 20 and a lower 19 flanges with spherical surfaces and a cylindrical wall 22, rigidly fastened with coupling bolts 23. The upper shaft of the shaft 6 is rigidly fixed in a spherical insert of the bearing support 22 made of antifriction composite material. The spherical insert 22 of the bearing support 7 provides the possibility of rotation of the shaft 6 of the lifting device with the spindle 17 for raising and lowering the shield 2, and also allows angular deflection of the shaft 6 when the shield 3 moves in the guides of the housing 1.

Claims (4)

1 Shield shutter comprising a housing fixed to the wall of the manifold or mounted on the pipeline, having guides in which a movable shield is connected to the lifting device, the housing and the shield being made with the means of pressing the working surface of the shield to a seal placed on the wall of the housing along the perimeter of the blocked channel and the lifting device includes a shaft connected to the drive with a pivotally mounted spindle interacting with the spindle nut installed in the shield, and the preloading means the shield is made in the form of two pairs of wedges to the entire height of the shield, characterized in that the casing and shield are made of a polymeric material - PE-500 polyethylene, while the shield is made with an internal cavity isolated from the working medium, in which the steel frame of the shield with the chassis is placed transmission screw-nut lifting device. 2 Shield shutter according to claim 1, characterized in that the power frame of the shield consists of a vertical housing with a square cross-section of the screw-nut running gear and horizontal stiffening ribs, the upper rib being rigidly connected to the housing and the lower ribs made with the possibility of vertical movement relative to the housing. 3 Shield shutter according to claim 1, characterized in that the running nut is made of anti-friction wear-resistant composite material, and the nut in height is made for the entire value of the shield stroke. 4 Shield shutter according to claim 1, characterized in that the shaft end of the lifting device is rigidly fixed in a spherical bearing shell of the bearing support isolated from the environment, and the bearing sleeve is made of anti-friction wear-resistant composite material and mounted in the bearing bracket for rotation.

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