RU89546U1 - RESERVOIR FOR WATER SUPPLY WITH A LID FIXED ON IT - Google Patents

Abstract

1. The reservoir for water supply with a lid fixed on it, including a housing, a lid, means for attaching the lid to the casing, means for sealing the junction of the casing with the lid, housing reinforcement details and means for attaching the reservoir to the supporting elements of the basic structure, the walls of the housing and the lid have an outer and an inner fiberglass layers, a heat-insulating layer located between the said fiberglass layers, and a layer of internal coating, while at the junction of the housing with the cover on the walls of the housing and the cover are made docking flanges, each of which consists of a fiberglass layer and a layer of internal coating, electric heating elements are mounted in the inner layer of fiberglass of the walls of the housing, the fastening means of the cover to the housing are made of metal plates and a set of bolts, nuts and washers, housing reinforcement parts are made of mounted in the inner layer fiberglass horizontal metal frame that covers the housing around the perimeter, and a number of metal frames that are mounted in the inner layer of fiberglass walls of the housing and the ends of which are attached to a horizontal metal frame, the means of fastening the tank to the supporting elements of the basic structure are made in the form of metal brackets located around the perimeter of the junction of the housing with the cover, each of the brackets consists of a vertical rectangular plate, a horizontal rectangular plate and vertical triangular plates attached to it while the vertical rectangular plate of each of the brackets is fastened to a horizontal metal frame. ! 2. The tank according to claim 1

Description

The utility model relates to water supply systems and can be used to store a supply of drinking water in the home, in industry and in transport, including in areas with a harsh climate.

From the description of the invention to US patent US 5046529, cl. EB03 11/02, publ. 09/10/91 g [1], a water tank is known, including a housing and a lid attached to it, made of high density polyethylene. The walls of the body and the cover of the water tank [1] do not have a heat-insulating layer. In this regard, in the cold season at negative ambient temperatures, such a tank can only function reliably in warm, heated rooms. The use of such a water reservoir in winter in harsh climates is fraught with the danger of freezing of its contents.

From the description of the invention to patent RU 2199629, cl. ЕВВ 11/00, publ. 10/11/2002 g [2], a water reservoir is known that includes a housing and a lid attached to the housing. According to the description [2], the housing and the lid of the tank are made of plastic, for example, low-pressure polyethylene with a heat-insulating coating. To increase the operational reliability of the tank in the cold season, its lower part is insulated with soil sprinkling, and the upper part is insulated with heat-insulating material. As the authors of the invention indicate [2], low-pressure polyethylene (having thermal conductivity one hundred times lower than the thermal conductivity of steel) in combination with a coating of heat-insulating material increases the operational reliability of the device. However, the application of such a technical solution in conditions of variable shock loads at low temperatures characteristic of operation, for example, rolling stock of railway transport, can lead to breakdown of the tank elements. Therefore, the use of the reservoir design [2] in a passenger railroad car is very problematic.

From the description of the invention to patent RU 2331739, cl. EB03 11/02, publ. 08/20/2008 g [3], a water reservoir is known that includes a housing and a lid attached to the housing. The body and cover are made of non-metallic material and have a layered structure. The housing is supported by stiffeners made in the form of frames. The body and cover have a heat-insulating layer and a protective coating of fiberglass. The technical solution [3] is the closest analogue of the invention. However, the design [3] is extremely overloaded with metal reinforcing elements and therefore is applicable only for stationary conditions of water storage. In addition, the lack of heating means does not allow us to recommend a solution [3] for use in winter in harsh climatic regions.

The technical result of this utility model is to reduce the mass of the device and increase its reliability at high static and dynamic loads in low ambient temperatures.

The specified technical result is achieved in a water supply tank with a lid fixed on it, including a housing, a lid, means for attaching the lid to the housing, means for sealing the junction of the housing with the lid, housing reinforcing details and means for attaching the tank to the supporting elements of the basic structure, the walls of the housing and the lid have the outer and inner layers of fiberglass, a heat-insulating layer located between the mentioned layers of fiberglass, and a layer of inner coating, while at the junction of the housing with a cover on the Dock flanges are made to the casing and cover nets, each of which consists of a fiberglass layer and an inner coating layer, electric heating elements are mounted in the inner fiberglass layer of the casing walls, the means for attaching the lid to the casing consist of metal plates and a set of bolts, nuts and washers, housing reinforcement details consist of a horizontal metal frame mounted in the inner layer of fiberglass, which covers the housing along the perimeter, and a number of metal frames that are mounted in the inner layer of fiberglass of the walls of the body and the ends of which are attached to a horizontal metal frame, the means of fastening the tank to the supporting elements of the basic structure are made in the form of metal brackets located around the perimeter of the junction of the body with the cover, each of the brackets consists of a vertical rectangular plate attached to it by a horizontal rectangular plates and vertical triangular plates, while the vertical rectangular plate of each of the brackets is fastened to horizontally th metal frame.

The following particular cases of the utility model execution are provided.

In the inner layer of fiberglass of the walls of the housing under a horizontal metal frame, one or more horizontal metal belts are mounted to which vertical rectangular plates of each of the brackets are attached.

As the material of the inner coating of the body and the cover, food polyethylene with the addition of silver was used.

As elements of electric heating, mounted in the inner layer of fiberglass walls of the housing, self-regulating heating cables are used, and the distance from the surface of each self-regulating heating cable to the inner surface of the heat-insulating layer is not less than the outer diameter of the mentioned cable.

Polyurethane foam is used as the material of the heat-insulating layer.

The thickness of the fiberglass inner layer of the walls of the housing and the tank lid is 0.45-0.85 of the thickness of the heat-insulating layer, and the thickness of the outer fiberglass layer of the walls of the housing and the tank lid is 0.07-0.25 of the thickness of the heat-insulating layer.

The metal plates of each of the connecting flanges are mounted in a fiberglass layer of these flanges.

Each of the metal plates of the connecting flanges is coated with a polymer material.

The invention is illustrated by the following drawings.

Figure 1. General view of the water tank (diagram).

Figure 2. The same side view along arrow A in figure 1.

Figure 3. The junction of the housing with the cover, a section along BB in Fig.2.

In the accompanying drawings, the following conventional digital designations of nodes and parts are used.

1. The body of the tank.

2. Tank cover.

3. The outer layer of fiberglass walls of the housing and cover.

4. The inner layer of fiberglass walls of the housing and cover.

5. Thermal insulation layer.

6. A layer of internal coating.

7. Docking flange of the housing.

8. Docking flange of the cover.

9. The elements of the seal.

10. Self-regulating heating cables.

11. The metal lining of the connecting flanges.

12. The bolts.

13. Nuts.

14. Washers.

15. Horizontal metal frame.

16. Metal frames.

17. Metal brackets.

18. The vertical rectangular plate of the bracket.

19. The horizontal rectangular plate of the bracket.

20. Vertical triangular plate bracket.

21. Horizontal metal belts of the tank body.

Figure 1-2 presents a General view of the tank for water supply. A cover 2 is attached to the housing 1. As shown in FIG. 3, the walls of the housing 1 and the cover 2 have an outer layer 3 and an inner layer 4 made of fiberglass. Between layers 3 and 4 is a heat-insulating layer 5. As the material of the heat-insulating layer 5, polyurethane foam can be used. Inside the case 1 and the cover 2 have a layer 6 of the inner coating of a material with bactericidal properties, for example, of food-grade polyethylene with the addition of silver. The thickness of the fiberglass inner layer 4 of the walls of the housing 1 and cover 2 is 0.45-0.85 of the thickness of the heat-insulating layer 5, and the thickness of the outer fiberglass layer 3 of the walls of the housing 1 and cover 2 is 0.07-0.25 of the thickness of the heat-insulating layer 5. B at the junction of the housing 1 with the cover 5 on their walls made docking flanges 7 and 8, respectively. Each of the connecting flanges 7 and 8 is made of a fiberglass layer and a layer of inner coating. Between the connecting flanges 7 and 8 laid elements 9 of the seal, made of an elastic polymer material, for example, of hard rubber. In the inner layer 4 of the walls of the housing 1 are mounted elements of electric heating. As elements of electric heating can be used self-regulating heating cables 10. Moreover, the distance from the surface of each self-regulating cable 10 to the inner surface of the insulating layer 5 should be not less than the outer diameter of the cable.

Means of fastening the cover 2 to the housing 1 consist of metal plates 11 superimposed on the connecting flanges, and a set of bolts 12, nuts 13 and washers 14. The plates 11 can be mounted in the fiberglass layer of each of the connecting flanges or coated with a polymer material.

The reinforcement details of the housing consist of a horizontal metal frame 15 mounted in the inner layer 4 of fiberglass. Frame 15 covers the housing 1 of the tank around the perimeter. The frames 16 are attached to the horizontal metal frame 15 with their ends, which are mounted in the inner layer 4 of fiberglass plastic of the wall of the housing 1 and the bottom of the housing 1.

Means of fastening the tank to the supporting elements of the basic structure (for example, to the beams of the carriage frame) are made in the form of metal brackets 17 located along the perimeter of the junction of the tank body 1 with the cover 2. Each of the brackets 17 consists of a vertical rectangular plate 18 and horizontal attached to this plate a rectangular plate 19 and two vertical triangular plates 20. Moreover, a vertical rectangular plate 18 of each of the brackets 17 is attached to a horizontal metal frame 15. In the inner fiberglass layer 4 of the side walls of the tank body 1 under the horizontal metal frame 15, one or more horizontal metal belts 21 can be mounted to which vertical rectangular plates 18 of each of the brackets 17 are additionally attached.

As the main non-metallic material in the proposed product used fiberglass, characterized by high strength. In addition, given that the product is subjected to increased static and dynamic loads and is exposed to low temperatures, the authors sought to maximize fiberglass reinforcement with metal reinforcing elements. In this case, the fact that the thermal conductivity of the metal is an order of magnitude higher than the thermal conductivity of the plastic was taken into account. In the proposed technical solution, a horizontal metal frame 15 reinforces the upper part of the housing 1, and metal frames 16 attached to the horizontal metal frame 15 by their ends unload the plastic walls of the housing 1 from vertically acting loads, which are created by the water filling the housing 1. The horizontal metal belts 21 located under the horizontal metal frame 15 receive horizontally directed loads to which the walls of the housing 1 are exposed. The fastening of the metal frames 16 to the horizontal metal belts 21 gives additional strength to the entire metal reinforcement. A special role in the proposed design is played by metal brackets 17. In this case, the brackets not only transfer loads from the housing 1 to the supporting elements of the basic structure, but also additionally fasten the horizontal metal frame 15 with horizontal metal belts 21 and with metal frames 16. Thus, from reinforcing elements, a kind of basket is obtained, which gives strength and reliability to the main plastic elements of the housing and the housing as a whole. It is important to note that in this case, none of the elements of the metal reinforcement is in contact with the water filling the body and each of the reinforcing elements is protected from heat loss to the environment due to the fact that it is protected by a heat-insulating layer 5.

The fastening of the cover 2 to the housing 1 of the water tank is as follows.

Thoroughly clean the layer 6 of the inner coating of the housing 1, the covers 2 and the contact surfaces of their docking flanges 7 and 8. Install the housing 1 on a special assembly stand and, laying the sealing elements 9 around the entire perimeter of the contact surface of the docking flange of the housing 1, put the plates 11 on the docking flanges 7 and 8 and cover the housing 1 with a cover 2. Then a bolted connection is made using a set of bolts 12 with nuts 13 and washers 14. The water tank is ready for installation on a vehicle.

In laboratory conditions, the proposed reservoir design was tested for its ability to withstand static and dynamic loads. Tests have shown that the proposed tank with a lid attached to it withstands loads of 20-25% large compared with similar water tanks. Reliable operation of the tank is ensured when the ambient temperature drops to -50 ° C. Based on the test results, an experimental batch of tanks is being prepared for testing under operating conditions of the existing transport.

Claims (8)

1. The reservoir for water supply with a lid fixed on it, including a housing, a lid, means for attaching the lid to the casing, means for sealing the junction of the casing with the lid, housing reinforcement details and means for attaching the reservoir to the supporting elements of the basic structure, the walls of the housing and the lid have an outer and an inner fiberglass layers, a heat-insulating layer located between the said fiberglass layers, and a layer of internal coating, while at the junction of the housing with the cover on the walls of the housing and the cover are made docking flanges, each of which consists of a fiberglass layer and a layer of internal coating, electric heating elements are mounted in the inner layer of fiberglass of the walls of the housing, the fastening means of the cover to the housing are made of metal plates and a set of bolts, nuts and washers, housing reinforcement parts are made of mounted in the inner layer fiberglass horizontal metal frame that covers the housing around the perimeter, and a number of metal frames that are mounted in the inner layer of fiberglass walls of the housing and the ends of which are attached to a horizontal metal frame, the means of fastening the tank to the supporting elements of the basic structure are made in the form of metal brackets located along the perimeter of the junction of the housing with the cover, each of the brackets consists of a vertical rectangular plate, a horizontal rectangular plate and vertical triangular plates attached to it while the vertical rectangular plate of each of the brackets is fastened to a horizontal metal frame. 2. The tank according to claim 1, characterized in that one or more horizontal metal belts are mounted to the inner layer of fiberglass of the walls of the housing under the horizontal metal frame, to which are attached vertical rectangular plates of each of the brackets. 3. The tank according to any one of claims 1 or 2, characterized in that the food-grade polyethylene with the addition of silver is used as the material of the inner coating of the body and lid. 4. A tank according to any one of claims 1 or 2, characterized in that self-regulating heating cables are used as electric heating elements mounted in the inner layer of the fiberglass plastic of the case, and the distance from the surface of each self-regulating heating cable to the inner surface of the insulating layer is not less than the outer diameter of the cable. 5. The tank according to any one of claims 1 or 2, characterized in that polyurethane foam is used as the material of the heat-insulating layer. 6. The tank according to claim 5, characterized in that the thickness of the inner layer of fiberglass walls of the housing and the lid of the tank is 0.45-0.85 of the thickness of the insulating layer, and the thickness of the outer layer of fiberglass plastic walls of the housing and the lid of the tank is 0.07-0, 25 thickness of the insulating layer. 7. A tank according to any one of claims 1 or 2, characterized in that the metal plates of each of the connecting flanges are mounted in a fiberglass layer of these flanges. 8. The tank according to any one of claims 1 or 2, characterized in that each of the metal plates of the connecting flanges is coated with a polymer material.