RU28042U1 - HEAD HEAD - Google Patents

Description

The invention relates to quick fittings for connecting fire hoses and attaching them to fire equipment

highways and fire pumps.

Numerous usggroysgwa are known for connecting various hoses to cranes or other devices.

In some devices for connecting, for example, hoses and / or pipelines (RF patent No. 2177578), connecting elements in the form of couplings made of metal are used. The clutch includes korschgs, clamping device

drain pipe and mounting nuts. The clamping device, in turn, is made in the form of a bracket with a fixing handle, a pivot axis and a clamping bracket. To ensure tightness and reliability, rubber seals are used.

When using such a coupling, it is necessary to perform several operations, which is possible under ordinary conditions, but unacceptable in the conditions of deployment of fire extinguishing means.

Usgroyspgva (RF patent No. 2098710) for attaching sleeves to rigid elements is known. To ensure the tightness of the connection, the device contains a metal nipple with protrusions, to which g, using a metal coupling,

the sleeve is pressed. This design provides reliable fastening, including at high pressure in the system, however, this design is integral and musket

apply only if reinforced sleeves are used.

Known devices (pressure heads) for fire extinguishing means, namely, a coupling sleeve pressure head, a connecting flange pressure head, a connecting sleeve pressure head (NPB 153-2000), and a barrel pressure head. All these devices are used for fire extinguishing means and are made of aluminum alloys. To ensure the tightness of the connection, pressure head

equipped with ring rubber seals, in the working position, pressed against the supporting surfaces of the articulated elements. In some cases, for sealing, sealing collars are used, made on the supporting surfaces, or protrusions on the side surfaces, providing the possibility of fastening the fire hose.

The implementation of such devices from aluminum alloys along with the advantages (lightness, strength, durability) has disadvantages. The most significant is the high cost of the material and the high cost and complexity of the technological process of manufacturing devices, due to the features of the technology for processing aluminum alloys - first of all, the high energy consumption of the foundry.

When performing sealing elements in the form of beads on products made of aluminum alloys, it is relatively difficult to achieve tightness of the joint, since aluminum CEshava have low elasticity.

The basis of this utility model is to simplify and reduce the cost of manufacturing pressure heads for fire extinguishing means.

The problem is solved in that the pressure head, comprising a housing provided with a sealing element, in accordance with a utility model, is made of non-metallic material.

Thanks to the implementation of the pressure head of non-metallic material, the manufacturing cost is significantly reduced both due to the lower cost of the material itself, and due to a simpler low-energy manufacturing process.

The sealing element can be made in one piece with the body of the pressure head in the form of a shoulder on the supporting surface.

The sealing element can be integral with the body of the pressure head in the form of at least two protrusions on the side surface.

The sealing element can also be made in the form of a rubber O-ring mounted on a supporting surface.

It is advisable to use high-impact polystyrene as a non-metallic material, which has a relatively low cost and good physical and mechanical characteristics.

Glass-filled polyamide can also be used as a material for a 1-head, having a slightly higher cost in comparison with polystyrene but also higher physical and mechanical characteristics.

As materials for the manufacture of pressure heads, other non-metallic, in particular, polymeric materials can be used, the properties of which in their physicochemical characteristics correspond to the requirements of normals.

The utility model is illustrated by drawings in which:

Figure 1 depicts a pressure head, made in accordance with the utility model, with a seal in the form of a shoulder, with a partial section;

Figure 2 depicts a pressure head, made in accordance with the utility model, with a seal in the form of a rubber ring, with a partial section.

Fig. 3 depicts a receiver head pressure head made in accordance with the utility model, with a seal in the form of protrusions, with a partial section.

As shown in figure 1, the pressure head includes a housing 1, the shape of which is due to current standards, on the supporting surface of which a sealing collar 2 is made.

As shown in figure 2, the pressure head includes a housing 3 and a sealing element in the form of a rubber ring seals 4 mounted in an annular groove on the supporting surface of the pressure head.

As shown in FIG. 3, the barrel pressure head includes a conical body 5 with projections 6, which acts as seals when mating with a fire hose.

When the device is operating, the pressure head is connected to the fire hose and / or fire barrel, or the fire hose and fire hydrant, depending on the configuration (elevator, hose, shovel or barrel head). In this case, the sealing element ensures the tightness of the connection. Thanks to TOIV, which non-metallic materials have significantly greater elasticity compared to aluminum alloys, in most cases you can do without a rubber seal, which somewhat simplifies the design. In the case of using the barrel% of the pressure head, similar to that shown in Fig. H, the connection of the fire hose and the barrel head itself is carried out as usual in such cases -

using wire, while the protrusions play the role of seals and at the same time provide reliable fastening of the sleeve and the receiver. At least two protrusions must be made on the supporting surface of the barrel head: each of them prevents the sleeve from slipping in one direction or another.

When using pressure heads made according to a utility model, including instead of the standard hose pressure head and the fire barrel of the barrel pressure head shown in FIG. 3, which is attached directly to the fire hose instead of the hose pressure head, the manufacturing cost of the entire complex device is further reduced.

In accordance with the utility model, a collar pressure head, a flange pressure head, a sleeve pressure head and a barrel pressure head both with a seal in the form of a shoulder and protrusions for the barrel head and with a rubber sealing ring were made of high impact polystyrene. Pressure heads turned out to meet the requirements of the norms and rules for such products, and their cost was 3 times lower than the cost of similar products from aluminum alloys.

Claims (6)

1. A pressure head including a housing provided with a sealing element, characterized in that it is made of non-metallic material.  2. The pressure head according to claim 1, characterized in that the sealing element is made in one piece with the body of the pressure head in the form of a shoulder on the supporting surface.  3. The pressure head according to claim 1, characterized in that the sealing element is made in one piece with the body of the pressure head in the form of at least two protrusions on the side surface.  4. The pressure head according to claim 1, characterized in that the sealing element is made in the form of a rubber ring seal mounted on a supporting surface.  5. Pressure head according to any one of claims 1 to 3 or 4, characterized in that impact-resistant polystyrene is used as a non-metallic material. 6. Pressure head according to any one of claims 1 to 3 or 4, characterized in that a glass-filled polyamide is used as a non-metallic material.