RU103879U1 - INSTALLATION CONNECTING AND REGULATING CRANE - Google Patents

Abstract

 1. A ball valve, including an outer casing (60) and a one-piece inner casing (10), including a support bracket (11), which is made only on one side inside the inner casing (10) of the valve, a support cover (12), which is installed opposite the specified a support bracket (11), sealing elements (20) and a ball (30), which are located inside the inner case (10) of the crane, the shaft (40) of the crane, which is connected to the ball (30) by passing through an opening in the inner case (10) a crane to ensure rotation and movement of the specified ball (30), and a crane adjustment handle (50), which is used to move the crane shaft (40), characterized in that between the specified crane inner housing (10) and the specified support cover (12) fixed on one side thereof, an adjustment gap x is made to provide adjusting the tightness of the tightening, adjusting the pressure to be applied to the sealing element (20), the stable operation of the ball (30) inside, and adjusting the thickness of the layer of the outer casing made by injection molding. ! 2. Ball valve according to claim 1, characterized in that the outer casing (60) is an injection molded plastic cover layer, the thickness of which depends on the specified regulatory clearance x.

Description

Technical field

This utility model relates to an embodiment of an installation connecting and regulating valve that connects (plastic) pipes and other equipment components to each other in sanitary, heating and other equipment and which is used to control, stop and control the flow velocity of the fluid located in equipment.

In particular, a utility model relates to an embodiment of a tap comprising an internal tap system that facilitates the placement of sealing elements and a ball inside the tap and reduces installation time.

State of the art

Ball valves are widely used in heating, cooling and gas equipment, equipment for hot and cold water supply. As you know, ball valves are installation connecting and control valves used to control, stop and control the flow rate of the fluid in the equipment.

In the prior art, there are many improvements to ball valves for various needs.

An example of such improvements is the application for the invention TR 200805836 under the name "Novelty in Ball Valve". To filter impurities in the water passing through the ball, the specified ball contains at least one filter located in its inner region.

Another example of such improvements is the application for the TR 200901274 publication entitled “Ball gear valve having integral body made of plastic material”. In the abstract part of the invention, it is mentioned that the invention relates to a plastic ball valve, which is used to control the flow rate and flow rate of a fluid in water, gas, air and natural gas equipment, and to start and stop the flow by rotating the handle connected to inside the ball, and which is located in the fluid layer and is characterized in that; it comprises a one-piece housing comprising a ball seat made of plastic material, a layer of a sealing element, and mounting connectors. However, in such embodiments, after assembly of the crane parts into working condition, the device does not work efficiently.

In cranes commonly used in the prior art, the inner body of the crane located in the internal system of the crane was made of two symmetrically equal parts. In these structures, the connection in the internal system of the crane takes place directly in the center of the internal housing.

Due to the connection in the central part, the installation time of the sealing elements and the ball in the inner body of the valve is large. As a result of this, labor costs in the production of the crane also increase. Similarly, the risks of errors during assembly of the crane and coating its external surface by injection molding of plastic also increase.

The elements forming the inner body of the crane are connected to each other using gapless welding at constant pressure. In this case, the pressure interval that must be applied to the gaskets cannot be adjusted, and this interferes with the quality operation of the ball valve.

As a result, in order to eliminate these shortcomings, it became necessary to improve the previous installation connecting and regulating ball valves.

Brief Description of Utility Model

This utility model relates to an internal ball valve system, which allows the outer surface of the inner housing of the valve to adjust the wall thickness of the outer housing, which is applied to the inner housing to ensure the best tightness, and which meets all the above requirements, eliminates all the disadvantages and brings some additional advantages.

Based on the prior art, the purpose of the utility model is to facilitate the assembly of the crane by the distance x left between the indicated inner body of the crane and the support cover after fixing the support cover to the internal body of the crane, and to minimize the risk of damage during the creation of the external body by coating the surface with plastic molding under pressure.

Another purpose of the utility model is to provide adjustment of the tightness of the tap and the optimal level of tightening density for opening and closing using the specified distance x. Also, the casting pressure applied during coating of the inner casing and the outer casing covering the inner system (injection molded plastic cover layer) determine the tightening density (the force required to rotate the crane control handle) opening and closing the valve.

An additional objective of the utility model is to ensure tightness and tightness of the tightening by means of distance x, which is compressible from the outside, when the inner casing is placed in the die casting mold in order to ensure tightness of tightening of the crane control handle and, therefore, to easily open and close it by the specified distance x .

Another purpose of the utility model is to facilitate the installation of components, such as a one-piece inner case, a ball placed in the inner case thanks to the support cover, which is fixed so that there is a certain distance x on the side of the inner case, the shaft and the sealing element.

In order to achieve the above objectives, a ball valve is proposed, consisting of an outer casing and a one-piece inner casing, including a support bracket, which is made only on one side inside the faucet’s inner casing in the direction of water inlet-outlet, a support cap that is installed in the same direction and which closes opposite the specified supporting bracket, sealing elements and the ball, which are placed inside the inner body of the valve, the valve stem, which is connected to the ball by passing there is an opposite hole in the inner body of the crane in order to ensure rotation and movement of the ball and the crane control handle that is used to move the specified shaft of the crane, characterized in that it includes a regulatory clearance x, which is made to provide adjustment of the tightness between the specified internal the casing of the crane and the specified supporting cap fixed on one side of it, adjusting the pressure to be applied to the sealing element, stable operation of the ball, finding schegosya inside and thickness adjustment made by injection molding the outer sheath layer.

In a preferred embodiment of the utility model, the outer casing (60) is an injection molded plastic cover layer, the thickness of which depends on the specified regulatory clearance x.

The constructive and distinctive features of the utility model and all the advantages will be better understood from the detailed description with reference to the graphic materials provided below, and therefore, the useful model should be considered taking into account the indicated graphic materials and detailed explanations.

Description of graphic materials

For a better understanding of the embodiment of this utility model and its advantages with additional components, it should be considered together with the graphic materials described below.

Figure 1 is a front view of the components located in the internal system of the crane and the crane body of the installation connecting and control valve, which is the subject of a utility model.

Figure 2 is a front view in section of a typical application of the utility model, in which its components are installed and the internal crane system is injection molded.

Figure 3 is a General top view of the connecting and control valve of a typical application of the utility model, which is ready for use.

Reference Numbers

10. The inner body of the crane.

11. Support bracket.

12. Support cover.

x Control clearance (crank or sealing handles)

20. The sealing element.

30. Ball.

40. The stem of the crane.

50. Crane adjustment handle.

60. Plastic (injection-molded) coating layer - outer casing

70. Plastic connector Detailed description of utility model

In this detailed description, preferred embodiments of the ball mounting junction and control valve, which is the subject of a utility model, will be disclosed only as examples for a better understanding of the subject, and not for limitation.

Figure 1 shows a front view of the components located in the internal system of the crane and the inner housing (10) of the crane installation connecting and control valve, which is the subject of a utility model. As can be seen in figure 1, the inner body of the valve has innovations that can provide advantages when installing components located in the valve, and in achieving the tightness of the valve during the passage of fluid.

The inner housing (10) of the crane according to this utility model has a support bracket (11) and a support cover (12) in the directions of the fluid. The specified inner body (10) of the crane has a certain width and a cylindrical shape. The specified supporting cover (12) is attached to the hole on one side of the inner housing (10) of the crane, which it supports. In valves, two sealing elements (20) are used, as a rule, on both sides of the ball, in accordance with the direction of the fluid. In the utility model, as shown in the figure, there are two sealing elements (20). The installation of sealing elements (20) in the inner housing (10) of the crane is an action that requires effort and time.

The utility model has an inner crane body (10) comprising a support bracket (11) onto which sealing elements (20) can be suitably easily mounted, and a hollow support cover (12). The support cover (12), being a component of the crane’s inner case (10), has a socket / cavity (not shown in the figure) into which the sealing element (20) can be easily placed. These holes represent the lower part of the support cover (12) and the inside of the support bracket (11). Thus, the sealing element (20) is installed by fastening in the inner case (10) of the crane together with the support cover (12). The support cover (12), fixed together with the sealing element (20), provides convenience to the worker and the opportunity to save time.

Along with the fact that the utility model provides ease of installation of the ball (30), the valve stem (40), the sealing component (20) and other parts that are placed between the support bracket (11) and the support cover (12) in the inner case (10) ) of the crane, it also provides adjustment of the tightness of the crane and the optimal level of tightening density when opening and closing the crane.

In the manufacture of stainless metal ball valves having internal and external bodies (10, 60) made of plastic derived materials, firstly, the internal body of the valve (10) located in the internal system of the valve is made by injection molding. The inner housing (10) of the crane has a support cover (12) and a support bracket (11).

First, in the inner case (10) of the crane, a sealing element (20), a shaft (40) of the crane and a ball (30) are attached to the support bracket (11). Then, another sealing element (20) is attached to the support cover (12), and the support cover (12) is closed so that it complements the inner housing (10). A suitable size of said support cover (12) is selected so that when it closes on the side of the inner housing (10), a certain distance x remains.

Figure 2 presents a front view in section of a typical application of the utility model, in which its components are installed, and the internal crane system is covered by injection molding of plastic. When this internal system is assembled, the cover layers (60), or, in other words, the external body is created by injection molding the plastic, and thus is given a shape suitable for use when installing the crane. During this process, a plastic piece located outside (outer casing) covers the inner casing (10) under pressure and presses, compressing the distance x a little more. In addition, due to the comprehensive compression (collision) of the surfaces of the said sealing elements (20) and the ball (30) towards each other, the tightness of the valve increases. The pressure during injection molding applied during the coating of the inner casing (10) with a plastic coating layer (60) and the inner casing (10) made of plastic or its derivatives and covering the internal system also determine the tightening density at (force required to rotate the tap adjustment knob (50) to open and close the tap. An important point here is to ensure ease of opening and closing of the crane adjustment handle (50) by adjusting the tightening density obtained due to the fact that the adjusting gap is l: between the inner case (10) of the crane and the support cover (12) fixed to the inner case (10) tap, well adjustable during placement in the injection mold.

In addition, in figure 2; the possibility of creating injection-molded plastic cover layers (60) having a wall thickness higher than that of equivalent taps is achieved by using a clearance for adjusting the scale of the outer casing (60) of the tap up to a distance of x.

Figure 3 presents a General top view of the connecting and control valve of a typical application of the utility model, which is ready for use. Seen from the outside, when all components are installed, the ball connection and control valve looks like this. As you can see in this figure, the plastic connectors (70) are left in the form of holes in those places where there are inlet and outlet ends for tap water. Since the pipes of the equipment to which the installation connecting and control valve will be connected will be cylindrical, these plastic connecting connectors (70) also have a cylindrical shape. Equipment pipes (not shown in the figure) are welded by insertion into the connecting connectors (70) and partial melting of the indicated connecting connectors (70).

The inner casing (10) of the crane and the outer casing (60) of said support cover (12) are made of plastic and its derivatives, and are currently produced by injection molding of plastic. As it is also described in detail above, after installing the internal system of the crane at the beginning, then the support cover (12) is fixed in place in the internal case (10) of the crane. After fixing the support cover (12), which can be manually fixed, this integrated part is placed in the injection mold and its surface is formed in a mold having a predetermined plastic coating layer made by injection molding (60), and thus the outer casing is formed.

These sealing elements (20) located on both sides of the ball (30) are PTFE gaskets. This is a synthetic fluoropolymer - polytetrafluoroethylene.

The above ball (30), the shaft (40) of the crane and the handle (50) of regulation of the crane are made of a metal material having high wear resistance against mechanical stress.

Claims (2)

1. A ball valve, including an outer casing (60) and a one-piece inner casing (10), including a support bracket (11), which is made only on one side inside the inner casing (10) of the valve, a support cover (12), which is installed opposite the specified a support bracket (11), sealing elements (20) and a ball (30), which are located inside the inner case (10) of the crane, the shaft (40) of the crane, which is connected to the ball (30) by passing through an opening in the inner case (10) a crane to ensure rotation and movement of the specified ball (30), and a crane adjustment handle (50), which is used to move the crane shaft (40), characterized in that between the specified crane inner housing (10) and the specified support cover (12) fixed on one side thereof, an adjustment gap x is made to provide adjusting the tightness of the tightening, adjusting the pressure to be applied to the sealing element (20), the stable operation of the ball (30) inside, and adjusting the thickness of the layer of the outer casing made by injection molding. 2. Ball valve according to claim 1, characterized in that the outer casing (60) is an injection molded plastic cover layer, the thickness of which depends on the specified regulatory clearance x.