RU61381U1 - REVERSE SHUTTER - Google Patents

Abstract

The invention relates to pipe fittings, in particular to non-return valves with rotary disks and can be used to shut off reverse flow in pipelines, mainly of a gaseous working medium. The utility model solves the technical problem of reducing the hydraulic resistance of the back-lock by increasing the efficiency of using the high-pressure head of the working flow to open the back-shutter and hold the locking disk in the open position. The stated technical problem is solved in a return valve containing a housing 1, an inlet pipe 2, an outlet pipe 3 and a locking disk 5 mounted on the rotary shaft 4 in the housing. A working stream reflector is made in the form of a wing 6 on the front side of the locking disk 5. On the back side of the locking the disk 5 in its lower part is made a reflector of the working stream in the form of a belt 7. In the inlet pipe 2 by means of fasteners 8 a confuser 9 is fixed, in which a guide apparatus for the working stream is placed. The guide apparatus includes a confuser 10, the input section of which is placed at the cross-sectional level of the rotary shaft 4, and the output section, when the shutter is open, is oriented to the work flow reflector 7. The guiding apparatus further comprises an arched element 11 with a truncated conical or pyramidoid surface oriented with its truncated apex to the reflector 6 of the work flow. 2 ill.

Description

The invention relates to pipe fittings, in particular to non-return valves with rotary disks and can be used to shut off reverse flow in pipelines, mainly of a gaseous working medium.

The backstop is known, described in the USSR author's certificate No. 1634919, IPC (2006) F 16 K 15/03, 1988. An analog device includes a housing and a rotary disk installed in the housing. To reduce hydraulic losses in the shutter, including to increase the opening angle of the rotary disk, a flow reflector in the form of an aerodynamic wing is installed on the rotary disk. The free flow of the working medium creates an additional force on the wing, which increases the rotation of the disk to open.

However, during the operation of the back locks, situations arise when, at a low speed of the working flow, its high-pressure head is not enough to open the shutter and hold the locking disk in the open position. In this case, the hydraulic resistance of the reverse gate increases.

The prototype of the inventive backstop is a backstop, protected by patent JP 11062636, IPC (2006) F 16 K 1/22, publication date 05.03.1999. The prototype shutter comprises a housing, a rotary locking disk and a guiding element for the work flow installed in the housing. The guide element forms the supply of the working medium to the rotary disk in such a way that the high-pressure head of the working flow is used more efficiently to create a torque for opening the locking disk.

The disadvantage of the prototype is that the guide element works efficiently only at the initial moment of opening the reverse shutter, when the angle between the directed flow of the working medium and the locking disk is large. With an increase in the angle of rotation of the locking disk to open, the effectiveness of the action of the guide element on the process of opening the backward shutter decreases.

The inventive utility model solves the technical problem of reducing the hydraulic resistance of the back-lock by increasing the efficiency of using the high-pressure head of the workflow to open the back-shutter and hold the locking disc in the open position.

The technical problem posed is solved in a check valve comprising a housing with inlet and outlet nozzles for a working medium, a locking disk mounted on a rotary shaft, and a guide placed in the inlet pipe

apparatus for work flow. The guide apparatus is installed in the confuser, made in the inlet pipe, and itself contains a confuser, the inlet section of which is located at the cross-section of the rotary shaft, and the outlet section, when the shutter disk is open, is oriented to the working flow reflector, made on the back side of the shutter disk. The guide apparatus further comprises an arched element with a truncated conical or pyramidoid surface, oriented with its truncated apex to the work flow reflector, made on the front side of the locking disk.

The invention is illustrated in the drawing, figure 1 which shows the inventive backstop, a longitudinal section; figure 2 is the same, cross section.

The inventive check valve comprises a housing 1, an inlet pipe 2, an outlet pipe 3 and a locking disk 5 mounted on the rotary shaft 4 in the housing. A working stream reflector is made on the front side of the locking disk 5 in the form of a wing 6. On the rear side of the locking disk 5 there is a of the part, a reflector of the working stream is made in the form of a belt 7. In the inlet pipe 2, using the fasteners 8, a confuser 9 is fixed, in which a guide apparatus for the working stream is placed. The guide apparatus includes a confuser 10, the input section of which is placed at the cross-sectional level of the rotary shaft 4, and the output section, when the shutter is open, is oriented to the work flow reflector 7. The guiding apparatus further comprises an arched element 11 with a truncated conical or pyramidoid surface oriented with its truncated apex to the reflector 6 of the work flow.

The inventive backstop operates as follows.

The flow of the working medium entering the inlet pipe 2 of the check valve is accelerated in the confuser 9. Having received acceleration, the flow of the working medium rotates the locking disk 5 around the axis of the rotary shaft 4 in the opening direction. Part of the work flow, in the absence of a confuser 10 running onto the shaft 4 and dissipated in the shutter with energy loss, enters the confuser 10 installed on its way, where it is additionally accelerated and changes direction. After exiting the confuser 10, this part of the working flow acts on the reflector 7 of the locking disk and creates additional torque to hold the locking disk in the open position. Another part of the working flow, passed under the arch element 11 with a truncated conical or pyramidoid surface, also acquires acceleration and, acting on the reflector 6 of the locking disk, also creates additional torque to hold the working disk in the open position.

If the flow rate at the inlet to the non-return valve is very low, then an actuator (not shown) can be used to open the non-return valve. After turning off the drive, hold the locking disc 5 in the open position

is carried out by a direct flow of the working medium, accelerated and directed to the flow reflectors 6 and 7 using the described guide apparatus.

Claims (2)

1. A check valve comprising a housing with an inlet and outlet nozzles for a working medium, a locking disk mounted on a rotary shaft and a guiding apparatus for working flow located in the inlet nozzle, characterized in that the guiding apparatus is installed in the confuser made in the inlet nozzle contains a confuser, the input section of which is located at the level of the cross section of the rotary shaft, and the output section, when the locking disk is open, is oriented to the work flow reflector noy of the locking disc. 2. The backstop according to claim 1, characterized in that the guiding apparatus further comprises an arched element with a truncated conical or pyramidal surface oriented with its truncated apex to the work flow reflector, made on the front side of the locking disk.