SU1681097A1 - Gate valve - Google Patents

Abstract

Invention m. used in the oil and gas industry. The purpose of the invention is to increase the durability of the valve by reducing the contact loads on the saddles. In the sockets of the housing 1 with the inlet and outlet nozzles are located the saddles 2. 3, between which there is a gate 4 located obliquely to the axis of the passage channel 5. To ensure the vertical displacement, the gate 4 is connected to the spindle. The gate 4 is made with a cylindrical recess 7, placed on the side of the inlet pipe. The distance between the axis of the bore and the axis of the recess 7 is equal to the stroke of the valve. The bottom of the undercut 7 is perpendicular to the axis of the channel 5. The location of the sealing surfaces of the seats 2, 3 and the gate 4 at certain angles reduces the contact load. 1 hp ff, 5 sludge,

Description

The invention relates to valve mounting ·· swarming, and in particular to designs of locking devices ’plane-parallel slide gate valves, and its oil and gas industry can be used,

The purpose of the invention is to increase the shutter durability by reducing the contact load on the sealing elements of the shutter parts.

In Fig 1 shows a valve, General view; in FIG. 2 - the same, top view; in FIG. 3 - gate in isometry; in FIG. 4 - layout of the gate; in FIG. 5 is a section AA in FIG. 4.

The valve consists of a housing 1, in the seats of which there are seats 2 and 3, between which a gate 4 is located. The gate 4 and the sealing surfaces of the seats 2 and 3 are inclined to the horizontal axis of the passage channel 5 and additionally turned to an axis perpendicular to the axis of the passage channel. On the input side of the gate 4 at a distance equal to the stroke of the valve from the axis of the bore 6, a cylindrical undercut 7 is made, the bottom of which is perpendicular to the horizontal axis of the bore 5 of the housing 1 zedvizheeee. To ensure vertical movement, the gate 4 is connected to the spindle 8, the travel nut 9, which abuts the housing 1. The flywheel 10 is put on the travel nut 9. The geometrical shape of the bore 6 and the cylindrical groove 7 of the non-breech 4 provides full passage bore when the valve is open holes with a passage channel 5 of the housing 1, with the shutter closed, the axis of the cylindrical undercut is aligned with the axis of the passage 5, while the bottom of the cylindrical undercut 7 will be strictly perpendicular to the direction medium current (liquid or gas).

The valve operates as follows. Let the valve be in the open position initially. By rotating the flywheel 10, and consequently the driving nut 9, both the spindle 8 itself and the gate 4 connected obliquely to the horizontal axis and turned to the axis perpendicular to the channel axis are moved upward. E5. The flywheel 10 is rotated until the upper end face of the gate 4 into the valve body 1. This position corresponds to the closed state of the gate passage channel.

With the shutter closed for the sliders, the force at the shutter input will be __J______ cos ots cos az '

Q = 0.785 (O ₂ ² - Di ² ) P where Di is the inner diameter of the saddle; D _{2 is the} outer diameter of the seat; P is the pressure of the working medium; α-ι and az ~ the angle of inclination of the sealing surfaces to the vertical and horizontal axes, and at the exit

Q ₂ = Qi + 0.785 Di ² P

The value of the specific contact load at the input g 1 = P -cosa-i · cos az,

PD§ · cos «1 · cos az at the output g ₂ = - --- ₅ —C --- The above calculation shows that the specific contact load at the inlet and outlet of the gate valve, the sealing surfaces 20 of which are inclined to the horizontal axis, is reduced in proportion tilt angles. The valve is opened by rotating the flywheel in the opposite direction.

The increase in the contact area of the sealing surfaces of the valve parts (gates, seats) without increasing their overall dimensions due to the location of the sealing surfaces of the seats and gates at 30 certain angles, the value of which is determined for each size separately relative to the vertical and horizontal axes, for each valve is strictly individual, which due to their geometrical dimensions and, first of all, with their building length, it reduces the contact load.

Claims (2)

Claim 1. Gate valve, comprising a housing with inlet and outlet nozzles, a gate with a bore, located obliquely to the horizontal axis of the bore of the gate valve, seats with sealing surfaces, a spindle characterized by 45, in order to increase the durability by reducing contact loads on the sealing surfaces of the seats and the gate, the gate is made with a cylindrical recess located on the inlet side, and the distance between the axis of the through hole and the axis of the undercut is equal to the valve stroke, while the bottom of the undercut perpendicular to the axis of the passage channel. 2. Gate valve pop. 1, a la 55 by the fact that the gate and sealing surfaces of the seats are additionally turned to an axis perpendicular to the axis of the passage channel.