SU1353969A2 - Device for filling flasks with liquiefied gas - Google Patents

Abstract

The invention relates to devices for filling the baplons with liquefied gas or other flowing medium under pressure and solves the problem of increase. efficiency by increasing the accuracy of filling the cylinders under any conditions. The installation contains a counterweight mounted on a prism, connected to a suspension platform for cylinders, a pneumatic cylinder with a piston, a movable element of a compressed air relief valve and a supporting structure, liquefied gas supply pipelines and efeaToro air, a liquefied gas cut-off valve, a compressed air actuator valve and pneumatic clamp for cylinder. Moreover, the prism is equipped with a suspension with a damper connected to the relief valve and the piston rod of the pneumatic cylinder, which is attached to the supporting structure. In the installation on the body of the liquefied gas cut-off valve, there is an additional compressed air discharge valve, pneumatically connected to the main relief valve to accelerate the air discharge. An additional throttling bushing is installed on the pipeline in front of the main compressed air discharge valve, which eliminates the increase in pressure in the slam-shut valve. 3 il. i (L with s sd oe a with

Description

The invention relates to installations for filling on the weight of cylinders with liquefied gas or other fluid under pressure, and is an improvement of the installation according to the author. No. 1116266.

The aim of the invention is to increase efficiency by increasing the accuracy of filling the cylinders in all modes.

FIG. 1 shows a general setup for filling cylinders with liquefied gas (dashed lines indicate the zone of accelerated depressurization of compressed air); in fig. 2 filling post installation, general view; in fig. 3 - unit for accelerated depressurization of compressed air when the unit operates in the continuous mechanized treatment of cylinders

The installation for filling cylinders with liquefied gas contains a supporting structure 1, which can be formed by a pipeline 2 for supplying liquefied gas and a pipeline 3 for supplying compressed air mounted on racks and brackets.

On the supporting structure 1 there is a lever weight device containing a weight lever 5 with a counterweight 6 mounted on the weight suspension 4. Suspension A is connected with a driving pneumatic cylinder 7, the over-piston cavity of which is connected to the atmosphere, and the sub-piston with the valve-cutter 8, valve starter 9 and the main relief valve 10 using flexible hoses 11 and 12, as well as with pipeline 3 using a pipe 13 on which pressure regulator 14 is installed, and pipe 15 that has a throttling sleeve 16. ychag 5 comprises a movable weight 17 is filled setpoint weight emogo cylinder 18 mounted on an overhead platform 19.

Pneumatic clamp 20, which serves to connect the cylinder 18 mounted on the suspension platform 19 to the slam-shut valve 8, is equipped with a liquefied gas supply hose 21 and connected to the compressed air pipeline 3 by means of a 22 "hose

The pressure of the compressed air in the pipe 3 and the hose 22 is regulated by means of the regulator 23. In addition, to accelerate the operation of the box

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the shut-off valve 8 is provided with an additional relief valve 24 connected via pipe 25 to the main valve 10, valve actuator 9 and the piston chamber of the pneumatic cylinder 7. To facilitate air discharge from the piston cavity of the pneumatic cylinder 7, accelerated, without counterpressure, on the pipeline 26 in front of the main the valve 10 is installed an additional throttling sleeve 27. The valve 24 is made in the form of an adjustable hollow rod 28 mounted on the valve-cutter body 8, functionally connected with a movable lkatelem 29 snabzhennm seal 30 and disposed under the hollow rod 28 and a guide body 31, shut-off valve 8, the pusher 29 is contacted to the movable rod 32 Shutoff valve 8.

The operating pressure of liquefied gas 5 in the pipeline 2 1.6 MPa is selected from the conditions of safe operation of cylinders. The pressure of compressed air in the piping system 13 and 15 with 0.2-0.25 MPa is selected from the conditions of reliable and fast response of the main valve 10 and is regulated by means of the pressure regulator 14. The pressure of the compressed air in the pipe 3 and the hose 22 is regulated by means of the compressed air regulator 23 of the increased pressure and is 0.5 MPa.

The described set of equipment corresponds to one filling station. The installation may contain 6-24 or more filling posts, the number of which is selected depending on the number of cylinders filled and the mode of operation of the installation.

The installation works as follows

In the initial position, the suspension platform 19 is lowered, the shut-off valve 8 and the actuator valve 9 are closed, the valve 10 and the additional valve 24 are open, the sub piston cavity of the pneumatic cylinder 7 is connected to the atmosphere. The cylinder 18 is mounted on the suspension platform 19. The movable load 17 of the weight lever 5 is placed in a position corresponding to the total weight of the empty cylinder 18 with its spare device and the filling rate of the container 18 with liquefied gas,

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The pneumatic clamp is attached to the locking device of the cylinder 18 and the valve-actuator 9 is opened by pressing the button. Compressed air begins to flow into the piston chamber of the pneumatic cylinder 7, while the suspension platform 19 rises to the extreme upper position and the valve 10 closes. Compressed air is supplied in the same way; however, the liquefied gas supply shut-off valve 8 comes into play, when activated, the additional valve 24 is closed; The movable rod 32 of the valve-cutter 8 and the movable pusher 29 with the seal 30 are lifted up to the extreme upper position by the amount a and the seal 30 contacts the hollow rod 28 to ensure the tightness of the connection. When the shut-off valve is activated for 8 hours, the liquefied gas through the hose 21 enters the cylinder 18. The inflow of compressed air to feed the shut-off valve 8 through pipelines 13 and 15 through the throttling sleeve 16 continues even after the complete lifting of the suspension platform 19 and closing the actuator 9, whereby possible leaks are compensated, as well as a change in the volume of the working cavity of the hose 11 due to an increase in pressure when filling the container 18 with liquefied gas. As the balloon 18 is filled with liquefied gas, its total weight increases, and it, together with the suspension platform 19, begins to descend.

When the weight lever 5 is rotated by angle o (fig. 1) and the valve 10 is horizontal, the valve 10 opens and connects the piston chamber of the pneumatic cylinder 7 and the shut-off valve 8 with the atmosphere. The air filling the sub piston chamber of the pneumatic cylinder 7 is vented through the open valve 10 into the atmosphere. The throttling sleeve 16 limits the flow of air with the valve 10 open, so that the pneumatic cylinder rod 7 is lowered

: pressure. Rod 32 shutoff valve

 8 is lowered together with the pusher 29 and the compactor 30, the valve 24 is activated, the compactor 30 comes out of contact with the hollow rod 28 and compressed air is blown out of the resulting gap between the compactor 30 and the hollow rod 28. pneumatic cylinder piston cavity

7. Due to the presence of an additional throttling sleeve 28, bleeding occurs rapidly, without the presence of backpressure, as a result of which the shut-off valve 8 is activated, and consequently, the supply of liquefied gas to the cylinder 18 is accelerated, which eliminates the effect of compressed air fluctuations on the gas cutoff shutoff valve and. increases the accuracy of filling the cylinder 18 with liquefied gas, eliminating its overflow

After the valve 10 has triggered, the accelerated actuation of the valve 8 and the lowering of the suspension platform 19 is achieved by activating an additional valve 24, eliminating the back pressure that occurs in the piston chamber of the pneumatic cylinder 7 when the suspension platform is lowered 19. The lowering time of the last and, accordingly, the response time of the shut-off valve 8 dramatically reduced, contributing to the accelerated cessation of gas supply to the cylinder and ensuring accuracy of filling without overflowing it.

Suspended platform 19 is lowered to the lowest position, the pneumatic clamp is removed by the operator from the locking device of the cylinder 18, which is moved from the suspended platform 19 and placed outside the area weighed and. At the end of the cycle, all elements of the installation are returned to their original position. After replacing the balloon, the cycle is repeated.

The design of the installation for filling a cylinder with liquefied gas in connection with the presence of an additional relief valve and an additional throttling sleeve ensures an accelerated actuation of the liquefied gas cutoff valve to the filled cylinder and eliminates the effect of pressure fluctuations of compressed air on the filling accuracy, ensures stable filling of cylinders with a given accuracy rate, eliminates cases of overflow of cylinders with liquefied gas and provides the ability to operate the unit even in continuous flow mode th fur anizirovannoy handling cylinders.

Claims (1)

Formula Fig. eteny The installation for filling cylinders with liquefied gas according to bus no. 1116266, characterized in that, in order to increase efficiency by increasing the accuracy of filling cylinders under any conditions, it it is fitted with an additional compressed air vent valve mounted on the body of the shut-off valve, pneumatically connected to the main relief valve, and a throttling bushing located on the pipeline in front of the main compressed air vent valve. 1-19 Kgaz t-j OHUWBH (Rig1 | voEud (Rig.2 Editor O. Golovach Compiled by G. Olshanska Tehred L. Oliyink Proofreader “Reshetnik Order 5681/32 Circulation 453 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 4/5, Moscow, Zh-35, Raushsk nab. 113035 Production and printing company, Uzhgorod, st. Project, 4 Fi.Z