RU2623612C2 - Body movement overspeed limiter - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: limiter is designed for the installation into the emergency protection system. The working piston changes the shutoff element position of the standard pipeline valves. The working chamber is made in the body. The volume of the working chamber depends on the working piston position. The working chamber is filled with the granular material. The granular material has the possibility to leave the working chamber only into the granular material discharge chamber through the opening. The opening internal area is smaller than the cross-section area of the working chamber. The granular material discharge chamber volume depends on the position of the discharge chamber piston. Pistons are coaxial. In the standby mode, the piston of the granular material discharge chamber is blocked by the mechanism. The mechanism loses the blocking function under the influence of the emergency factor. The working piston movement is carried out due to the granular material output from the working chamber to the granular material discharge chamber without using the energy external source.

EFFECT: reliability increase.

1 dwg

Description

The proposed speed limiter of the working piston is part of a purely mechanical control device that acts unilaterally on the control object. Advantageously, the limiter can be used in autonomous emergency protection systems that automatically bring standard pipe fittings to the closed or open position.

Known pneumatic speed limiter of the working piston, which is part of a door closer (US 1963687, C1.16-66, 06/19/1934). The limiter contains a working chamber, having the form of a straight circular cylinder, in one base of which a through throttle hole is made, and the other is the bottom of the working piston, with the possibility of reciprocating motion along the axis of the chamber. The working piston is constantly affected by the working force of the pre-compressed spring. The vector of this force lies on the axis of the working chamber and is aligned with the speed of movement of the working piston. In the opposite direction, the working piston is affected by the force of the working air located in the working chamber and having the ability to exit from it into the atmosphere only through a throttle opening, the passage area of which is smaller than the cross-sectional area of the working chamber. Moreover, the size of the orifice of the throttle bore has a significant impact on the speed of the working piston.

Fundamentally the same design has a hydraulic speed limiter for the working piston, which is also part of the door closer (US 633682, 09.26.1899). Here, unlike a pneumatic device, the force of the working fluid acts against the working force of the pre-compressed spring and there is a discharge chamber.

The presented analogues operate in a certain range of speeds of the working piston, which does not include zero standby speed.

Known hydraulic limiter to almost zero the speed of the "plunger", which is part of a hydraulic jack with one "plunger" (GOST R 53822-2010). To ensure the unity of terminology, the “plunger” attribute has been replaced here by a working piston that coincides with it in function.

The limiter comprises a working chamber in which a working piston is installed with the possibility of reciprocating motion along its axis, whose speed is limited. The working piston is affected by the working force of the load weight, the vector of which lies on the axis of the working chamber and is aligned with the speed of the working piston. In the opposite direction, the working piston is affected by the force of the working fluid located in the working chamber and having the possibility of exiting from it only through the throttle hole connecting the working chamber to the liquid discharge chamber. Depending on the fixed, manually set position of the locking needle relative to the throttle hole, the area of its passage section changes from a maximum value to zero. Accordingly, the speed of the working piston changes from the maximum value to almost zero. Moreover, the maximum flow area of the throttle hole is less than the cross-sectional area of the working chamber.

The disadvantage of the hydraulic limiter is the impossibility of using it in a long standby mode with unchanged geometric parameters, since the working piston gradually shifts under the influence of the working force of the load even when the throttle hole is completely blocked by the locking needle, i.e. when the area of its bore is equal to zero. This is due to the presence of movable, contact seals in the hydraulic jack, which allow the flow of working fluid between shared spaces under the action of a pressure difference. So, in accordance with paragraph 3.2.12 of the technical requirements of GOST R 53822-2010 “... the rams of the jacks within 12 hours of the rated load from any position in height should not fall more than:

- 5 mm - with a loading capacity of 10 kN (~ 1.0 tf) - 32 kN (~ 3.2 tf);

- 15 mm - with a loading capacity of 50 kN (~ 5.0 tf) - 120 kN (~ 12.0 tf); ... "

The specified disadvantage is absent in the speed limiter of the working piston of the jack SU 1359251, B66F 3/00, 12.15.87. Bull. No. 46. There, the limiter contains a working chamber, the volume of which depends on the position of the working piston. Between the working chamber and its only outlet, a “working medium supply mechanism” is installed, containing a link controlling the process of the contents of the working chamber. The working chamber and the space surrounding the control link are filled with a loose body, that is, a plurality of particles of orders of magnitude larger size and friction parameters than the molecules of a fluid hydraulic jack. Therefore, it does not shift through the gaps of the movable interfaces between the shared spaces under the influence of the pressure difference, and the geometric parameters of the device do not change with time when the control link is stationary, ensuring the stability of the device in standby mode. In this case, the stationary control link and the granular body are links in the chain fixing the working piston in standby mode, and the axis of the control link is perpendicular to the axis of the working piston.

The disadvantage of the analogue SU 1359251 is the need to attract an external energy source to bring it out of standby (forced removal of the granular body from the working chamber) by moving the control link of the chain fixing the working piston. In this case, the granular body is discharged into an open container, and not into the granular body discharge chamber isolated from the environment, which is also a disadvantage of this analogue eliminated in the prototype.

As a prototype of the proposed device, the "load securing mechanism" was selected, which is an additional part of the hydraulic jack with one piston (SU 523862, B66F 3/24, 05.08.76. Bull. No. 29).

The prototype contains a "circular cavity", that is, a working chamber, the volume of which depends on the position of the "locking ring", which acts as a working piston and, accordingly, the possibility of reciprocating motion along its axis. The working chamber communicates with the discharge chamber of the granular body ("sleeve") by means of a throttle "hole", the area of the passage section of which is less than the cross-sectional area of the working chamber. The volume of the discharge chamber of the granular body depends on the position of its piston (“pusher”), which has the possibility of reciprocating motion along its axis and interacts with the “screw”, the “nut” of which is made in the housing of the discharge chamber of the granular body. Both chambers are filled with a loose body. In this case, the fixed “screw”, the piston of the chamber for dumping the granular body and the granular body are the links of the chain fixing the working piston in standby mode, and the axis of the piston of the chamber for dumping the granular body and the axis of the “screw” are located on the same line perpendicular to the axis of the working piston.

The disadvantage of the prototype is the need to attract an external energy source to bring it out of standby by moving the “screw” and “sleeve”, forcibly removing the granular body from the working chamber (“To completely release the jack from the load, the jack-like rotation of the jack around the vertical axis is performed, acting on the sleeve 10 as a lever ").

The technical result of the claimed invention is the ability to bring the device out of standby mode and set the working piston in motion by arranging the granular body to exit the working chamber without involving an external energy source.

For this, the speed limiter of the working piston contains a working chamber filled with a loose body, the volume of which depends on the position of the working piston and communicates via a throttle hole with a discharge chamber of the granular body. The volume of the discharge chamber of a granular body depends on the position of its piston, which, like a granular body and other bodies, is a link in the chain fixing the working piston in standby mode. In this case, the orifice cross-sectional area of the throttle bore is less than the cross-sectional area of the working chamber, the axis of the piston of the loose body discharge chamber is in line with the axis of the working piston, and the chain fixing the working piston in standby mode easily loses its function when the expected factor appears.

In FIG. 1 presents a part of the machine containing the proposed speed limiter of the working piston 3, in the working position of the standby mode. The machine comes out of it and shifts the corresponding locking element to the closed position when the stopper 8 is destroyed by emergency water that appears on the floor 12 of the room protected from flooding. The prototype of the machine is the device RU 2475600, IPC E03C 1/04, F16P 5/00 (2006.01), 02/20/2013 Bull. No. 5.

Names and symbols in FIG. one

1. The body of the machine. It has a tubular shape. Contains the proposed speed limiter of the working piston 3.

2. The bottom of the housing 1.

3. The working piston of the working chamber B of its speed limiter. Coaxial to housing 1. Has the ability to reciprocate along axis A of housing 1.

4. The rod of the working piston 3, coaxial to the piston 3 and the housing 1.

5. Rocker of the working piston 3. Symmetrically with respect to the axis A of the housing 1. By means of the rod 4 of the working piston 3 transfers to it the labor force of the pre-stretched working springs 6 of the machine.

6. Working springs of the machine. Pre-stretched. They create a constantly acting labor force transmitted to the working piston 3 by means of the rocker arm 5 of the working piston 3 and the rod 4 of the working piston 3, lying on the axis A of the housing 1 and directed from top to bottom.

7. The bulk body of the speed limiter of the working piston 3. Consists, for example, of many metal balls. It is a link in the chain 8-9-10-11-7, fixing the working piston 3 in standby mode. It acts on him by the force of a loose body lying on the axis A of the housing 1 and directed from the bottom up.

8. Stop of the working piston speed limiter 3. By means of the rocker 9 of the stop 8 with the axis of rotation E, the rod 10 of the piston 11 of the discharge chamber of the granular body 7, the piston 11 of the discharge chamber of the granular body 7 and the granular body 7 fixes the working piston 3 in standby mode. It can be made, for example, in the form of a paper ring. Destroyed by emergency water that appears on the floor 12 of the premises protected from flooding.

9. The yoke of the stopper 8. Has the possibility of rotational movement around its axis E. It is a link in the chain 8-9-10-11-7, fixing the working piston 3 in standby mode.

10. The piston rod 11 of the discharge chamber of the granular body 7, coaxial to the piston 11 of the discharge chamber of the granular body 7 and the housing 1. It is a link in the chain 8-9-10-11-7, fixing the working piston 3 in standby mode.

11. The piston of the chamber D dumping granular body 7. Coaxial to the housing 1. Has the possibility of reciprocating along the axis A of the housing 1. Together with its rod 10 is a chain link 8-9-10-11-7, fixing the working piston 3 in the standby mode. The sealing elements of the piston 11 of the discharge chamber of the granular body 7 and the holes for its rod 10 in the bottom 2 can only be used together with the stopper 20 in a two-stage embodiment of the device.

12. The floor of the premises protected from flooding.

13. The nut of the rod 4 of the working piston 3. Forms a self-braking kinematic screw pair with it. It is used to charge the machine with energy, that is, to overcome the working force of the working springs 6 and to displace the working piston 3 and related parts to the upper working position of the standby mode.

14. The cable block of the working piston 3. Has the possibility of rotational movement around its axis F, which is stationary relative to the working piston 3. Doubles the stroke of the right branch of the cable 15 relative to the stroke of the working piston 3. Allows to significantly reduce the dimensions of FIG. 1 machine parts.

15. The cable of the machine. Converts the movement parameters of the working piston 3 and transfers it to the locking device of the water source. Usually covers the cable block 14, forming the left and right branches of the cable 15. The end 16 of the left branch of the cable 15 and the end of the flexible pipe 17 are fixedly mounted on the slider 18. The right branch of the cable 15 has the ability to move inside the flexible pipe 17 along its center line, and the end of the right branch of the cable 15 is fixed in the locking device of the water source.

16. The end of the cable 15. Fixed on the slider 18.

17. Flexible tube of the machine. Longitudinally incompressible. Contains a cable 15, with the ability to move along its center line. One end is fixedly mounted on the slider 18, and the other on the shut-off device of the water source.

18. The slider of the automatic cable tensioner 15. Together with the end 16 of the cable 15 and the end of the flexible pipe 17 fixed thereto, it can reciprocate along the axis A of the housing 1 with manual control of the shut-off device of the water source.

19. Spring automatic cable tensioner 15. Pre-compressed.

20. Bottom plug 2. In a single-stage embodiment, the device is absent if there is a through threaded hole in the bottom 2 for it. It is necessary for the free exit of air from the rod chamber G when the piston 11 of the chamber for dumping the granular body down moves under its own weight. It is installed together with the sealing elements of the piston 11 of the discharge chamber of the granular body 7 and the hole in the bottom 2 for the rod 10 of the piston 11 of the discharge chamber of the granular body 7 in order to create a second stage of the device that reduces the minimum non-zero speed of the working piston 3. Has an adjustable throttle hole connecting the rod chamber G with atmosphere.

A is the axis of the housing 1. Is common to the working chamber B, the chamber D of the discharge of the granular body 7, the bottom 2, the working piston 3 and its rod 4, the piston 11 of the discharge chamber of the granular body 7 and its rod 10, nut 13, slider 18 and springs 19 automatic cable tensioner 15. It is also the axis of symmetry for the rocker arm 5 of the working piston 3.

In - the working chamber of the speed limiter of the working piston 3. It is located inside the housing 1 and is aligned with it.

C is a throttle hole communicating the working chamber B with the chamber D dumping granular body 7.

D - chamber discharge granular body 7. It is located inside the housing 1 and is aligned with it.

E - the axis of rotation of the rocker arm 9 of the stopper 8. Fixed relative to the housing 1.

F - axis of rotation of the cable block 14. Perpendicular to the axis A of the housing 1 and is rigidly connected with the working piston 3.

G is the rod chamber of the piston 11 of the discharge chamber of the bulk body 7. It is concomitant. With the same dimensions, it allows you to create a second stage of the device that reduces the minimum non-zero speed of the working piston 3. For this, a plug 20 is also sealed in the through threaded hole of the bottom 2 of the one-stage embodiment.

The proposed speed limiter for the movement of the working piston is contained in the machine part (Fig. 1) having a tubular body 1 with axis A and bottom 2. Inside the body 1 there is a working chamber B coaxial to it of the speed limiter of the working piston 3, having the shape of a straight circular cylinder. A throttle bore C is made in one base of this cylinder, and the other is the bottom of the working piston 3, with the possibility of reciprocating motion along the axis A of the housing 1. On the working piston 3, by means of a rigidly connected coaxial rod 4 of the working piston 3 and symmetrical with respect to the axis A of the housing 1 of the rocker arm 5 of the working piston 3, a constantly acting working force of the pre-stretched working springs is transmitted 6. The vector of this force lies on the axis A of the housing 1 and is aligned with the speed of movement of the working pore shnya 3 in the direction from top to bottom. In the opposite direction, the force of the granular body 7 acts on the working piston 3, consisting, for example, of a plurality of metal balls located in the working chamber Viv of the discharge chamber of the granular body 7 of the same design. To ensure the movement of the working piston 3 in a speed-limited mode, the granular body 7 has the ability to exit from the working chamber B into the chamber D of dumping the granular body 7 and vice versa only through the throttle hole C. located between them. Moreover, the area of its passage section is less than the cross-sectional area cross-section of the working chamber B. In standby mode, the working piston 3 is fixed by the stopper 8 by means of the rocker arm 9 of the stopper 8, the rod 10 of the piston 11 of the discharge chamber of the granular body 7, the piston 11 of the discharge chamber of the granular body 7 and the granular body 7, that is, chain links 8-9- 10-11-7, fixing the working piston 3. In this case, the rocker 9 of the stopper 8 has the possibility of rotational movement around the axis of rotation of the rocker arm 9 of the stopper 8, which is stationary relative to the housing 1, and the stopper 8 is placed in close proximity to the floor 12 of the room protected from flooding in order minimize time Its destruction by emergency water.

To charge a part of the machine with energy, that is, to overcome the working force of the working springs 6 and displace the working piston 3 with its beam 5 and the ends of the working springs 6 to the upper working position of the standby mode, a self-braking screw kinematic pair in the form of a nut 13 covering the threaded part of the rod 4 is used working piston 3.

The following are the elements of the machine part (Fig. 1), not directly related to the proposed speed limiter of the working piston 3.

Together with the working piston 3, the possibility of reciprocating movement along the axis A of the housing 1 has a rotation axis F of the cable block 14 that is perpendicular to the axis A of the housing 1. The cable block 14 is normally covered by a cable 15. The end 16 of the cable 15 and the end of the flexible pipe 17, inside of which the cable 15 has a return movement, are fixed on the upper part of the slider 18 of the automatic cable tensioner 15. The other end of the cable 15 and the end of the flexible pipe 17 are fixed, respectively, in and on the locking device of the water source, changing the edge position of the locking element during the return movement of the cable 15 and the handle locking device water source. But since the cable, being a flexible thread, can transmit only tensile forces, in the direction of compression of the cable 15, the locking element of the locking device of the water source is displaced only manually by means of its handle. At the same time, so that there is no destructive inelastic longitudinal bending of the open part of the cable 15 or other inconvenience, the cable 15 is constantly in a pre-tensioned state. To do this, the slider 18 of the automatic cable tensioner 15, with the possibility of reciprocating movement along the axis A of the housing 1, together with the end 16 of the cable 15 and the end of the flexible pipe 17 fixed to it, is constantly affected by the force of the pre-compressed spring 19 of the automatic cable tensioner 15. the condition for the operation of the machine is the dominance within the stroke of the working piston 3 of the magnitude of the working force of the working springs 6 over the sums of all the forces directed against it, except the strength of the granular body 7.

With the same dimensions of the proposed device, its functionality can be expanded by reducing the minimum non-zero velocity of the working piston 3. This is done by normalized obstruction of the exit of particles of the granular body 7 from the working chamber B not by reducing the area of the orifice of the throttle hole C, but by the piston 11 of the chamber D the discharge of the granular body 7 and compressed air in the rod chamber G. To do this, in the through threaded hole of the bottom 2 of a single-stage embodiment of the device is installed plug 20 with an adjustable throttle hole connecting the rod chamber G to the atmosphere. In addition, the cylindrical surface of the piston 11 of the bulk body discharge chamber and the holes for the rod 10 of the piston 11 of the bulk body discharge chamber in the bottom 2 are divided into parts by groove or movable, contact, pneumatic seals.

It should be noted that an alternative to the axial force of the rotated nut 13 can be the force of compressed air supplied to the working piston 3 from the side of the discharge chamber D of the granular body 7 and the working chamber B through the rod 10 of the piston 11 of the discharge chamber of the granular body 7, supplemented with elements for this, for example automotive nipple. In this case, the tightness of the working chamber B and the rod chamber G must be ensured by appropriate seals.

The proposed speed limiter of the working piston 3, located in the machine part of FIG. 1, works as follows.

The standby mode of the machine is a state of intense rest of all its parts, whose position relative to the housing 1, as the reference body, depends on the position of the working piston 3. To ensure this state, the stopper 8 by means of the rocker arm 9 with the axis E of its rotation, rod 10 of the piston 11 of the reset chamber granular body 7, the piston 11 of the discharge chamber of the granular body 7 and the granular body 7 fixes the working piston 3 in the position of FIG. one.

When emergency water appears on the floor 12 of the premises protected from flooding, the stopper 8 is destroyed. In this case, the force interaction between the links of the chain 8-9-10-11-7, fixing the working piston 3, disappears and the following occurs.

In a single-stage embodiment, the plug 20 is missing. The piston 11 of the chamber for discharging the granular body 7 under the action of the weight forces of a part of the granular body 7 of the chamber D for discharging the granular body 7, its own and the rod 10 of the piston 11 of the chamber for discharging the granular body 7, is freely displaced to its lowest position, easily displacing air from the rod chamber G into the atmosphere through a relatively large threaded through hole in the bottom 2 for the plug 20. Now the particles of the granular body 7 located above the throttle hole C can either fall out due to gravity or be pushed into the chamber D of the discharge of the granular body 7 part c silt action of the working piston 3 on the granular body 7 is not balanced by the force of its friction.

In a two-stage embodiment of the device, as well as in a single-stage, the piston 11 of the discharge chamber of the granular body begins to move down. Moreover, in the rod chamber G with airtightness normalized by plug 20 and seals, the air is compressed and creates a normalized force that limits the speed of movement of the piston 11 of the downstream body discharge chamber. Accordingly, the particle velocity of the particles of the loose body 7 from the working chamber B to the discharge chamber D of the loose body 7 through the opening C is also limited.

The volume of the granular body 7 in the working chamber B, which decreases with any embodiment of the device, is the reason for its level to move down together with the working piston 3, the rod 4 of the working piston 3, the nut 13, the rocker 5 of the working piston 3, the ends of the working springs 6 and the axis of rotation F cable block 14. In this case, the mechanism of the cable block 14 doubles the stroke and speed of movement of the right branch of the cable 15, and its remote end biases the locking element of the locking device of the water source to the closed position.

The device is brought into the working position of the standby mode by screwing the nut 13 on the threaded part of the rod 4 of the working piston 3 until it stops. Then the device is turned in the vertical plane by about 180 degrees to naturally move the granular body 7 into the working position and fix it there with the stopper 8 via chain 8 -9-10-11-7, fixing the working piston 3. After that, the nut 13 is unscrewed and behind it under the action of the force of the spring 19 of the automatic cable tensioner 15, the slider 18 along with attached to it ntsom cable 16 and the end 15 of the coiled tubing 17. At the end of stroke slider 18 equal to the stroke of the working piston 3, the branch cable 15 are tensioned by spring 19, an automatic tensioner cable 15, less the respective weight forces and stop it. In this case, the immobility of the cable block 14 is provided much greater than the force of the spring 19 of the automatic cable tensioner 15, the force of the working springs 6. Next, the nut 13 is slightly removed from the slide 18 and is fixed in this position by the forces of friction. And finally, the handle of the shut-off device of the water source is manually shifted to the open position. At the same time, the cable 15 also shifts inside the flexible pipe 17 towards the locking device of the water source, overcoming half the force of the spring 19 of the automatic cable tensioner 15 minus the half of the corresponding weight forces. In turn, the cable 15 shifts by half the size of its stroke slider 18 to the extreme lower position of FIG. 1 and the machine is in standby mode.

The machine does not interfere with the normal, manual use of the shut-off device of the water source. The process of bringing it into the open position is described above and when the stopper 8 and nut 13 are unchanged, it can occur many times, alternating with the shift of the handle to the closed position along with the end of the cable 15. Moreover, half the force of the spring 19 of the automatic cable tensioner 15, minus the half corresponding forces of weight, provides pre-tensioning of the cable 15, displacing the slider 18 together with the end 16 of the cable 15 and the end of the flexible pipe 17 upward by a factor of two less than the displacement of the cable 15.

Claims (1)

The speed limiter of the working piston of the emergency protection system, automatically bringing the pipe fittings into a closed or open position, containing a working chamber filled with a granular body, the volume of which depends on the position of the working piston and communicating via a throttle hole with the same granular body discharge chamber, the circuit a stopper blocking the working piston, characterized in that the stopper is made of a material that collapses during an accident and ensures the loss of a stop at the right time om the locking function.

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