UA44437A - LOCKING DEVICE FOR BULK ENVIRONMENTS - Google Patents

Abstract

A check device for free-flowing materials contains a casing with inlet and outlet channels, a seat with a through hole, a rotary check element installed on a support, and a hollow elastic element. The seat is constructed as a washer with a recess corresponding in form to that of the rotary check element in the zone of contact with that element, and is inserted into the inlet channel The elastic element is positioned in the center part of the outlet channel, in line with the seat washer, and provides a possibility of pressing the seat washer against the rotary check element. The device allows increasing of reliability in operation.

Description

The invention relates to the branches of technology dealing with the movement of loose media - pneumatic transport, sandblasting or shotblasting installations.

In the current state of the art, there is a well-known analogue - a cork valve, which can be used as a shut-off device for loose media (see D.F. Gurevich, Pipeline armature, Reference manual, L.,

Mechanical engineering, 1981, pp. 187, 188). The plug valve contains a body with inlet and outlet channels, a rotary closing body in the form of a plug with a passage channel located in two supports, a union nut, and a stuffing box. The analogue coincides with the essential features of the invention: a case with input and output channels, a rotary locking device located in the support. The disadvantage of this analogue is that when it is used to block the flow of loose media, the gaps between the housing and the plug are quickly clogged with small particles, and the faucet fails. Among the analogues, a cork faucet is also known, in the body of which a rotary plug is installed, connected to the drive and equipped with an elastic bushing, through which rigid nozzles are passed. The faucet also has elastic pressure elements installed in the body on the ends of the elastic sleeve, and between the sleeve and the pressure elements, there are anti-friction gaskets (see ASSR Mob76796, E16K 5/04, dated 04.02.75). This analog coincides with the essential features of the invention: a case with input and output channels, a rotary locking device located in the support, an elastic element. The disadvantage of this cork valve is that when it is used to block the flow of loose media, the elastic sleeve is destroyed by the abrasive particles of the loose media passing through the gaps and the sealing of the valve is disrupted when the flow is blocked.

The prototype of the proposed shut-off device for loose media turns out to be a shut-off device (see a.s. of the USSR

Ме1291776, Е16К 5/04, dated 08.10.84), which contains a housing with a saddle and inlet and outlet channels for the passage of the working medium and a rotary locking body, which is rigidly connected to the drive shaft, which is located in supports that are spring-loaded in in the direction of the saddle. In this device, two guide cups located diametrically opposite each other are installed on the outer surface of the housing with the possibility of rotation relative to the housing in a plane perpendicular to the shaft axis, and each support is made with a shank located in the guide cup.

Common essential features with the features of the proposed device in the prototype are: a case with input and output channels, a seat with a through hole, a rotary locking device located in the support, a hollow elastic element.

The disadvantage of the locking device, which is a prototype, is that when the drive shaft rotates on one side relative to the rotary locking body in the presence of radial lateral forces, the reactions on the supports are different relative to each other. Due to this, the rotary locking device may partially return in an unexpected direction and depressurization will occur in the area of contact between the seat and the locking device. This results in low operational reliability.

The invention is based on the task of improving the shut-off device for loose media by making a seat in the form of a washer with a depression, the shape of which corresponds to the shape of the rotary closing body in the contact zone with it, which is installed inside the inlet channel, and the elastic element is also installed inside the inlet channel coaxially with the seat washer with the possibility of pressing it relative to the body to the rotary locking device, which allows to increase operational reliability when using the invention.

The task is solved by the fact that in the shut-off device for loose media, which contains a housing with inlet and outlet channels, a seat with a through hole, a rotary locking body located in the support, a hollow elastic element, in contrast to the prototype - the seat is made in the form of a washer with a depression, the shape of which corresponds to the shape of the rotary locking device in the area of contact with it, which is installed inside the input channel, and the elastic element is also installed inside the input channel of the coaxial washer of the saddle with the possibility of pressing it relative to the body to the rotary locking device.

To calibrate the supply of a loose medium, the shut-off device can be equipped with a throttle washer with a hole smaller than the hole of the saddle washer.

In case of installation of a shut-off device from the bottom of a high capacity for bulk media, in order to reduce the likely clogging of the bulk media in the inlet channel of the case, as well as to eliminate fluctuations in the supply of the bulk media when the height of the column of the bulk media fluctuates, the shut-off device can be equipped with a labyrinth separator for bulk media, which is installed in the inlet channel in front of the throttle washer.

The labyrinth splitter of loose media can be made in the form of a sequential set of parts: a cup with a hole in the bottom along the axis near the beginning of the inlet channel, a disc with holes that are offset from its axis, and a funnel that narrows with its hole in the direction of the throttle washer, while the cross-sectional area of the cup hole, the total cross-sectional area of the disc holes, as well as the area of the smallest cross-sectional area of the funnel hole exceeds the cross-sectional area of the throttle washer hole.

The elastic element can be made in the form of a rubber ring with a central diameter that exceeds the diameter of the opening of the throttle washer, which is installed between the end of the funnel and the throttle washer.

To increase the general sealing of the locking device, the rotary locking body inside the case can be made of a cantilever.

To reduce the probability of small particles getting between the saddle and the rotary locking body when turning the latter, the rotary locking body can be made with a through channel, the cross-sectional limits of which exceed the cross-sectional limits of the throttle washer opening.

To eliminate the possibility of the rubber ring being pressed into the hole of the funnel when the device is operating under high internal pressure of compressed air, the funnel can be made on the end with an annular collar that contacts the side surface of the hole of the rubber ring and partially covers the latter from the middle along its thickness.

To increase the performance of the device in the process of increasing wear of rubbing surfaces, the rubber ring can be made of sponge rubber.

To facilitate assembly of the device, a rubber ring can be glued to the end of the funnel.

To increase the alignment of the holes of the throttle washer and the seat washer when assembling the device, both washers can be glued to each other in the contact area.

To increase the sealing of the device between the input and output channels, the rubber ring can contact the input channel tightly with its periphery.

To increase the compensatory properties of the "rotary locking body - saddle" connection when using the device, both washers relative to the surface of the inlet channel can be installed with a gap.

For the same purpose, the side surface of the saddle washer in the direction of the rotary locking device can be made with a slope.

The causal relationship between the set of features of the invention and the technical result that can be achieved is as follows.

The new design of the saddle and the placement of the elastic element, as well as the new connection for pressing the elastic element of the saddle to the locking body, make it possible to increase the reliability of the interaction of the saddle with the locking body, as it became possible to install the locking body in a fixed support, which, in different directions of applying the load to the locking body when the organ is turned, it does not affect the interaction of the locking device with the saddle, and at the same time, the elastic character of the interaction of the locking device with the saddle is preserved. All this compared to the prototype and increased operational reliability.

Fig. 1 shows the general view of the proposed device in a section in the "open" state, as well as when using the entire volume of the features of the invention, Fig. 2 shows a section along A - A of Fig. 1.

The device contains a housing 1 with an inlet channel 2 and an outlet channel 3, a rotary locking device 4, located in the support 5 of the housing, a hollow elastic element 6. There is also a seat made in the form of a washer 7 with a depression 8, the shape of which corresponds to the shape of the rotary locking device in the contact zone with him. On the other side, this washer is pressed relative to the body to the rotary locking device through an elastic element. The seat washer and the spring element are located in the inlet channel of the housing. The shut-off device is equipped with a labyrinth separator of loose media installed in the inlet channel. It can be made in the form of a sequential set of parts: a glass 9 with a hole 10 in the bottom along the axis near the beginning of the inlet channel, a disc 11 with holes 12 that are offset from its axis, and a funnel 13, which is narrowed by its hole 14 in the direction of the opening of the aforementioned pucks There is also a throttle washer 15 with a hole 16, which is installed between the spring element and the saddle washer. Both washers can be glued to each other. The opening of the throttle washer is smaller than the opening 17 of the seat washer, which ensures a stable flow of the bulk medium to the outlet channel of the case. For the same purpose, in the labyrinth splitter of loose media, the cross-sectional area of the cup hole, the total cross-sectional area of the disc holes, as well as the area of the smallest cross-sectional area of the funnel hole exceed the cross-sectional area of the throttle washer hole. The labyrinth separator of loose media can be made in a different way with the only criterion that satisfies its function - to ensure the absence of pressure on the hole of the throttle washer of the column of loose media from the capacity above the inlet channel of the housing to stabilize the flow through this hole, as well as to reduce the possible clogging of the loose media in input channel of the case. The rotary locking body inside the housing can be made cantilever, as shown in Fig. 2, which allows, due to its installation in one support of the housing, to ensure better sealing of the housing when the device is operating under internal pressure.

In principle, it is possible to install an elastic element in different places of the inlet channel of the housing and to perform different types of elastic element. The only thing it should do is provide elastic pressing of the saddle to the rotary locking device. But it is most expedient to perform this place as shown in the drawings, namely - the elastic element is made in the form of a rubber ring installed between the funnel and the throttle washer. In order to exclude unexpected compression of the rubber ring of the elastic element, as well as to exclude the compression of the rubber ring inside the hole of the funnel when the device is operating under internal pressure, the funnel is made on the end with an annular collar 18, which contacts the side surface of the hole of the rubber ring and partially covers the latter from the inside along its thickness.

To increase the compensation capabilities of the elastic element, its rubber ring can be made of sponge rubber, and to facilitate the overall assembly of the device, this rubber ring can be glued to the end of the funnel. In order to exclude unforeseen spillages past the rotary closing body - the rubber ring of the elastic element can contact the inlet channel of the case tightly with its periphery. To spread the self-installation of the seat washer relative to the locking body, the throttle washer and the seat washer relative to the surface of the inlet channel are installed with a gap of 19. At the same time, the side surface in the direction of the rotary locking body can be made with a slope. In order to stabilize the flow of the liquid medium through the throttle washer and reduce the ingress of small particles between the frictional surfaces of the rotary locking device and the seat washer, the rotary locking device can be made with a through channel 20, the cross-sectional limits of which exceed the cross-sectional limits of the opening of the throttle washer. One of the options for compressing the elastic element relative to the body is the one shown in Fig. 1, namely, the threaded nozzle 21 of the capacity with the bulk medium is screwed into the threaded part of the inlet channel 2 of the body 1 and through the cup 9, disc 11 and funnel 13, the elastic element b to the throttle washer 15 relative to the body 1. In the event that it becomes necessary to exclude the transmission of the pressure of the column of the bulk medium to the throttle washer 15 when the device is installed from the bottom of a high capacity with bulk medium - one of the parts 9, 11, 12 can be made with the possibility of limited axial movement by making it and body 1 interacting limiting edges or threaded areas (not shown in the drawings). The same elements can be used to exclude compression of the elastic element b when assembling the device.

The operation of the shut-off device for loose media is as follows.

From a capacity with a loose medium, for example - from a chamber feeder, through the nozzle 21 of this capacity, the loose medium enters the inlet channel 2 of the body 1. Then it enters the central part of the disc 11 through the hole 10 of the cup 9, from where it is poured onto the side surface through its holes 12 of the narrowing hole 14 of the funnel 13, and from it to the throttle washer 15. As a result of such a labyrinthine movement of the bulk medium through the holes 10, 12, 14 of the labyrinth splitter of the bulk media - the hole 16 of the throttle washer 15 is not affected by the pressure of the column of the bulk medium, where it is held and from the opening 16 of the throttle washer 15, the flow of the fluid flows with a constant rate. Next, the flow passes through the hole 17 of the washer 7 of the saddle, through the passage channel 20 of the rotary closing body 4 and enters the outlet channel Z of the housing 1, from where this flow is issued to the necessary next place of use in the equipment. If it is necessary to block the flow of the liquid medium, the closing body 4 is rotated in the support 5 of the housing 1 by 90". At the same time, the closing body 4, rotating relative to the depression 8 of the washer 7 of the saddle, blocks the flow of the liquid medium from the opening 17 of the washer 7 to the outlet channel Z of the housing 1. position when the pressure of the compressed air in the outlet channel Z exceeds the pressure in the inlet channel 2 - the edge 18 of the funnel 13 does not allow the elastic element 6 in the form of a rubber ring to be pushed into the opening 14 of the funnel 13. In the event that small particles of the liquid medium fall between the surface of the rotary closing body 4 and the depression 8 of the washer 7 of the saddle, the resulting force compresses the elastic element b, which is compressed on the corresponding side and prevents jamming of the washer 7 of the saddle relative to the rotary locking body 4. At this moment, the washers 7 and 15 change their angular position within the gap 19 This self-installation of the washer 7 relative to the rotary locking device 4 also reduces the need for precise processing of the hole support 5 relative to the common axis of the input and output channels 2,3 during the manufacture of the device. Also, this self-installation allows you to maintain the reliable performance of the device during operation with relative wear of the surfaces of the rotary locking body 4 and the support hole 5 that rub. In addition, the interacting surfaces of the rotary locking device 4 and the cavity 8 are self-cleaning in the process of turning the locking device. All this increases the operational reliability of the device.

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Claims (14)

1. A shut-off device for loose media containing a housing with inlet and outlet channels, a seat with a through hole, a rotary shut-off device located in the support, a hollow elastic element, which is characterized by the fact that the seat is made in the form of a washer with a depression, the shape of which corresponds to the shape rotary locking device in the area of contact with it, which is installed inside the inlet channel, and the elastic element is also installed inside the inlet channel coaxially with the saddle washer with the possibility of pressing it relative to the body to the rotary locking device. 2. The locking device according to claim 1, which is characterized by the fact that it is equipped with a throttle washer with a hole smaller than the hole of the saddle washer, while both washers are in coaxial contact with each other. C. The closing device according to claims 1, 2, which differs in that it is equipped with a labyrinth separator of loose media, which is installed in the inlet channel in front of the throttle washer. 4. The closing device according to claim 3, which is characterized by the fact that the labyrinth separator of loose media is made in the form of a sequential set of parts of a cup with a hole in the bottom along the axis near the beginning of the inlet channel, a disk with holes that are offset from its axis, and a funnel that narrows with its hole in the direction of the throttle washer, while the cross-sectional area of the cup hole, the total cross-sectional area of the disc holes, as well as the area of the smallest cross-section of the funnel hole - exceeds the cross-sectional area of the throttle washer hole. 5. The locking device according to claims 1, 2, 4, which is characterized by the fact that the elastic element is made in the form of a rubber ring with a middle diameter that exceeds the diameter of the opening of the throttle washer, which is installed between the end of the funnel and the throttle washer. 6. The locking device according to claim 1, which is characterized by the fact that the rotary locking body inside the housing is made of a cantilever. 7. The locking device according to claims 1, 2, which is characterized by the fact that the rotary locking body is made with a through channel, the cross-sectional limits of which exceed the cross-sectional limits of the opening of the throttle washer. 8. The closing device according to claims 4, 5, which is characterized by the fact that the funnel is made on the end with an annular shoulder that contacts the side surface of the opening of the rubber ring and partially covers the latter from the inside along its thickness. 9. The locking device according to claim 5, which is characterized by the fact that the rubber ring is made of sponge rubber. 10. The locking device according to claim 5, which differs in that the rubber ring is glued to the end of the funnel. 11. The locking device according to claim 2, which differs in that both washers are glued to each other in the contact area. 12. The locking device according to claim 5, which is characterized by the fact that the rubber ring is in close contact with the inlet channel with its periphery. 13. The locking device according to claim 2, which is characterized by the fact that both washers are installed with a gap relative to the surface of the inlet channel. 14. The locking device according to claims 1, 13, which is characterized by the fact that the side surface of the saddle washer in the direction of the rotary locking body is made with a slope.