RU2118573C1 - Extending device for jet treatment of surfaces - Google Patents

Abstract

FIELD: heat power engineering. SUBSTANCE: this is particularly intended for jet treatment of heating surfaces. Device has support, blowing pipe with nozzle which is connected with power drive mechanism. Mechanism is installed on support for possible reciprocating motion in horizontal direction along guide supports. Also provided are working agent supply system with shut-off valve, and mechanism for adjustment of working agent pressure head. Shut-off valve includes valving piston with axial through-passage and pusher which is installed in space after piston for possible closing of axial through-passage. Valve opening and closing mechanism is connected with rocker unit. Stop and rocker unit are installed for possible interaction with each other at movement of blowing pipe. Device is simple in design, reliable and effective in operation. EFFECT: higher efficiency. 5 cl, 4 dwg

Description

 The invention relates to surface blasting and can be used in any sector of the national economy, for example, in the energy sector, for cleaning the heating surfaces of combustion chambers of power boilers from ash and slag deposits.

 A device for blast processing of heating surfaces, comprising a support, a blowing pipe with a nozzle head, a drive mechanism for reciprocating movement of the blowing pipe, mounted on the carriage with the possibility of horizontal movement along the guide rails of the support, and a system for supplying the working agent [1].

 A disadvantage of the known design is the low efficiency and lack of reliability in its use, as well as its cumbersomeness combined with the complexity of the technical solutions used to achieve the desired results.

 The closest analogue of the invention is a retractable device for blasting surfaces containing a support, a blowing pipe with a nozzle, a drive mechanism for reciprocating movement of the blowing pipe installed with the possibility of horizontal movement along the guide rails of the support, and a supply system of the working agent with a shut-off valve and a mechanism for regulating the pressure of the worker agent [2].

 This device has the same disadvantages as the aforementioned.

 The technical result achieved in the device according to the invention is to increase its reliability and efficiency while simplifying the design.

 The technical result is achieved due to the fact that a retractable device for blasting surfaces containing a support, a blowing pipe with a nozzle, a drive mechanism for the reciprocating movement of the shoe pipe, mounted with the possibility of horizontal movement along the guide rails of the support, and a system for supplying a working agent with a shut-off valve and a mechanism for regulating the pressure of the working agent, has a valve opening and closing mechanism containing a rocker and a stop, and the valve contains a piston-valve with a through axial anal and a pusher mounted in the cavity zaporshnevoy to overlap the axial passage, and a rocking mechanism associated with the opening and closing valve, wherein the abutment and the rocker are arranged to communicate with each other when moving the blower tube. The device allows to refuse in this case the use of an electromagnetic valve (or an electrified valve) that complicates the design with an additional system of electrical connections and end (track) electrical switches, which lose in reliability compared to purely mechanical connections.

 In the device, the blowing pipe is made with a screw thread on the outer surface and is in threaded connection with a nut mounted on a support and covering the blowing pipe, while the nut is mounted on the support with limited rotation. This embodiment allows the translational movement of the blowing pipe during its simultaneous rotation, defined by the drive, the output of which is coaxially connected directly to the blowing pipe, eliminating the use of any intermediate chain, belt (or other) gears and the use of additional guides, except for the base, This restriction of the rotation of the nut allows for a change in the stroke (reverse) of the blowing pipe to shift the spot of the jet coming from the nozzle of the working agent to a new spiral pipe projectors (track), not previously exposed, which increases the area of the treated surface as well as eliminates repeated blasting the same surface in a relatively short period of time.

 The mechanism for regulating the pressure of the working agent in the device is located directly on the surface of the blowing pipe. It is made in the form of an element that overlaps a special through slot located on the wall of the blowing pipe and passes the incoming working agent through its cross section, moreover, the geometric dimensions of the cross section (its area), as well as the screw cutting steps of the section of the blowing pipe interacting with the element of the working pressure control mechanism agent and the area interacting with the nut, are designed in such a way that the period of the cyclic stroke of the blowing pipe from the moment of the start of the release of the working agent from the nozzle of the device until This reverse and from the moment of reverse to the moment of termination of the release of the working agent corresponds to the period of the cyclic stroke of the complete opening and closing of the through-passage area of the slit by an element of the pressure regulating mechanism of the working agent, while the pressure of the jet at all points of the shoe surface is unchanged, because with an increase (decrease) in the distance traveled by the working agent jet to the surface of the blower, as the nozzle of the blowing pipe translates (returns) to move, the head of the jet emanating from the nozzle uniformly increases (decreases) in accordance with an increase (decrease) in the throughput cross-sectional area of the slot of the blower pipe , ajar (blocked) by an element of the mechanism for regulating the pressure of the working agent.

 The possibility of blowing with a constant pressure of the jet over the entire area of the blown surface significantly increases the reliability and efficiency of use of the device. The use of various saddle locking mechanisms for these purposes in known similar devices does not allow to sufficiently obtain a constant pressure of the working agent due to the limited adjustment range of these mechanisms.

 In addition, screw cutting on the surface of the blowing pipe is made in the form of two separate sections, one of which interacts with the nut, and the other with the mechanism for regulating the pressure of the working agent, while the device has a protective device made on the blowing pipe in the form of sections with a smooth surface located on both sides of each of the sections with a screw thread, and the diameter of the sections of the blowing pipe with a smooth surface is less than the inner diameter of the screw thread.

 This embodiment improves the reliability of the device. In case of failure of the limit (trip) electric switches provided in the device for signaling at the end (beginning) of operation and during reverse, a nut interacting with one of the sections of the blow pipe with a screw thread and an element of the working agent pressure control mechanism interacting with another section with a screw thread, with continued rotational movement of the blowing pipe out of the threaded connection with the threaded sections, thereby stopping the forward (or return) movement of the blower pipe, a threaded element of the pressure regulating mechanism of the working agent and the entire device relative to the support, preventing its mechanical breakdown, which is not always avoided when using only one overcurrent or thermal protection of electric drives overload.

 The supply of the working agent in the device is made in the form of a flexible sleeve, which allows you to abandon the complex design of the telescopic connection with seals in the junction of the supply and blowing pipes. Thus, a significant and justified simplification of the design is provided, which ultimately contributes to an increase in the reliability of the device as a whole without any functional losses.

 The rolling elements of the device along the support guides are made directly on the housing of the drive mechanism, and the sealing flap, actuated by the blowing pipe when moving it, is located outside the closed cavity structures.

 This circumstance allows the free opening and closing of the valve, as the location of the shutter inside the cavity of the wall of the object or closed cavity structures that are in communication with the treated chamber of the object does not represent such an opportunity to the extent possible due to clogging of the cavities with waste from industrial activities and cleaning, layered, hardening and preventing the free opening (closing) of the shutter. The solution to this problem is especially important for industrial power engineering when cleaning highly slagging boiler furnaces.

 And, finally, the technical result is achieved by the fact that the device has an emergency dismemberment mechanism for connecting the nut to the support, allowing you to quickly disconnect the nut from the support and manually move the device with the blowing pipe in a horizontal plane to the required distance, which is extremely important in case of emergency, and also during installation, commissioning and adjustment of the device. This circumstance significantly increases the reliability, safety and efficiency of its use.

 The device according to the invention is shown schematically in the drawings, where in FIG. 1 shows a device, a General view; in FIG. 2 is a view along arrow A of FIG. one; in FIG. 3 is a section BB of FIG. one; in FIG. 4 is a section BB of FIG. one.

 A retractable device for surface blasting contains a support 1, a blowing pipe 2, made with a screw thread on the outer surface in the form of two separate sections and having a replaceable nozzle 3, moreover, the change includes both a change in the geometry and diameter of the nozzles and a change in the angle of inclination of the axis of their holes relative to the plane of the machined surface, the drive mechanism 4 mounted on a support with the ability to move in a horizontal plane along its guides 5 using rolling elements, placed on the drive housing and made in the form of rollers 6, a nut 7, covering the blowing pipe in cooperation with one of its threaded sections and fixed to the support in the sleeve 8 by means of the emergency dismemberment mechanism for connecting the nut to the support, while installing the nut 7 in the sleeve 8 made with the possibility of limited rotation due to the segment groove present on the outer surface of the nut and the corresponding protrusion made on the inner surface of the sleeve and restricting the rotation of the nut in the sleeve, and the emergency mechanism about the dismemberment of the connection of the nut with the support is a ear-fork type, studded by a spring-loaded axis 9, where the ear 10 belongs to the sleeve 8, and the plug 11 is attached to the support, the valve opening and closing mechanism, consisting of a rocker 12 and an abutment 13, valve 14 itself. comprising an inlet 15 and an outlet 16 of the cavity, a piston valve 17 with a through axial channel 18 and a pusher 19 installed in the piston cavity 20 with the possibility of blocking the axial channel by a locking head 21 and connected to the rocker 12 of the valve opening and closing mechanism, a mechanism regulating the pressure of the working agent, consisting of a slot 22 made at the end of the blowing pipe 2 and blocked by a threaded sleeve 23 mounted on the surface of the blowing pipe in cooperation with its threaded section with the possibility of moving along it when the blowing pipe rotates, and the protrusion of the threaded sleeve enters into a slotted connection with the groove of the cage 24, excluding the joint rotational movement of the threaded sleeve with the blowing pipe, the supply of the working agent, consisting of a flexible sleeve 25, the sealing flap 26, closing embrasure conductive object to be processed, and driven by the blower tube as it moves, the damper is installed outside the cavity embrasures that eliminates its jamming on opening (closing) under intensive skid cavity solidifies waste of industrial activity and purification.

 The device operates as follows. When you turn on the drive mechanism 4 reports the rotation of the blowing pipe 2, which, screwing into the nut 7, carries the drive mechanism, moving through the rollers 6 along the guides 5 of the support 1. In this case, the blowing pipe performs both rotational and translational motion and, acting with its end on the sealing flap 26, opens the embrasure of the processed object and enters its chamber. When the movable part of the device passes a certain distance, the valve 14 opens by actuating the valve open-close mechanism, namely: the rocker 12 runs into the stop 13 and by means of the pusher 19 connected with the locking head 21, opens the axial channel 18. At the same time, the working agent supplied to the device along the flexible sleeve 25 and filling the inlet 15 and the piston 20 cavity of the valve with a certain pressure, unloads the piston cavity, rushing out of it through the open axial channel 18, and the piston-valve 17, freed from mechanical action of the spring-loaded pusher 19, under the influence of the pressure of the working agent in the inlet cavity moves toward the piston cavity. A message opens between inlet 15 and outlet 16 of the valve cavities. The working agent rushes through the outlet cavity to the slotted slot 22 of the working agent pressure control mechanism, ajar by a certain amount when moving the threaded sleeve 23 along the blowing pipe 2 during idling of the device necessary for the nozzle 3 to penetrate into the chamber of the workpiece. After passing through the slotted slot 22, the working agent through the blowing pipe and through the nozzle 3 is ejected by the jet onto the processing surface. In this case, the contact spot of the jet with the processing surface describes a spiral path on it, the radius of which uniformly increases throughout the entire direct stroke of the device. In this case, as the distance traveled by the working agent stream from the nozzle exit to the treatment surface increases, the jet head increases uniformly by increasing the working agent consumption due to the constant expansion of the bore of the slotted slot 22, which ensures constant movement of the threaded sleeve 23 along the blowing pipe 2 during its rotation . When the movable part of the device reaches its extreme position by means of an end (travel) switch mounted on the support 1 at the end of a direct passage (not shown), the drive mechanism 4 is reversed and the movable part of the device reverses. The nozzle 3 with the blowing pipe 2, rotating in the opposite direction, gradually leaves the object chamber, the pressure of the working agent coming out of the nozzle is uniformly reduced due to a decrease in its flow rate while decreasing the flow area of the slotted slot 22 overlapped by the threaded sleeve 23 moving along the blowing pipes 2 in the opposite direction. A uniform decrease in the pressure of the agent occurs until the valve 14 is closed and at the end of the cycle of the device, the slot 22 is completely closed.

 It is noteworthy that due to the installation of the nut 7 in the sleeve 8 with the possibility of limited rotation by means of a special segment groove when changing the stroke of the device, initially after the reverse, the blowing pipe 2 with the nozzle 3 only rotates until the end of this limited rotation and only after that they translate traffic. This circumstance allows blowing during the reverse stroke with the displacement of the spot of the jet in contact with the surface being treated onto a new spiral path that has not previously been exposed to the working agent.

 After the rolling part of the device is rolled back to the start of reverse idling, the valve 14 opens and closes in the reverse order: the rocker 12 moves off the stop 13, the pusher 19 blocks the axial channel 18 with its locking head 21 and acts on the piston-valve 17, which covers the outlet cavity 16, valve 14 closes.

 After the exit of the blowing pipe 2 with the nozzle 3 from the object’s chamber, under its own weight, the damper seal 26 closes, the limit (track) switch mounted on the support 16 at the end of the return stroke (the stop and the limit switch are not shown) is triggered by the corresponding stop of the moving part of the device , the drive mechanism 4 is turned off. The cycle of the device ends.

 It should be noted that in the event of emergency failure of the end (trip) electrical switches and the drive overload protection, there is no mechanical breakdown of the device, because due to the corresponding flow sections, made on both sides of the threaded sections of the blowing pipe 2, interacting with the nut 7 and the threaded sleeve 23, the threaded sleeve 23 and the blowing pipe 2 are run (jumping off) to the corresponding smooth flowing sections having diameters smaller than the internal diameters of the threaded cutting of the mating elements, which ensures the cessation of the translational movement of the moving parts of the device. In addition, in the event of emergency failure of the limit switch at the end of the direct stroke of the device, the supply of the working agent is automatically switched off by the fact that the rocker 12 moves out of the stop 13, ensuring that the valve 14 opens and closes.

 Thus, the use of the invention allows to simplify the design of known devices, to ensure high quality surface treatment, to increase reliability and efficiency of use.

Claims (7)

 1. A retractable device for blasting surfaces containing a support, a blowing pipe with a nozzle, a drive mechanism for reciprocating movement of the blowing pipe, mounted with the possibility of horizontal movement along the guide rails of the support, and a supply system of the working agent with a shut-off valve and a mechanism for regulating the pressure of the working agent, characterized in that it has a valve opening and closing mechanism comprising a rocker and a stop, and the valve comprises a piston-valve with a through axial channel and a pusher, tained in zaporshnevoy cavity to overlap an axial channel and associated with a rocking mechanism for opening and closing the valve, wherein the abutment and the rocker are arranged to communicate with each other when moving the blower tube.  2. The device according to claim 1, characterized in that the blowing pipe is made with screw thread and the outer surface and is in threaded connection with a nut mounted on a support and covering the blowing pipe, while the nut is mounted on the support with limited rotation.  3. The device according to claim 1, characterized in that the mechanism for regulating the pressure of the working agent is located directly on the surface of the blowing pipe.  4. The device according to paragraphs. 1 and 2, characterized in that the screw thread on the surface of the blowing pipe is made in the form of two separate sections, one of which interacts with a nut, and the other with a mechanism for regulating the pressure of the working agent, while the device has a protective device made on the blowing pipe in the form of sections with a smooth surface located on both sides of each of the sections with a screw thread, and the diameter of the sections of the blowing pipe with a smooth surface is less than the inner diameter of the screw thread.  5. The device according to claim 1, characterized in that the supply of the working agent is made in the form of a flexible sleeve.  6. The device according to claim 1, characterized in that the rolling elements of the device along the guide rails of the support are made directly on the housing of the drive mechanism, and the sealing flap, actuated by the blowing pipe when moving it, is located outside the closed cavity structures.  7. The device according to claims 1 and 2, characterized in that it has an emergency dismemberment mechanism for connecting the nut to the support.

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