RU2060565C1 - Transportable hydraulic press for compressing radioactive waste containers - Google Patents

Abstract

FIELD: nuclear power engineering; burial of radioactive waste. SUBSTANCE: press has frame, bed with top and bottom plates, and swivel journals, ram with spring washer, and die. Power drive of press has main hydraulic cylinder with plunger, reverse-travel hydraulic cylinder accommodating piston, die driving hydraulic cylinder. Transportation facility has arrangement for loading radioactive waste containers and removing compressed packs. Bed is built of solid tube. Bottom plate of bed is built integral with tube in the form of bottom with central bore to receive changeable plug. Top plate functions as detachable end cap. Reverse-travel hydraulic cylinder of ram is provided with hollow rod to communicate with pump unit. Hollow rod is coaxially fixed on end cap and piston. Hollow of reverse-travel hydraulic cylinder of ram is made in plunger body of main hydraulic cylinder and ram and communicates with their hollows and with rod hollow. Frame mounts heightwise adjustable support. Crosspiece with brackets is secured in bottom part of die. Crosspiece is linked with curtains made in the form of strips to seal working region of press. EFFECT: improved design. 2 cl, 6 dwg

Description

 The invention relates to the disposal, packaging and subsequent disposal of biologically harmful radioactive waste and can be used to reduce the volume of radioactive waste before disposal.

 Known transportable press for strong compression of radioactive waste, containing a bed with upper and lower plates and rotary pins, a stamp with a press washer, a matrix, the main hydraulic cylinder with a plunger, a hydraulic cylinder for reverse motion, hydraulic cylinders for moving the matrix, stationary and rotary bearings, loading device containers with radioactive waste and unloading compressed packages.

 A well-known press has the following disadvantages: large dimensions and large mass, the need for careful sorting of radioactive waste before it is placed in a container, since their heterogeneity leads to significant bending moments on the press elements, a large area of contamination, since a local area of the press is not provided for radiation protection, low productivity due to the use of crane operations.

 The technical result obtained by using the invention is to reduce the size and weight of the press, the exclusion of careful sorting before placing the radioactive waste in the container, local radiation protection of the working area of the press, increasing productivity by reducing rigging.

 The technical result is achieved by the fact that a press containing a bed with upper and lower plates and pivot pins, a stamp with a press washer, a matrix, a main hydraulic cylinder with a plunger, a reverse cylinder with a piston placed in its cavity, matrix moving cylinders, stationary and a rotary support, a device for loading containers with radioactive waste and unloading compressed packages, is additionally equipped with a frame mounted on a frame with a height-adjustable stand that limits the angle of rotation of the bed, a cross member insulated in the lower part of the matrix with consoles and with a central hole of cylindrical shape, the diameter of which is equal to the internal diameter of the matrix, with curtains connected to the cross member, a step-by-step cylindrical pusher, the bed is made in the form of a whole pipe with windows in the side walls opposite to each other , for loading and unloading containers and packages, and with brackets with guide grooves, the bottom plate is made in one piece with the pipe in the form of a bottom with a Central hole equipped with interchangeable stopper protruding end face above the upper surface of the bottom to a distance of not less than the thickness of the cross member with the possibility of centering with the matrix in its lower position, the upper plate is made in the form of a removable plug, the reverse cylinder is equipped with a hollow rod coaxially rigidly fixed to the plug for communication with the pump installation and the piston, and its cavity is made in the body of the plunger of the main hydraulic cylinder and the press stamp, made in one piece, and communicates with the rod cavity, the loading and unloading device is made in the form of placed with the possibility of movement in the guides of the frame slide, rigidly fixed at one end on the slide of the holder with pivot pins pivotally connected to the rods of the hydraulic cylinders of its movement, pivotally mounted on the frame, the second end of which, facing the frame, is made in the form of a fork, the width of the opening between two whose teeth are no less than the diameter of the head of a cylindrical step pusher, and on its upper surface there is an annular rim whose diameter is equal to the inner diameter of the matrix. The curtains are made in the form of plates mounted in the guide grooves of the pipe brackets with the possibility of longitudinal movement and closing of the windows of the latter to seal the working area of the press. In this case, the plunger of the main hydraulic cylinder, the matrix and the cross-member are mounted inside the pipe with the possibility of longitudinal movement. The cross-bar consoles exit from the pipe windows and are pivotally connected to the rods of the matrix displacement hydraulic cylinders pivotally mounted in the upper part of the pipe. The cylindrical step pusher is mounted in the bottom plug with the possibility of movement along the axis of the press, and the end face of its head is in the initial position flush with the upper surface of the replaceable plug. The dimensions of the trunnions of the holder and the corresponding dimensions of the trunnions of the frame and the distance between the trunnions of the frame and the holder are the same. The hydraulic cylinders for moving the holder are mounted with the possibility of disconnecting from the trunnions of the holder and attaching to the trunnions of the bed. The outer diameter of the plunger of the main hydraulic cylinder, the matrix and the cross member are equal to the inner diameter of the pipe, and the holder is mounted with the possibility of dismantling.

 In the particular case of execution, the drive of the pusher can be made in the form of a hydraulic cylinder.

 In FIG. 1 shows a press, main view; in FIG. 2 along arrow view A in FIG. 1; in FIG. 3 section BB in FIG. 1; in FIG. 4, section BB in FIG. 1; in FIG. 5 section GG in FIG. 1; in FIG. 6 view of the press in transport position.

 The press contains a frame 1 with upper 2 and lower 3 plates and pivot pins 4, a stamp 5 with a press washer 6, a matrix 7, a hydraulic cylinder 8 with a plunger 9, hydraulic cylinders 10 for moving the matrix 7, stationary 11 and rotary 12 bearings, device 13 loading containers 14 with radioactive waste and unloading compressed packages.

 To reduce the overall dimensions in terms of and weight of the bed 1 is made in the form of a solid pipe, in the side walls 15 of which are made two opposed windows 16 and 17, whose dimensions in height and width are not less than the corresponding dimensions of the container 14.

The inner diameter of the pipe is equal to the outer diameters of the plunger 9 and the matrix 7, which ensures their good direction when moving inside the pipe 1. Walls 15 are the walls of the main hydraulic cylinder 8 and close the working force between the upper 2 and lower 3 plates. The bottom plate 3 is made in one piece with the pipe in the form of a bottom equipped with a replaceable stopper 18 protruding above the upper surface of the bottom 3. When lowering the matrix 7 to the lower position on the stroke H _{1, the} protruding part of the stopper 18 enters the matrix 7, forming a kind of “lock” ", perceiving lateral forces arising from eccentric loading of the press. The upper plate 2 is made in the form of a removable plug.

 The reverse cylinder is equipped with a hollow rod 19, which communicates with the pump unit (not shown in the drawing), coaxially rigidly mounted on the plug 2 and on the piston 20. The latter is located in the cavity 21, which is the cavity of the reverse cylinder and made in the body of the plunger 9 of the main hydraulic cylinder 8 and a stamp 5, which are made as a whole, and communicates with the cavity of the rod 19.

 The press washer 6 is attached to the press stamp 5 with the possibility of changing it after partial wear. The bottom end of the matrix 7 is fastened to the cross member 22, the console 23 of which exit from the windows 16 and 17 and pivotally connected to the rods 24 of the hydraulic cylinders 10 pivotally mounted by the bodies in the upper part of the pipe 1. In the cross member 22 there is a central hole 25 with a diameter equal to the inner diameter of the matrix. In the area of the windows 16 and 17, the matrix is fixed "in the lock" on the plug 18. In this case, the upper part of the matrix 7 is fully mated to the pipe.

Outside the pipe, curtains 26 are provided, made in the form of plates connected to the cross member 22. The curtains are mounted with the possibility of movement in the guide grooves 27 of the brackets 28 having the outside of the pipe 1 for closing the windows 16, 17 and sealing the working area of the press. A step cylindrical pusher 29 is mounted in the stopper 18 with the possibility of movement, the end face 30 of the head 31 of which in the initial position is flush with the top surface of the stopper 18. The stopper protrudes with the end face 32 above the top surface of the bottom 3 at a distance S of at least a thickness S _{p of the} cross-member 22 for alignment and fixing the matrix 7 on the plug 18.

 The pusher 29 is connected with the drive 32, made, for example, in the form of a piston type hydraulic cylinder, mounted on a frame 33, intended for installation on a trailer or trailer. On the frame 33 fixed stationary 11 and rotary 12 bearings, as well as the device 13 of the loading and unloading.

The device 13 comprises a pusher 34 fixed at one end to a slider 35 mounted in the guides 36 of the frame 33, and two piston-type drive hydraulic cylinders 37. The other end of the holder 34, facing the bed, is made in the form of a cantilever fork 38, on the upper surface of which a protruding annular rim 39 is provided, the inner diameter d _{o of} which is equal to the inner diameter d _{m of the} matrix 7 or the outer diameter D _{E of the} container 14. Width Δ of the opening 40 the plug 38 is equal to or greater than the outer diameter D _{G of the} head 31 of the pusher 29.

 By moving the slider 35 in the guides 36, the plug 38 is inserted through the window 16 onto the press axis. The holder 34 is equipped with two rotary pins 41, the dimensions and the binding of which are made the same as on the pins 4 for the possibility of articulation with the rods 42 of the drive hydraulic cylinders 37. This ensures either the holder 34 is moved to the press axis and vice versa, or the press is rotated around the support 12 to the operating or transport position (see FIG. 6).

 The hydraulic cylinders 37 are connected to the frame 33 by means of hinges 43. The tilt angle of the press is limited by a stop 44 mounted on the rack 45 of the frame 33. If necessary, the holder 34 can be disconnected from the slide 35. To adjust the tilt angle of the frame 1 to the frame 33, a replaceable spacer 46 is provided. installed between the emphasis 44 and the rack 45. The press can be equipped with a rotary rail 47, mounted on a plug 2, containing electric hoist 48 and a grip 49.

 Press works as follows.

The press is delivered to the place of operation by the autoworker in the position shown in FIG. 6. The hydraulic cylinders 37 attached to the pins 4 raise the press to a vertical position (working) and fasten to the support 11. Then, the rods 42 are disconnected from the pins 4 and connected to the pins 41 of the holder 34. The container 14 is gripped by 49 by means of an electric hoist 48 and a rotary rail 47 is laid on the fork 38 with the centering along the rim 39. Due to the stroke of the hydraulic cylinders 37, the holder 34 will move the container 14 through the window 16 to the axis of the press. The pusher 29, moving through the drive 32 upward, through the opening 40 raises the container 14 above the holder 34, which by means of hydraulic cylinders 37 will return to its original position. The tank 14 together with the pusher 29 will fall under its own weight onto the plug 18. The hydraulic cylinders 10 will lower the matrix 7 to the stop of the cross member 22 in the bottom 3 (full stroke of the matrix H ₁ ), while the upper part of the plug 18, passing through the central hole 25 of the cross member 22, will enter in the lower part of the matrix 7 and fix it from lateral displacements, and the curtains 26 will close the windows 16, 17, sealing the working area of the press. When fluid is supplied into the cavity of the main hydraulic cylinder 8, the plunger 9, together with the press stamp 5 and the press washer 6, will drop to touch the container 14 located inside the matrix 7, and then squeeze the container 14 in the matrix 7 to obtain a compressed bag. (H ₂ full stroke of the press washer; H ₃ package height).

 Simultaneously with the pressing of the container 14 is the extraction of radioactive dust from the working area of the press.

 After the termination of the pressing, the fluid pressure in the main hydraulic cylinder 8 is released. The hydraulic cylinders 10 carry out the lifting of the matrix 7 with a stationary stamp 5, which will cause the extruded compressed package from the matrix 7.

 When high-pressure fluid is supplied through an opening in the hollow stem 19 into the cavity 21 of the return cylinder of the press stamp 5, the latter is lifted together with the press washer 6 up to its original position. The curtains 25 will also rise and open the windows 16 and 17. By pushing the piston 29 upward, the compressed bag will rise above the plug 18. The fork 38 of the holder 34 of the hydraulic cylinder 37 is brought into the axis of the press. When lowering the pusher, the compressed package is lowered onto the fork 38 and the hydraulic cylinder 37 is removed from the press.

 Further, the package by means of capturing 49 electric hoist 48 and monorail 47 is removed outside the press and the vehicle. After that, the process of pressing the next tank 14.

 After the work is completed, the press is transferred to the transport position and transported by road to another place of operation.

Claims (2)

 1. A transportable hydraulic press for compressing containers with radioactive waste, comprising a bed with upper and lower plates and pivot pins, a stamp with a press washer, a die, a main hydraulic cylinder with a plunger, a reverse hydraulic cylinder with a piston placed in its cavity, and hydraulic displacement cylinders matrices, stationary and rotary supports, a device for loading containers with radioactive waste and unloading compressed packages, characterized in that it is equipped with a frame mounted on a frame adjustable in height with with a support limiting the angle of rotation of the bed, fixed at the bottom of the matrix by a cross-member with consoles and with a central hole of cylindrical shape, the diameter of which is equal to the inner diameter of the matrix, with curtains connected to the cross-member, by a step-controlled cylindrical pusher, the frame is made in the form of a whole pipe with opposite positions relative to each other with windows in the side walls for loading containers with radioactive waste and unloading compressed packages and brackets with guide grooves, lower the litha is made in one piece with a pipe in the form of a bottom with a central hole equipped with a replaceable plug protruding from the upper surface of the bottom to a distance of at least a thickness of the cross member with the possibility of centering with the matrix in its lower position, the upper plate is made in the form of a removable plug, the reverse cylinder the stroke is equipped with a hollow stem for communication with the pumping unit, coaxially rigidly fixed to the plug and piston, and its cavity is made in the body of the plunger of the main hydraulic cylinder and the stamp, made for one spruce, and communicates with the stem cavity, the loading and unloading device is made in the form of a slider placed with the possibility of moving in the frame guides, a holder rigidly fixed at one end on the slide with rotary pivots pivotally connected to the rods of its hydraulic cylinders pivotally mounted on the frame, the second end which, facing the bed, is made in the form of a fork, the width of the opening between the two teeth of which is not less than the diameter of the head of a cylindrical step pusher, and on its upper surface there is the annular rim, the diameter of which is equal to the inner diameter of the matrix, the curtains are made in the form of plates mounted in the guide grooves of the pipe brackets with the possibility of longitudinal movement and closing of the windows of the latter to seal the working area of the press, while the plunger of the main hydraulic cylinder, the matrix and the cross-beam are mounted inside the pipe with the possibility longitudinal movement, the cross member consoles exit from the windows of the pipe and are pivotally connected to the rods of the hydraulic cylinders for moving the matrix pivotally mounted in the upper part of loss, the cylindrical step pusher is mounted in the bottom plug with the possibility of movement along the press axis, and the end of its head is in the initial position flush with the upper surface of the replaceable plug, the dimensions of the holder trunnions and the corresponding dimensions of the frame trunnions and the distance between the frame trunnions and the holder are identical, the hydraulic cylinders holder movements are mounted with the ability to disconnect from the holder pins and attach to the frame pins, the outer diameter of the plunger of the main hydraulic cylinder, matrix and pop The slats are equal to the inner diameter of the pipe, and the holder is mounted with the possibility of dismantling.  2. The press according to claim 1, characterized in that the pusher drive is made in the form of a hydraulic cylinder.

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