CN207481272U - A kind of rare earth waste recycling high effective dehydration device - Google Patents

Abstract

The utility model belongs to rare earth waste reclaimer technical field more particularly to a kind of rare earth waste recycling high effective dehydration device.The technical problem to be solved by the present invention is to provide it is a kind of it is easy to operate, easy to use, can save the time, save manpower, working efficiency are high, dehydrating effect is good, be not easy to influence recycling after rare earth waste quality rare earth waste recycling high effective dehydration device.In order to solve the above-mentioned technical problem, the utility model provides such a rare earth waste recycling high effective dehydration device, includes bottom plate, stent, collection frame, staving, shaft, first baffle, second baffle etc.；At the top of bottom plate it is symmetrical it is vertical be welded with stent, be connected with collection frame by bolted connection at the top of the bottom plate between two stands, staving be connected with by bolted connection in the middle part of two stands.The utility model is using the first motor as driving so that pressing plate constantly moves up and down extruding rare earth waste, so as to be dehydrated to rare earth waste.

Description

A kind of rare earth waste recycling high effective dehydration device

Technical field

The utility model belongs to rare earth waste reclaimer technical field more particularly to a kind of recycling of rare earth waste with efficiently Dehydration device.

Background technology

Rare earth has the laudatory title of " industrial vitamin ".Nowadays extremely important strategic resource has been become.Rare earth element aoxidizes Object refer to period of element atom ordinal number be 57 to 71 15 kinds of lanthanide oxides and with lanthanide series chemical property The oxide of similar scandium and yttrium totally 17 kinds of elements.Rare earth element is in oil, chemical industry, metallurgy, weaving, ceramics, glass, permanent magnetism material The fields such as material are obtained for and are widely applied, with advances in technology with the continuous breakthrough of application technology, the valency of rare earth oxide Value will be increasing.

After rare earth waste recycling, rare earth waste is also wetter in itself, that is, needs to be dehydrated it, can carry out the one of the later stage A little treatment process.People are dehydrated rare earth waste wet after recycling using labour at present, and complicated for operation, needs expend big The manpower of amount, working efficiency are more low and effect of dehydration is bad, easily influence the quality of rare earth waste after recycling, therefore urgently Need to research and develop it is a kind of it is easy to operate, easy to use, the time can be saved, save that manpower, working efficiency are high, dehydrating effect is good, is not easy Influence the rare earth waste recycling high effective dehydration device of rare earth waste quality after recycling.

Utility model content

(1) technical problems to be solved

The utility model is operated in order to which current people is overcome to be dehydrated using labour to rare earth waste wet after recycling It is complicated, need to expend that a large amount of manpower, working efficiency are more low and effect of dehydration is bad, rare earth gives up after easily influencing recycling The shortcomings that quality of material, the technical problem to be solved by the present invention is to provide it is a kind of it is easy to operate, easy to use, can save Time saves the rare earth waste recycling that manpower, working efficiency are high, dehydrating effect is good, are not easy rare earth waste quality after influencing to recycle Use high effective dehydration device.

(2) technical solution

In order to solve the above-mentioned technical problem, the utility model provides such a rare earth waste recycling and is filled with high-efficiency dehydration It puts, includes bottom plate, stent, collection frame, staving, shaft, first baffle, second baffle, cylinder, top plate, elevating mechanism, draining Pipe and pressing plate, the symmetrical vertical side for being welded with stent, being bolted at the top of the bottom plate between two stands at the top of bottom plate Formula is connected with collection frame, is connected with staving by bolted connection in the middle part of two stands, staving left side lower part is connected with row It is connected in water pipe, drainpipe and staving, staving bottom left and right ends are welded with shaft, and staving bottom left is equipped with first gear Plate, first baffle left side are connect by welding with left side shaft, and staving bottom right is equipped with second baffle, second gear Plate right side is connect by welding with right side shaft, is tilted between left side brackets right side among first baffle bottom Equipped with cylinder, be also provided tiltedly with cylinder between among second baffle bottom and right side stent left side, the bottom of left hand cylinder with Left side brackets right side is articulated and connected by hinge member, by hinged among the telescopic rod of left hand cylinder and first baffle bottom Component is articulated and connected, and the bottom of right cylinder is articulated and connected with right side stent left side by hinge member, and right cylinder is stretched It is articulated and connected among contracting bar and second baffle bottom by hinge member, the top horizontals of two stands is welded with top plate, in top plate Portion is provided with hole, is equipped with elevating mechanism at the top of top plate, and elevating mechanism includes housing, installing plate, the first motor, sector gear, the One sliding rail, the first sliding block, rack, the first spring and elevating lever, housing are mounted at the top of top plate by bolted connection, shell Top is equipped with installing plate and the first spring in vivo, and installing plate is located at the left of the first spring, and installing plate lower part is bolted Mode be connected with the first motor, sector gear is connected with by shaft coupling on the output shaft of the first motor, right side in housing It is equipped with the first sliding rail vertically, the first sliding block is slidably equipped on the first sliding rail, the first sliding block is slidably matched with the first sliding rail, the One sliding block left side is welded with rack vertically, and rack is engaged with sector gear, and one end of the first spring passes through hook mode and shell Top connects in vivo, and for the other end of the first spring by being connect at the top of hook mode and rack, rack bottom is welded with liter vertically Bar drops, and the hole being provided at the top of top plate is run through in the lower end of elevating lever, and the lower end of elevating lever is connected with pressing plate by welding, presses Plate bottom is evenly spaced to be distributed with circular protrusions.

Preferably, motorized cams, second spring, movable plate, connecting rod have been further included and has struck block, the right side of left side brackets Lower part is equipped with motorized cams by bolted connection, and motorized cams are located at below left hand cylinder, two above and below motorized cams The right side of the left side brackets of side is connected with second spring, and one end of second spring passes through hook mode and the right side of left side brackets Face lower part connects, and the other end of second spring is connected with movable plate by way of linking up with and connecting, and movable plate is located at motorized cams Right, movable plate coordinate with motorized cams, and movable plate right flank middle part level is welded with connecting rod, and the right end of connecting rod is welded with Block is struck, block is struck and is engaged with collection frame.

Preferably, the second sliding rail, the second sliding block and third spring have been further included, bottom plate top horizontal is equipped with the second sliding rail, Second sliding rail at the top of bottom plate by bolted connection with connect, slidably equipped with the second sliding block on the second sliding rail, second Sliding block is slidably matched with the second sliding rail, and collection frame can also even be connect by bolt with the top of the second sliding block.

Preferably, the material of bottom plate is Q235 steel.

Preferably, the first motor is servo motor.

Preferably, the material of collection frame is stainless steel.

Operation principle：During using the utility model, the rare earth waste of recycling is poured into staving, starts the first motor and turns Dynamic, the first motor drives sector gear rotation, and when sector gear rotation is engaged with rack, sector gear is rotated further so that Rack moves down, and the first spring is stretched, the first sliding block slide downward on the first sliding rail.Rack moves down band dynamic pressure plate It moves down, pressing plate, which moves down, squeezes the rare earth waste recycled in staving, and the water in rare earth waste will be extruded, and squeezes Water after going out is discharged by drainpipe.When sector gear rotation do not engaged with rack when, under the action of the first spring, rack to Upper movement, band carry-over bar move up；When sector gear rotation is engaged again with rack, pressing plate is moved down again to staving The rare earth waste of interior recycling is squeezed.And so on, pressing plate constantly move down to the rare earth waste recycled in staving into Row squeezes, and so as to be dehydrated to the rare earth waste of recycling, dehydrating effect is good, and working efficiency is high.After the completion of dehydration, first is closed Motor starts two cylinders and shortens, and two cylinders drive first baffle and second baffle to move down respectively, in staving after the completion of dehydration Rare earth waste fall into collection frame, after having fallen, start cylinder elongation, reset first baffle and second baffle.

Because it further includes motorized cams, second spring, movable plate, connecting rod and has struck block, under the right side of left side brackets Portion is equipped with motorized cams by bolted connection, and motorized cams are located at below left hand cylinder, both sides above and below motorized cams The right sides of left side brackets be connected with second spring, one end of second spring passes through hook mode and the right side of left side brackets Lower part connects, and the other end of second spring is connected with movable plate by way of linking up with and connecting, and movable plate is located at the motorized cams right side Side, movable plate coordinate with motorized cams, and movable plate right flank middle part level is welded with connecting rod, and the right end of connecting rod, which is welded with, to be struck Block strikes block and is engaged with collection frame.After rare earth waste after the completion of dehydration is fallen into collection frame, start motorized cams rotation, Motorized cams drive movable plate to move left and right, and second spring is stretched back and forth, and movable plate, which moves left and right, drives connecting rod to move left and right, It strikes block and moves left and right therewith and beat collection frame so that the rare earth waste in collection frame after the completion of dehydration is collected more smooth.

Because having further included the second sliding rail, the second sliding block and third spring, bottom plate top horizontal be equipped with the second sliding rail, second Sliding rail is slidably equipped with the second sliding block, the second sliding block by bolted connection with being connect at the top of bottom plate on the second sliding rail It is slidably matched with the second sliding rail, collection frame can also even be connect by bolt with the top of the second sliding block.It is moved left and right when striking block When beaing collection frame, while under the action of third spring so that collection frame moves left and right, and the second sliding block is left on the second sliding rail Right slip, the further rare earth waste caused in collection frame after the completion of dehydration are collected more smooth.

Because the material of bottom plate is Q235 steel, the load-bearing capacity of Q235 steel is strong, and hardness is high, and increase bottom plate uses the longevity Life.

Because the first motor is servo motor, servo motor can more be accurately controlled rotating speed, make operation more steady.

Because the material of collection frame is stainless steel, stainless steel is acidproof corrosion-resistant, is not easy to get rusty in the case of long-term use, It is more durable.

(3) advantageous effect

The utility model is using the first motor as driving so that and pressing plate constantly moves up and down extruding rare earth waste, from And rare earth waste is dehydrated, reach easy to operate, easy to use, the time can be saved, having saved manpower, working efficiency Height, dehydrating effect is good, is not easy the effect of rare earth waste quality after influencing to recycle.

Description of the drawings

Fig. 1 is the first main structure diagram of the utility model.

Fig. 2 is the dimensional structure diagram of the utility model pressing plate.

Fig. 3 is second of main structure diagram of the utility model.

Fig. 4 is the third main structure diagram of the utility model.

Label in attached drawing for：1- bottom plates, 2- stents, 3- collection frames, 4- stavings, 5- shafts, 6- first baffles, 7- second Baffle, 8- cylinders, 9- top plates, 10- elevating mechanisms, 101- housings, 102- installing plates, the first motors of 103-, 104- sector gears, The first sliding rails of 105-, the first sliding blocks of 106-, 107- racks, the first springs of 108-, 109- elevating levers, 11- drainpipes, 12- pressing plates, 13- motorized cams, 14- second springs, 15- movable plates, 16- connecting rods, 17- strike block, the second sliding rails of 18-, the second sliding blocks of 19-, 20- third springs.

Specific embodiment

The utility model is further described with reference to the accompanying drawings and examples.

Embodiment 1

A kind of rare earth waste recycling high effective dehydration device, as shown in Figs 1-4, include bottom plate 1, stent 2, collection frame 3, Staving 4, shaft 5, first baffle 6, second baffle 7, cylinder 8, top plate 9, elevating mechanism 10, drainpipe 11 and pressing plate 12, bottom plate 1 Top it is symmetrical it is vertical be welded with stent 2,1 top of bottom plate between two stands 2 is connected with receipts by bolted connection Collecting frame 3,2 middle part of two stands is connected with staving 4 by bolted connection, and 4 left side lower part of staving is connected with drainpipe 11, It is connected in drainpipe 11 and staving 4,4 bottom left and right ends of staving are welded with shaft 5, and 4 bottom left of staving is equipped with first gear Plate 6,6 left side of first baffle are connect by welding with left side shaft 5, and 4 bottom right of staving is equipped with second baffle 7, 7 right side of second baffle is connect by welding with right side shaft 5, among 6 bottom of first baffle and 2 right side of left side brackets Cylinder 8 is provided tiltedly between face, cylinder 8 is also provided tiltedly between 2 left side of right side stent among 7 bottom of second baffle, it is left The bottom of side cylinder 8 is articulated and connected with 2 right side of left side brackets by hinge member, the telescopic rod and first gear of left hand cylinder 8 Plate is articulated and connected among 6 bottom by hinge member, and bottom and 2 left side of right side stent of right cylinder 8 pass through hinge member It is articulated and connected, is articulated and connected among 7 bottom of telescopic rod and second baffle of right cylinder 8 by hinge member, the top of two stands 2 Portion's level is welded with top plate 9, and 9 middle part of top plate is provided with hole, and 9 top of top plate is equipped with elevating mechanism 10, and elevating mechanism 10 includes shell Body 101, installing plate 102, the first motor 103, sector gear 104, the first sliding rail 105, the first sliding block 106, rack 107, first Spring 108 and elevating lever 109, housing 101 are mounted on 9 top of top plate by bolted connection, and 101 inner top of housing is equipped with 102 and first spring 108 of installing plate, installing plate 102 are located at the left of the first spring 108, and 102 lower part of installing plate is connected by bolt The mode connect is connected with the first motor 103, and sector gear 104, shell are connected with by shaft coupling on the output shaft of the first motor 103 Right side is equipped with the first sliding rail 105 vertically in body 101, and the first sliding block 106 is slidably equipped on the first sliding rail 105, and first slides Block 106 is slidably matched with the first sliding rail 105, and 106 left side of the first sliding block is welded with rack 107, rack 107 and sector vertically 104 engagement of wheel, one end of the first spring 108 connect by hook mode with 101 inner top of housing, the first spring 108 it is another By being connect at the top of hook mode and rack 107,107 bottom of rack is welded with elevating lever 109 vertically at end, under elevating lever 109 The hole that end is provided with through 9 top of top plate, the lower end of elevating lever 109 is connected with pressing plate 12,12 bottom of pressing plate by welding It is evenly spaced that circular protrusions are distributed with.

It has further included motorized cams 13, second spring 14, movable plate 15, connecting rod 16 and has struck block 17, the right side of left side brackets 2 Side lower is equipped with motorized cams 13 by bolted connection, and motorized cams 13 are located at 8 lower section of left hand cylinder, electronic convex The right side for taking turns the left side brackets 2 of about 13 both sides is connected with second spring 14, and one end of second spring 14 passes through hook mode It is connect with the right side lower part of left side brackets 2, the other end of second spring 14 is connected with movable plate by way of linking up with and connecting 15, movable plate 15 is located at 13 right of motorized cams, and movable plate 15 coordinates with motorized cams 13, and 15 right flank middle part of movable plate is horizontal Connecting rod 16 is welded with, the right end of connecting rod 16, which is welded with, strikes block 17, strikes block 17 and is engaged with collection frame 3.

The second sliding rail 18, the second sliding block 19 and third spring 20 are further included, 1 top horizontal of bottom plate is equipped with the second sliding rail 18, the second sliding rail 18 is connect by bolted connection with 1 top of bottom plate, and second is slidably equipped on the second sliding rail 18 and is slided Block 19, the second sliding block 19 are slidably matched with the second sliding rail 18, and collection frame 3 can also connect the top with the second sliding block 19 by bolt Connection.

The material of bottom plate 1 is Q235 steel.

First motor 103 is servo motor.

The material of collection frame 3 is stainless steel.

Operation principle：During using the utility model, the rare earth waste of recycling is poured into staving 4, starts the first motor 103 Rotation, the first motor 103 drive sector gear 104 to rotate, when the rotation of sector gear 104 is engaged with rack 107, sector gear 104 are rotated further so that rack 107 moves down, and the first spring 108 is stretched, and the first sliding block 106 is on the first sliding rail 105 Slide downward.Rack 107 moves down band dynamic pressure plate 12 and moves down, and pressing plate 12 moves down the rare earth to being recycled in staving 4 Waste material is squeezed, and the water in rare earth waste will be extruded, and water after extrusion is discharged by drainpipe 11.When sector gear 104 When engage with rack 107, under the action of the first spring 108, rack 107 moves up for rotation, with carry-over bar 107 to moving up It is dynamic；When sector gear 104, which rotates, to be engaged again with rack 107, pressing plate 12 moves down the rare earth to being recycled in staving 4 again Waste material is squeezed.And so on, pressing plate 12, which constantly moves down, squeezes the rare earth waste recycled in staving 4, from And the rare earth waste of recycling is dehydrated, dehydrating effect is good, and working efficiency is high.After the completion of dehydration, the first motor 103 is closed, Start two cylinders 8 to shorten, two cylinders 8 drive first baffle 6 and second baffle 7 to move down respectively, in staving 4 after the completion of dehydration Rare earth waste fall into collection frame 3, after having fallen, start cylinder 8 extend, reset first baffle 6 and second baffle 7.

Because having further included motorized cams 13, second spring 14, movable plate 15, connecting rod 16 and having struck block 17, left side brackets 2 Right side lower part motorized cams 13 are installed by bolted connection, motorized cams 13 are located at 8 lower section of left hand cylinder, electricity The right side of the left side brackets 2 of moving cam both sides about 13 is connected with second spring 14, and one end of second spring 14 passes through hook Mode is connect with the right side lower part of left side brackets 2, and the other end of second spring 14 is connected with work by way of linking up with and connecting Movable plate 15, movable plate 15 are located at 13 right of motorized cams, and movable plate 15 coordinates with motorized cams 13,15 right flank middle part of movable plate Level is welded with connecting rod 16, and the right end of connecting rod 16, which is welded with, strikes block 17, strikes block 17 and is engaged with collection frame 3.It has been dehydrated After rare earth waste after is fallen into collection frame 3, start motorized cams 13 and rotate, motorized cams 13 drive 15 or so shifting of movable plate Dynamic, second spring 14 is stretched back and forth, and movable plate 15, which moves left and right, drives connecting rod 16 to move left and right, and strikes block 17 and moves left and right therewith Beat collection frame 3 so that the rare earth waste in collection frame 3 after the completion of dehydration is collected more smooth.

Because having further included the second sliding rail 18, the second sliding block 19 and third spring 20,1 top horizontal of bottom plate is equipped with second and slides Rail 18, the second sliding rail 18 are connect by bolted connection with 1 top of bottom plate, and second is slidably equipped on the second sliding rail 18 Sliding block 19, the second sliding block 19 are slidably matched with the second sliding rail 18, and collection frame 3 can also connect the top with the second sliding block 19 by bolt Portion connects.When strike block 17 move left and right beat collection frame 3 when, while under the action of third spring 20 so that collection frame 3 or so Mobile, the second sliding block 19 horizontally slips on the second sliding rail 18, further so that the rare earth in collection frame 3 after the completion of dehydration gives up Material is collected more smooth.

Because the material of bottom plate 1 is Q235 steel, the load-bearing capacity of Q235 steel is strong, and hardness is high, and increase bottom plate 1 uses the longevity Life.

Because the first motor 103 is servo motor, servo motor can more be accurately controlled rotating speed, make operation more flat Surely.

Because the material of collection frame 3 is stainless steel, stainless steel is acidproof corrosion-resistant, is not easy to give birth in the case of long-term use Rust is more durable.

Embodiment described above only expresses the preferred embodiment of the utility model, and description is more specific and detailed, But it should not be interpreted as limiting the scope of the present invention.It should be pointed out that for the common of this field For technical staff, without departing from the inventive concept of the premise, several deformations can also be made, improves and substitutes, these are all Belong to the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (6)

1. a kind of rare earth waste recycling high effective dehydration device, which is characterized in that include bottom plate (1), stent (2), collection frame (3), staving (4), shaft (5), first baffle (6), second baffle (7), cylinder (8), top plate (9), elevating mechanism (10), draining Manage (11) and pressing plate (12), symmetrical at the top of bottom plate (1) to be welded with stent (2) vertically, the bottom plate (1) between two stands (2) Top is connected with collection frame (3) by bolted connection, and bucket is connected with by bolted connection in the middle part of two stands (2) Body (4), staving (4) left side lower part are connected with drainpipe (11), are connected in drainpipe (11) and staving (4), staving (4) bottom Left and right ends are welded with shaft (5), and staving (4) bottom left is equipped with first baffle (6), first baffle (6) left side and a left side Side shaft (5) connects by welding, and staving (4) bottom right is equipped with second baffle (7), second baffle (7) right side It connect with right side shaft (5), inclines between left side brackets (2) right side among first baffle (6) bottom by welding Cylinder (8) is tiltedly equipped with, cylinder (8) is also provided tiltedly between right side stent (2) left side among second baffle (7) bottom, it is left The bottom of side cylinder (8) is articulated and connected with left side brackets (2) right side by hinge member, the telescopic rod of left hand cylinder (8) with It is articulated and connected among first baffle (6) bottom by hinge member, bottom and right side stent (2) left side of right cylinder (8) It is articulated and connected by hinge member, is hinged among the telescopic rod of right cylinder (8) and second baffle (7) bottom by hinge member Connection, the top horizontal of two stands (2) are welded with top plate (9), and hole is provided in the middle part of top plate (9), elevator is equipped at the top of top plate (9) Structure (10), elevating mechanism (10) include housing (101), installing plate (102), the first motor (103), sector gear (104), One sliding rail (105), the first sliding block (106), rack (107), the first spring (108) and elevating lever (109), housing (101) pass through Bolted mode is mounted at the top of top plate (9), and housing (101) inner top is equipped with installing plate (102) and the first spring (108), installing plate (102) connects by bolted connection positioned at the left of the first spring (108), installing plate (102) lower part It is connected to the first motor (103), sector gear (104), housing is connected with by shaft coupling on the output shaft of the first motor (103) (101) interior right side is equipped with the first sliding rail (105) vertically, and the first sliding block (106) is slidably equipped on the first sliding rail (105), First sliding block (106) is slidably matched with the first sliding rail (105), and the first sliding block (106) left side is welded with rack (107) vertically, Rack (107) is engaged with sector gear (104), and one end of the first spring (108) passes through hook mode and housing (101) inner top Connection, the other end of the first spring (108) by being connect at the top of hook mode and rack (107), weld vertically by rack (107) bottom Elevating lever (109) is connected to, the hole being provided at the top of top plate (9) is run through in the lower end of elevating lever (109), and the lower end of elevating lever (109) leads to The mode for crossing welding is connected with pressing plate (12), and pressing plate (12) bottom is evenly spaced to be distributed with circular protrusions.

2. a kind of rare earth waste recycling high effective dehydration device according to claim 1, which is characterized in that further included electricity Moving cam (13), second spring (14), movable plate (15), connecting rod (16) and block (17) is struck, under the right side of left side brackets (2) Portion is equipped with motorized cams (13) by bolted connection, and motorized cams (13) are electronic convex below left hand cylinder (8) The right side of wheel (13) left side brackets (2) of both sides up and down is connected with second spring (14), and one end of second spring (14) passes through Hook mode is connect with the right side lower part of left side brackets (2), and the other end of second spring (14) is by way of linking up with and connecting Movable plate (15) is connected with, movable plate (15) coordinates positioned at motorized cams (13) right, movable plate (15) with motorized cams (13), Movable plate (15) right flank middle part level is welded with connecting rod (16), and the right end of connecting rod (16), which is welded with, strikes block (17), strikes block (17) it is engaged with collection frame (3).

3. a kind of rare earth waste recycling high effective dehydration device according to claim 1, which is characterized in that further included Two sliding rails (18), the second sliding block (19) and third spring (20), bottom plate (1) top horizontal are equipped with the second sliding rail (18), and second slides Rail (18) is slidably equipped with the second sliding block by bolted connection with being connect at the top of bottom plate (1) on the second sliding rail (18) (19), the second sliding block (19) is slidably matched with the second sliding rail (18), and collection frame (3) can also be connected and the second sliding block by bolt (19) top connection.

4. a kind of rare earth waste recycling high effective dehydration device according to claim 1, which is characterized in that bottom plate (1) Material is Q235 steel.

A kind of 5. rare earth waste recycling high effective dehydration device according to claim 1, which is characterized in that the first motor (103) it is servo motor.

A kind of 6. rare earth waste recycling high effective dehydration device according to claim 1, which is characterized in that collection frame (3) Material be stainless steel.