CN213914354U - Finished sand dehydration and tailing recovery all-in-one machine - Google Patents

Abstract

The utility model discloses an all-in-one is retrieved with tailings to finished product sand dehydration, the utility model discloses to take off swirler and put up the setting on the dehydration linear sieve through adjustable removal, set up the feeding case that can supply tailings and finished product sand to get into on the dehydration linear sieve, the discharge gate of dehydration linear sieve feed inlet and swirler is connected with the feeding case respectively. Make the utility model discloses can be applicable to special operating mode with the integrative processing of finished product sieve dehydration and tailings recovery. And through the portable setting of adjustable removal frame on the straight line sieve of dehydration, make the utility model discloses can, can be when meetting the more complicated operating mode of topography, through adjusting adjustable removal frame height or remove adjustable removal frame, make swirler cooperation dehydration straight line sieve work.

Description

Finished sand dehydration and tailing recovery all-in-one machine

Technical Field

The utility model belongs to ore equipment field, concretely relates to finished product sand dehydration and tailings recovery all-in-one.

Background

With the vigorous development of the machine-made sand, the recovery of the tailings also becomes a hot topic. The recovery of the tailings can directly bring economic benefits to users. However, how to design a device which can meet the requirements of users on finished sand dehydration and can also meet the requirements of users on tailings recovery becomes a design idea. The tail sand recovery of transmission is directly with tail sand recovery system, and traditional linear sieve all is used for coming the grit dehydration specially generally. One system will typically be designed with the dewatering screen and tailings recovery system separately.

In order to solve the problem of separation application of the dewatering screen and the tailings recovery system, the dewatering screen and the tailings recovery of the finished sand are designed together. For some working conditions with low requirements on the content of fine materials, the integrated machine mixes the recovered tail screen with the finished sand on the dewatering screen, so that the loss of the separately recovered tail sand can be reduced, and the requirements of users under the special working conditions are met.

SUMMERY OF THE UTILITY MODEL

The utility model discloses lie in improving a finished product sand dehydration and tailings recovery all-in-one, retrieve the design and be in the same place and improve through with dewatering screen and tailings, let the device more can adapt to this kind of operating mode to easily remove, dismantle and assemble, adaptability is strong.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a finished product sand dehydration and tailings recovery all-in-one, is including the swirler that is used for the dehydration straight line sieve of finished product sand dehydration and is used for the tailings to retrieve, and the dehydration straight line sieve outside sets up adjustable removal frame, and the swirler passes through adjustable removal frame and sets up on the dehydration straight line sieve, sets up the feeding case that can supply tailings and finished product sand to get into on the dehydration straight line sieve, and the discharge gate of dehydration straight line sieve feed inlet and swirler is connected with the feeding case respectively.

Further, adjustable removal frame includes support, bearing wheel, support, electric putter and auxiliary fixture, and the bearing wheel sets up in the support bottom, and electric putter sets up on the support, and the support setting is at electric putter top, leg joint swirler, and auxiliary fixture sets up on the support.

Further, supplementary fixing device includes the bracing piece, a supporting plate, the mount, fixture block and reset assembly, the mount cover is established in first electric putter outside linking bridge, the bracing piece sets up in the mount both sides, connect mount and support respectively, first electric putter top sets up the backup pad, the backup pad both sides are articulated respectively and are set up the fixture block, fixture block and backup pad junction set up the torsional spring, a plurality of draw-in grooves are evenly seted up to mount cover both sides inner wall vertical direction, fixture block and draw-in groove cooperation set up, the backup pad both sides set up the stopper of restriction fixture block rotation angle, reset assembly sets up in the mount.

Further, reset assembly includes the L shaped plate, the connecting rod, wire rope, magnet, assembly pulley and handle, the backup pad both sides are articulated respectively and are set up the L shaped plate, the articulated department of L shaped plate and backup pad sets up the torsional spring, the connecting rod passes through the rotatory supporting seat and sets up in the backup pad of L shaped plate below, the one end of connecting rod is connected to L shaped plate minor face, the long limit of L shaped plate then is located the draw-in groove, the other end of connecting rod is located the fixture block bottom, fixture block and backup pad set up the magnet that mutually supports the attraction respectively, the assembly pulley sets up on the mount, the fixture block of wire rope one end joint support board both sides, the other end passes assembly pulley connection handle.

Furthermore, the adjustable movable frame is provided with a plurality of downward-inclined fixing grooves, the swirler is arranged in the fixing grooves, the fixing grooves are hinged to the adjustable movable frame, the adjustable movable frame is provided with a second electric push rod, and two ends of the second electric push rod are respectively connected with the fixing grooves and the adjustable movable frame.

Compared with the prior art, the utility model discloses following beneficial effect has: the utility model discloses set up adjustable removal frame in the dehydration linear sieve outside, the swirler passes through adjustable removal frame setting on the dehydration linear sieve, sets up the feeding case that can supply tailings and finished product sand to get into on the dehydration linear sieve, and the discharge gate of dehydration linear sieve feed inlet and swirler is connected with the feeding case respectively. Make the utility model discloses can be with the integrative processing of finished product sieve dehydration and tailings recovery. And through adjustable removal frame, can be when meetting the more complicated operating mode of topography, through adjusting adjustable removal frame height or remove adjustable removal frame and make swirler cooperation dehydration rectilinear sieve work to it is also very convenient in the aspect of dismantlement installation or maintenance etc.. And adjustable moving frame is last to set up the fixed slot of a plurality of downward sloppings, the swirler sets up in the fixed slot, consequently can also increase or reduce the proportion of the recovery volume control finished product sand and the tailings of tailings through increasing or reducing the swirler, and the fixed slot is articulated with adjustable moving frame, adjustable moving frame is last to set up second electric putter, fixed slot and adjustable moving frame are connected respectively at second electric putter both ends, consequently can also promote the fixed slot through second electric putter and rotate along with the articulated department of adjustable moving frame, adjust the fixed angle of swirler.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is an enlarged view of A in FIG. 1;

in the figure: 1. the device comprises a dehydration linear sieve, 2. a swirler, 3. an adjustable moving frame, 301. a support, 302. a bearing wheel, 303. a first electric push rod, 304. a support, 4. a discharge hole, 5. a feed hole, 6. a feed box, 7. an auxiliary fixing device, 701. a fixing frame, 702. a support rod, 703. a support plate, 704. a fixture block, 705. a limiting block, 706. a clamping groove, 8. a reset component, 801. an L-shaped plate, 802. a connecting rod, 803. a steel wire rope, 804. a magnet, a pulley block, 806. a handle, 807. a rotary support seat, 9. a second electric push rod and 10. a fixing groove.

Detailed Description

Referring to fig. 1-3, a finished sand dehydration and tailings recovery all-in-one machine comprises a dehydration linear sieve 1 for finished sand dehydration and a swirler 2 for tailings recovery, an adjustable moving frame 3 is arranged on the outer side of the dehydration linear sieve 1, the swirler 2 is arranged on the dehydration linear sieve 1 through the adjustable moving frame 3, a feeding box 6 for tailings and finished sand to enter is arranged on the dehydration linear sieve 1, and a feeding port 5 of the dehydration linear sieve and a discharging port 4 of the swirler are respectively connected with the feeding box 6. The utility model discloses a set up adjustable removal frame 3 in the 1 outside of dehydration linear sieve, swirler 2 sets up on dehydration linear sieve 1 through adjustable removal frame 3, sets up the feeding case 6 that can supply tailings and finished product sand to get into on the dehydration linear sieve 1, and the discharge gate 4 of dehydration linear sieve feed inlet 5 and swirler is connected with feeding case 6 respectively. Make the utility model discloses can be with the integrative processing of finished product sieve dehydration and tailings recovery. And through adjustable removal frame, can be when meetting the more complicated operating mode of topography, through adjusting adjustable removal frame height or remove adjustable removal frame and make swirler cooperation dehydration rectilinear sieve work.

The adjustable moving frame 3 comprises a support 301, a bearing wheel 302, a support 304, a first electric push rod 303 and an auxiliary fixing device 7, wherein the bearing wheel 302 is arranged at the bottom of the support 301, the first electric push rod 303 is arranged on the support 301, the support 304 is arranged at the top of the first electric push rod 303, the support 304 is connected with the cyclone 2, and the auxiliary fixing device 7 is arranged on the support 301. The adjustable moving frame 3 can be moved by the bearing wheels 302 so as to calibrate the horizontal orientation of the cyclone 2 on the frame 304 to work with the cyclone 2 and the dewatering linear screen 1. The first electric push rod 303 can adjust the vertical position of the bracket 304, and can adjust the vertical direction of the swirler 2 on the bracket 304 to adapt to the working conditions with complex terrain. Because the device belongs to heavy equipment and can generate vibration during working, the first electric push rod 303 can not support the cyclone 2 and the bracket 304 during long-time working, and therefore the device is fixed through the auxiliary fixing device 7, and the safe and stable operation of the device is better ensured.

The auxiliary fixing device 7 comprises a supporting rod 702, a supporting plate 703, a fixing frame 701, a fixture block 704 and a reset assembly 8, the fixing frame 701 is sleeved on the connecting support 304 outside the first electric push rod 303, the supporting rod 702 is arranged on two sides of the fixing frame 701 and is respectively connected with the fixing frame 701 and the support 301, the supporting plate 703 is arranged at the top of the first electric push rod 303, the fixture block 704 is respectively hinged on two sides of the supporting plate 703, a torsion spring is arranged at the joint of the fixture block 704 and the supporting plate 703, a plurality of clamping grooves 706 are uniformly formed in the vertical direction of the inner walls of two sides of the fixing frame 701, the fixture block 704 and the clamping grooves 706 are arranged in a matched mode, limiting blocks 705 for limiting the overturning angles of the fixture block 704 are arranged on two sides of the supporting plate 703, and the reset assembly 8 is arranged in the fixing frame 701. The support rods 702 are disposed on both sides of the fixing frame 701 for enhancing the stability of the fixing frame 701. When the first electric push rod 303 ascends, the clamping block 704 is extruded downwards by the wall of the clamping groove 706, the ascending of the first electric push rod 303 is not influenced, when auxiliary fixing is needed, the first electric push rod 303 moves downwards for a certain distance, the clamping block 704 resets to a horizontal position due to the torsion spring and is inserted into the clamping groove 706 in a matching mode, the clamping block 704 is limited to overturn upwards by the limiting blocks 705 which limit the overturning angles of the clamping block 704 arranged on the two sides of the supporting plate 703, the first electric push rod 303 continues to move downwards and is clamped by the clamping block 704 and the clamping groove 706 in a matching mode, the first electric push rod 303 cannot continue to move downwards, the weight of the bracket 304 and equipment on the bracket 304 is borne by the auxiliary fixing device 7, the pressure of the first electric push rod 303 is reduced, and the auxiliary fixing effect is achieved. The reset assembly 8 can reset the latch 704, so that the first power push rod 303 can move downwards continuously.

The resetting component 8 comprises an L-shaped plate 801, a connecting rod 802, a steel wire rope 803, a magnet 804, a pulley block 805 and a handle 806, the L-shaped plate 801 is hinged to two sides of the supporting plate 703 respectively, a torsion spring is arranged at the hinged position of the L-shaped plate 801 and the supporting plate 703, the connecting rod 802 is arranged on the supporting plate 703 below the L-shaped plate 801 through a rotary supporting seat 807, the short side of the L-shaped plate 801 is connected with one end of the connecting rod 802, the long side of the L-shaped plate 801 is located in a clamping groove 706, the other end of the connecting rod 802 is located at the bottom of a clamping block 704, the clamping block 704 and the supporting plate 703 are respectively provided with the magnet 804 which are mutually matched and attracted, the pulley block 805 is arranged on the fixing frame 701, one end of the steel wire rope 803 is connected with the clamping blocks 704 on two sides of the supporting plate 703, and the other end of the steel wire rope passes through the pulley block 805 to be connected with the handle 806. When the first electric push rod 303 needs to move downwards, the handle 806 is pulled to pull the fixture block 704 downwards through the wire rope 803, and the fixture block 704 is attracted by the magnets 804 respectively arranged on the fixture block 704 and the support plate 703 when being pulled to rotate downwards, so that the first electric push rod 303 can smoothly move downwards because the torsion spring does not automatically return. Of course, if the first electric pushing rod 303 is lifted up again, the long side of the L-shaped plate 801 is pressed downward by the slot 706, so as to drive the short side of the L-shaped plate 801 to tilt up, so that the connecting rod 802 connected to the short side of the L-shaped plate 801 rotates around the rotating support seat 807 to tilt up, and drives the clamping block 704 to disengage from the attraction of the magnet 804, so that the auxiliary fixing device 7 can perform the normal auxiliary fixing function again.

Wherein, adjustable moving frame 3 is last to set up the fixed slot 10 of a plurality of downward sloping, and swirler 2 sets up in fixed slot 10, and fixed slot 10 is articulated with adjustable moving frame 3, sets up second electric putter 9 on adjustable moving frame 3, and fixed slot 10 and adjustable moving frame 3 are connected respectively to second electric putter 9 both ends. The adjustable fixed slot 10 that sets up a plurality of downward sloppings on removing the frame 3, swirler 2 sets up in fixed slot 10, consequently can also increase or reduce the proportion of the recovery volume control finished product sand and the tailings of tailings through increasing or reducing swirler 2, in order to adjust and calibrate the cooperation angle of 2 discharge gates of swirler and feed box 6 better, can promote fixed slot 10 through second electric putter 9 and rotate along articulating the department with adjustable removal frame 3, adjust swirler 2's fixed angle.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a finished product sand dehydration and tailings recovery all-in-one, is including the swirler that is used for dehydration straight line sieve of finished product sand dehydration and is used for the tailings to retrieve, characterized by: the outer side of the dehydration linear sieve is provided with an adjustable moving frame, the swirler is arranged on the dehydration linear sieve through the adjustable moving frame, the dehydration linear sieve is provided with a feeding box for tail sand and finished sand to enter, and a feeding port of the dehydration linear sieve and a discharging port of the swirler are respectively connected with the feeding box.

2. The integrated machine for dewatering finished sand and recovering tailings as claimed in claim 1, wherein: the adjustable moving frame comprises a support, a bearing wheel, a support, a first electric push rod and an auxiliary fixing device, the bearing wheel is arranged at the bottom of the support, the first electric push rod is arranged on the support, the support is arranged at the top of the first electric push rod, the support is connected with a cyclone, and the auxiliary fixing device is arranged on the support.

3. The integrated machine for dewatering finished sand and recovering tailings as claimed in claim 2, wherein: the auxiliary fixing device comprises a supporting rod, a supporting plate, a fixing frame, a clamping block and a reset assembly, wherein a connecting support outside the first electric push rod is sleeved with the fixing frame, the supporting rod is arranged on two sides of the fixing frame and is connected with a fixing frame and a support respectively, the top of the first electric push rod is provided with the supporting plate, the two sides of the supporting plate are respectively hinged with the clamping block, the clamping block and the connecting part of the supporting plate are provided with a torsional spring, a plurality of clamping grooves are uniformly formed in the vertical direction of the inner walls of two sides of the fixing frame sleeve, the clamping block and the clamping grooves are matched and arranged, the two sides of the supporting plate are provided with limiting blocks for limiting the overturning angles of the clamping block, and the reset assembly is arranged in the fixing frame.

4. The integrated machine for dewatering finished sand and recovering tailings as claimed in claim 3, wherein: reset assembly includes the L shaped plate, the connecting rod, wire rope, magnet, assembly pulley and handle, the backup pad both sides are articulated respectively and are set up the L shaped plate, the articulated department of L shaped plate and backup pad sets up the torsional spring, the connecting rod sets up in the backup pad of L shaped plate below through rotatory supporting seat, the one end of connecting rod is connected to L shaped plate minor face, the long limit of L shaped plate then is located the draw-in groove, the other end of connecting rod is located the fixture block bottom, fixture block and backup pad set up the magnet that mutually supports the attraction respectively, the assembly pulley sets up on the mount, the fixture block of wire rope one end joint support board both sides, the other end passes the assembly pulley and connects the handle.

5. The integrated machine for dewatering finished sand and recovering tailings as claimed in claim 1, wherein: the adjustable fixed slot that sets up a plurality of downward sloppings that removes on the frame, swirler set up in the fixed slot, and the fixed slot is articulated with adjustable removal frame, and adjustable removal frame is last to be set up second electric putter, and fixed slot and adjustable removal frame are connected respectively at second electric putter both ends.

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