CN210782850U - Continuous dehydration complete equipment - Google Patents

Abstract

The utility model relates to a fruit vegetables machinery, in particular to continuous dehydration complete sets. The vertical dehydrator comprises a vertical frame, a barrel is arranged on the vertical frame, a swinging barrel is arranged in the barrel, a conical barrel capable of contacting and separating with the swinging barrel is arranged below the swinging barrel, and a discharge hopper is connected to the lower end of the barrel. The utility model discloses an intermittent feeding under the circumstances that does not shut down of high-order lifting machine, water through getting rid of a rotation on with fruit vegetables gets rid of, when trading a batch fruit vegetables, need not stop motor, get rid of a section of thick bamboo and continue to rotate, only need fall down hollow cylinder, make a toper section of thick bamboo with get rid of a separation, the fruit vegetables that spin-dry will fall into out the hopper from getting rid of a space of section of thick bamboo and toper section of thick bamboo, thereby fall into in the container that prepares in advance from going out the hopper, then rise a toper section of thick bamboo again, make a toper section of thick bamboo with get rid of a section of thick bamboo contact, continue to add next batch fruit vegetables can.

Description

Continuous dehydration complete equipment

Technical Field

The utility model relates to a fruit vegetables machinery, in particular to continuous dehydration complete sets.

Background

In the existing fruit and vegetable production and processing, the fruits and vegetables are subjected to preliminary cutting treatment to be in the states of silk, slices, strips and the like, and are cleaned after being cut, residual water on the surfaces of the fruits and vegetables needs to be cleaned up after cleaning, the treatment modes include draining, air drying, spin-drying and the like, in the methods, the draining is finished only by vibration, and only one side of the fruits and vegetables can be blown even in a mode of combining draining and air drying, the air-drying draining effect is poor, the air-drying draining efficiency is low, when a spin-drying machine is used, the machine needs to be stopped after the fruits and vegetables are spin-dried each time, the good fruits and vegetables are taken out, new fruits and vegetables are added for spin-drying, the time is delayed invisibly, the production time is prolonged, and the production efficiency is reduced.

Disclosure of Invention

The utility model provides a continuous dewatering complete equipment with high efficiency, which can replace fruits and vegetables without stopping the machine, and overcomes the defects of the prior art.

The utility model discloses a realize through following technical scheme:

a continuous dehydration complete equipment comprises a PLC control system and is characterized by further comprising a high-level hoister, a vertical dehydrator and a low-level hoister which are sequentially arranged, wherein the vertical dehydrator comprises a vertical frame, a barrel is arranged on the vertical frame, a feed inlet is formed in the upper end of the barrel, the lower end of the barrel is connected with a discharge hopper, a net-shaped throwing barrel is arranged in the barrel, a motor is arranged at the upper end of the barrel, the output end of the motor is connected with a main shaft, after the lower end of the main shaft extends into the barrel and the throwing barrel, the lower end of the main shaft is rotatably connected with a support frame, and the support frame; the quick discharging device comprises a sleeve, a sliding sleeve is connected in the sleeve through an inner bearing, the sliding sleeve is connected with the main shaft through a spline, the upper end of the sliding sleeve is connected with a top plate, the top plate is connected with a conical barrel, and the lower end of the conical barrel and the lower end of the throwing barrel are provided with matched contact surfaces; the quick discharging device further comprises: the hollow cylinder is arranged on the support frame and comprises an inner cylinder body, a piston rod and an outer cylinder body, the inner cylinder body, the piston and the piston rod are all cylindrical, the inner cylinder body is sleeved on the main shaft, and the upper end of the piston rod is fixedly connected with a sleeve; the main shaft and the throwing cylinder rotate synchronously, a flat plate is arranged on the inner wall of the cylinder body and is connected with the lower end of the throwing cylinder in a sliding mode, water outlets are respectively formed in the flat plate and the cylinder body, the two water outlets are connected through a water outlet pipe, and the water outlet pipe penetrates out of the water outlet in the cylinder body; the upper end of the high-position hoister is positioned above the feeding hole, and the lower end of the low-position hoister is positioned below the discharging hopper; go out the hopper including a straight section of thick bamboo and an inverted cone section of thick bamboo, an inverted cone section of thick bamboo includes four triangle-shaped hang plates, connects through the arc between two adjacent triangle-shaped hang plates.

The high-position hoister is a Z-shaped hoister, the Z-shaped hoister comprises a Z-shaped frame body, a blanking hopper is arranged at the upper end of the Z-shaped frame body, a storage hopper is arranged at the lower end of the Z-shaped frame body, a Z-shaped conveyer belt is arranged in the Z-shaped frame body and comprises a conveying area and a storage area, a plurality of L-shaped shifting plates are arranged in the conveying area, the upper end of the Z-shaped conveyer belt is positioned above the blanking hopper, and the lower end of the Z-shaped conveyer belt is positioned in the storage hopper; and a monitoring switch facing the kick-out plate is arranged at the upper end of the Z-shaped frame body.

The Z-shaped conveying belt is a chain plate conveying belt, the Z-shaped conveying belt is driven to rotate by a speed reducing motor, a rotary gear and a steering shaft, and two ends of the steering shaft are mounted on the Z-shaped frame body through bearings.

The Z-shaped frame body is provided with casters.

The spindle key is connected with the protective inner cylinder, a connecting node of the output end of the motor and the spindle is positioned in the protective inner cylinder, the upper end and the lower end of the protective inner cylinder are respectively fixedly connected with the throwing cylinder, and the lower end of the spindle is provided with a pneumatic brake device; the inner bearing is an angular contact bearing.

An elastic damping air bag is arranged between the vertical frame and the cylinder body.

The inclination angle of the triangular inclined plate is 130-160 degrees, and a plurality of bulges are arranged on the surface of the conical cylinder.

The lateral wall of the throwing cylinder is a mesh, and a cleaning door is arranged at the upper end of the cylinder body.

The high-order lifting machine is double-deck belt lifting machine, double-deck belt lifting machine includes upper band conveyer and the lower floor band conveyer of ability positive and negative rotation that can only rotate forward to upper band conveyer's upper end is located lower floor band conveyer's top.

And a lower retainer plate is arranged below the lower-layer belt conveyor, and side retainer plates are respectively arranged on two sides of the upper-layer belt conveyor and two sides of the lower-layer belt conveyor.

The utility model has the advantages that:

the utility model discloses a Z type lifting machine or double-deck belt lifting machine can realize intermittent feeding under the condition of not shutting down, vertical hydroextractor can throw away the water on the fruit vegetables through the rotation of getting rid of a section of thick bamboo, when trading a batch fruit vegetables, need not stop motor, only reduce the rotational speed of motor fast can, it continues the rotation to get rid of a section of thick bamboo, at this moment only need fall down the cavity cylinder, make a toper section of thick bamboo with get rid of a separation, the fruit vegetables that spin-dry will fall into out the hopper from getting rid of a section of thick bamboo and the space of a toper section of thick bamboo, thereby fall into in the container that prepares in advance from going out the hopper, then rise a toper section of thick bamboo again, make a toper section of thick.

Drawings

The present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic perspective view of a first embodiment of the present invention;

fig. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a schematic view of a double-deck belt elevator

FIG. 4 is a schematic perspective view of a Z-shaped elevator;

FIG. 5 is a schematic front view of a Z-shaped elevator;

FIG. 6 is a left side view schematic diagram of the Z-shaped elevator;

FIG. 7 is a schematic cross-sectional view taken along line E-E of FIG. 6;

FIG. 8 is a schematic top view of the Z-type hoist;

FIG. 9 is a schematic front view of the vertical dehydrator;

FIG. 10 is a schematic sectional view taken along line A-A in FIG. 9;

FIG. 11 is an enlarged view at C of FIG. 10;

FIG. 12 is a schematic diagram of a top view of a swing barrel;

FIG. 13 is a schematic cross-sectional view taken along line B-B of FIG. 12;

fig. 14 is an enlarged view at D in fig. 10.

In the figure, a 001Z-shaped hoisting machine, a 01Z-shaped frame body, a 02Z-shaped conveying belt, a 03 rotary gear, a 04 bearing, a 05 speed reducing motor, a 06 blanking hopper, a 07 storage hopper, a 08 kickoff plate, a 09 monitoring switch, 010 casters and a 011 steering shaft are arranged;

000 vertical dewaterers, 1 vertical frame, 101 upright columns, 102 horizontal supports, 103 elastic damping air bags, 2 cylinders, 3 feed inlets, 4 discharge hoppers, 401 straight cylinders, 402 inverted cone cylinders, 4021 triangular inclined plates, 4022 arc plates, 5 motors, 51 spindles, 6 protective inner cylinders, 61 bottom surfaces, 62 connecting rods, 7 supporting frames, 71 supporting rods, 8 throwing cylinders, 81-hole meshes, 811 outer rings, 812 inner rings, 9 inner sleeves, 10 flat plates, 1001 water outlets, 1002 water outlet pipes, 11 hollow cylinders, 1101 outer cylinder bodies, 1102 inner cylinder bodies, 1103 pistons, 1104 piston rods, 12 sleeves, 13 inner bearings, 14 sliding sleeves, 15 top plates, 16 conical cylinders, 161 bulges, 162 contact surfaces, 17 cleaning doors, 18 brakes and 19 brake discs;

002 double-layer belt elevator, 20 upper layer belt conveyor, 21 lower layer belt conveyor, 22 side retainer plate and 23 lower retainer plate;

003 low lift.

Detailed Description

The attached drawings are specific embodiments of the invention. As shown in fig. 1 to 14, the whole continuous dewatering plant is controlled by a PLC control system and comprises a high-level lifter, a vertical dewatering machine 000 and a low-level lifter 003, wherein,

there are two kinds of embodiments for high-order lifting machine, an embodiment is double-deck belt lifting machine 002, double-deck belt lifting machine 002 includes upper band conveyer 20 that can only positive rotation and lower floor band conveyer 21 that can positive rotation, upper band conveyer 20 and lower floor band conveyer 21 parallel arrangement to the upper end of upper band conveyer 20 is located lower floor band conveyer 21's top, that is to say fruit vegetables on upper band conveyer 20 fall on lower floor band conveyer 21, then fall in vertical hydroextractor 000 again. A lower material baffle plate 23 is arranged below the lower layer belt conveyor and is used for receiving falling waste materials and water so as to avoid polluting the ground; in addition, side retainer plates 22 are respectively installed at both sides of the upper layer belt conveyor 20 and the lower layer belt conveyor 21.

When fruits and vegetables are needed in the vertical dehydrator 000, the upper-layer belt conveyor 20 and the lower-layer belt conveyor 21 rotate forwards, when the vertical dehydrator 000 is in a dehydration state (both dehydration time and feeding time are controlled by a PLC control system), the upper-layer belt conveyor 20 always operates normally and conveys the fruits and vegetables, but the lower-layer belt conveyor 21 slowly rotates backwards, the rotating speed is far slower than that of the rotating forwards, so that the fruits and vegetables do not fall into the vertical dehydrator 000 any more, the fruits and vegetables on the lower-layer belt conveyor 21 cannot fall back to the lower end of the lower-layer belt conveyor 21 in the dehydration time, of course, in case of prevention, a transverse baffle plate can be installed at the lower end of the lower-layer belt conveyor 21, and when the fruits and vegetables are dehydrated, the lower-layer belt conveyor 21 conveys the fruits and vegetables into the vertical dehydrator 000 at normal rotating speed.

The second embodiment is a Z-shaped elevator 001, which comprises a Z-shaped frame 01, a Z-shaped conveyer belt 02 is arranged in the Z-shaped frame 01, the Z-shaped conveyer belt 02 is turned by a rotary gear 03 and a steering shaft 011, the steering shaft 011 is arranged on the Z-shaped frame 01 by a bearing 04, the Z-shaped conveyer belt 02 is driven by a speed reduction motor 05 to rotate, the upper end of the Z-shaped frame 01 is a lower hopper 06, the upper end of the Z-shaped conveyer belt 02 is positioned above the lower hopper 06, fruits and vegetables carried by the Z-shaped conveyer belt 02 fall through the lower hopper 06, the lower end of the Z-shaped frame 01 is a storage hopper 07, the lower end of the Z-shaped conveyer belt 02 is positioned in the storage hopper 07, the Z-shaped conveyer belt 02 comprises a conveying area and a storage area, a plurality of material shifting plates 08 are arranged on the conveying area, the material shifting plates 08 are uniformly distributed, the material shifting plates 08 are L-shaped, one end of the material shifting plates, in order to reach the purpose of carrying the fruit vegetables, at 01 upper end installations monitoring switch 09 of Z type support body, monitoring switch 09 is towards switch 08 to monitoring switch 08's position.

The Z-shaped conveying belt 2 is a chain plate conveying belt.

In order to move the Z-shaped hoisting machine conveniently, a caster 010 is installed at the lower end of the Z-shaped frame body 01.

When the fruits and vegetables in the vertical dehydrator 000 are dehydrated and fall down and new fruits and vegetables need to be supplemented, the first material shifting plate 08 just reaches the monitoring switch 09, the monitoring switch 09 sends a monitored signal to the PLC control system and then sends the signal to the speed reducing motor 05, the speed reducing motor 05 rotates at a set speed to convey the fruits and vegetables and fall into the vertical dehydrator 000 through the blanking hopper 06, when the fruits and vegetables on the last material shifting plate 08 fall down, the monitoring switch 09 monitors and then transmits the signal to the PLC control system and then to the speed reducing motor 05, the speed reducing motor 05 rotates at the set speed again, the rotating speed of the speed reducing motor 05 is slower than that of conveying the fruits and vegetables, at the moment, no material shifting plate 08 exists behind the fruits and vegetables, the rest fruits and vegetables are temporarily stored in the storage hopper 07 due to the absence of the driving of the material shifting plate 08, and when the first material shifting plate 08 rotates, the fruits and vegetables are lifted again, arriving at the monitor switch 09, the above action is repeated.

The vertical dehydrator 000 comprises a vertical frame 1, the vertical frame 1 is composed of three columns 101 which are distributed in a triangular shape, in order to enhance the stability of the vertical frame 1, a horizontal support 102 is further arranged between two adjacent columns 101, a barrel 2 is arranged on the vertical frame 1, an elastic damping air bag 103 is arranged between the top end of each column 101 and the barrel 2, when the machine runs, the elastic damping air bag 103 is inflated, when the equipment stops running, air in the elastic damping air bag 103 is discharged, a feed inlet 3 is arranged at the upper end of the barrel 2, the feed inlet 3 is not at the central position, the lower end of the feed inlet is connected with a discharge hopper 4, a motor 5 is arranged at the central position of the upper end of the barrel 2, the output end of the motor 5 extends downwards into the barrel 2 and then is connected with a main shaft 51 through a coupler, the connecting node of the coupler and the main shaft 51 is positioned in a protective inner barrel 6 to play a role, the supporting frame 7 is a triangular support, three supporting rods 71 of the supporting frame are respectively fixed at the lower end of the inner wall of the barrel 2 after radiating outwards from the center, the main shaft 51 can rotate under the drive of the motor 5, and a bearing is positioned on the central intersection point of the supporting frame 7; the protective inner cylinder 6 is also provided with a reticular swing cylinder 8, the diameter and the height of the reticular swing cylinder 8 are larger than those of the protective inner cylinder 6, the upper end of the swing cylinder 8 is flush with the protective inner cylinder 6 and is positioned below the feed inlet 3, the gap between the upper end of the swing cylinder 8 and the lower surface of the upper bottom surface of the cylinder body 2 is not too large, the upper end and the lower end of the protective inner cylinder 6 are fixedly connected with the swing cylinder 8 through three connecting rods 62 respectively, the three connecting rods 62 are radially and uniformly distributed, the bottom surface 61 of the protective inner cylinder 6 is connected with an inner sleeve 9, the inner sleeve 9 is in key connection with the main shaft 51, when the main shaft 51 rotates, the main shaft 51 drives the protective inner cylinder 6 through the inner sleeve 9, and the protective inner; the inner wall of the cylinder body 2 is provided with a circle of flat plates 10, the flat plates 10 are connected with the lower end of the swinging cylinder 8 in a sliding mode, namely, when the swinging cylinder 8 rotates, the flat plates 10 are fixed, a water outlet 1001 is formed in each flat plate 10, a water outlet 1001 is also formed in the cylinder body 2 below each flat plate 10, a water outlet pipe 1002 is connected between the two water outlets 1001, and the water outlet pipe 1002 penetrates out of the water outlet 1001 in the cylinder body 2. Get rid of a quick discharging device that can go up and down in 8 in addition, its lift mode is conventional lift mode, for example chain block, cylinder etc. and what this embodiment adopted is hollow cylinder 11, and quick discharging device's concrete structure is: a hollow cylinder 11 is fixedly arranged at the central position of the support frame 7, an outer cylinder 1101, an inner cylinder 1102, a piston 1103 and a piston rod 1104 of the hollow cylinder 11 are all cylindrical, the inner cylinder 2 and the piston rod 1104 are sleeved on the main shaft 51, the piston rod 1104 is upward, a sleeve 12 is fixedly connected at the top end of the piston rod 1104, a sliding sleeve 14 is arranged in the sleeve 12 through an inner bearing 13, the inner bearing 13 preferably uses an angular contact bearing, the sliding sleeve 14 is connected with the main shaft 51 through a spline, the upper end of the sliding sleeve 14 is fixedly connected with a top plate 15, the top plate 15 is also sleeved on the main shaft 51, the top plate 15 is circular, the top plate 15 is circumferentially connected with a conical cylinder 16, the upper surface of the conical cylinder 16 is provided with a plurality of protrusions 161, the lower end of the conical cylinder 16 and the lower end of the swinging cylinder 8 are provided with a contact surface 162 which is matched with each other, the contact surface 162 is inclined, the lower end of the conical barrel 16 is tightly contacted with the lower end of the swinging barrel 8 through the contact surface 162; when the hollow cylinder 11 is started, the tapered cylinder 16 rises, and the top plate 15 is in contact with the bottom surface 61 of the protective inner cylinder 6. In order to rapidly reduce the rotation speed of the main shaft 51, a pneumatic brake device including a brake 18 and a brake disc 19 is installed at the lower end of the main shaft 51. During the process of changing vegetables, the main shaft 51 rotates continuously, but the rotating speed is reduced.

The side wall of the spin basket 8 is provided with a mesh 81, the mesh 81 can be a wedge-shaped mesh, the wedge-shaped mesh is composed of an outer ring 811 and an inner ring 812, the outer ring 811 is a plurality of circles of annular strips, the inner ring 812 is a plurality of vertical strips, the inner ring 812 and the outer ring 811 are connected together and are generally welded, the strips of the inner ring 812 and the outer ring 811 are wedge-shaped strips, namely, the cross sections of the strips are trapezoidal, and the pointed ends of the strips of the inner ring 812 and the outer ring 811 are connected together.

The discharge hopper 4 can be fixedly connected with the cylinder body 2 through bolts, nuts and the like, the discharge hopper 4 is formed by integrally connecting two parts of a straight cylinder 401 and an inverted cone 402, the inverted cone 402 comprises four triangular inclined plates 4021, the two adjacent triangular inclined plates 4021 are integrally connected through an arc plate 4022, the inclination angle of the triangular inclined plates 4021 is 1003-160 degrees, such as 140 degrees or 150 degrees, in this way, the upper port and the lower port of the arc plate 4022 are in the shape below the upper circle, only the adjacent two sides of the square at the lower end are smoothly passed through an arc, but not the right angle, and the lower port is smaller than the upper port.

To facilitate cleaning, a cleaning door 17 is mounted on the drum 2.

The operation of the vertical dehydrator 000 is as follows: firstly, the elastic damping air bag 103 is inflated, the hollow cylinder 11 is started, the hollow cylinder 11 drives the conical barrel 16 to ascend, so that the top plate 15 is contacted with the bottom surface 61 of the protective inner barrel 6, the lower end of the conical barrel 16 is tightly contacted with the lower end of the swinging barrel 8, cleaned vegetables are poured into the conical barrel from the feeding hole 3, the motor 5 is started, the spindle 51 of the motor 5 rotates to drive the swinging barrel 8 to rotate through the supporting rod of the inner sleeve 9, meanwhile, the spindle 51 drives the conical barrel 16 to synchronously rotate through the sliding sleeve 14, water on the vegetables is thrown out, enters the flat plate 10 from meshes of the swinging barrel 8, is discharged from the water outlet pipe 1002 after being accumulated, after the swinging is finished, the pneumatic brake device is started, the rotating speed of the spindle 51 is rapidly reduced, the vegetable changing time can be shortened, the working efficiency is improved, the hollow cylinder 11 is started, the conical barrel 16 falls, the vegetables fall down, and fall down to the, and then lifting the conical cylinder 16, continuously adding vegetables, repeating the actions, in the process, controlling the lifting of the hollow cylinder 11 by using a PLC control system, setting the time, falling the conical cylinder 16 after the time is reached, then lifting the conical cylinder after the time is reached, and repeating the steps. During the rise and fall of the cone-shaped cylinder, the cone-shaped cylinder still rotates, which is also beneficial to the falling of fruits and vegetables.

The lower hoist 003 is a normal hoist, and its lower end is located below the discharge hopper 4.

Other technical features than those described in the specification are known to those skilled in the art.

Claims (10)

1. The continuous dehydration complete equipment comprises a PLC control system and is characterized by further comprising a high-level hoister, a vertical dehydrator (000) and a low-level hoister (003) which are sequentially arranged, wherein the vertical dehydrator (000) comprises a vertical frame (1), a barrel body (2) is arranged on the vertical frame (1), a feed inlet (3) is formed in the upper end of the barrel body (2), the lower end of the barrel body is connected with a discharge hopper (4), a reticular swing barrel (8) is arranged in the barrel body (2), a motor (5) is arranged at the upper end of the barrel body (2), the output end of the motor (5) is connected with a main shaft (51), after the lower end of the main shaft (51) extends into the barrel body (2) and the swing barrel (8), the lower end of the main shaft (51) is rotatably connected with a support frame (7), and the support frame (7); the quick discharging device comprises a sleeve (12), the sleeve (12) is connected with a sliding sleeve (14) through an inner bearing (13), the sliding sleeve (14) is connected with a main shaft (51) through a spline, the upper end of the sliding sleeve (14) is connected with a top plate (15), the top plate (15) is connected with a conical barrel (16), and the lower end of the conical barrel (16) and the lower end of a throwing barrel (8) are provided with contact surfaces (162) which are matched with each other; the quick discharging device further comprises: the hollow cylinder (11) is mounted on the support frame (7), the hollow cylinder (11) comprises an inner cylinder body (1102), a piston (1103), a piston rod (1104) and an outer cylinder body (1101), the inner cylinder body (1102), the piston (1103) and the piston rod (1104) are all cylindrical, the inner cylinder body (1102) is sleeved on the spindle (51), and the upper end of the piston rod (1104) is fixedly connected with the sleeve (12); the main shaft (51) and the throwing cylinder (8) rotate synchronously, a flat plate (10) is arranged on the inner wall of the cylinder body (2), the flat plate (10) is connected with the lower end of the throwing cylinder (8) in a sliding mode, water outlets (1001) are respectively formed in the flat plate (10) and the cylinder body (2), the two water outlets (1001) are connected through a water outlet pipe (1002), and the water outlet pipe (1002) penetrates out of the water outlets (1001) in the cylinder body (2); the upper end of the high-level hoisting machine is positioned above the feeding hole (3), and the lower end of the low-level hoisting machine (003) is positioned below the discharging hopper (4); go out hopper (4) including straight section of thick bamboo (401) and an inverted cone section of thick bamboo (402), an inverted cone section of thick bamboo (402) includes four triangle-shaped hang plates (4021), connects through arc (4022) between two adjacent triangle-shaped hang plates (4021).

2. The continuous dewatering plant according to claim 1, characterized in that the high-level elevator is a Z-shaped elevator (001), the Z-shaped elevator (001) comprises a Z-shaped frame body (01), a blanking hopper (06) is arranged at the upper end of the Z-shaped frame body (01), a storage hopper (07) is arranged at the lower end of the Z-shaped frame body (01), a Z-shaped conveying belt (02) is arranged in the Z-shaped frame body (01), the Z-shaped conveying belt (02) comprises a conveying area and a storage area, the conveying area is provided with a plurality of L-shaped material shifting plates (08), the upper end of the Z-shaped conveying belt (02) is positioned above the blanking hopper (06), and the lower end of the Z-shaped conveying belt (02) is positioned in the storage hopper (07); the upper end of the Z-shaped frame body (01) is provided with a monitoring switch (09) facing the kick-out plate (08).

3. The continuous dewatering plant according to claim 2, characterized in that the Z-shaped conveyor belt (02) is a chain plate conveyor belt, the Z-shaped conveyor belt (02) is driven by a speed reduction motor (05), a rotary gear (03) and a steering shaft (011), and two ends of the steering shaft (011) are mounted on the Z-shaped frame body (01) through bearings (04).

4. Continuous dewatering plant according to claim 2, characterised in that the Z-frame (01) is provided with castors (010).

5. The continuous dewatering complete equipment according to claim 1, characterized in that the main shaft (51) is connected with the protective inner cylinder (6) in a key mode, the connection node of the output end of the motor (5) and the main shaft (51) is positioned in the protective inner cylinder (6), the upper end and the lower end of the protective inner cylinder (6) are respectively fixedly connected with the throwing cylinder (8), and the lower end of the main shaft (51) is provided with a pneumatic brake device; the inner bearing (13) is an angular contact bearing.

6. A continuous dewatering plant according to claim 1, characterised in that an elastic damping bladder (103) is provided between the stand (1) and the drum (2).

7. A continuous dewatering plant according to claim 1, characterised in that the angle of inclination of the triangular inclined plates (4021) is 130 ° to 160 °, and the surface of the conical drum (16) is provided with a number of protrusions (161).

8. A continuous dewatering plant according to claim 1, characterised in that the side walls of the drum (8) are perforated and the upper end of the drum body (2) is provided with a cleaning door (17).

9. A continuous dewatering plant according to claim 1, characterised in that the high-level hoist is a double-deck belt hoist (002), the double-deck belt hoist (002) comprising an upper belt conveyor (20) which can only rotate in the forward direction and a lower belt conveyor (21) which can rotate in the forward and reverse directions, and the upper end of the upper belt conveyor (20) is located above the lower belt conveyor (21).

10. The continuous dewatering plant according to claim 9, characterised in that a lower retainer plate (23) is arranged below the lower belt conveyor (21), and side retainer plates (22) are arranged on both sides of the upper belt conveyor (20) and the lower belt conveyor (21).

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