CN218188319U - Shale shaker for vegetable water filtration - Google Patents

Abstract

The utility model relates to a shale shaker for vegetable water filtration belongs to the field of shale shaker, and it includes the frame, and the top of frame is provided with vibrating motor and screening mechanism, and one side of screening mechanism is provided with the feed inlet, and the opposite side is provided with the discharge gate, screening mechanism is including setting up in the upset frame and the filter screen at frame top, and the filter screen sets up in the top of upset frame, and the filter screen is close to one side of discharge gate and is articulated with the upset frame, and upset frame top is provided with the actuating mechanism that the drive filter screen overturns upwards around the pin joint. The utility model discloses the effect of the shale shaker unloading of being convenient for has.

Description

Shale shaker for vegetable water filtration

Technical Field

The utility model belongs to the technical field of shale shaker and specifically relates to a shale shaker for vegetable water filtration is related to.

Background

The vibrating screen is a common screening device, and the main principle of the vibrating screen is to separate substances by using the vibration of the vibrating screen and screen holes on the vibrating screen. The vibrating process of the vibrating screen can reduce the blocking of the screen holes by materials, so that the vibrating screen has higher screening efficiency and productivity.

Have higher screening efficiency based on the shale shaker, the shale shaker is by wide application on vegetables are strained to realize more high-efficient drainage effect.

To the correlation technique among the above-mentioned, the utility model people think though the shale shaker can high-efficient drainage, improves production efficiency, nevertheless because filter screen and shale shaker fixed connection's mode leads to the unloading inconvenient.

SUMMERY OF THE UTILITY MODEL

In order to facilitate discharging of the vibrating screen, the utility model provides a vibrating screen for vegetable water filtration.

The utility model provides a pair of shale shaker for vegetable water filtration adopts following technical scheme:

the utility model provides a shale shaker for vegetable water filtration, includes the frame, and the top of frame is provided with vibrating motor and screening mechanism, and one side of screening mechanism is provided with the feed inlet, and the opposite side is provided with the discharge gate, screening mechanism is including setting up in the upset frame and the filter screen at frame top, and the filter screen sets up in the top of upset frame, and one side that the filter screen is close to the discharge gate is articulated with the upset frame, and upset frame top is provided with the actuating mechanism that the drive filter screen upwards overturns around the pin joint.

By adopting the technical scheme, after the vegetables are conveyed to the top of the filter screen from the feeding hole, the vibration motor is driven to drive the screening mechanism to vibrate, and the moisture on the surfaces of the vegetables flows down along the gaps between the filter screens; drive actuating mechanism makes the filter screen upwards overturn around the pin joint, is higher than the one side that is close to the discharge gate to the one side that the filter screen is close to the feed inlet, and vegetables just can be because self gravity moves to the discharge gate direction, and to breaking away from with the filter screen, the shale shaker unloading of being convenient for.

Optionally, the two symmetrical sides of the turnover frame are provided with yielding grooves, the driving mechanism comprises two cylinders, the cylinder bodies of the cylinders are hinged to the bottoms of the yielding grooves in different modes respectively, and the piston rods of the cylinders are hinged to one end, close to the feed inlet, of the bottom of the filter screen.

By adopting the technical scheme, the air cylinder is driven to extend the air cylinder piston rod, and one side of the filter screen close to the feed port is jacked up by the air cylinder piston rod; the filter screen is upwards overturned around a hinge point with the overturning frame until one side of the filter screen close to the feed port is higher than one side close to the discharge port; the vegetables move towards the discharge hole due to the gravity of the vegetables and are separated from the filter screen.

Optionally, one side of the turnover frame, which is close to the feed port, is hinged to the frame, and the frame is provided with a turnover mechanism for driving the turnover frame to turn over around the hinge point to the direction of the feed port.

By adopting the technical scheme, the turnover mechanism is driven to turn over the turnover frame around the hinge point to the direction of the discharge hole; because the angle of upset frame is bigger than the angle of filter screen slope, consequently to raising the vegetables that still can not succeed the unloading behind the one side that the filter screen is close to the feed inlet, can make the upset of upset frame great angle come convenient unloading.

Optionally, the turnover mechanism includes a driving motor, and the driving motor is fixedly connected to the frame at a position close to the discharge hole; one side of the turnover frame is fixedly provided with a rotating shaft, the rotating shaft is rotatably connected to the rack, and an output shaft of the driving motor is fixedly connected with the rotating shaft.

Through adopting above-mentioned technical scheme, drive driving motor, driving motor output shaft drives the pivot and rotates, and the upset frame is around the direction upset that revolutes the pivot and be close to the discharge gate, and the filter screen is all separated from to vegetables.

Optionally, the two sides of the turnover frame perpendicular to the feed inlet are fixedly connected with side baffles.

Through adopting above-mentioned technical scheme, the setting of side shield can prevent that vegetables from being broken away from the frame from both sides when being carried to the frame from the feed inlet.

Optionally, a rear baffle is connected to the position of the feed inlet on the turnover frame in a sliding manner.

Through adopting above-mentioned technical scheme, the backplate cunning is shifted to and is broken away from with the upset frame to make things convenient for vegetables from the discharge gate unloading.

Optionally, the top of the turnover frame is horizontally provided with a sliding groove matched with the rear baffle, and the rear baffle is connected in the sliding groove in a sliding manner.

Through adopting above-mentioned technical scheme, the groove that slides makes backplate process of sliding more stable.

Optionally, a connecting column is fixedly connected to one side of the side baffle opposite to the side baffle, and the connecting column is axially and horizontally arranged.

Through adopting above-mentioned technical scheme, the spliced pole is connected two side shields, and is more firm when making vibrating motor drive frame vibrations, avoids causing the damage to the frame because vibrations.

Optionally, the filter screen is detachably connected with the piston rod of the air cylinder, and the filter screen is detachably connected with the turnover frame.

Through adopting above-mentioned technical scheme, conveniently change the filter screen to improve shale shaker work efficiency.

Optionally, the end part of the piston rod of the air cylinder is hinged with a first limiting block, the first limiting block is in threaded connection with a first bolt, and the first limiting block is fixed at the bottom of the filter screen by the first bolt;

two symmetrical sides of the bottom of the filter screen are respectively provided with a second limiting block, one end, far away from the filter screen, of the second limiting block is hinged to the turnover frame, the second limiting block is connected with a second bolt in a threaded mode, and the second limiting block is fixed to the bottom of the filter screen through the second bolt.

By adopting the technical scheme, when the filter screen needs to be replaced, the first bolt and the second bolt are unscrewed, so that the filter screen is conveniently separated from the turnover frame, and the filter screen is replaced

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

FIG. 2 is a schematic view of the embodiment of the present application showing the sifting mechanism.

Fig. 3 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A of fig. 2.

Fig. 4 is a front view of the embodiment in the direction of the tailgate.

Fig. 5 is a sectional view of the portion B-B in fig. 4.

Fig. 6 is an enlarged view of a portion a in fig. 5.

Fig. 7 is an enlarged view of a portion B in fig. 5.

Description of the reference numerals: 1. a frame; 11. a support bar; 12. a damping spring; 13. a water storage tank; 14. a support frame; 2. a screening mechanism; 21. a feed inlet; 22. a discharge port; 23. turning over the frame; 231. a rotating shaft; 232. a drive motor; 233. a yielding groove; 234. a side dam; 235. connecting columns; 236. a sliding groove; 237. a tailgate; 238. a vibration motor; 24. filtering with a screen; 241. a cylinder; 242. a first limiting block; 243. a first bolt; 244. a second limiting block; 245. and a second bolt.

Detailed Description

The present invention will be described in further detail with reference to the accompanying fig. 1 to 7.

The embodiment of the utility model discloses vegetables shale shaker for drainage. Referring to fig. 1, the vibrating screen for filtering water in vegetables comprises a frame 1 and a screening mechanism 2, wherein the screening mechanism 2 is arranged at the top of the frame 1.

The frame 1 includes four support rods 11, four damping springs 12, and a support frame 14. The vertical setting of bracing piece 11, the top of every bracing piece 11 all with a damping spring 12 one end fixed connection, damping spring 12's the other end respectively fixed connection in four corners departments in carriage 14 bottom. A water storage tank 13 is arranged on the frame 1, and the water storage tank 13 is connected among the four support rods 11.

Referring to fig. 2 and 3, the sifting mechanism 2 includes a turn-over frame 23. One side of the turning frame 23 is fixedly provided with a rotating shaft 231, the rotating shaft 231 is rotatably connected to the supporting frame 14, and the axial direction of the rotating shaft 231 is horizontally arranged. The supporting frame 14 is horizontally provided with a driving motor 232 at a position close to the rotating shaft 231, the driving motor 232 is fixedly connected to the side wall of the supporting frame 14, and an output shaft of the driving motor 232 is fixedly connected with one end of the rotating shaft 231.

Referring to fig. 4 and 5, two side baffles 234 are fixedly connected to two symmetrical sides of the top of the turnover frame 23, the side baffles 234 are respectively arranged on two sides axially perpendicular to the rotating shaft 231, the side baffles 234 are vertically arranged, and the side baffles 234 are parallel to each other. One ends of the two side baffles 234 far away from the rotating shaft 231 form the feed inlet 21, and one ends of the two side baffles 234 near the rotating shaft 231 form the discharge outlet 22. The opposite side of the side baffle 234 is fixedly connected with a plurality of connecting columns 235, the axial direction of the connecting columns 235 is horizontal and parallel to the axial direction of the rotating shaft 231, and the connecting columns 235 are uniformly distributed along the length direction of the side baffle 234. A vibration motor 238 is fixedly attached to the side guard 234 adjacent to the drive motor 232.

A sliding groove 236 is horizontally formed in the position, close to the discharge hole 22, of the top of the turnover frame 23, and the sliding groove 236 is parallel to the axial direction of the rotating shaft 231; a tailgate 237 is slidably connected to the slide groove 236, and the tailgate 237 is disposed perpendicular to the side gate 234 and abuts against the side gate 234.

Referring to fig. 5 and 6, the sieving mechanism 2 further includes a filter screen 24, one end of the filter screen 24 is hinged to the turn-over frame 23, and the other end of the filter screen 14 abuts against the top of the turn-over frame 23. Two symmetrical sides of the bottom of the filter screen 24 are respectively provided with a second limiting block 244, one ends of the two second limiting blocks 244 far away from the filter screen 24 respectively extend into different abdicating grooves 233, and the second limiting blocks 244 are arranged at positions close to the rotating shaft 231. The second limiting blocks 244 are in threaded connection with second bolts 245, and the second limiting blocks 244 are fixed at the bottoms of the filter screens 24 through the second bolts 245; the end of the second limiting block 244, which is far away from the filter screen 24, is hinged to the turnover frame 23.

Referring to fig. 5 and 7, the symmetrical two sides of the turnover frame 23 are both provided with a receding groove 233, and the receding grooves 233 are disposed on two sides axially perpendicular to the rotating shaft 231. An air cylinder 241 is arranged in each abdicating groove 233, the air cylinder 241 is horizontally arranged, a cylinder body of the air cylinder 241 is hinged with the inner wall of the abdicating groove 233, and the end part of a piston rod of the air cylinder 241 extends to a position close to the feed inlet 21 and is hinged with a first limiting block 242; the first limit block 242 is in threaded connection with a first bolt 243, and the first limit block 242 is fixed at the bottom of the filter screen 24 through the first bolt 243. The piston rod of the air cylinder 241 extends, one side of the filter screen 24, which is close to the feeding hole 21, is jacked up by the piston rod of the air cylinder 241, the filter screen 24 is upwards turned around a hinge point with the turning frame 23, and the side, which is close to the feeding hole 21, of the filter screen 24 is higher than the side, which is close to the discharging hole 22, of the filter screen 24; the piston rod of the cylinder 241 is contracted and the filter net 24 is turned down around the hinge point with the turning frame 23 until the filter net 24 is horizontal.

The embodiment of the utility model provides a vegetable is shale shaker for drainage's implementation principle does:

after the vegetables are conveyed from the feeding port 21 to the top of the filtering net 24, the vibration motor 238 is driven, so that the vibration motor 238 drives the sieving mechanism 2 to vibrate, and the moisture on the surfaces of the vegetables is collected into the water storage tank 13 along the gaps between the filtering nets 24.

Sliding the rear baffle 237 along the sliding slot 236 until the rear baffle is separated from the sliding slot 236; the cylinder 241 is driven to extend the piston rod of the cylinder 241, and one side of the filter screen 24 close to the feed port 21 is jacked up by the piston rod of the cylinder 241; the filter screen 24 is turned upwards around a hinge point with the turning frame 23 until one side of the filter screen 24 close to the feeding hole 21 is higher than one side close to the discharging hole 22; the vegetable will move toward the outlet 22 by its own weight and will be separated from the sieve 24.

If the filter screen overturns upwards and can not completely separate the vegetables from the filter screen 24, the driving motor 232 is driven, the output shaft of the driving motor 232 drives the rotating shaft 231 to rotate, and the overturning frame 23 overturns along the rotating shaft 231 towards the direction close to the discharge hole 22 until the vegetables are completely separated from the filter screen 24.

When the filter screen 24 needs to be replaced, the first bolt 243 and the second bolt 245 are screwed down, so that the filter screen 24 is conveniently separated from the turnover frame 23, and the filter screen 24 can be replaced.

The above is the preferred embodiment of the utility model, not limit according to this the utility model discloses a protection scope, the event: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a vegetables are shale shaker for drainage, includes frame (1), and the top of frame (1) is provided with vibrating motor (238) and screening mechanism (2), and one side of screening mechanism (2) is provided with feed inlet (21), and the opposite side is provided with discharge gate (22), its characterized in that:

screening mechanism (2) are including setting up in upset frame (23) and filter screen (24) at frame (1) top, and filter screen (24) set up in the top of upset frame (23), and one side that filter screen (24) are close to discharge gate (22) is articulated with upset frame (23), and upset frame (23) top is provided with drive filter screen (24) around the actuating mechanism of pin joint upset that makes progress.

2. The vibrating screen for draining vegetables according to claim 1, wherein:

the two symmetrical sides of the turnover frame (23) are provided with the abdicating grooves (233), the driving mechanism is provided with two cylinders (241), the cylinder bodies of the cylinders (241) are respectively hinged to the bottoms of the abdicating grooves (233) in different modes, and the piston rods of the cylinders (241) are hinged to one end of the bottom of the filter screen (24) close to the feed inlet (21).

3. The vibrating screen for filtering water on vegetables according to claim 1, wherein:

one side of the turnover frame (23) close to the feed inlet (21) is hinged with the rack (1), and the rack (1) is provided with a turnover mechanism for driving the turnover frame (23) to turn over around a hinged point to the direction of the feed outlet (22).

4. The vibrating screen for draining vegetables according to claim 3, wherein:

the turnover mechanism comprises a driving motor (232), and the driving motor (232) is fixedly connected to the position, close to the discharge hole (22), on the rack (1);

one side of the turnover frame (23) is fixedly provided with a rotating shaft (231), the rotating shaft (231) is rotatably connected to the rack (1), and an output shaft of the driving motor (232) is fixedly connected with the rotating shaft (231).

5. The vibrating screen for draining vegetables according to claim 1, wherein:

the two sides of the turning frame (23) perpendicular to the feed inlet (21) are fixedly connected with side baffles (234).

6. The vibrating screen for draining vegetables according to claim 1, wherein:

the position of the feed inlet (21) of the turnover frame (23) is connected with a rear baffle (237) in a sliding way.

7. The vibrating screen for draining vegetables according to claim 6, wherein:

the top of the turnover frame (23) is provided with a sliding groove (236) matched with the rear baffle (237), and the rear baffle (237) is connected in the sliding groove (236) in a sliding manner.

8. The vibrating screen for filtering water on vegetables according to claim 5, wherein:

one side opposite to the side baffle (234) is fixedly connected with a connecting column (235), and the connecting column (235) is arranged horizontally in the axial direction.

9. The vibrating screen for filtering water on vegetables according to claim 2, wherein:

the filter screen (24) is detachably connected with a piston rod of the air cylinder (241), and the filter screen (24) is detachably connected with the turnover frame (23).

10. The vibrating screen for draining vegetables according to claim 9, wherein:

the end part of a piston rod of the air cylinder (241) is hinged with a first limiting block (242), a first bolt (243) is connected to the first limiting block (242) in a threaded mode, and the first limiting block (242) is fixed to the bottom of the filter screen (24) through the first bolt (243);

two symmetrical sides of the bottom of the filter screen (24) are respectively provided with a second limiting block (244), one end, far away from the filter screen (24), of the second limiting block (244) is hinged to the turnover frame (23), the second limiting block (244) is connected with a second bolt (245) in a threaded mode, and the second limiting block (244) is fixed to the bottom of the filter screen (24) through the second bolt (245).

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