CN216397022U - Hydraulic engineering ore screening plant - Google Patents

Abstract

The utility model discloses a hydraulic engineering ore screening device, which relates to the technical field of ore screening and comprises a first shell, wherein the lower wall of the first shell is penetrated and rotatably connected with a rotating rod, the bottom end of the rotating rod is rotatably connected with a motor, the top end of the rotating rod is provided with a striking device, the left wall of the first shell is penetrated and fixedly connected with a first conveying pipe, the rotating rod is rotatably connected with a conveying belt close to the upper end of the motor, the right side of the conveying belt is rotatably connected with a spiral conveying rod, the top end of the spiral conveying rod is fixedly connected with a second conveying pipe, the second conveying pipe is penetrated and fixedly connected with the top end of the first shell, the left side of the top end of the first shell close to the second conveying pipe is provided with a feeding port, the device can enable the striking device to carry out first-round screening on a screen mesh by opening the motor, and ores which are not screened can enter the second shell through a material conveying plate, the ore is sent to the screen again through the spiral conveying rod to be screened repeatedly.

Description

Hydraulic engineering ore screening plant

Technical Field

The utility model relates to the technical field of ore screening, in particular to a hydraulic engineering ore screening device.

Background

In hydraulic engineering, buildings such as dams and flood walls are often built for reinforcing the hydraulic engineering, and the quality of the buildings directly affects the overall operation effect of the hydraulic engineering, so that strict control is performed on the quality of raw materials used for construction when the buildings are built.

In order to improve building construction quality, need refine building raw and other materials, the screening of grit is the indispensable one process of hydraulic engineering ratio, in the device of present part screening grit, can only carry out simple screening to the grit, and only once sieve, can not sieve many times, can lead to the screening effect not good.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides a hydraulic engineering ore screening device, which solves the problems in the background technology.

(II) technical scheme

In order to achieve the purpose, the utility model is realized by the following technical scheme: the utility model provides a hydraulic engineering ore screening plant, includes first casing, first casing lower wall runs through and rotates and is connected with the dwang, the dwang bottom is rotated and is connected with the motor, the dwang top is provided with hits the hitting device, first casing left side wall runs through and the first conveyer pipe of fixedly connected with, the dwang is close to the upper end of motor and rotates and be connected with the conveyer belt, the conveyer belt right side is rotated and is connected with the screw conveyer pole, screw conveyer pole top fixedly connected with second conveyer pipe, the second conveyer pipe runs through and fixed connection is on the top of first casing, the left side that first casing top is close to the second conveyer pipe is provided with the pan feeding mouth.

Preferably, hit and beat the device including the rim plate, the trapezoidal iron plate of rim plate top fixedly connected with and quantity are two, the inner wall fixedly connected with backup pad about the first casing, the backup pad outer lane runs through and sliding connection has microscler pole and quantity is two, microscler pole bottom is rotated and is connected with pulley and quantity and is two.

Preferably, microscler round bar top fixedly connected with hollow plectane, hollow plectane top fixedly connected with microscler iron plate and quantity are two, microscler iron plate top fixedly connected with hits hammer and quantity and be two.

Preferably, the inner wall fixedly connected with connecting rod on the first casing, the connecting rod bottom articulates there is first fortune flitch, first fortune flitch left side fixedly connected with screen cloth, the inner wall is close to connecting rod left end fixedly connected with spring on the first casing, the first fortune flitch of spring bottom fixedly connected with.

Preferably, the second casing has been cup jointed to the auger delivery pole outer lane, second casing bottom fixedly connected with ground, run through and fixedly connected with third conveyer pipe on the left of the second casing, third conveyer pipe top fixed connection is in the bottom of first casing, run through and fixedly connected with third fortune flitch on the left of the second conveyer pipe, third fortune flitch top fixed connection is at the right inner wall of first casing.

Preferably, the bottom end of the first shell is fixedly connected with two supporting legs, and the collecting box is placed at the top end of the ground close to the left ends of the supporting legs.

(III) advantageous effects

The utility model provides a hydraulic engineering ore screening device. The method has the following beneficial effects:

(1) this hydraulic engineering ore screening plant opens the motor earlier, puts into the first casing through the pan feeding mouth with the ore, hits it through hitting to beat the device and hit it, with little ore from first conveyer pipe entering collecting box in, big ore flows away from first fortune flitch, can sieve little ore like this preferentially, and is simple and convenient, does not need manual operation.

(2) This hydraulic engineering ore screening plant rolls the back as big ore from first fortune flitch, in third fortune flitch and third conveyer pipe entering second casing, transports to the second conveyer pipe through the second casing, and the second conveyer pipe still can continue to carry the ore to the screen cloth on, sieves once more, and screening is repeated like this, can be more comprehensive select little ore, has reduced artifical screening's complexity, has increaseed the practicality of device.

Drawings

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

FIG. 2 is a schematic view of a striking configuration of the present invention;

fig. 3 is a schematic view of the structure of the screw conveying rod of the present invention.

In the figure: 1. a ground surface; 2. a collection box; 3. supporting legs; 4. a first delivery pipe; 5. a striking device; 501. a wheel disc; 502. a trapezoidal iron block; 503. a support plate; 504. a hollow circular plate; 505. a long iron block; 506. striking a hammer; 507. an elongated round bar; 508. a pulley; 6. a first housing; 7. screening a screen; 8. a feeding port; 9. a first material conveying plate; 10. a connecting rod; 11. a spring; 12. a second delivery pipe; 13. a screw conveying rod; 14. a third material conveying plate; 15. a third delivery pipe; 17. a conveyor belt; 18. a motor; 19. rotating the rod; 20. a second housing.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a hydraulic engineering ore screening device comprises a first shell 6, wherein the bottom end of the first shell 6 is fixedly connected with two supporting legs 3, the top end of the ground 1 is close to the left end of each supporting leg 3, a collecting box 2 is placed at the top end of the ground 1, a connecting rod 10 is fixedly connected to the inner wall of the first shell 6, the bottom end of the connecting rod 10 is hinged with a first material conveying plate 9, the left side of the first material conveying plate 9 is fixedly connected with a screen 7, the screen 7 is densely arranged to better screen smaller ores, the inner wall of the first shell 6 is fixedly connected with a spring 11 close to the left end of the connecting rod 10, the spring 11 is arranged to enable the first material conveying plate 9 to be reset when the striking device 5 strikes the ores due to the fact that the first material conveying plate 9 is hinged with the connecting rod 10, the bottom end of the spring 11 is fixedly connected with the first material conveying plate 9, and when the large ores roll from the first material conveying plate 9, the ore enters the second shell 20 through the third material conveying plate 14 and the third conveying pipe 15 and is conveyed to the second conveying pipe 12 through the second shell 20, the ore is further conveyed to the screen 7 through the second conveying pipe 12 and is sieved again, so that the small ore can be screened more comprehensively, the complexity of manual screening is reduced, the practicability of the device is improved, the lower wall of the first shell 6 is connected with a rotating rod 19 in a penetrating and rotating mode, the bottom end of the rotating rod 19 is connected with a motor 18 in a rotating mode, the motor 18 is opened, the ore is placed into the first shell 6 through the material inlet 8 and is hit through the hitting device 5, the small ore enters the collecting box 2 from the first conveying pipe 4, the large ore flows away from the first material conveying plate 9, so that the small ore can be screened preferentially, the operation is simple and convenient, manual operation is not needed, the hitting device 5 is arranged at the top end of the rotating rod 19, the striking device 5 comprises a wheel disc 501, the wheel disc 501 is of a hollow design, the top end of the wheel disc 501 is fixedly connected with two trapezoidal iron blocks 502, the left inner wall of the first shell 6 is fixedly connected with a support plate 503, the support plate 503 is of a hollow design, so that ores can enter the first conveying pipe 4, the outer ring of the support plate 503 is in a penetrating and sliding connection with two long round rods 507, the top end of each long round rod 507 is fixedly connected with a hollow round plate 504, each hollow plate 504 is of a hollow design, the top end of each hollow round plate 504 is fixedly connected with two long iron blocks 505, the top end of each long iron block 505 is fixedly connected with two striking hammers 506, the bottom end of each long round rod 507 is rotatably connected with two pulleys 508, the left wall of the first shell 6 is in a penetrating and fixedly connected with the first conveying pipe 4, the upper end of the rotating rod 19, which is close to the motor 18, is rotatably connected with the conveying belt 17, conveyer belt 17 right side is rotated and is connected with auger delivery pole 13, auger delivery pole 13 is the heliciform, can upwards carry the material round the pole, second casing 20 has been cup jointed to auger delivery pole 13 outer lane, second casing 20 bottom fixedly connected with ground 1, second casing 20 left side is run through and fixedly connected with third conveyer pipe 15, 15 top fixed connection of third conveyer pipe are in the bottom of first casing 6, second conveyer pipe 12 left side is run through and fixedly connected with third fortune flitch 14, 14 top fixed connection of third fortune flitch are at the right inner wall of first casing 6, 13 top fixedly connected with second conveyer pipe 12 of auger delivery pole, second conveyer pipe 12 runs through and fixed connection is on the top of first casing 6, the left side that first casing 6 top is close to second conveyer pipe 12 is provided with pan feeding mouth 8.

When the device works or is used, when the device starts to work, the motor 18 is firstly turned on to rotate the rotating rod 19, ores enter the screen 7 in the first shell 6 through the feeding port 8, at the moment, the rotating rod 19 drives the wheel disc 501 to rotate, at the moment, the pulley 508 can jump on the track of the trapezoidal iron block 502 along the rotation of the wheel disc 501, and the hollow circular plate 504 jumps upwards, the striking hammer 506 will also strike the screen 7 upwards, striking small ores down through the first conveyor pipe 4 into the collection bin 2, when the screening of big ore is not finished, the big ore can roll into the third material transporting plate 14 through the first material transporting plate 9, and then the third material transporting plate 14 rolls into the third conveying pipe 15, and the third conveying pipe 15 can feed the ore into the second shell 20, and the spiral conveying rod 13 in the second shell 20 can convey the ore into the second conveying pipe 12, and the second conveying pipe 12 can continue to convey the ore onto the screen 7 for re-screening.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A hydraulic engineering ore screening plant, includes first casing (6), its characterized in that: first casing (6) lower wall runs through and rotates and be connected with dwang (19), dwang (19) bottom is rotated and is connected with motor (18), dwang (19) top is provided with hits and hits device (5), first casing (6) left side wall runs through and the first conveyer pipe of fixedly connected with (4), the upper end that dwang (19) is close to motor (18) is rotated and is connected with conveyer belt (17), conveyer belt (17) right side is rotated and is connected with screw conveyor pole (13), screw conveyor pole (13) top fixedly connected with second conveyer pipe (12), second conveyer pipe (12) run through and fixed connection is on the top of first casing (6), the left side that first casing (6) top is close to second conveyer pipe (12) is provided with pan feeding mouth (8).

2. A hydraulic engineering ore screening plant according to claim 1, characterized in that: hit and put (5) including rim plate (501), rim plate (501) top fixedly connected with trapezoidal iron plate (502) and quantity are two, inner wall fixedly connected with backup pad (503) about first casing (6), backup pad (503) outer lane runs through and sliding connection has microscler round bar (507) and quantity is two, microscler round bar (507) bottom is rotated and is connected with pulley (508) and quantity and is two.

3. A hydraulic engineering ore screening plant according to claim 2, characterized in that: the utility model discloses a long iron plate, including microscler pole (507) top fixedly connected with hollow plectane (504), hollow plectane (504) top fixedly connected with microscler iron plate (505) and quantity are two, microscler iron plate (505) top fixedly connected with hits hammer (506) and quantity are two.

4. A hydraulic engineering ore screening plant according to claim 1, characterized in that: inner wall fixedly connected with connecting rod (10) on first casing (6), connecting rod (10) bottom articulates there is first fortune flitch (9), first fortune flitch (9) left side fixedly connected with screen cloth (7), inner wall is close to connecting rod (10) left end fixedly connected with spring (11) on first casing (6), first fortune flitch (9) of spring (11) bottom fixedly connected with.

5. A hydraulic engineering ore screening plant according to claim 1, characterized in that: second casing (20) have been cup jointed to auger delivery pole (13) outer lane, second casing (20) bottom fixedly connected with ground (1), second casing (20) left side is run through and fixedly connected with third conveyer pipe (15), third conveyer pipe (15) top fixed connection is in the bottom of first casing (6), second conveyer pipe (12) left side is run through and fixedly connected with third fortune flitch (14), third fortune flitch (14) top fixed connection is at the right inner wall of first casing (6).

6. A hydraulic engineering ore screening plant according to claim 5, characterized in that: the bottom end of the first shell (6) is fixedly connected with two supporting legs (3), and the collecting box (2) is placed at the top end of the ground (1) close to the left end of the supporting legs (3).

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