CN208260861U

CN208260861U - A kind of ore extraction crushing and screening device

Info

Publication number: CN208260861U
Application number: CN201820404852.0U
Authority: CN
Inventors: 童德双; 韩业平; 郭风; 黄厚林
Original assignee: Chuzhou Fangda Mining Development Co Ltd
Current assignee: Chuzhou Fangda Mining Development Co Ltd
Priority date: 2018-03-25
Filing date: 2018-03-25
Publication date: 2018-12-21
Anticipated expiration: 2028-03-25

Abstract

The utility model discloses a kind of ore extraction crushing and screening devices, including pedestal, the top surface two sides of the pedestal are separately installed with crushing and screening unit and feed back unit, the crushing and screening unit includes shell, the inner upper end of the shell is connected with crushing cavity, the dead axle that parallel arrangement is rotatably connected in the crushing chamber body crushes roller and moving axis crushes roller, second driving motor is installed on the outer wall of shell, the output end of second driving motor is connect with shaft one end that dead axle crushes roller, hydraulic cylinder is installed at the top of shell, the tailpiece of the piston rod of the hydraulic cylinder is through to the inside for crushing cavity and is connected with crushing roller.The utility model is structurally reasonable, practical and efficient, is matched using broken with crushing, so that the crushing of material is more thorough, good crushing effect can effectively avoid the stuck damage to motor and internal mechanical structure of material, it realizes that circulation crushes, improves the working efficiency and quality of crushing.

Description

A kind of ore extraction crushing and screening device

Technical field

The utility model relates to ore extraction equipment technical fields more particularly to a kind of ore extraction to be chosen to install with grinding screen It sets.

Background technique

With the continuous development of mining industry industry, ore is from meeting is exploited according to the different parameters such as granular size, ingredient point At different brackets, especially granular size be measure ore major criterion, particle it is excessive or it is too small all influence ore price； The excessive ore of particle needs to be ground into lesser ore and is sieved at present, and existing process equipment crushes and screening It is usually independent to carry out, i.e., after first crushing the ore of bulky grain, it is transferred to screening position and is screened, larger particles after screening Ore using manually crushed or be transported to crush position carry out separating twice, therefore crush and screening process in there are powder It is broken insufficient, transport heavy workload, the problems such as working efficiency is low.It would therefore be desirable to a kind of exploitation of mineral resources ore grinding screen Select integrated equipment.For this purpose, it is proposed that a kind of ore extraction crushing and screening device.

Utility model content

Purpose of the utility model is to solve disadvantages existing in the prior art, and a kind of ore extraction proposed is used Crushing and screening device.

To achieve the goals above, the utility model adopts the technical scheme that

The top surface two sides of a kind of ore extraction crushing and screening device, including pedestal, the pedestal are separately installed with crushing Screening unit and feed back unit, the crushing and screening unit includes shell, and the inner upper end of the shell is connected with crushing cavity, The dead axle that parallel arrangement is rotatably connected in the crushing chamber body crushes roller and moving axis crushes roller, installs on the outer wall of shell There is the second driving motor, the output end of second driving motor is connect with shaft one end that dead axle crushes roller, the top of shell Portion is equipped with hydraulic cylinder, and the tailpiece of the piston rod of the hydraulic cylinder is through to the inside for crushing cavity and is connected with crushing roller, described Crushing roller is located at the surface that dead axle crushes roller and moving axis crushes roller middle position, and the bottom for crushing cavity opens up There is feed opening, the oscillating screen plate of inclination arrangement is provided with below the feed opening, the oscillating screen plate is far from feed back unit One end is connected with vibration unit, and material storing box, side wall of the shell close to feed back unit are provided with below the oscillating screen plate Bottom offers feedback outlet, and the oscillating screen plate is located in feedback outlet close to one end of feed back unit, the side wall top of the shell Portion is connected with the loading hopper above feedback outlet, and the outlet end of the loading hopper extends to the inside for crushing cavity and position The top of roller is crushed in dead axle.

Preferably, the vibration unit includes the swing rod being connected with oscillating screen plate, and the top of swing rod is hinged on crushing chamber On the bottom surface of body, the bottom end of swing rod is hinged with connecting rod, and shell is equipped with the first driving motor on the inner wall of connecting rod, and described The output end of one driving motor is connected with turntable, is provided with eccentric connecting shaft on the end face of turntable, connecting rod far from swing rod one End is rotatably connected in connecting shaft.

Preferably, the feed back unit includes the bracket being mounted on base top surface and third driving motor, the top of bracket End is rotatably connected to active synchronization wheel and driven synchronizing wheel, the output end of third driving motor and the shaft of active synchronization wheel respectively One end connection, driven synchronizing wheel are located at a upper side of active synchronization wheel, the external connection of active synchronization wheel and driven synchronizing wheel There is synchronous belt, the switch-plate being equally spaced is connected on the lateral surface of synchronous belt.

Preferably, the feed back unit is externally connected to the guide housing being fixed in side face, and the switch-plate is remote The medial surface sliding contact of one end and guide housing from synchronous belt, the bottom of guide housing are connected to feedback outlet.

Preferably, the side of the feed back unit is connected with the feed back channel of L-type, and the input end in the feed back channel is located at The lower section of top one end of guide housing, the outlet end in feed back channel is sloped down to be connected to the side wall of loading hopper.

Preferably, the both ends of the shaft that the moving axis crushes roller is equipped with bearing supporting plate, sets on the side wall for crushing cavity Have sliding slot, bearing supporting plate is slidably connected in sliding slot, and one end that bearing supporting plate is located in sliding slot is connected with spring, spring it is another End is connect with the inner wall of shell.

Compared with prior art, the beneficial effects of the utility model have:

1. the utility model crushes roller by being arranged in crushing chamber body, and reciprocal by Driven by Hydraulic Cylinder crushing roller Movement be tentatively crushed to ore raw materials, crushes roller using dead axle and moving axis crushes roller and carries out to broken material Further crush, it is broken to be matched with crushing, so that the crushing of material is more thorough, good crushing effect；

2. the crushing roller that the utility model is automatically adjusted by using spacing, so that the charging of material and crushing process are more Add smooth, effectively avoids the stuck damage to motor and internal mechanical structure of material, improve the service life of equipment；

3. the utility model can be transported to automatically loading hopper to the bulky grain block after screening by setting feed back unit In, it is fed together with ore raw materials, realizes that circulation crushes, improve the working efficiency and quality of crushing；

The utility model is structurally reasonable, practical and efficient, is matched using broken with crushing, so that the crushing of material is more thorough Bottom, good crushing effect can effectively avoid the stuck damage to motor and internal mechanical structure of material, realize that circulation crushes, mention The working efficiency crushed and quality are risen.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of ore extraction crushing and screening device positive structure diagram；

Fig. 2 be the utility model proposes a kind of ore extraction crushing and screening device overlooking structure diagram.

In figure: 1 pedestal, 2 shells, 3 crush cavity, 4 dead axles crushing roller, 5 moving axis and crush roller, 6 hydraulic cylinders, 7 crushing Roller, 8 feed openings, 9 oscillating screen plates, 10 swing rods, 11 connecting rods, 12 first driving motors, 13 turntables, 14 material storing box, 15 feedback outlets, 16 loading hoppers, 17 second driving motors, 18 brackets, 19 third driving motors, 20 active synchronization wheels, 21 driven synchronizing wheels, 22 Synchronous belt, 23 switch-plates, 24 guide housings, 25 feed back channels, 26 bearing supporting plates, 27 springs.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Referring to Fig.1-2, pacify respectively the top surface two sides of a kind of ore extraction crushing and screening device, including pedestal 1, pedestal 1 Equipped with crushing and screening unit and feed back unit, crushing and screening unit includes shell 2, and the inner upper end of shell 2 is connected with crushing chamber Body 3 crushes and is rotatably connected to the dead axle of parallel arrangement in cavity 3 and crushes roller 4 and moving axis and crush roller 5, on the outer wall of shell 2 Second driving motor 17 is installed, the output end of the second driving motor 17 is connect with shaft one end that dead axle crushes roller 4, moving axis The both ends of the shaft for crushing roller 5 is equipped with bearing supporting plate 26, and the side wall for crushing cavity 3 is equipped with sliding slot, and the sliding of bearing supporting plate 26 connects It connects in sliding slot, one end that bearing supporting plate 26 is located in sliding slot is connected with spring 27, the other end of spring 27 and the inner wall of shell 2 Connection, the top of shell 2 are equipped with hydraulic cylinder 6, and the tailpiece of the piston rod of hydraulic cylinder 6 is through to the inside for crushing cavity 3 and is connected with Roller 7 is crushed, crushing roller 7 is located at the surface that dead axle crushes roller 4 and moving axis crushes 5 middle position of roller, crushes cavity 3 Bottom offer feed opening 8, the lower section of feed opening 8 is provided with the oscillating screen plate 9 of inclination arrangement, and oscillating screen plate 9 is far from feed back One end of unit is connected with vibration unit, and vibration unit includes the swing rod 10 being connected with oscillating screen plate 9, the top hinge of swing rod 10 It connects on the bottom surface for crushing cavity 3, the bottom end of swing rod 10 is hinged with connecting rod 11, and shell 2 is equipped on the inner wall of connecting rod 11 First driving motor 12, the output end of the first driving motor 12 are connected with turntable 13, and bias is provided on the end face of turntable 13 Connecting shaft, connecting rod 11 are rotatably connected in connecting shaft far from one end of swing rod 10, and the lower section of oscillating screen plate 9 is provided with material storing box 14, shell 2 offers feedback outlet 15 close to the sidewall bottom of feed back unit, and oscillating screen plate 9 is located at close to one end of feed back unit In feedback outlet 15, the top side wall of shell 2 is connected with the loading hopper 16 above feedback outlet 15, the outlet of loading hopper 16 End extends to the inside for crushing cavity 3 and is located at the top that dead axle crushes roller 4, and feed back unit includes being mounted on 1 top surface of pedestal On bracket 18 and third driving motor 19, the top of bracket 18 is rotatably connected to active synchronization wheel 20 and driven synchronizing wheel respectively 21, the output end of third driving motor 19 is connect with shaft one end of active synchronization wheel 20, and driven synchronizing wheel 21 is located at actively same One upper side of step wheel 20, active synchronization wheel 20 and driven synchronizing wheel 21 are externally connected to synchronous belt 22, synchronous belt 22 it is outer The switch-plate 23 being equally spaced is connected on side, feed back unit is externally connected to the guide housing being fixed on 18 side of bracket 24, the medial surface sliding contact of the one end of switch-plate 23 far from synchronous belt 22 and guide housing 24, the bottom of guide housing 24 and feed back Mouth 15 is connected to, and the side of feed back unit is connected with the feed back channel 25 of L-type, and the input end in feed back channel 25 is located at guide housing 24 The lower section of top one end, the outlet end in feed back channel 25 is sloped down to be connected to the side wall of loading hopper 16.

Working principle: when the utility model is used, ore raw materials is put into from loading hopper 16, ore raw materials is through feeding Funnel 16, which is sent into, to be crushed in cavity 3, and falls in the top that dead axle crushes roller 4 and moving axis crushes roller 5, and hydraulic cylinder 6 is past to return to work Make, pushes crushing roller 7 to pump by piston rod, attrition crushing, the second driving motor 17 are carried out to ore raw materials It drives dead axle to crush roller 4 to rotate, crushes the cooperation of roller 5 with moving axis and broken ore raw materials is further crushed, when encountering Harder and when being difficult to the lump crushed, bearing supporting plate 26 slides into sliding slot, avoid the occurrence of motor that is stuck and causing burn it is existing As smashed ore powder is dropped down on oscillating screen plate 9 by feed opening 8,12 continuous work of the first driving motor, drives turntable 13 rotations, turntable 13 push 10 reciprocally swinging of swing rod by connecting rod 11, make 9 reciprocally swinging of oscillating screen plate, carry out to ore powder The powder of screening, smaller size is fallen into material storing box 14 through oscillating screen plate 9, and the block of larger particles is then fallen along oscillating screen plate 9 Enter in feedback outlet 15, third driving motor 19 drives active synchronization wheel 20 and driven synchronizing wheel 21 to rotate synchronously, and drives synchronous belt 23 loopy moving of switch-plate on 22, falls into the space between switch-plate 23 into the ore block in feedback outlet 15, synchronous Ore block is transported to the top of feed back unit with 22, and is fallen into feed back channel 25 through outlet end, due to feed back channel 25 It is the structure tilted down, ore block slides to bottom end along the bottom surface in feed back channel 25 automatically and is sent into loading hopper 16, It is fed together with raw material, circulation crushes and screening.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims

1. a kind of ore extraction crushing and screening device, including pedestal (1), it is characterised in that: the top surface two sides of the pedestal (1) Be separately installed with crushing and screening unit and feed back unit, the crushing and screening unit includes shell (2), the shell (2) it is interior Portion upper end, which is connected with, crushes cavity (3), described to crush dead axle crushing roller (4) that parallel arrangement is rotatably connected in cavity (3) Roller (5) are crushed with moving axis, are equipped with the second driving motor (17) on the outer wall of shell (2), second driving motor (17) Output end and dead axle crush the shaft one end of roller (4) and connect, be equipped at the top of shell (2) hydraulic cylinder (6), it is described hydraulic The tailpiece of the piston rod of cylinder (6) is through to the inside for crushing cavity (3) and is connected with crushing roller (7), and the crushing roller (7) is located at Dead axle crushes roller (4) and moving axis crushes the surface in roller (5) middle position, and the bottom for crushing cavity (3) offers Feed opening (8), the oscillating screen plate (9) of inclination arrangement is provided with below the feed opening (8), and the oscillating screen plate (9) is separate One end of feed back unit is connected with vibration unit, is provided with material storing box (14), the shell below the oscillating screen plate (9) (2) it is offered feedback outlet (15) close to the sidewall bottom of feed back unit, the oscillating screen plate (9) is close to one end of feed back unit position In feedback outlet (15), the top side wall of the shell (2) is connected with the loading hopper (16) above feedback outlet (15), institute The outlet end for stating loading hopper (16) extends to the inside for crushing cavity (3) and is located at the top that dead axle crushes roller (4).

2. a kind of ore extraction crushing and screening device according to claim 1, which is characterized in that the vibration unit packet The swing rod (10) being connected with oscillating screen plate (9) is included, the top of swing rod (10) is hinged on the bottom surface for crushing cavity (3), swing rod (10) bottom end is hinged with connecting rod (11), and shell (2) is equipped with the first driving motor (12), institute on the inner wall of connecting rod (11) The output end for stating the first driving motor (12) is connected with turntable (13), and eccentric connecting shaft is provided on the end face of turntable (13), Connecting rod (11) is rotatably connected in connecting shaft far from the one end of swing rod (10).

3. a kind of ore extraction crushing and screening device according to claim 1, which is characterized in that the feed back unit packet The bracket (18) and third driving motor (19) being mounted on pedestal (1) top surface are included, the top of bracket (18) is rotatablely connected respectively There are active synchronization wheel (20) and driven synchronizing wheel (21), the output end of third driving motor (19) and turning for active synchronization wheel (20) The connection of axis one end, driven synchronizing wheel (21) are located at a upper side of active synchronization wheel (20), active synchronization wheel (20) and it is driven together Being externally connected to synchronous belt (22) for step wheel (21), is connected with the switch-plate being equally spaced on the lateral surface of synchronous belt (22) (23).

4. a kind of ore extraction crushing and screening device according to claim 3, which is characterized in that the feed back unit It is externally connected to the guide housing (24) being fixed on bracket (18) side, the one end of the switch-plate (23) far from synchronous belt (22) It is connected to the bottom of the medial surface sliding contact of guide housing (24), guide housing (24) with feedback outlet (15).

5. a kind of ore extraction crushing and screening device according to claim 4, which is characterized in that the feed back unit Side is connected with the feed back channel (25) of L-type, and the input end of the feed back channel (25) is located at top one end of guide housing (24) Lower section, the outlet end of feed back channel (25) is sloped down to be connected to the side wall of loading hopper (16).

6. a kind of ore extraction crushing and screening device according to claim 1, which is characterized in that the moving axis pulverization roller The both ends of the shaft for taking turns (5) is equipped with bearing supporting plate (26), and the side wall for crushing cavity (3) is equipped with sliding slot, bearing supporting plate (26) It is slidably connected in sliding slot, one end that bearing supporting plate (26) is located in sliding slot is connected with spring (27), the other end of spring (27) It is connect with the inner wall of shell (2).