CN209287488U - A kind of efficient ore dressing ore reduction device - Google Patents

Abstract

The utility model discloses a kind of efficient ore dressing ore reduction devices, including broken case and feed box, the top bolt of the broken case is fixed with feed box, the internal symmetry of the feed box is connected by meshing transmission and has crushing shaft, the side bolt that the outside of the feed box is located at crushing shaft is fixed with the first motor, it is embedded with the first sieve at the top of the inner wall of the broken case, the side that the outside of the broken case is located at the first sieve is welded with fixed plate.In the utility model, first motor can drive the crushing shaft engagement rotation inside feed box, to which the ore inside broken case will be entered, carry out the break process of the first step, bulky grain ore after screening process drops into when grinding intracavitary portion, and the second motor can drive mill axis rotation, so that bulky grain ore is carried out grinding treatment, ore is carried out classification grinding treatment by this structure composite, to improve the efficiency of ore pulverization process.

Description

A kind of efficient ore dressing ore reduction device

Technical field

The utility model relates to preparation equipment technical field more particularly to a kind of efficient ore dressing ore reduction devices.

Background technique

Mining industry refers to solid (such as coal and mineral), liquid (such as crude oil) or gas (such as natural gas) spontaneous mine The digging of object.Including underground or ground digging, the operation of mine, and that is generally engaged near mine location or mine location be intended to process All auxiliary works of raw material, such as broken mill, ore dressing and processing, belong to the activity of this class.It further include that raw material is enable to sell Required preparation.It but does not include accumulation, purification and the distribution and geologic prospect, architectural engineering activity of water.

Ore, can not efficiently be carried out compound break process, ore by ore dressing ore reduction device existing first Crushing efficiency it is lower, secondly existing ore dressing ore reduction device, the screening process that ore can not be layered, both without Ore is effectively carried out screening process by method, so that the crushing efficiency of ore is lower, last existing ore dressing is broken with ore Crushing device, is not easy to the discharge processing of ore, and discharge processing is more difficult.

Utility model content

Purpose of the utility model is to solve disadvantages existing in the prior art, and a kind of efficient ore dressing proposed With ore reduction device.

To achieve the goals above, the utility model adopts the technical scheme that a kind of efficient ore dressing ore is broken Crushing device, including broken case and feed box, the top bolt of the broken case are fixed with feed box, the inside of the feed box Symmetrically being connected by meshing transmission has crushing shaft, and it is electronic that the side bolt that the outside of the feed box is located at crushing shaft is fixed with first Machine, and the output shaft of the first motor and crushing shaft are sequentially connected, and are embedded with the first sieve, institute at the top of the inner wall of the broken case The outside for stating broken case is located at the side of the first sieve and is welded with fixed plate, and the top bolt of the fixed plate is fixed with vibration electricity Machine, the vibration motor are sequentially connected by vibration conductive bar and the first sieve, and the broken case is internally located at the first sieve Lower section offer storage cavity, the side for being internally located at storage cavity of the broken case offers grinds chamber, the chamber that grinds Mill axis is rotatably connected to inside center, it is electronic that the side bolt that the outside of the broken case is located at mill axis is fixedly connected with second Machine, and the output shaft of the second motor and mill axis transmission connection, the two sides for being internally located at mill axis for grinding chamber, which are welded with, matches The nog plate that mill axis uses is closed, being internally located at below mill axis for the broken case is welded with the second sieve, described to grind the interior of chamber The lower square bolt that portion is located at the second sieve is fixed with guide partition, and the side bottom bolts of the broken case are fixed with XTL-100 Electric telescopic rod, the internal-flange bolt that the telescopic end of the XTL-100 electric telescopic rod is located at storage cavity are fixed with push plate, the storage The side of material chamber is rotatably connected to marker board by shaft.

It is as above-mentioned technical proposal to further describe:

First sieve is to be obliquely installed, and tilt angle is between 15 ° -25 °.

It is as above-mentioned technical proposal to further describe:

The vertical section of second sieve is arcuate structure.

It is as above-mentioned technical proposal to further describe:

The aperture of first sieve is greater than the aperture of the second sieve.

It is as above-mentioned technical proposal to further describe:

The guide partition is to be obliquely installed, and tilt angle is between 25 ° -30 °.

It is as above-mentioned technical proposal to further describe:

The fixed bolt for cooperating broken case to use is arranged by threaded engagement connection at the top of the marker board.

In the utility model, the first motor can drive the crushing shaft engagement rotation inside feed box, to will enter broken Ore inside broken case carries out the break process of the first step, and bulky grain ore after screening process, which drops into, grinds intracavitary portion When, the second motor can drive mill axis rotation, so that bulky grain ore is carried out grinding treatment, this structure composite by mine Stone carries out classification grinding treatment, to improve the efficiency of ore pulverization process.

In the utility model, when smashed ore drops on the first sieve inside broken case, vibration motor meeting By vibration conductive bar drive the first sieve vibration, thus by inside the short grained ore sizing to storage cavity inside ore into Row is collected, and the ore of bulky grain, which will tilt, to be tumbled to grinding intracavitary portion, and ore particles size after grinding treatment meets the It when the aperture of two sieves, will be discharged, not up to the ore of designated particles size, what be will continue to is ground grinding intracavitary portion Ore is carried out screening process by processing, this structure alternative, has both improved the efficiency of ore reduction processing, while also being improved The quality of ore reduction processing.

In the utility model, the ore meeting centralized collection after break process is in the inside of storage cavity, when discharge being needed to handle, Scraping wings is unscrewed, control XTL-100 electric telescopic rod work, XTL-100 electric telescopic rod can will be in storage cavity by push plate The ore level in portion being released by marker board to the left, this structure are handled convenient for the discharge of ore, to improve ore row Expect the efficiency of processing.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of efficient ore dressing ore reduction device structural schematic diagram；

Fig. 2 be the utility model proposes feed box side view；

Fig. 3 be the utility model proposes broken case side view.

Marginal data:

1, it is crushed case；2, feed box；3, crushing shaft；4, the first sieve；5, fixed plate；6, vibration motor；7, vibration conduction Bar；8, storage cavity；9, chamber is ground；10, axis is ground；11, nog plate；12, the second sieve；13, guide partition；14, XTL-100 is electronic stretches Contracting bar；15, push plate；16, marker board；17, fixed bolt；18, the first motor；19, the second motor.

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.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention；Term " first ", " the Two ", " third " is used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance；In addition, unless otherwise specific Regulation and restriction, term " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, be also possible to It is detachably connected, or is integrally connected；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, can also lead to It crosses intermediary to be indirectly connected, can be the connection inside two elements.It for the ordinary skill in the art, can be with Concrete condition understands the concrete meaning of above-mentioned term in the present invention.

Referring to Fig.1-3, a kind of efficient ore dressing ore reduction device, including broken case 1 and feed box 2, are crushed case 1 Top bolt be fixed with feed box 2, the internal symmetry of feed box 2, which is connected by meshing transmission, crushing shaft 3, the outside of feed box 2 It is fixed with the first motor 18 positioned at the side bolt of crushing shaft 3, and the output shaft of the first motor 18 and the transmission of crushing shaft 3 connect It connects, is embedded with the first sieve 4 at the top of the inner wall of broken case 1, the side that the outside of broken case 1 is located at the first sieve 4 is welded with solid Fixed board 5, the top bolt of fixed plate 5 are fixed with vibration motor 6, and vibration motor 6 is passed by vibration conductive bar 7 and the first sieve 4 The lower section for being internally located at the first sieve 4 of dynamic connection, broken case 1 offers storage cavity 8, and broken case 1 is internally located at storage cavity 8 Side offer and grind chamber 9, grind and be rotatably connected to mill axis 10 at the inside center of chamber 9, the outside for being crushed case 1 is located at mill axis 10 side bolt is fixedly connected with the second motor 19, and the output shaft of the second motor 19 and mill axis 10 are sequentially connected, mill The two sides for being internally located at mill axis 10 of broken chamber 9 are welded with the nog plate 11 that cooperation mill axis 10 uses, and broken case 1 is internally located at mill axis 10 lower section is welded with the second sieve 12, and the lower square bolt for being internally located at the second sieve 12 for grinding chamber 9 is fixed with guide partition 13, the side bottom bolts of broken case 1 are fixed with XTL-100 electric telescopic rod 14, the telescopic end of XTL-100 electric telescopic rod 14 It is fixed with push plate 15 positioned at the internal-flange bolt of storage cavity 8, the side of storage cavity 8 is rotatably connected to marker board 16 by shaft.

First sieve 4 is to be obliquely installed, and tilt angle is between 15 ° -25 °, and the vertical section of the second sieve 12 is arc Structure, the aperture of the first sieve 4 are greater than the aperture of the second sieve 12, and guide partition 13 is to be obliquely installed, and tilt angle is 25 °- Between 30 °, the fixed bolt 17 for cooperating broken case 1 to use, the first sieve 4 are arranged by threaded engagement connection at the top of marker board 16 To be obliquely installed the screening process for being convenient for ore, while it being also convenient for the rolling of bulky grain ore, the setting of fixed bolt 17 is used for The fixing process of marker board 16, the second sieve 12 is arcuate structure, convenient for the screening process of ore, to improve ore sizing The efficiency of processing.

Working principle: powering on, and ore is added to the inside of feed box 2, and the first motor 18 will drive crushing shaft 3 Engagement rotation, so that the ore inside feed box 2 is carried out break process, the ore after break process can be fallen into broken case 1 On first sieve 4 of inner inclination setting, vibration motor 6 can drive the vibration of the first sieve 4 by vibration conductive bar 7, thus will Ore carries out first step screening process, and the little particle ore inside ore will be fallen by the first sieve 4 to storage cavity 8 It is collected, the ore of bulky grain, which will tilt, to be tumbled to grinding inside chamber 9, and the second motor 19 can drive the mill rotation of axis 10 to rub Scouring plate 11, so that bulky grain ore is carried out grinding treatment, ore particles size after grinding treatment meets the second sieve When 12 aperture, it will be discharged by guide partition 13 to being collected inside storage cavity 8, not up to the mine of designated particles size Stone, what be will continue to carries out grinding treatment grinding in chamber 9, when discharge being needed to handle, unscrews marker board 16, control XTL-100 electricity Dynamic telescopic rod 14 works, and XTL-100 electric telescopic rod 14 can be by push plate 15, to the left by the ore level inside storage cavity 8 It is released by marker board 16.

Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention, it is not limited to this Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art For, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic It is equivalently replaced, within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on, It should be included within the scope of protection of this utility model.

Claims (6)

1. a kind of efficient ore dressing ore reduction device, including broken case (1) and feed box (2), which is characterized in that described broken The top bolt of broken case (1) is fixed with feed box (2), and the internal symmetry of the feed box (2) is connected by meshing transmission and has crushing shaft (3), the side bolt that the outside of the feed box (2) is located at crushing shaft (3) is fixed with the first motor (18), and first is electronic The output shaft of machine (18) and crushing shaft (3) are sequentially connected, and are embedded with the first sieve (4), institute at the top of the inner wall of the broken case (1) The outside for stating broken case (1) is located at the side of the first sieve (4) and is welded with fixed plate (5), the top bolt of the fixed plate (5) It is fixed with vibration motor (6), the vibration motor (6) is sequentially connected by vibration conductive bar (7) and the first sieve (4), described Broken being internally located at below the first sieve (4) for case (1) offers storage cavity (8), and the broken case (1) is internally located at storage The side of material chamber (8), which offers, to be ground chamber (9), and mill axis (10) is rotatably connected at the inside center for grinding chamber (9), described The side bolt that the outside of broken case (1) is located at mill axis (10) is fixedly connected with the second motor (19), and the second motor (19) output shaft and mill axis (10) transmission connection, the two sides for being internally located at mill axis (10) for grinding chamber (9), which are welded with, matches The nog plate (11) that mill axis (10) uses is closed, being internally located at below mill axis (10) for the broken case (1) is welded with the second sieve (12), the lower square bolt for being internally located at the second sieve (12) for grinding chamber (9) is fixed with guide partition (13), described broken The side bottom bolts of case (1) are fixed with XTL-100 electric telescopic rod (14), and XTL-100 electric telescopic rod (14) are stretched The internal-flange bolt that contracting end is located at storage cavity (8) is fixed with push plate (15), and the side of the storage cavity (8) is rotatablely connected by shaft There are marker board (16).

2. a kind of efficient ore dressing ore reduction device according to claim 1, which is characterized in that first sieve (4) to be obliquely installed, tilt angle is between 15 ° -25 °.

3. a kind of efficient ore dressing ore reduction device according to claim 1, which is characterized in that the second sieve (12) Vertical section be arcuate structure.

4. a kind of efficient ore dressing ore reduction device according to claim 1, which is characterized in that the first sieve (4) Aperture be greater than the second sieve (12) aperture.

5. a kind of efficient ore dressing ore reduction device according to claim 1, which is characterized in that guide partition (13) To be obliquely installed, tilt angle is between 25 ° -30 °.

6. a kind of efficient ore dressing ore reduction device according to claim 1, which is characterized in that marker board (16) There is the fixed bolt (17) for cooperating broken case (1) to use at top by threaded engagement connection.