CN213669903U - Ore hydroextractor for mining - Google Patents

Abstract

The utility model discloses an ore hydroextractor for mining, include, dehydration frame, work motor, dehydration dish, cutter frame subassembly, take off material cutter unit spare, side roller subassembly, drive rod subassembly and self-lubricate subassembly, the even fixed welding of cutter frame subassembly is in upper surface one side of dehydration frame, it is all fixed the setting to take off material cutter unit spare one side of cutter frame subassembly, the side roller subassembly is fixed to be set up the outer wall of cutter frame subassembly, drive rod subassembly fixed mounting is in the upper surface other end of dehydration frame, the self-lubricate subassembly is fixed to be set up the other end outer wall of dehydration frame, side roller subassembly with the self-lubricate subassembly passes through drive rod subassembly fixed connection. The utility model discloses can realize the quick cleanness to taking off the material cutter body, easy operation, clean effect is outstanding, can also utilize the rotatory automatic work of carrying out the lubrication to equipment inside of realizing of dehydration dish in addition, energy saving and emission reduction, labour saving and time saving.

Description

Ore hydroextractor for mining

Technical Field

The utility model relates to an ore processing equipment technical field specifically is an ore hydroextractor for mining industry.

Background

In the design of a coal preparation plant, the automation of feeding and discharging can be realized by using a mining centrifuge, and the automatic control of the whole coal preparation plant is facilitated, in the mining centrifuge, a vibration discharging type centrifugal dehydrator and a scraper discharging type centrifugal dehydrator are two common centrifugal devices, the vibration discharging type centrifugal dehydrator and the scraper discharging type centrifugal dehydrator are used for separating water on the surface of coal from the surface of the coal by using the action of centrifugal force, then dehydrated materials are discharged into a discharge port by using different methods, an important component in the centrifuge is a screen basket, in order to process more materials, a machine with a large-diameter screen basket is often used, the loss influence in filtrate when the screen slot size of the screen basket is large, and the structure and the discharging mode of the vibration type centrifugal dehydrator are different;

however, the existing scraper discharging centrifugal dehydrator has the following defects:

(1) after the discharging assembly of the existing scraper discharging centrifugal dehydrator is used for a period of time, extra mineral raw materials are adhered to the surface of the scraping cutter, so that the thickness of the cutter is indirectly increased, the cutter is inconvenient to scrape materials, the scraping effect is poor, in addition, the manual cleaning work has difficulty, and the cleaning work of the device part needs a high-difficulty posture of a worker;

(2) when the existing dehydrator works, because the device is too large, the internal rotating parts of the device need to be lubricated continuously, in order to guarantee the service life of the device, lubricating oil needs to be added inwards continuously by workers, the manual adding process consumes manpower, the operation difficulty is high, and the dehydration work is not facilitated.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ore hydroextractor for mining can realize the quick cleanness to taking off the material cutter body, easy operation, and clean effect is outstanding, can also utilize the rotatory automatic work of carrying out the lubrication to equipment inside of realizing of dehydration dish in addition, energy saving and emission reduction, labour saving and time saving to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an ore dehydrator for mining industry comprises a dehydration base, a working motor, a dehydration disc, a cutter frame assembly, a material removal cutter assembly, a side roller assembly, a transmission rod assembly and an automatic lubricating assembly;

the automatic lubricating device comprises a dehydration machine base, a working motor, a dehydration disc, a cutter frame assembly, a stripper knife assembly, a side roller assembly, a transmission rod assembly, an automatic lubricating assembly, a side roller assembly and a transmission rod assembly, wherein the working motor is fixedly arranged on one side of the top end of the dehydration machine base, the dehydration disc is uniformly and fixedly arranged in the dehydration machine base, the cutter frame assembly is uniformly and fixedly welded on one side of the upper surface of the dehydration machine base, the stripper knife assembly is fixedly arranged on one side of the cutter frame assembly, the side roller assembly is fixedly arranged on the outer wall of the cutter frame assembly, the transmission rod assembly is fixedly arranged on the other end of the upper surface of the dehydration;

the automatic lubricating assembly is used for adding lubricating oil to the inside of equipment when the dewatering disc rotates.

Preferably, the other end of the working motor is located inside the dehydration engine base and is fixedly connected with a working rotary column, the dehydration disc is uniformly and fixedly sleeved on the outer surface of the working rotary column, and the outer surface of the other end of the working rotary column is fixedly sleeved with a head bearing.

Preferably, the inside cutter frame that still includes of cutter frame subassembly, cutter frame fixed welding is in the top surface of dehydration frame, the inside movable mounting of cutter frame has the sizing scraper, the fixed welding of sizing scraper one side has the dead lever, the movable spiro union of dead lever other end has the movable rod, the movable rod runs through the cutter frame.

Preferably, the stripping cutter assembly further comprises stripping cutter bodies, the stripping cutter bodies are fixedly welded on the side wall of the cutter frame, guide grooves are fixedly formed in the surfaces of the stripping cutter bodies, the two stripping cutter bodies are movably attached to the surfaces of the two sides of the dewatering disc, and the bottom ends of the sticky scrapers are movably inserted into the guide grooves.

Preferably, the side roller assembly further comprises a wheel frame body, the wheel frame body is fixedly welded on the outer surface of the tool frame respectively, a wheel shaft is fixedly mounted inside the top end of the wheel frame body, a side wheel is fixedly sleeved on the outer surface of the wheel shaft, and the side wheel is movably attached to the outer surface of the edge of the dewatering disc.

Preferably, the transmission rod assembly further comprises a transmission housing, one outer surface of the other end of the wheel shaft is located inside the transmission housing, a belt is fixedly sleeved on the transmission housing, and a driven shaft is fixedly sleeved on the other end of the belt.

Preferably, the automatic lubricating assembly further comprises a lubricating shell, a crankshaft is movably mounted at the bottom end in the lubricating shell, the other end of the driven shaft is fixedly connected with one end of the crankshaft, an eccentric disc is fixedly arranged at the middle end of the crankshaft, the inner edge of the eccentric disc is movably connected with a rod sleeve in a switching way, a deflection rod is fixedly welded on the outer surface of the rod sleeve, the other end of the deflection rod is fixedly connected with a straight shaft in a switching way, the top end in the lubricating shell is fixedly provided with a transfer box, a piston is movably arranged in the transfer box and is fixedly arranged at the other end of the straight shaft, inside top fixed mounting of lubricated casing has the lubricating oil box, transport the equal fixed mounting in box both ends has the check valve, one the other end fixedly connected with defeated oil pipe of check valve, defeated oil pipe other end fixed mounting be in the inside of end bearing.

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

(1) when the dewatering disc rotates, the stripping cutter body is attached to the surface of the dewatering disc to scrape powdery minerals, the separation and collection of the dehydrated minerals are completed, after the dewatering disc works for a period of time, the movable rod is inserted into the cutter frame, then the fixed rod is rotated to be connected with the movable rod in a rotating mode through surface threads, then the movable rod is moved to enable the sticky scraper to move along the direction of the guide groove, when the sticky scraper is attached to the surface of the stripping cutter body to move, the mineral materials attached to the surface of the stripping cutter body can be scraped, the stripping cutter body is quickly cleaned, the operation is simple, the cleaning effect is excellent, cleaning work of operators is facilitated, and good working effect of the stripping cutter body is guaranteed;

(2) through when the dewatering disc is rotatory, the side wheel laminating is rotatory at the marginal surface of dewatering disc, the rotatory belt transmission that can drive of a wheel shaft of distal end, thereby the driven shaft of the other end can drive the bent axle rotation, realize that the inside rod cover of eccentric disc accomplishes reciprocal deflection work, realize simultaneously driving straight axle axial reciprocating motion's effect, realize the inside of the defeated oil pipe of the continuous suction of the inside lubricating oil of lubricated oil box at last, carry the inside lubricated effect of realization of end bearing through defeated oil pipe, the rotatory automatic work of carrying out the lubrication to equipment inside of realizing of utilizing the dewatering disc, this process need not any power equipment work, energy saving and emission reduction, in addition, save the work of artifical lubrication.

Drawings

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

FIG. 2 is a schematic view of the side roller assembly and the driving rod assembly of the present invention;

FIG. 3 is a schematic cross-sectional structural view of the automatic lubrication assembly of the present invention;

fig. 4 is a schematic view of an assembly structure of the cutter frame assembly and the stripper blade assembly of the present invention.

In the figure: 1. a dewatering stand; 2. a working motor; 3. an end bearing; 4. a dewatering tray; 5. a tool head assembly; 501. a tool holder; 502. a material sticking scraper; 503. fixing the rod; 504. a movable rod; 6. a stripping knife assembly; 601. a material removing cutter body; 602. a guide groove; 7. a side roller assembly; 701. a wheel frame body; 702. A wheel axle; 703. a side wheel; 8. a drive rod assembly; 801. a transmission housing; 802. a belt; 803. a driven shaft; 9. an automatic lubrication assembly; 901. lubricating the housing; 902. a crankshaft; 903. an eccentric disc; 904. A rod sleeve; 905. a deflection bar; 906. a straight shaft; 907. a transfer cassette; 908. a piston; 909. a one-way valve; 910. a lubricating oil cartridge; 911. and (7) conveying the oil pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, the present invention provides a technical solution of an ore dewatering machine for mining industry:

an ore dehydrator for mining industry is disclosed, as shown in figure 1, comprising a dehydration machine base 1, a working motor 2, a dehydration disc 4, a cutter frame assembly 5, a material-removing knife assembly 6, a side roller assembly 7, a transmission rod assembly 8 and an automatic lubricating assembly 9, wherein the working motor 2 is fixedly arranged on one side of the top end of the dehydration machine base 1, the dehydration disc 4 is uniformly and fixedly arranged in the dehydration machine base 1, the cutter frame assembly 5 is uniformly and fixedly welded on one side of the upper surface of the dehydration machine base 1, the material-removing knife assembly 6 is fixedly arranged on one side of the cutter frame assembly 5, the side roller assembly 7 is fixedly arranged on the outer wall of the cutter frame assembly 5, the transmission rod assembly 8 is fixedly arranged on the other end of the upper surface of the dehydration machine base 1, the automatic lubricating assembly 9 is fixedly arranged on the outer wall of the other end of the dehydration machine base, the side roller assembly 7 is fixedly connected with the automatic lubricating assembly 9 through the transmission rod assembly 8, the cutter frame assembly 5 is used for fixing the stripping cutter assembly 6 and cleaning the surface of the stripping cutter assembly 6, and the automatic lubricating assembly 9 is used for adding lubricating oil to the interior of the equipment when the dewatering disc 4 rotates.

Specifically, as shown in fig. 1, the other end of the working motor 2 is located the inside fixedly connected with work rotary column of the dehydration frame 1, the even fixed cup joint of dehydration dish 4 is in the surface of work rotary column, the fixed cup joint of work rotary column other end surface has the end bearing 3, and the work of working motor 2 drives the rotation of work rotary column, cup joints the rotation of dehydration dish 4 on work rotary column surface along with it, and the likepowder mineral after the dehydration is attached to the both sides surface of dehydration dish 4.

Specifically, as shown in fig. 4, the inside tool rest 501 that still includes of tool rest assembly 5, the fixed welding of tool rest 501 is in the top surface of dehydration frame 1, the inside movable mounting of tool rest 501 has sizing scraper 502, the fixed welding of sizing scraper 502 one side has dead lever 503, the activity spiro union of dead lever 503 other end has movable rod 504, movable rod 504 runs through tool rest 501 inserts movable rod 504 in tool rest 501, and rotatory messenger's dead lever 503 passes through surface thread swivelling joint with movable rod 504 afterwards, thereby removes movable rod 504 afterwards and realizes removing the effect of sizing scraper 502.

Specifically, as shown in fig. 4, the stripping blade assembly 6 further includes a stripping blade body 601 inside, the stripping cutter bodies 601 are fixedly welded on the side wall of the cutter frame 501, the surface of each stripping cutter body 601 is fixedly provided with a guide groove 602, the two stripping cutter bodies 601 are movably attached to the surfaces of two sides of the dewatering disc 4, the bottom ends of the sticky scrapers 502 are movably inserted in the guide grooves 602, when the dewatering tray 4 rotates, the material removing cutter body 601 is attached to the surface of the dewatering tray 4, so that the powdery minerals attached to the surface of the dewatering tray 4 are scraped off by the material removing cutter body 601, the separation and collection of the dehydrated minerals are completed, because the bottom end of the binder scraper 502 is inserted into the guide groove 602, the binder scraper 502 will move along the direction of the guide groove 602, and when the binder scraper 502 is attached to the surface of the scraper body 601 to move, the mineral materials attached to the surface of the scraper body 601 can be scraped.

Specifically, as shown in fig. 2, the side roller assembly 7 further includes a wheel frame body 701 inside, the wheel frame body 701 is respectively and fixedly welded to the outer surface of the cutter frame 501, a wheel shaft 702 is fixedly installed inside the top end of the wheel frame body 701, a side wheel 703 is fixedly sleeved on the outer surface of the wheel shaft 702, the side wheel 703 is movably attached to the outer surface of the edge of the dewatering tray 4, when the dewatering tray 4 rotates, the side wheel 703 is attached to the outer surface of the edge of the dewatering tray 4 to rotate, the two side wheels 703 are used for assisting the rotation of the dewatering tray 4 at two sides of the dewatering tray 4, and the wheel shaft 702 is driven by the side wheels 703 to rotate together.

Specifically, as shown in fig. 2, the transmission rod assembly 8 further includes a transmission housing 801, a belt 802 is fixedly sleeved on the outer surface of the other end of one of the wheel shafts 702 inside the transmission housing 801, a driven shaft 803 is fixedly sleeved on the inner portion of the other end of the belt 802, and the rotation of the wheel shaft 702 at the farthest end drives the belt 802 to transmit, and then drives the driven shaft 803 at the other end to rotate.

Specifically, as shown in fig. 3, the automatic lubrication assembly 9 further includes a lubrication housing 901, a crankshaft 902 is movably mounted at the bottom end inside the lubrication housing 901, the other end of the driven shaft 803 is fixedly connected to one end of the crankshaft 902, an eccentric disc 903 is fixedly disposed at the middle end of the crankshaft 902, a rod sleeve 904 is movably connected to the inner edge of the eccentric disc 903 in a through-connection manner, a deflection rod 905 is fixedly welded on the outer surface of the rod sleeve 904, a straight shaft 906 is fixedly connected to the other end of the deflection rod 905 in a through-connection manner, a transfer box 907 is fixedly mounted at the top end inside the lubrication housing 901, a piston 908 is movably mounted inside the transfer box 907, the piston 908 is fixedly mounted at the other end of the straight shaft 906, a lubrication oil box 910 is fixedly mounted at the top end inside the lubrication housing 901, check valves 909 are fixedly mounted at both ends of the transfer box 907, and an, the other end of the oil delivery pipe 911 is fixedly installed inside the end bearing 3, the driven shaft 803 simultaneously drives the crankshaft 902 to rotate, so that the eccentric disc 903 rotates simultaneously, the rod sleeve 904 inside the eccentric disc 904 completes reciprocating deflection work along with the eccentric disc, and the effect of driving the straight shaft 906 to do axial reciprocating motion is achieved simultaneously, therefore, the piston 908 does reciprocating motion inside the transfer box 907, positive and negative pressure is constantly formed inside the transfer box 907, finally, lubricating oil inside the lubricating oil box 910 is constantly pumped into the inside of the oil delivery pipe 911, and the lubricating effect is finally achieved by conveying the lubricating oil into the inside of the end bearing 3 through the transportation of the oil delivery pipe 911.

The working principle is as follows: firstly: the working motor 2 works to drive the working rotary column to rotate, the dewatering disc 4 sleeved on the surface of the working rotary column rotates along with the working rotary column, the dehydrated powdery mineral is attached to the surfaces of two sides of the dewatering disc 4, when the dewatering disc 4 rotates, the material removing cutter body 601 is attached to the surface of the dewatering disc 4, therefore, the powdery mineral attached to the surface of the dewatering disc 4 can be scraped by the material removing cutter body 601, the separation and collection of the dehydrated mineral are completed, after the working is carried out for a period of time, the movable rod 504 is inserted into the cutter frame 501, then the fixed rod 503 is rotationally connected with the movable rod 504 through surface threads by rotation, then the movable rod 504 is moved, the effect of moving the sticky scraper 502 is realized, because the bottom end of the sticky scraper 502 is inserted into the guide groove 602, therefore, the sticky scraper 502 can move along the direction of the guide groove 602, when the sticky scraper 502 is attached to the surface of the material removing cutter body 601, the mineral attached to the surface of the material, the material removing cutter body 601 is quickly cleaned;

and finally: when the dewatering tray 4 rotates, the side wheels 703 are attached to the outer surface of the edge of the dewatering tray 4 and rotate, the two side wheels 703 are used for assisting the rotation of the dewatering tray 4 at the two sides of the dewatering tray 4, the other side wheel 703 simultaneously drives the wheel shafts 702 to rotate together, the rotation of the wheel shaft 702 at the farthest end drives the belt 802 to transmit, and then the rotation of the driven shaft 803 at the other end is driven, the driven shaft 803 simultaneously drives the crankshaft 902 to rotate, so that the eccentric discs 903 rotate simultaneously, the rod sleeve 904 inside the rod sleeve completes the reciprocating deflection work, and simultaneously realizes the effect of driving the straight shaft 906 to axially reciprocate, therefore, the piston 908 reciprocates in the transfer box 907, positive pressure and negative pressure are continuously formed in the transfer box 907, finally, the lubricating oil in the lubricating oil box 910 is continuously pumped into the oil conveying pipe 911, and is conveyed to the interior of the end bearing 3 through the transportation of the oil conveying pipe 911 to achieve the lubricating effect.

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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. An ore dehydrator for mining industry comprises a dehydrating base (1) and a working motor (2), and is characterized by comprising a dehydrating disc (4), a cutter frame assembly (5), a stripping cutter assembly (6), a side roller assembly (7), a transmission rod assembly (8) and an automatic lubricating assembly (9);

the automatic lubricating device is characterized in that the working motor (2) is fixedly installed on one side of the top end of the dehydration machine base (1), the dehydration disc (4) is uniformly and fixedly installed inside the dehydration machine base (1), the cutter frame assembly (5) is uniformly and fixedly welded on one side of the upper surface of the dehydration machine base (1), the stripping cutter assembly (6) is fixedly arranged on one side of the cutter frame assembly (5), the side roller assembly (7) is fixedly arranged on the outer wall of the cutter frame assembly (5), the transmission rod assembly (8) is fixedly installed on the other end of the upper surface of the dehydration machine base (1), the automatic lubricating assembly (9) is fixedly arranged on the outer wall of the other end of the dehydration machine base (1), and the side roller assembly (7) and the automatic lubricating assembly (9) are fixedly connected through the transmission rod assembly (8);

the cutter frame assembly (5) is used for fixing the stripping cutter assembly (6) and cleaning the surface of the stripping cutter assembly (6), and the automatic lubricating assembly (9) is used for adding lubricating oil to the interior of the equipment when the dewatering disc (4) rotates.

2. The ore dehydrator for mining use according to claim 1, wherein: the other end of the working motor (2) is located inside the dehydration engine base (1) and is fixedly connected with a working rotary column, the dehydration disc (4) is uniformly and fixedly sleeved on the outer surface of the working rotary column, and the outer surface of the other end of the working rotary column is fixedly sleeved with a head bearing (3).

3. The ore dehydrator for mining use according to claim 2, wherein: knife rest subassembly (5) inside still includes knife rest (501), knife rest (501) fixed welding is in the top surface of dehydration frame (1), the inside movable mounting of knife rest (501) has sizing scraper (502), the fixed welding of sizing scraper (502) one side has dead lever (503), dead lever (503) other end activity spiro union has movable rod (504), movable rod (504) run through knife rest (501).

4. The ore dehydrator for mining use according to claim 3, wherein: the inside of the stripping cutter assembly (6) further comprises stripping cutter bodies (601), the stripping cutter bodies (601) are fixedly welded on the side wall of the cutter frame (501), guide grooves (602) are fixedly formed in the surfaces of the stripping cutter bodies (601), the two stripping cutter bodies (601) are movably attached to the surfaces of the two sides of the dewatering disc (4), and the bottom ends of the sticky scrapers (502) are movably inserted into the guide grooves (602).

5. The ore dehydrator for mining use according to claim 4, wherein: the side roller assembly (7) is internally provided with a wheel frame body (701), the wheel frame body (701) is respectively fixedly welded on the outer surface of the tool frame (501), a wheel shaft (702) is fixedly installed inside the top end of the wheel frame body (701), a side wheel (703) is fixedly sleeved on the outer surface of the wheel shaft (702), and the side wheel (703) is movably attached to the outer surface of the edge of the dewatering disc (4).

6. The ore dehydrator for mining use according to claim 5, wherein: the inside transmission casing (801) that still includes of drive lever subassembly (8), one the shaft of wheel (702) other end surface is located the fixed belt (802) that has cup jointed in transmission casing (801) inside, the fixed driven shaft (803) that has cup jointed in belt (802) other end.

7. The ore dehydrator for mining use according to claim 6, wherein: the automatic lubricating component (9) further comprises a lubricating shell (901), a crankshaft (902) is movably mounted at the bottom end inside the lubricating shell (901), the other end of the driven shaft (803) is fixedly connected with one end of the crankshaft (902), an eccentric disc (903) is fixedly arranged at the middle end of the crankshaft (902), a rod sleeve (904) is movably connected to the inner edge of the eccentric disc (903) in a switching mode, a deflection rod (905) is fixedly welded on the outer surface of the rod sleeve (904), a straight shaft (906) is fixedly connected to the other end of the deflection rod (905) in a switching mode, a transfer box (907) is fixedly mounted at the top end inside the lubricating shell (901), a piston (908) is movably mounted inside the transfer box (907), the piston (908) is fixedly mounted at the other end of the straight shaft (906), and a lubricating oil box (910) is fixedly mounted at the top end inside the lubricating, and two ends of the transfer box (907) are fixedly provided with one-way valves (909), the other end of one-way valve (909) is fixedly connected with an oil delivery pipe (911), and the other end of the oil delivery pipe (911) is fixedly arranged in the end bearing (3).

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