CN216845457U - A drying device for geology ore sample - Google Patents

Abstract

The utility model discloses a drying device for geological ore samples, which comprises a base and a circulating hot air device, wherein the top of the base is provided with a shell, one end of the shell is provided with a first joint, and the tail end of the first joint is provided with a discharge hopper; a roller is arranged in the shell, one end of the roller is rotatably connected with the first joint, and the outer wall of the other end of the first joint is connected with one end of the shell; the utility model discloses a, be provided with cylinder and scraping wings, the grid structure portion of cylinder outer wall is favorable to the hot-air to pass, and can discharge the tiny particle slay in the ore sample, make the cylinder have certain screening ability, and the cylinder drives the ore sample through the scraping wings at low-speed pivoted in-process and rolls ceaselessly, make the ore sample can contact the hot-air fully, and when the cylinder rotates at a high speed, the cooperation scraping wings can drive the ore sample and advance along the predetermined direction soon, and then accomplish quick ejection of compact, machining efficiency has been improved.

Description

A drying device for geology ore sample

Technical Field

The utility model relates to a relevant technical field of ore sample stoving specifically is a drying device for geology ore sample.

Background

The ore sample is a small quantity of representative ore samples collected from an ore body or mined ores, in order to research the quality of the ore products, the ore dressing test samples are collected according to the existing geological data, part of representative places are selected as sampling points, the arrangement of the sampling points is determined according to the representative requirements of the ore sample on the basis of comprehensive research on the geology of the ore deposit, and the ore sample is usually dried before monitoring, so that an ore sample drying device is required.

And the ore sample drying device who uses at present usually goes on in inclosed box inside, and at the in-process of drying, ore sample keeps the state of stewing usually, and when the ore total amount was more, the ore that piles up shelters from each other and leads to drying inhomogeneous influence oven-dry mass easily, and the while is not convenient for last stoving processing, has the drawback when using.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a drying device for geology ore sample is provided with the cylinder and can make ore sample continuously keep the roll state at the in-process of drying through the pivoted cylinder for all ore samples can contact the hot-air fully, improve the stoving effect, and the scraping wings of cooperation helicitic texture simultaneously can release the cylinder with inside ore sample fast, has improved machining efficiency.

In order to achieve the above object, the utility model provides a following technical scheme: a drying device for geological ore samples comprises a base and a circulating hot air device, wherein a shell is installed at the top of the base, a first joint is installed at one end of the shell, and a discharge hopper is installed at the tail end of the first joint; a roller is arranged in the shell, one end of the roller is rotatably connected with the first joint, and the outer wall of the other end of the first joint is connected with one end of the shell; one end of the circulating hot air device is provided with two connecting pipes which are arranged in a staggered manner, and the two connecting pipes are communicated with the inside of the shell; one end of the roller penetrates through the shell to be connected with the second joint, and the outer wall of the second joint is provided with an engaging wheel; one end of the top of the base is provided with a vertical frame, and the top of the vertical frame is provided with a feed hopper; the bottom of the feed hopper is communicated with the top of the feed pipe, and the bottom of the feed pipe extends into the second connector; the top of the base is provided with a bottom frame, and the bottom frame is arranged below the second joint; a speed reducing motor is installed on one side of the outer wall of the bottom frame, meshing wheels are installed at the top end of the inside of the bottom frame, and meanwhile, two bottom frames are symmetrically arranged; the speed reducing motor is rotatably connected with one of the engaging wheels.

Preferably, the shaft axis of the first joint, the shaft axis of the roller and the shaft axis of the second joint are all on the same horizontal straight line, and the roller is connected with the first joint in a rotating mode.

Preferably, the outer wall of the roller is of a grid structure, a plurality of material pushing plates are arranged on the inner wall of the roller at equal intervals, and the material pushing plates are of a threaded structure.

Preferably, the bottom of the shell is provided with a slag discharging groove, the bottom of the slag discharging groove is provided with a baffle, and the baffle is connected with the slag discharging groove in a sliding manner.

Preferably, the feeding pipe is in an L-shaped structure, and the bottom of the feeding pipe is not contacted with the inner wall of the second joint.

Preferably, the two meshing wheels are symmetrically arranged about the transverse axis of the transmission disc, the axis of the transmission disc and the axis of the second joint are on the same transverse straight line, and the transmission disc and the two meshing wheels are meshed with each other; the meshing wheel is matched with the transmission disc, the second joint and the roller to form a rotating structure.

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

1. the utility model discloses a, be provided with the shell, the inside of shell is semi-sealed structure, drives hot-air through two connecting pipes of circulating hot air device cooperation when using and flows in the inside circulation of shell, dries the processing through circulating hot-air to the ore sample, has improved drying efficiency.

2. The utility model discloses a, be provided with cylinder and scraping wings, the grid structure portion of cylinder outer wall is favorable to the hot-air to pass, and can discharge the tiny particle slay in the ore sample, make the cylinder have certain screening ability, and the cylinder drives the ore sample through the scraping wings at low-speed pivoted in-process and rolls ceaselessly, make the ore sample can contact the hot-air fully, and when the cylinder rotates at a high speed, the cooperation scraping wings can drive the ore sample and advance along the predetermined direction soon, and then accomplish quick ejection of compact, machining efficiency has been improved.

3. The utility model discloses a, be provided with grudging post, feeder hopper and inlet pipe, can cooperate the second to connect continuously reinforced to cylinder inside at the in-process of processing through feeder hopper cooperation inlet pipe, improved machining efficiency, can cooperate the scum groove to accomplish simultaneously and arrange the sediment through taking out the baffle after using the completion, improved the use convenience.

Drawings

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

fig. 2 is a rear view of fig. 1 in accordance with the present invention;

fig. 3 is a schematic plan front view of the structure of the present invention;

fig. 4 is a sectional view taken along the line a-a of fig. 3 according to the present invention;

fig. 5 is an enlarged schematic structural diagram of the present invention at B in fig. 2.

In the figure: 1. a base; 2. a housing; 3. a first joint; 4. a discharge hopper; 5. a drum; 6. a material pushing plate; 7. a slag discharge groove; 8. a baffle plate; 9. connecting pipes; 10. a circulating hot air device; 11. a second joint; 12. erecting a frame; 13. a feed hopper; 14. a feed pipe; 15. a chassis; 16. a reduction motor; 17. an engaging wheel; 18. a drive plate.

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. 1-5, the present invention provides a technical solution: a drying device for geological ore samples comprises a base 1 and a circulating hot air device 10, wherein a shell 2 is installed at the top of the base 1, a first joint 3 is installed at one end of the shell 2, and a discharge hopper 4 is installed at the tail end of the first joint 3; a roller 5 is arranged in the shell 2, one end of the roller 5 is rotatably connected with the first joint 3, and the outer wall of the other end of the first joint 3 is connected with one end of the shell 2; one end of the circulating hot air device 10 is provided with two connecting pipes 9, the two connecting pipes 9 are arranged in a staggered manner, and the two connecting pipes 9 are communicated with the inside of the shell 2; one end of the roller 5 penetrates through the shell 2 to be connected with the second joint 11, and the outer wall of the second joint 11 is provided with an engaging wheel 17; one end of the top of the base 1 is provided with a vertical frame 12, and the top of the vertical frame 12 is provided with a feed hopper 13; the bottom of the feed hopper 13 is communicated with the top of the feed pipe 14, and the bottom of the feed pipe 14 extends to the inside of the second joint 11; the top of the base 1 is provided with an underframe 15, and the underframe 15 is arranged below the second joint 11; a speed reducing motor 16 is installed on one side of the outer wall of the bottom frame 15, meshing wheels 17 are installed at the top end of the inside of the bottom frame 15, and two bottom frames 15 are symmetrically arranged; the reduction motor 16 is rotationally connected to one of the meshing wheels 17.

According to above-mentioned technical scheme, the inside of shell 2 is semi-sealed structure, drives hot-air at the inside circulation of shell 2 through two connecting pipes 9 of circulation hot air device 10 cooperation when using, dries the processing through circulating hot air to the ore sample, has improved drying efficiency.

In this embodiment, the axial line of the first joint 3, the axial line of the roller 5 and the axial line of the second joint 11 are all on the same horizontal straight line, and the roller 5 is connected with the first joint 3 in a rotating manner.

According to the technical scheme, the roller 5 drives the ore sample to roll ceaselessly through the material pushing plate 6 in the low-speed rotating process, so that the ore sample can be fully contacted with hot air, and when the roller 5 rotates at a high speed, the material pushing plate 6 is matched to drive the ore sample to be rapidly pushed along the preset direction, so that the rapid discharging is completed, and the processing efficiency is improved.

In this embodiment, the outer wall of the drum 5 is of a grid structure, and a plurality of material pushing plates 6 are arranged on the inner wall of the drum 5 at equal intervals, and the material pushing plates 6 are of a thread structure.

According to the technical scheme, the grid structure part of the outer wall of the roller 5 is beneficial to hot air to pass through, and small-particle slag in the ore sample can be discharged, so that the roller 5 has certain screening capacity.

In this embodiment, the slag discharging groove 7 is opened at the bottom of the housing 2, the baffle 8 is installed at the bottom of the slag discharging groove 7, and the baffle 8 is connected with the slag discharging groove 7 in a sliding manner.

According to the technical scheme, as the outer wall of the roller 5 is of a grid structure, in the rotating process, part of scattered slag can pass through the roller 5 and is collected in the shell 2, and the slag accumulated in the shell 2 can be discharged through the slag discharge groove 7 by drawing the baffle 8 out.

In this embodiment, the feeding pipe 14 has an "L" shape, and the bottom of the feeding pipe 14 and the inner wall of the second joint 11 do not contact each other.

According to the technical scheme, the abrasion between the second connector 11 and the feeding pipe 14 is avoided in the rotating process, and the feeding can be rapidly carried out through the feeding pipe 14 according to the requirement.

In the embodiment, the two engaging wheels 17 are symmetrically arranged about the transverse axis of the transmission disc 18, the axis of the transmission disc 18 and the axis of the second joint 11 are on the same transverse straight line, and the transmission disc 18 and the two engaging wheels 17 are engaged with each other; the engaging wheel 17 cooperates with the transmission disc 18, the second joint 11 and the roller 5 to form a rotating structure.

According to above-mentioned technical scheme, drive transmission disc 18 through gear motor 16 cooperation meshing wheel 17 and rotate, can be reaching through the rotation of adjustment transmission disc 18 and continuously dry and ejection of compact work, whole transmission is simple, and the fault rate is low, the operation of being convenient for simultaneously.

The working principle is as follows: when the drying device for geological ore samples is used, firstly, the ore samples are poured into a feed hopper 13, under the action of gravity, the ore samples naturally slide into the second connector 11 through a feed pipe 14, then an external power supply is switched on, a speed reduction motor 16 is started, a transmission disc 18 is driven by matching with a meshing wheel 17 to start to rotate at a slow speed, the second connector 11 and a roller 5 are synchronously driven to rotate at a slow speed, then a circulating hot air device 10 is started to match with a connecting pipe 9 to form circulating hot air in the shell 2, the roller 5 is matched with a material pushing plate 6 to drive the ore samples to turn over continuously in the process of rotating at the slow speed, the ore samples are rapidly dried by matching with the hot air, meanwhile, in the drying process, partial small-volume slag passes through the roller 5 to fall into the shell 2 and is stored in the shell 2, after drying is finished, the rotation of the roller 5 is improved, the discharge hopper 4 is rotated 180 degrees, the ore sample is gradually pushed to the first joint 3 through the material pushing plate 6 until the ore sample is discharged through the material discharging hopper 4, which is the working process of the whole device, and the content which is not described in detail in the specification belongs to the prior art which is well known by the technicians in the field.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a drying device for geology ore sample, includes base (1) and circulation hot air system (10), its characterized in that: the top of the base (1) is provided with a shell (2), one end of the shell (2) is provided with a first joint (3), and the tail end of the first joint (3) is provided with a discharge hopper (4); a roller (5) is arranged in the shell (2), one end of the roller (5) is rotatably connected with the first joint (3), and the outer wall of the other end of the first joint (3) is connected with one end of the shell (2); one end of the circulating hot air device (10) is provided with two connecting pipes (9), the two connecting pipes (9) are arranged in a staggered manner, and the two connecting pipes (9) are communicated with the inside of the shell (2); one end of the roller (5) penetrates through the shell (2) and is connected with the second joint (11), and the outer wall of the second joint (11) is provided with a meshing wheel (17); one end of the top of the base (1) is provided with a vertical frame (12), and the top of the vertical frame (12) is provided with a feed hopper (13); the bottom of the feed hopper (13) is communicated with the top of the feed pipe (14), and the bottom of the feed pipe (14) extends to the inside of the second joint (11); the top of the base (1) is provided with an underframe (15), and the underframe (15) is arranged below the second joint (11); a speed reducing motor (16) is installed on one side of the outer wall of the bottom frame (15), meshing wheels (17) are installed at the top end of the inside of the bottom frame (15), and two bottom frames (15) are symmetrically arranged; the reduction motor (16) is rotationally connected with one of the meshing wheels (17).

2. The drying device for the geological ore sample according to claim 1, characterized in that: the axial lead of the first joint (3), the axial lead of the roller (5) and the axial lead of the second joint (11) are all on the same horizontal straight line, and the roller (5) is connected with the first joint (3) in a rotating way.

3. The drying device for the geological ore sample according to claim 1, characterized in that: the outer wall of the roller (5) is of a grid structure, a plurality of material pushing plates (6) are arranged on the inner wall of the roller (5) at equal intervals, and the material pushing plates (6) are of a thread structure.

4. The drying device for the geological ore sample according to claim 1, characterized in that: slag discharge groove (7) have been seted up to the bottom of shell (2), and have been installed baffle (8) bottom slag discharge groove (7), and the connected mode of baffle (8) and slag discharge groove (7) is sliding connection simultaneously.

5. The drying device for geological mineral samples according to claim 1, characterized in that: the feeding pipe (14) is of an L-shaped structure, and the bottom of the feeding pipe (14) is not contacted with the inner wall of the second joint (11).

6. The drying device for geological mineral samples according to claim 1, characterized in that: the two meshing wheels (17) are symmetrically arranged relative to the transverse axial lead of the transmission disc (18), the axial lead of the transmission disc (18) and the axial lead of the second joint (11) are on the same transverse straight line, and the transmission disc (18) and the two meshing wheels (17) are meshed and connected with each other; the meshing wheel (17) is matched with the transmission disc (18), the second joint (11) and the roller (5) to form a rotating structure.

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