CN213650921U - Vibrating ore drawing machine with uniform discharging - Google Patents
Vibrating ore drawing machine with uniform discharging Download PDFInfo
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- CN213650921U CN213650921U CN202022242505.2U CN202022242505U CN213650921U CN 213650921 U CN213650921 U CN 213650921U CN 202022242505 U CN202022242505 U CN 202022242505U CN 213650921 U CN213650921 U CN 213650921U
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Abstract
The utility model discloses a vibration ore drawing machine of even ejection of compact, include: the metal vibration material frame, the metal vibration material frame sets up to the tilting structure, the one end of metal vibration material frame is provided with the drain hole, and the other end of metal vibration material frame is provided with the feed inlet, the vibration bottom case sets up in the bottom of metal vibration material frame, and the metal vibration material frame passes through bolted connection with the vibration bottom case, the one end of vibration bottom case is provided with vibrating motor, and vibrating motor and vibration bottom case pass through the leg joint, front end shock mount and rear end shock mount, the front end shock mount sets up in the both sides of drain hole one end, and the rear end shock mount sets up the both sides in feed inlet one end. It has realized avoiding the vibration to draw the ore deposit machine and often take place the raise dust easily in the in-process of work and when vibrating the material some less materials can be by great material striking then can take place the skew in the motion process to lead to the problem of material effluvium.
Description
Technical Field
The utility model relates to a vibration ore drawing machine technical field especially relates to a vibration ore drawing machine of even ejection of compact.
Background
The vibrating ore drawing machine is one kind of vibrating inertial vibrating ore drawing apparatus with vibrating motor as the exciting source and is one ideal apparatus for drawing ore and other material, feeding or loading. The vibratory ore-drawing machine has the following advantages over other forms of ore-drawing machines: the vibration ore drawing machine has the advantages that energy is saved, ore drawing efficiency is high, ore drawing is uniform and easy to control, the vibration ore drawing machine takes the vibration motor as a power source, exciting force is obtained by utilizing centrifugal force generated by eccentric blocks arranged at two ends of a main shaft of the vibration motor in rotary motion, the table top of the vibration ore drawing machine and materials are driven to do periodic linear reciprocating vibration, when the vibration acceleration of the ore drawing machine body is vertically larger than the gravity acceleration, the materials in the machine body are thrown, the throwing and falling are instantly completed by jumping motion along a parabolic track, and the ore drawing machine body also continuously vibrates due to continuous vibration of the vibration motor, so that the materials in the machine body continuously jump forwards, the purposes of ore drawing and ore conveying are achieved, and the vibration ore drawing machine is widely applied to the mining industries such as metallurgy, chemical engineering, building materials. The vibration ore drawing machine is ideal equipment for drawing, feeding or loading ores and other materials, and has the following advantages: energy is saved, ore removal efficiency is high, ore removal is uniform and easy to control; the equipment is simple to manufacture, the installation work amount is small, and the cost is low; due to vibration, the phenomena of suspended arch and ore blocking are greatly reduced; ore running of ores with large water content can be effectively prevented; wide application range and strong adaptability.
The phenomenon of raise dust often takes place easily at the in-process of work for current vibration ore drawing machine, and some less materials can be struck by great material when moving the material and can take place the skew moreover to lead to the condition that the material scatters.
SUMMERY OF THE UTILITY MODEL
It is an object of the present invention to solve at least the above problems and to provide at least the advantages which will be described later.
The utility model discloses it is still another purpose to provide a vibration ore drawing machine of even ejection of compact, realized avoiding the vibration ore drawing machine to take place the raise dust often easily in the in-process of work and when vibrating the material some less materials can be struck then can take place the skew by great material in the motion process to lead to the problem of material effluvium.
In order to achieve the above and other objects, the present invention adopts the following technical solutions:
the utility model provides a vibration ore drawing machine of even ejection of compact which characterized in that includes:
the metal vibration material frame is of an inclined structure, a discharge hole is formed in one end of the metal vibration material frame, and a feed hole is formed in the other end of the metal vibration material frame;
the vibrating bottom box is arranged at the bottom of the metal vibrating material frame, the metal vibrating material frame is connected with the vibrating bottom box through bolts, one end of the vibrating bottom box is provided with a vibrating motor, and the vibrating motor is connected with the vibrating bottom box through a support;
front end shock absorber support and rear end shock absorber support, front end shock absorber support sets up in the both sides of drain hole one end, and the rear end shock absorber support sets up in the both sides of feed inlet one end, rear end shock absorber support is higher than front end shock absorber support.
Preferably, the two sides of the metal vibration material frame are both provided with frame reinforcing ribs, and the frame reinforcing ribs are connected with the metal vibration material frame through bolts.
Preferably, the inside of metal vibration material frame is provided with mineral aggregate mixing area, and mineral aggregate mixing area is located feed inlet one side, the other end in mineral aggregate mixing area is provided with the buffering striker plate, and buffering striker plate and metal vibration material frame fixed connection.
Preferably, the buffering striker plate sets up to the tilting structure, one side of buffering striker plate top is provided with the separation partition panel, and separation partition panel and buffering striker plate fixed connection, the surface of separation partition panel is provided with the grid fluting, and the grid fluting has a plurality ofly.
Preferably, an ore separation area is arranged above the separation partition plate, and a mineral powder separation area is arranged below the separation partition plate.
Preferably, the front end shock absorption support and the rear end shock absorption support comprise fixed support axle boxes, shock absorption springs and inclination angle adjusting shafts, the fixed support axle boxes are connected with the inclination angle adjusting shafts through the shock absorption springs, and the inclination angle adjusting shafts are rotatably connected with the vibration bottom box through rotating shafts.
The utility model discloses at least, include following beneficial effect:
1. the material of the utility model can move to the separation partition board above the buffer baffle board along with the vibration of the frame after entering the mineral aggregate mixing area, the buffer baffle board can avoid the material passing through the separation partition board too fast, the material can be separated and intercepted through the grating slot on the surface after vibrating on the separation partition board, the larger material can be intercepted in the upper mineral separation area, and some smaller materials and powder can fall into the lower mineral powder separation area, thus, when vibrating and discharging, the material in the mineral powder separation area can enter into the hopper device before the material in the mineral powder separation area under the influence of self gravity, then the mineral separation area can fall into the hopper and cover the material in the mineral powder separation area, thus avoiding the collision between the large material and the small material, and covering the fine dust in a covering mode, the phenomenon of dust emission in the falling process is avoided.
Drawings
Fig. 1 is a schematic view of the overall structure of a uniform-discharging vibratory ore-drawing machine provided by the present invention;
FIG. 2 is a schematic view of a metallic vibratory material frame structure of a uniformly discharging vibratory ore drawing machine provided by the present invention;
fig. 3 is a schematic structural view of the separation partition plate of the vibrating ore-drawing machine for uniform discharging provided by the utility model.
Detailed Description
The present invention is described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description.
1-3, a uniform discharge vibratory ore drawing machine, comprising: metal vibration material frame 1, metal vibration material frame 1 sets up to the tilting structure, the one end of metal vibration material frame 1 is provided with drain hole 5, and the other end of metal vibration material frame 1 is provided with feed inlet 6, vibration bottom case 3 sets up the bottom at metal vibration material frame 1, and metal vibration material frame 1 passes through bolted connection with vibration bottom case 3, the one end of vibration bottom case 3 is provided with vibrating motor 4, and vibrating motor 4 passes through the leg joint with vibration bottom case 3, front end shock absorber support 7 and rear end shock absorber support 8, front end shock absorber support 7 sets up the both sides in drain hole 5 one end, and rear end shock absorber support 8 sets up the both sides in 6 one end of feed inlet, rear end shock absorber support 8 is higher than front end shock absorber support 7.
In the above scheme, the material enters into the inside of metal vibration material frame from the feed inlet, drive metal vibration material frame through the cooperation of vibrating motor and vibration under casing and carry out the vibration operation, utilize the eccentric block of installing at vibrating motor main shaft both ends to obtain exciting force at the centrifugal force that rotary motion produced, order about vibration ore drawing machine mesa and material and do periodic straight line reciprocating vibration, when the acceleration of ore drawing machine body vibration is perpendicular to be greater than acceleration of gravity, the material in the organism is thrown, and jump the motion forward according to the orbit of parabola, throw and fall and accomplish in the twinkling of an eye, because vibrating motor's continuous vibration, the ore drawing machine body also vibrates continuously, the material in the organism jumps forward in succession, just so reach the mesh of ore drawing and carrying the ore.
In a preferred scheme, the two sides of the metal vibration material frame 1 are both provided with frame reinforcing ribs 2, and the frame reinforcing ribs 2 are connected with the metal vibration material frame 1 through bolts.
Among the above scheme, the frame strengthening rib is located the bottom of metal vibration material frame, wraps up whole metal vibration material frame, promotes the bottom sprag power of metal vibration material frame, avoids the in-process of vibration because of the material quality overweight leads to the condition that metal vibration material frame takes place to warp.
In an optimal selection scheme, the inside of the metal vibration material frame 1 is provided with a mineral aggregate mixing area 12, the mineral aggregate mixing area 12 is positioned on one side of the feeding hole 6, the other end of the mineral aggregate mixing area 12 is provided with a buffering material baffle 16, and the buffering material baffle 16 is fixedly connected with the metal vibration material frame 1.
In the above scheme, the material can move gradually on the separation partition panel of buffering striker plate top along with the vibration of frame after entering into the mineral aggregate mixed area, and the buffering striker plate then can avoid the too fast through separation partition panel of material.
In an optimal selection scheme, the buffering striker plate 16 is arranged to be of an inclined structure, a separation partition plate 15 is arranged on one side above the buffering striker plate 16, the separation partition plate 15 is fixedly connected with the buffering striker plate 16, a grid slot 17 is formed in the outer surface of the separation partition plate 15, and the grid slot 17 is multiple.
In the scheme, after the materials are vibrated to the separation partition plate, the materials are separated and intercepted through the grating grooves on the surface of the materials.
In a preferred embodiment, an ore separation area 13 is disposed above the separation partition plate 15, and a fine ore separation area 14 is disposed below the separation partition plate 15.
In the above scheme, the material is when the in-process of vibration separates the partition panel, great material can be held back in the ore disengagement zone of top, and some less materials and powder then can fall into the powdered ore disengagement zone of below, when the vibration ejection of compact like this, material in the powdered ore disengagement zone receives the influence of self gravity can enter into hopper equipment in the material in the ore disengagement zone earlier than, then the ore disengagement zone equally can fall into the hopper and cover the material in the powdered ore disengagement zone, so both avoided the collision between big material and the little material, can also cover tiny dust through the mode that covers, avoid the phenomenon of raise dust to appear in the in-process of whereabouts.
In a preferred scheme, the front-end shock absorption bracket 7 and the rear-end shock absorption bracket 8 comprise a fixed support axle box 9, a shock absorption spring 10 and an inclination angle adjusting axle 11, the fixed support axle box 9 is connected with the inclination angle adjusting axle 11 through the shock absorption spring 10, and the inclination angle adjusting axle 11 is rotatably connected with the vibrating bottom box 3 through a rotating shaft.
Among the above scheme, front end shock absorber support and rear end shock absorber support can play the effect of shock attenuation buffering, and the vibration that can avoid the machine during operation to produce like this causes the influence to the mounting plane, also can play the effect of noise reduction simultaneously, then can adjust the inclination of metal vibration material frame through the inclination regulating spindle to the height of the control ejection of compact and feeding.
While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the invention, as defined by the claims and the equivalents thereof, and which fall within the limits of the claims and the equivalents thereof.
Claims (6)
1. The utility model provides a vibration ore drawing machine of even ejection of compact which characterized in that includes:
the metal vibration material frame is of an inclined structure, a discharge hole is formed in one end of the metal vibration material frame, and a feed hole is formed in the other end of the metal vibration material frame;
the vibrating bottom box is arranged at the bottom of the metal vibrating material frame, the metal vibrating material frame is connected with the vibrating bottom box through bolts, one end of the vibrating bottom box is provided with a vibrating motor, and the vibrating motor is connected with the vibrating bottom box through a support;
front end shock absorber support and rear end shock absorber support, front end shock absorber support sets up in the both sides of drain hole one end, and the rear end shock absorber support sets up in the both sides of feed inlet one end, rear end shock absorber support is higher than front end shock absorber support.
2. A vibratory ore drawing machine with uniform discharge as defined in claim 1 wherein said metal vibratory material frame is provided with frame stiffeners on both sides and the frame stiffeners are bolted to the metal vibratory material frame.
3. A vibratory ore drawing machine with uniform discharging according to claim 1, wherein the interior of the metal vibratory material frame is provided with a mineral material mixing area, the mineral material mixing area is located on one side of the feeding hole, the other end of the mineral material mixing area is provided with a buffer striker plate, and the buffer striker plate is fixedly connected with the metal vibratory material frame.
4. A vibrating ore drawing machine with uniform discharging according to claim 3, wherein the buffering striker plate is arranged in an inclined structure, a separation partition plate is arranged on one side above the buffering striker plate and fixedly connected with the buffering striker plate, and a plurality of grid slots are arranged on the outer surface of the separation partition plate.
5. A vibratory ore drawing machine for providing uniform discharge as defined in claim 4, wherein an ore separation zone is provided above the separation partition panel and an ore fines separation zone is provided below the separation partition panel.
6. A uniform discharge vibratory ore drawing machine as claimed in claim 1, wherein said front and rear shock mounts include stationary support axle boxes, shock absorbing springs, and a pitch shaft, and wherein the stationary support axle boxes are connected to the pitch shaft by shock absorbing springs, and wherein the pitch shaft is rotatably connected to the vibratory bottom box by a pivot.
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CN202022242505.2U CN213650921U (en) | 2020-10-10 | 2020-10-10 | Vibrating ore drawing machine with uniform discharging |
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CN202022242505.2U CN213650921U (en) | 2020-10-10 | 2020-10-10 | Vibrating ore drawing machine with uniform discharging |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113800205A (en) * | 2021-09-13 | 2021-12-17 | 范金凤 | Vibration ore drawing machine closes electricity and uses antiskid device that falls |
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2020
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113800205A (en) * | 2021-09-13 | 2021-12-17 | 范金凤 | Vibration ore drawing machine closes electricity and uses antiskid device that falls |
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