CN216396482U - Broken sieve fortune all-in-one of multi-level mineral - Google Patents

Abstract

The utility model discloses a multi-level mineral breaking, screening and transporting integrated machine which comprises supporting legs, screening bins, discharge ports, a transporting bin, a crushing device, a feeding port and a cylinder wall auxiliary screen, wherein the screening bins are arranged at the end parts of the supporting legs, the discharge ports are arranged below the screening bins, the transporting bin is arranged on the supporting legs and is arranged on one side of the screening bins, the crushing device is arranged on the screening bins, the feeding port is arranged on the crushing device, and the cylinder wall auxiliary screen is symmetrically arranged on the side surface of the crushing device. The utility model belongs to the technical field of mineral processing equipment, and particularly relates to a multi-level mineral crushing, screening and transporting integrated machine which is characterized in that minerals enter a primary crushing layer for crushing, enter a secondary crushing layer for fine crushing, enter a screening part, are separated by W-shaped screens with different apertures, and are thrown into a transporting bin by centrifugal force generated by rotation of the W-shaped screens, so that the multi-level crushing, screening and transporting of the minerals are integrated.

Description

Broken sieve fortune all-in-one of multi-level mineral

Technical Field

The utility model belongs to the technical field of mineral processing equipment, and particularly relates to a multi-layer mineral breaking, screening and transporting integrated machine.

Background

Along with the development of economy, the demand of China on coal resources is increased year by year, the terrain of China is complex, the climate is variable, part of areas are very bad, and the distribution and mining precision of ore beds are limited, so that the current mineral processing technology has great problems to be solved in the following fields, and therefore, the development and application of a new mineral processing direction and a new method are fundamental methods for solving the problems. Crushing is one of the indispensable industrial links of the modern rapidly-developed economic society, and the crushing technology is regarded as the most important basic technology of high-technology industry. The reasonable development and application of the refractory minerals with complex structures are realized, and the refractory minerals are often characterized by multiple types of noble metals, low quality, difficult treatment and the like. At present, most of mines in China have insufficient mineral products, low mineral purity and unreasonable mineral utilization, so that a reasonable and effective profit chain is not formed and market demands cannot be met effectively. For the problem that some goafs need to be filled, environmental protection treatment, reasonable treatment of waste liquid, waste water and waste residues and secondary development and utilization of waste in the mineral processing process need to be considered, new technologies, new methods and new equipment related to mineral processing are actively researched and researched, scientific and technological personnel are encouraged to carry out theoretical research and field application research from the perspective of technological innovation, and sustainable and efficient development of mineral processing technologies in China is fully ensured. In the processing process of various ores, metals, nonmetals, chemical raw materials and building materials, the crushing operation consumes huge energy and is inefficient operation. The reason is that in the process of crushing materials, the effects of heating, vibration, friction and the like are generated, so that a large amount of energy is consumed, and therefore, the aim of solving the problems is to focus on research.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides the multi-layer mineral crushing, screening and transporting integrated machine which comprises a first-stage crushing layer, a second-stage crushing layer, a screening part, W-shaped screens with different apertures, a conveying bin and a V-shaped belt conveyor, wherein the first-stage crushing layer is used for crushing minerals, the second-stage crushing layer is used for crushing minerals, the screening part is used for separating the minerals with different particle sizes, the centrifugal force generated by the rotation of the W-shaped screens is used for throwing the minerals into the conveying bin, and the V-shaped belt conveyor is used for conveying the minerals to different places in the conveying bin so as to realize the multi-layer crushing, screening and transporting integrated multi-layer mineral crushing, screening and transporting integrated machine.

In order to realize the functions, the technical scheme adopted by the utility model is as follows: a multi-level mineral breaking, screening and transporting integrated machine comprises supporting legs, screening bins, a discharge port, a transporting bin, a crushing device, a feed port and a cylinder wall auxiliary screen, wherein the screening bins are arranged at the end parts of the supporting legs, the discharge port is arranged below the screening bins, the transporting bin is arranged on the supporting legs and is arranged on one side of the screening bins, the crushing device is arranged on the screening bins, the feed port is arranged on the crushing device, and the cylinder wall auxiliary screen is symmetrically arranged on the side surface of the crushing device; the crushing device comprises a second crushing bin, a second roller type crushing roller, a second spring safety device, a conical shunt baffle, a loose-leaf shunt device, a first crushing bin, a first roller type crushing roller and a first spring safety device, wherein the second crushing bin is arranged on the screening bin, the second roller type crushing roller is symmetrically and rotatably arranged in the second crushing bin, the second spring safety device is arranged on the side surface of one side of the second crushing bin and connected with the second roller type crushing roller on one side, the conical shunt baffle is arranged on the screening bin and arranged in the second crushing bin, the loose-leaf shunt device is arranged in the second crushing bin and arranged above the second roller type crushing roller, the first crushing bin is detachably arranged on the second crushing bin, the first roller type crushing roller is rotatably arranged in the first crushing bin, the first spring safety device is arranged on the side surface of one side of the first crushing bin and connected with the first roller type crushing roller on one side, pouring minerals into the crushing bin through the feeding hole, crushing the minerals in one level through the first roller type crushing roller, uniformly dropping the crushed minerals to the second roller type crushing roller through the loose-leaf shunting device to perform secondary crushing, and dropping the crushed minerals to the screening bin through the shunting baffle.

Furthermore, the screening bin comprises a rotary motor, a connecting rod, a connecting ring, a screen cloth supporting frame, a W-shaped screen cloth, an auxiliary screen cloth and an air suction device, wherein the rotary motor is arranged below the upper wall of the screening bin, the connecting rod is connected to the output end of the rotary motor, the connecting ring is uniformly sleeved on the connecting rod, the screen cloth supporting frame is arranged in a W-shaped structure, one end of the screen cloth supporting frame is connected to the connecting ring, the other end of the screen cloth supporting frame is connected to the side wall of the screening bin, the W-shaped screen cloth is arranged on the screen cloth supporting frame, the auxiliary screen cloth is uniformly arranged on the side wall, far away from the transportation bin, outside the screening bin, the air suction device is symmetrically arranged at the upper end of the inner side wall of the screening bin, after the minerals are crushed by the crushing device, the minerals fall into the screening bin through the conical flow dividing baffle plate, the rotary motor is started, and the rotary motor drives the W-shaped screen cloth to rotate through the connecting rod and the screen cloth supporting frame, the minerals on the W-shaped screen are made to do centrifugal motion, the minerals smaller than the diameter of the screen fall to the next layer of screen, and the minerals larger than the diameter of the screen are thrown into a transportation bin through the centrifugal motion and are transported to the next development link.

Further, the transport bin includes V type band conveyer, brush and atomizer, V type band conveyer locates in the transport bin, V type band conveyer below is the slope structure setting, makes things convenient for in the automatic roll-off transport bin of material, avoids the material to cause in the transport bin to pile up, V type band conveyer below is located to the brush, conveniently cleans the belt, the atomizer symmetry is located under the upper wall in transport bin to reduce the dust pollution of mineral in the transportation.

Furthermore, the loose-leaf shunting device is composed of a rigid material at the upper end, a flexible material at the lower hem and a loose leaf, and realizes shunting of upper-layer crushed objects.

Furthermore, the second roller type crushing rollers are provided with two groups, the middle two rollers are fixed rollers, the two rollers on the two sides are movable rollers, and the two groups of roller types are respectively meshed in opposite directions, so that the upper layer minerals are processed again.

Furthermore, the conical diversion baffle is made of solid conical rigid materials, so that the rotary motor is protected, and minerals can uniformly flow into the screening part as much as possible.

Furthermore, the inner part of the W-shaped screen is solid, and the periphery of the W-shaped screen is formed by the screen.

The utility model adopts the structure to obtain the following beneficial effects: according to the multi-level mineral crushing, screening and transporting integrated machine, not only can the ore be normally crushed, but also further ore crushing can be realized through the multi-level pair rollers, and meanwhile, materials are provided for multi-layer screening. The spring safety device is arranged beside the movable roller, the spring safety device can adjust the gap of the gear to realize the crushing of different granularities, the W-shaped screen is an improved traditional cap-shaped screen, the screening area is increased, the screening strength is increased, the dust pollution generated by mineral crushing can be removed by the air suction device, and the pollution-free, pollution-free and green production with less pollution is realized to the maximum extent; the conveying belt is improved into a V shape (groove shape), so that the materials are prevented from overflowing; during the transportation process, an atomizer is added, and the atomizer can be used in material transportation, so that dust pollution is reduced. Compared with a common ore crusher, the movable crusher has the advantages of convenient movement, small occupied area and capability of directly selecting a site, and can be put into production when being placed on site

Drawings

Fig. 1 is an overall structure diagram of the multi-layer mineral breaking, screening and transporting integrated machine.

The device comprises a support leg 1, a support leg 2, a screening bin 3, a discharge port 4, a transportation bin 5, a crushing device 6, a feed port 7, a cylindrical wall auxiliary screen, 8, a second crushing bin 9, a second roller type crushing roller 10, a second spring safety device 11, a conical flow dividing baffle plate 12, a loose-leaf flow dividing device 13, a first crushing bin 14, a first roller type crushing roller 15, a first spring safety device 16, a rotary motor 17, a connecting rod 18, a connecting ring 19, a screen support frame 20, a W-shaped screen 21, an auxiliary screen 22, an air suction device 23, a V-shaped belt conveyor 24, a brush 25 and an atomizer.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The present invention will be described in further detail with reference to the accompanying drawings.

As shown in figure 1, the multi-layer mineral breaking, screening and transporting integrated machine comprises supporting legs 1, screening bins 2, a discharge port 3, a transporting bin 4, a crushing device 5, a feed port 6 and a cylinder wall auxiliary screen 7, wherein the screening bins 2 are arranged at the end parts of the supporting legs 1, the discharge port 3 is arranged below the screening bins 2, the transporting bin 4 is arranged on the supporting legs 1 and is arranged on one side of the screening bins 2, the crushing device 5 is arranged on the screening bins 2, the feed port 6 is arranged on the crushing device 5, and the cylinder wall auxiliary screen 7 is symmetrically arranged on the side surface of the crushing device 5; the crushing device 5 comprises a second crushing bin 8, a second roller type crushing roller 9, a second spring safety device 10, a conical shunt baffle 11, a loose-leaf shunt device 12, a first crushing bin 13, a first roller type crushing roller 14 and a first spring safety device 15, the second crushing bin 8 is arranged on the sieving bin 2, the second roller type crushing roller 9 is symmetrically and rotatably arranged in the second crushing bin 8, the second spring safety device 10 is arranged on the side surface of one side of the second crushing bin 8 and is connected with the second roller type crushing roller 9 on one side, the conical shunt baffle 11 is arranged on the sieving bin 2 and is arranged in the second crushing bin 8, the loose-leaf shunt device 12 is arranged in the second crushing bin 8 and is arranged above the second roller type crushing roller 9, the first crushing bin 13 is detachably arranged on the second crushing bin 8, the first roller type crushing roller 14 is rotatably arranged in the first crushing bin 13, the first spring safeguard 15 is provided on the side of the first crushing bin 13 and is connected to the first roller crushing roller 14 on one side.

Divide sieve storehouse 2 to include rotating electrical machines 16, connecting rod 17, go-between 18, screen cloth support frame 19, W type screen cloth 20, auxiliary screen cloth 21 and the device 22 that induced drafts, rotating electrical machines 16 locates and divides under the 2 upper walls in sieve storehouse, connecting rod 17 is connected in the 16 output of rotating electrical machines, go-between 18 evenly cup joints on connecting rod 17, screen cloth support frame 19 sets up for W type structure, 19 one end of screen cloth support frame are connected in go-between 18 and the other end and are connected on the lateral wall of dividing sieve storehouse 2, W type screen cloth 20 is located on screen cloth support frame 19, auxiliary screen cloth 21 evenly locates to divide sieve storehouse 2 on keeping away from the lateral wall of transport bin 4 outward, the device 22 symmetry that induced drafts is located the upper end of dividing sieve storehouse 2 inside walls.

Transport bin 4 includes V type band conveyer 23, brush 24 and atomizer 25, V type band conveyer 23 is located in transport bin 4, V type band conveyer 23 below sets up for the slope structure, V type band conveyer 23 below is located to brush 24, the upper wall of transport bin 4 is located to the atomizer 25 symmetry under.

The loose-leaf shunting device 12 is made of rigid material at the upper end, flexible material at the lower hem and loose leaves.

The second roller type crushing rollers 9 are provided with two groups, the middle two rollers are fixed rollers, the two rollers on the two sides are movable rollers, and the two groups of roller types are respectively meshed in opposite directions.

The conical flow dividing baffle 11 is made of solid conical rigid materials.

The inner part of the W-shaped screen 20 is solid, and the periphery of the W-shaped screen is formed by screens.

When the device is used specifically, minerals are poured in through the feeding hole 6, the minerals are crushed through the first roller type crushing roller 14 and the second roller type crushing roller 9, when non-crushed objects or minerals with too hard hardness enter, the first spring safety device 15 and the second spring safety device 10 work, the springs are forced to compress, so that ore discharge is performed, the crushed minerals fall into the screening bin 2 through the conical diversion baffle plate 11, the rotary motor 16 is started, the rotary motor drives the W-shaped screen 20 to rotate through the connecting rod 17 and the screen support frame 19, the minerals on the W-shaped screen 20 do centrifugal motion, the minerals smaller than the diameter of the screen fall into the next layer of screen, the minerals larger than the diameter of the screen are thrown into the transportation bin 4 through centrifugal motion, the minerals are conveyed out through the V-shaped belt conveyor 23 after entering the transportation bin 4, the brush 24 plays a cleaning role in the rotating process of the V-shaped belt conveyor 23, meanwhile, the atomizer 25 can reduce dust pollution of the minerals in the transportation process.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (7)

1. The utility model provides a broken sieve fortune all-in-one of multi-level mineral which characterized in that: the device comprises supporting legs, a screening bin, a discharge port, a transportation bin, a crushing device, a feed port and a cylinder wall auxiliary screen, wherein the screening bin is arranged at the end part of the supporting legs, the discharge port is arranged below the screening bin, the transportation bin is arranged on the supporting legs and is arranged on one side of the screening bin, the crushing device is arranged on the screening bin, the feed port is arranged on the crushing device, and the cylinder wall auxiliary screen is symmetrically arranged on the side surface of the crushing device; the crushing device comprises a second crushing bin, a second roller type crushing roller, a second spring safety device, a conical flow dividing baffle, a loose-leaf flow dividing device, a first crushing bin, a first roller type crushing roller and a first spring safety device, the second crushing bin is arranged on the screening bin, the second roller type crushing rollers are symmetrically and rotatably arranged in the second crushing bin, the second spring safety device is arranged on the side surface of one side of the second crushing bin and is connected with the second roller type crushing roller on one side, the conical flow dividing baffle is arranged on the screening bin and in the second crushing bin, the loose-leaf flow dividing device is arranged in the second crushing bin and above the second roller type crushing roller, the first crushing bin is detachably arranged on the second crushing bin, the first roller type crushing roller is rotatably arranged in the first crushing bin, the first spring safety device is arranged on the side surface of one side of the first crushing bin and connected to the first roller type crushing roller on one side.

2. The multi-level mineral breaking, screening and transporting integrated machine according to claim 1, wherein: divide the sieve storehouse to include rotating electrical machines, connecting rod, go-between, screen cloth support frame, W type screen cloth, auxiliary screen cloth and the device that induced drafts, rotating electrical machines locates and divides under the sieve storehouse upper wall, the connecting rod is connected in the rotating electrical machines output, the go-between evenly cup joints on the connecting rod, the screen cloth support frame sets up for W type structure, screen cloth support frame one end is connected in go-between and the other end and is connected on the lateral wall that divides the sieve storehouse, the W type screen cloth is located on the screen cloth support frame, the auxiliary screen cloth evenly is located and is divided the sieve storehouse on keeping away from the lateral wall in transportation storehouse outward, the device symmetry that induced drafts is located and is divided the upper end of sieve storehouse inside wall.

3. The multi-level mineral breaking, screening and transporting integrated machine according to claim 1, wherein: the transportation storehouse includes V type band conveyer, brush and atomizer, V type band conveyer locates in the transportation storehouse, V type band conveyer below sets up for the slope structure, V type band conveyer below is located to the brush, the atomizer symmetry is located under the upper wall in transportation storehouse.

4. The multi-level mineral breaking, screening and transporting integrated machine according to claim 1, wherein: the loose-leaf shunting device is composed of a rigid material at the upper end, a flexible material at the lower hem and loose leaves.

5. The multi-level mineral breaking, screening and transporting integrated machine according to claim 1, wherein: the second roller type crushing rollers are provided with two groups, the middle two rollers are fixed rollers, the two rollers on the two sides are movable rollers, and the two groups of roller types are respectively meshed in opposite directions.

6. The multi-level mineral breaking, screening and transporting integrated machine according to claim 1, wherein: the conical flow dividing baffle is made of solid conical rigid materials.

7. The multi-level mineral breaking, screening and transporting integrated machine according to claim 2, wherein: the inner side part of the W-shaped screen is solid, and the periphery of the W-shaped screen is formed by the screen.

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