CN110833919A - Broken integrated system of cloth formula shale shaker that hangs down of many towers - Google Patents

Abstract

The invention provides a crushing integrated system of a multi-tower vertical distributed vibrating screen, and belongs to the technical field of crushing. It has solved current broken production line and has taken up an area of big, inefficiency scheduling problem. The material crushing and screening device comprises a material crushing production line and at least two placing frames which are vertically arranged, wherein each placing frame is provided with at least two layers, a height difference exists between each layer of the placing frames, each layer of the placing frames is provided with a crusher, a vibrating screen or a feeder according to the material feeding, crushing and screening sequence, and at least two vibrating screens are arranged. The invention has the advantages of centralized arrangement, land occupation saving, screening and crushing and high crushing efficiency.

Description

Broken integrated system of cloth formula shale shaker that hangs down of many towers

Technical Field

The invention belongs to the technical field of crushing, and particularly relates to a crushing integrated system of a multi-tower vertical distributed vibrating screen.

Background

The material crushing operation is not completed by a single machine at one time but completed by multi-machine multi-section crushing, and is matched with a feeding machine, a conveyor, a vibrating screen and other auxiliary machines, the raw material is generally conveyed to a first-stage crusher by the feeding machine firstly, after the first crushing is carried out, a product which is just crushed is conveyed to a second-stage crusher by the conveyor for secondary crushing, and then the product is conveyed to a third-stage crusher, a fourth-stage crusher and the like, finally the product is conveyed to the vibrating screen by the conveyor for screening, qualified finished products are classified and stored in a warehouse, unqualified products are returned to the crusher by the conveyor for secondary crushing, and a crushing production line is formed by the equipment. The crushing production line is widely applied to the field of building materials and the field of mining of mine resources.

The crushing production line of the traditional technology is an expanded mesh crushing production line mode, the crushing is divided into a plurality of sections, the two sections of crushing are connected by a linear conveyer belt of 25-35 meters, the occupied area is large, and the management is inconvenient; meanwhile, pollution such as dust, sewage, noise and the like is difficult to be radically treated; and the production workers are in the crushing production line, so that the hidden danger of safety is difficult to be radically treated.

The existing crushing production line is divided into two categories of 'fixed' and 'movable':

the fixed type has the advantages that: 1. the equipment installation is not limited by the length, the width and the high space, and the large-scale crushing production line is not limited; 2. the stone can be freely unfolded for conveying, which is very convenient; 3. the maintenance space is sufficient; the disadvantages are that: 1. once the construction of the crushing production line is completed, the crushing production line cannot move; 2. the occupied area is large; 3. the soil is invaded;

the advantages of the "mobile" are: 1. the operation can be moved to different places; 2. the soil is not invaded; 3. the installation is carried out again after the relocation, and the infrastructure cost is not required to be invested again; the disadvantages are that: 1. the equipment is limited by the length, width and height space of road transportation conditions and is only suitable for miniature and small crushing production lines; 2. the stone conveying mechanism is complex and has high manufacturing cost; 3. the maintenance space is narrow, which makes the maintenance extremely inconvenient.

Most of the existing crushing production lines are open-air production lines, a large amount of dust and noise are generated during operation, the environmental pollution is great, and the production and health are very unfavorable; in addition, the environmental protection requirements of national mine enterprises are getting tighter and tighter at present, and production is stopped if the environmental protection does not reach the standard; therefore, effective measures for preventing dust and noise pollution are necessary. Then, in order to reduce environmental pollution, mine enterprises take effective dust removal measures for crushing production lines at a time, and because the expanded crushing production line has a large floor area and adopts a unified house building mode, the construction is huge and is not advisable, some mine enterprises adopt a house building mode for single equipment, so that dust and noise are effectively treated, but inconvenience is brought to equipment management.

Disclosure of Invention

Aiming at the defects of the existing crushing production line, the invention provides a multi-tower vertical distributed type vibrating screen crushing integrated system which is characterized in that all material equipment is arranged in a centralized manner, is convenient for centralized treatment, can greatly save the occupied area and is convenient for operation and management, and is provided with a plurality of vibrating screens to improve the crushing efficiency.

The purpose of the invention can be realized by the following technical scheme:

a multi-tower vertical cloth type vibrating screen crushing integrated system comprises a material crushing production line, wherein the material crushing production line comprises a plurality of material devices, each material device is one of a feeding machine, a crusher and a vibrating screen, the feeding machine is only provided with one material device and is positioned at the starting end of the production line, and the multi-tower vertical cloth type vibrating screen crushing integrated system is characterized by further comprising at least two placing frames which are vertically arranged, each placing frame is provided with at least two layers, and height difference exists between the layers of the placing frames;

the crusher, the vibrating screen or the feeder are arranged on each layer of the placing frame according to the material feeding, crushing and screening sequence, and the crusher, the vibrating screen and the feeder are mutually conveyed through a conveying mechanism or by using the gravity of materials;

the vibrating screen is at least two, one vibrating screen is positioned at the tail end of the crushing production line, the discharging end of the vibrating screen is connected with a material conveying device used for outputting qualified materials, and the rest vibrating screens are arranged between the feeding machine and the crushing machine or between the crushing machine and the crushing machine.

In the crushing integrated system of the multi-tower vertical distributed vibrating screen, the vibrating screen is provided with two discharge ports.

In the crushing integrated system of the multi-tower vertical distributed vibrating screen, one vibrating screen is arranged between the feeding machine and the crusher, the feeding end of the vibrating screen is connected with the discharging port of the feeding machine, two discharging ports of the vibrating screen are respectively connected with the crusher, and the two crushers have a crushing sequence.

In the above-mentioned broken integrated system of many tower cloth formula of hanging down shale shaker, one of them shale shaker setting is between breaker and breaker, and the discharge gate of a breaker is connected to this shale shaker feed end, and one of them discharge gate of this shale shaker is connected and is located a breaker behind the breaker crushing order, and another discharge gate is equipped with a material conveying equipment.

In the above-mentioned multi-tower vertical distributed type vibrating screen crushing integrated system,

the upper and lower layer conveying belts are used for conveying materials to the lower layer material equipment by the upper layer material equipment and comprise one or more downlink conveying belts, the downlink conveying belts are linear and convey the materials from the upper side to the lower side, when the upper and lower layer conveying belts are combined by the plurality of downlink conveying belts, the plurality of downlink conveying belts are sequentially connected from the top to the bottom according to a conveying sequence, and in any two adjacent downlink conveying belts, the output end of the upper downlink conveying belt is positioned above the input end of the lower downlink conveying belt;

the lower upper-layer conveying belt is used for conveying materials to the upper-layer material equipment through the lower-layer material equipment and comprises one or more uplink conveying belt groups, the uplink conveying belts are linear, conveying directions of the uplink conveying belts are conveyed upwards from lower inclination, when the lower upper-layer conveying belts are combined by the multiple uplink conveying belts, the multiple uplink conveying belts are sequentially connected from bottom to top in a conveying sequence, and in any two adjacent uplink conveying belts, the output end of the uplink conveying belt below is located above the input end of the uplink conveying belt above.

In the crushing integrated system of the multi-tower vertical distributed vibrating screen, two adjacent material devices which are positioned on the same placing frame and have direct material conveying relationship from top to bottom are arranged in a butt joint mode, and material gravity is utilized for conveying materials.

In the crushing integrated system of the multi-tower vertical distributed vibrating screen, the material devices on the same placing frame are sequentially arranged from top to bottom according to the feeding, crushing and screening sequence.

In the above-mentioned multi-tower vertical distributed type vibrating screen crushing integrated system, the material crushing production line comprises a feeding machine, two crushers and two vibrating screens, the shelf is divided into a first shelf and a second shelf, the two crushers are divided into a first crusher and a second crusher, the two vibrating screens are divided into a first vibrating screen and a second vibrating screen, the feeding machine, the first crusher and the first vibrating screen are vertically distributed on the first shelf from top to bottom, the second crusher and the second vibrating screen are vertically distributed on the second shelf from top to bottom, the feeding machine and the first crusher are arranged in a butt joint mode through an upper conveying belt and a lower conveying belt or are arranged in a butt joint mode and utilize material gravity to carry out material conveying, the first crusher and the first vibrating screen are arranged in a butt joint mode and utilize material gravity to carry out material conveying, one of the discharge ports of the first vibrating screen is connected with the second crusher through the upper conveying belt, the other discharge port is connected with a material output device, the second crusher and the second vibrating screen are in butt joint, and material conveying is carried out by utilizing the gravity of the materials.

In foretell many towers cloth formula of hanging down shale shaker breakage integrated system, broken production line of material include a feeding machine, three breaker, two shale shakers, the aforesaid is laid and is erect and be equipped with two, divide into first dispenser and second dispenser, three breaker divide into first breaker, second breaker, third breaker, two shale shakers divide into first shale shaker, second shale shaker, first shale shaker, second shale shaker all are equipped with two discharge gates:

if a feeding machine, a first crusher and a second crusher are vertically distributed on a first placing frame from top to bottom, a first vibrating screen, a third crusher and a second vibrating screen are vertically distributed on a second placing frame from top to bottom, the feeding machine and the first crusher are arranged through upper and lower layers of conveyer belts or in a butt joint mode and utilize gravity to carry out material conveying, first crushing equipment and second crushers are arranged in a butt joint mode and utilize material gravity to carry out material conveying, the second crusher and the first vibrating screen carry out material conveying through lower and upper layers of material conveyer belts, one discharge port of the first vibrating screen is connected with material conveying equipment, the other discharge port of the first vibrating screen is arranged in a butt joint mode with the third crusher and utilizes gravity to carry out material conveying, and the third crusher and the second vibrating screen are arranged in a butt joint mode and utilize material gravity to carry out material conveying;

if a feeding machine, a first crusher, a third crusher and a second vibrating screen are vertically distributed on a first placing frame from top to bottom, a second crusher and a first vibrating screen are vertically distributed on a second placing frame from top to bottom, the feeding machine and the first crusher are used for conveying materials through upper and lower layers of conveying belts or butt joint arrangement, the first crusher and the second crusher are used for conveying the materials through the upper and lower layers of conveying belts, the second crusher and the first vibrating screen are arranged in butt joint arrangement and used for conveying the materials through the gravity of the materials, one discharge port of the first vibrating screen is connected with a material conveying device, the other discharge port of the first vibrating screen is connected with the third crusher through the lower and upper layers of conveying belts, and the third crusher and the second vibrating screen are arranged in butt joint arrangement and used for conveying the materials through the gravity;

if the feeding machine is vertically distributed on the first placing frame from top to bottom, the first crusher, the second crusher and the third crusher are vertically distributed on the second placing frame from top to bottom, the first vibrating screen and the second vibrating screen are vertically distributed on the second placing frame from top to bottom, the feeding machine and the first crusher are arranged through an upper layer conveying belt or a lower layer conveying belt or in butt joint and utilize gravity to carry out material conveying, the first crusher and the second crusher are arranged in butt joint and utilize gravity to carry out material conveying, the second crusher and the first vibrating screen carry out material conveying through a lower layer conveying belt and an upper layer conveying belt, one of the discharge ports of the first vibrating screen is connected with a material output device, the other discharge port is connected with the third crusher through the upper layer conveying belt and the lower layer conveying belt, and material conveying is carried out between the third crusher and the second vibrating screen through.

In the above-mentioned many tower cloth formula shale shaker breakage integrated system that hangs down:

if two adjacent material devices on the upper layer and the lower layer of the same placing frame are both crushers and have a direct material conveying relationship from top to bottom, the two crushers are jaw crushers or cone crushers or double-roll crushers or impact crushers, and the discharge port of the upper layer crusher is in straight line butt joint with the feed port of the lower layer crusher;

if two adjacent material devices on the upper layer and the lower layer of the same placing frame are all crushers and have a direct stone material conveying relationship from top to bottom, the two crushers are one of impact crushers or hammer crushers, and a discharge hole of the upper layer crusher is obliquely butted with a feed hole of the lower layer crusher;

if two adjacent material devices on the upper layer and the lower layer which are positioned on the same placing frame are both crushers and have direct stone conveying relation from top to bottom, the upper layer crusher is a jaw crusher or a cone crusher or a roll crusher or an impact crusher, the lower layer crusher is a counterattack crusher or a hammer crusher, and a discharge port of the upper layer crusher and a feed port of the lower layer crusher are obliquely butted;

if two adjacent material equipment on the upper and lower layers that lie in same dispenser are the breaker and have from last direct building stones transport relation extremely down, upper breaker be one of impact crusher or hammer crusher, lower floor's breaker be one of jaw crusher or cone crusher or to roll crusher or impact crusher, the discharge gate of upper breaker and the setting of butt joint of the feed inlet straight line of lower floor's breaker.

The innovation thought of the invention is as follows: the material concentration is realized through the mode of stacking from top to bottom, and all material equipment of the crushing production line are concentrated and respectively arranged on a plurality of towers according to the number of the material equipment and the proper height formed by stacking.

The invention has the remarkable structural characteristics that: at least two placing frames and at least two vibrating screens are arranged in the vertical arrangement of the material devices in the placing frames.

The core technology of the invention is as follows: the backward mode of the traditional expanded mesh crushing production line is overturned, and all the crushing production lines such as micro, small, medium, large and super-large are innovatively designed into a multi-tower mode with suitable height.

The invention has the advantages that all material equipment is arranged in a centralized way, and a foundation is established for environmental protection measures; the centralized equipment is integrated integrally, so that the process flow of the crushing production line is greatly simplified, precious land resources are protected and saved, the occupied area is greatly saved, the operation and the management are convenient, and the energy can be saved and the consumption can be reduced; the vibrating screen is equipped with a plurality ofly, in time sieves at crushing in-process, reduces repeated breakage, improves crushing efficiency.

Drawings

FIG. 1 is a schematic structural view of example 1 of the present invention;

FIG. 2 is a schematic structural diagram of example 2 of the present invention;

FIG. 3 is a schematic structural diagram according to embodiment 3 of the present invention;

FIG. 4 is a schematic structural diagram according to embodiment 4 of the present invention;

FIG. 5 is a schematic structural view of example 5 of the present invention;

FIG. 6 is a schematic structural view of the upper and lower conveyer belts;

fig. 7 is a schematic structural diagram of the lower and upper layer conveyor belts.

In the figure, 1, a feeder; 2. a first placing rack; 3. a second mounting rack; 4. a first crusher; 5. a second crusher; 6. a third crusher; 7. a first vibrating screen; 8. a second vibrating screen; 9. an upstream conveyor belt; 10. a downlink conveyor belt; 11. material output equipment.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

In each of the following embodiments the crusher, the vibrating screen and the feeder 1 are in material transport with respect to each other by means of a transport mechanism or material free fall. Conveying mechanism divide into upper and lower floor's conveyer belt and lower upper conveyer belt:

as shown in fig. 6, the upper and lower layer conveyer belts are used for the upper layer material equipment to convey materials to the lower layer material equipment, and include a down conveyer belt 10 or a combination of a plurality of down conveyer belts 10, the down conveyer belts 10 are linear and convey from up to down in the conveying direction, the inclination angle cannot be greater than 18 degrees, when the conveying fall between the material equipment is large, due to the limitation of the conveying angle, the upper and lower layer conveyer belts need to be formed by the combination of at least two down conveyer belts 10, each down conveyer belt 10 conveys from top to bottom in sequence, in two adjacent down conveyer belts 10, the output end of the down conveyer belt 10 located above is above the input end of the down conveyer belt 10 located below, and the projection of the extension lines of the two adjacent down conveyer belts 10 intersects;

as shown in fig. 7, the lower and upper layer conveyer belts are used for the lower layer material equipment to transport materials to the upper layer material equipment, and include one upward conveyer belt 9 or a combination of a plurality of upward conveyer belts 9, the upward conveyer belts 9 are linear and convey from down to up, the inclination angle cannot be greater than 18 degrees, when the conveying fall between the material equipment is large, due to the limitation of conveying angle, the lower and upper layer conveyer belts need to be formed by the combination of at least two upward conveyer belts 9, each upward conveyer belt 9 conveys from bottom to top in sequence, in two adjacent upward conveyer belts 9, the output end of the downward upward conveyer belt 9 is above the input end of the upward conveyer belt 9, and the projection of the extension lines of the two adjacent upward conveyer belts 9 is crossed.

Example 1

As shown in figure 1, a multi-tower vertical cloth type vibrating screen crushing integrated system comprises a material crushing production line and two placing frames, wherein the material crushing production line comprises a feeder 1, two crushers and two vibrating screens, the placing frames are at least provided with two layers, height difference exists between the layers, the placing frames are divided into a first placing frame 2 and a second placing frame 3, the two crushers are divided into a first crusher 4 and a second crusher 5, the two vibrating screens are divided into a first vibrating screen 7 and a second vibrating screen 8, the feeder 1, the first crusher 4 and the first vibrating screen 7 are vertically distributed on the first placing frame 2 from top to bottom, the second crusher 5 and the second vibrating screen 8 are vertically distributed on the second placing frame 3 from top to bottom, a discharge port of the feeder 1 is vertically butted with a feed port of the first crusher 4, materials fall into the feed port of the first crusher 4 through a free falling body, a discharge port at the bottom of the first crusher 4 is vertically butted with a feed end of the first vibrating screen 7, the material free fall falls to first shale shaker 7 on, first shale shaker 7 is equipped with two discharge gates, one of them discharge gate is through lower upper conveyer belt connection second breaker 5, lower upper conveyer belt includes three upward conveyer belts 9, a material output equipment 11 is connected to another discharge gate of first shale shaker 7 and is used for carrying qualified material, the bottom discharge gate of second breaker 5 is located 8 discharge end upper ends of second shale shaker, the material falls on second shale shaker 8 through the free fall, a material conveying equipment is connected to 8 one of them discharge gates of second shale shaker, be used for carrying qualified material, another discharge gate carries unqualified material.

Example 2

As shown in fig. 2, a broken integrated system of formula shale shaker that hangs down of many towers, including a broken production line of material and two dispenser shelves, the broken production line of material includes a feeder 1, three breaker, two shale shakers, the dispenser shelf is equipped with two-layerly at least, the height drop has between each layer, two dispenser shelves divide into first dispenser shelf 2 and second dispenser shelf 3, three breaker divide into first breaker 4, second breaker 5, third breaker 6, two shale shakers divide into first shale shaker 7, second shale shaker 8, first shale shaker 7, second shale shaker 8 all is equipped with two discharge gates: a feeding machine 1, a first crusher 4 and a second crusher 5 are vertically distributed on a first placing frame 2 from top to bottom, a first vibrating screen 7, a third crusher 6 and a second vibrating screen 8 are vertically distributed on a second placing frame 3 from top to bottom, a discharge port of the feeding machine 1 is vertically butted with a feed port of the first crusher 4, materials fall into the feed port of the first crusher 4 through a free falling body, a discharge port of the first crusher 4 is vertically butted with a feed port of the second crusher 5, the materials fall into the second crusher 5 through the self falling body, the second crusher 5 and the first vibrating screen 7 carry out material conveying through a lower layer material conveying belt and an upper layer conveying belt, the lower layer conveying belt comprises five upper conveying belts 9, one discharge port of the first vibrating screen 7 is connected with a material conveying device for conveying qualified materials, the other discharge port of the first vibrating screen 7 is butted with the third crusher 6 and carries out material conveying by utilizing gravity, the bottom discharge port of the third crusher 6 is positioned at the discharge end of the second vibrating screen 8 and is butted up and down, the material falls on the second vibrating screen 8 through a free falling body, one discharge port of the second vibrating screen 8 is connected with a material conveying device for conveying qualified materials, and the other discharge port of the second vibrating screen is used for conveying unqualified materials.

Example 3

The utility model provides a broken integrated system of formula shale shaker that hangs down in many towers, including a broken production line of material and two dispenser shelves, the broken production line of material includes a feeder 1, three breaker, two shale shakers, the dispenser shelf is equipped with two-layerly at least, the height drop has between each layer, two dispenser shelves divide into first dispenser shelf 2 and second dispenser shelf 3, three breaker divide into first breaker 4, second breaker 5, third breaker 6, two shale shakers divide into first shale shaker 7, second shale shaker 8, first shale shaker 7, second shale shaker 8 all is equipped with two discharge gates: a feeding machine 1, a first crusher 4, a third crusher 6 and a second vibrating screen 8 are vertically distributed on the first placing frame 2 from top to bottom, a second crusher 5 and a first vibrating screen 7 are vertically distributed on the second placing frame 3 from top to bottom,

the discharge port of the feeder 1 is vertically butted with the feed port of the first crusher 4, materials fall into the feed port of the first crusher 4 through a free falling body, the first crusher 4 and the second crusher 5 carry out material conveying through upper and lower layer conveying belts, the upper and lower layer conveying belts comprise a downlink conveying belt 10, the second crusher 5 is vertically butted with the first vibrating screen 7, the materials fall onto the first vibrating screen 7 under the action of gravity, one discharge port of the first vibrating screen 7 is connected with a material conveying device for conveying qualified materials, the other discharge port of the first vibrating screen 7 is connected with a third crusher 6 through a lower and upper layer conveying belt, the lower and upper layer conveying belt comprises three uplink conveying belts 9, the discharge port at the bottom of the third crusher 6 is located at the discharge end of the second vibrating screen 8 and vertically butted, the materials fall onto the second vibrating screen 8 through the free falling body, one discharge port of the second vibrating screen 8 is connected with a material conveying device, used for conveying qualified materials, and the other discharge port conveys unqualified materials.

Example 4

The utility model provides a broken integrated system of formula shale shaker that hangs down in many towers, including a broken production line of material and two dispenser shelves, the broken production line of material includes a feeder 1, three breaker, two shale shakers, the dispenser shelf is equipped with two-layerly at least, the height drop has between each layer, two dispenser shelves divide into first dispenser shelf 2 and second dispenser shelf 3, three breaker divide into first breaker 4, second breaker 5, third breaker 6, two shale shakers divide into first shale shaker 7, second shale shaker 8, first shale shaker 7, second shale shaker 8 all is equipped with two discharge gates: a feeding machine 1, a first crusher 4, a second crusher 5 and a third crusher 6 are vertically distributed on a first placing frame 2 from top to bottom, a first vibrating screen 7 and a second vibrating screen 8 are vertically distributed on a second placing frame 3 from top to bottom, a discharge port of the feeding machine 1 is vertically butted with a feed port of the first crusher 4, materials fall into the feed port of the first crusher 4 through a free falling body, a discharge port of the first crusher 4 is vertically butted with a feed port of the second crusher 5, the materials fall into the second crusher 5 through the free falling body, the second crusher 5 is connected with the first vibrating screen 7 through a lower upper layer conveyer belt which comprises three upper conveyer belts 9, one discharge port of the first vibrating screen 7 is connected with a material conveyer for conveying qualified materials, the other discharge port is connected with the third crusher 6 through an upper lower layer conveyer belt which comprises a lower conveyer belt 10, the third crusher 6 is connected with the second vibrating screen 8 through a lower upper layer conveying belt, the lower upper layer conveying belt comprises an uplink conveying belt 9, one of the discharge ports of the second vibrating screen 8 is connected with a material conveying device for conveying qualified materials, and the other discharge port of the second vibrating screen conveys unqualified materials.

Example 5

The utility model provides a broken integrated system of formula shale shaker that hangs down in many towers, including a broken production line of material and two dispenser shelves, the broken production line of material includes a feeder 1, two crushers, two shale shakers, the dispenser shelf is equipped with two-layerly at least, the height drop has between each layer, two dispenser shelves divide into first dispenser shelf 2 and second dispenser shelf 3, three crusher divide into first crusher 4, second crusher 5, two shale shakers divide into first shale shaker 7, second shale shaker 8, first shale shaker 7, second shale shaker 8 all is equipped with two discharge gates: the first placing frame 2 is provided with a feeding machine 1, a first vibrating screen 7, a first crusher 4 and a second placing frame 3 which are vertically distributed from top to bottom, a second crusher 5 and a second vibrating screen 8 are vertically distributed on the first placing frame 2 from top to bottom, a discharge port of the feeding machine 1 is positioned above the first vibrating screen 7, materials fall on the first vibrating screen 7 through a free falling body, one of the first vibrating screens 7 is connected with the second crusher through an ascending conveyer belt 9, the other discharge port is in butt joint with the first crusher 4, the materials screened by the first vibrating screen 7 are respectively conveyed to the first crusher 4 and the second crusher 5 for crushing, the particles of the materials entering the first crusher are larger than the particles of the materials entering the second crusher 5, the discharge port of the second crusher 5 is positioned above the feed end of the second vibrating screen 8, one of the discharge ports of the second vibrating screen 8 is connected with a material conveying device for conveying qualified materials, and the other discharge port conveys unqualified materials.

The crusher in each of the above embodiments may be one of a jaw crusher, a roller crusher, a cone crusher, a counterimpact crusher, a hammer crusher, an impact crusher or other crushers:

if two adjacent material devices on the upper layer and the lower layer of the same placing frame are all crushers and have a direct stone conveying relationship from top to bottom, the two crushers are jaw crushers or cone crushers or double-roll crushers or impact crushers, and the discharge port of the upper layer crusher is in straight line butt joint with the feed port of the lower layer crusher;

if two adjacent material devices on the upper layer and the lower layer of the same placing frame are all crushers and have a direct stone material conveying relationship from top to bottom, the two crushers are one of impact crushers or hammer crushers, and a discharge hole of the upper layer crusher is obliquely butted with a feed hole of the lower layer crusher;

if two adjacent material devices on the upper layer and the lower layer of the same placing frame are both crushers and have a direct stone material conveying relationship from top to bottom, the upper-layer crusher is a jaw crusher or a cone crusher or a pair roller crusher or an impact crusher, the lower-layer crusher is a counterattack crusher or a hammer crusher, and a discharge port of the upper-layer crusher and a feed port of the lower-layer crusher are obliquely butted;

if two adjacent material equipment on the upper and lower floor that lie in same dispenser are the breaker and have from last direct building stones transport relation extremely down, upper breaker be one of impact crusher or hammer crusher, lower floor's breaker be one of jaw crusher or cone crusher or to roll crusher or impact crusher, the discharge gate of upper breaker and the setting of butt joint of the feed inlet straight line of lower floor's breaker.

The placing frame comprises a transverse supporting frame for placing material equipment and a vertical supporting frame for supporting the transverse supporting frame; the vertical support frame and the horizontal support frame are quick in mounting and dismounting structures.

It is to be understood that in the claims, the specification of the present invention, all "including … …" are to be interpreted in an open-ended sense, i.e., in a sense equivalent to "including at least … …", and not in a closed sense, i.e., in a sense not to be interpreted as "including only … …".

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (10)

1. A multi-tower vertical cloth type vibrating screen crushing integrated system comprises a material crushing production line, wherein the material crushing production line comprises a plurality of material devices, each material device is one of a feeding machine, a crusher and a vibrating screen, the feeding machine is only provided with one material device and is positioned at the starting end of the production line, and the multi-tower vertical cloth type vibrating screen crushing integrated system is characterized by further comprising at least two placing frames which are vertically arranged, each placing frame is provided with at least two layers, and height difference exists between the layers of the placing frames;

the crusher, the vibrating screen or the feeder are arranged on each layer of the placing frame according to the material feeding, crushing and screening sequence, and the crusher, the vibrating screen and the feeder are mutually conveyed through a conveying mechanism or by using the gravity of materials;

the vibrating screen is at least two, one vibrating screen is positioned at the tail end of the crushing production line, the discharging end of the vibrating screen is connected with a material conveying device used for outputting qualified materials, and the rest vibrating screens are arranged between the feeding machine and the crushing machine or between the crushing machine and the crushing machine.

2. The integrated crushing system for the multi-tower vertical distributed vibrating screens of claim 1, wherein each vibrating screen is provided with two discharge ports.

3. The integrated crushing system of the multi-tower vertical distributed vibrating screen as claimed in claim 2, wherein a vibrating screen is arranged between the feeding machine and the crusher, the feeding end of the vibrating screen is connected with the discharging port of the feeding machine, two discharging ports of the vibrating screen are respectively connected with a crusher, and the two crushers have a crushing sequence.

4. The integrated multi-tower vertical distributed vibrating screen crushing system as claimed in claim 2 or 3, wherein a vibrating screen is arranged between the crusher and the crusher, the feeding end of the vibrating screen is connected with the discharge port of the crusher, one discharge port of the vibrating screen is connected with the crusher after the crushing sequence of the crusher, and the other discharge port of the vibrating screen is provided with a material conveying device.

5. The integrated system of claim 4, wherein the integrated system comprises a plurality of vertical tower distributed vibratory screen crushing units,

the upper and lower layer conveying belts are used for conveying materials to the lower layer material equipment by the upper layer material equipment and comprise one or more downlink conveying belts, the downlink conveying belts are linear and convey the materials from the upper side to the lower side, when the upper and lower layer conveying belts are combined by the plurality of downlink conveying belts, the plurality of downlink conveying belts are sequentially connected from the top to the bottom according to a conveying sequence, and in any two adjacent downlink conveying belts, the output end of the upper downlink conveying belt is positioned above the input end of the lower downlink conveying belt;

the lower upper-layer conveying belt is used for conveying materials to the upper-layer material equipment through the lower-layer material equipment and comprises one or more uplink conveying belt groups, the uplink conveying belts are linear, conveying directions of the uplink conveying belts are conveyed upwards from lower inclination, when the lower upper-layer conveying belts are combined by the multiple uplink conveying belts, the multiple uplink conveying belts are sequentially connected from bottom to top in a conveying sequence, and in any two adjacent uplink conveying belts, the output end of the uplink conveying belt below is located above the input end of the uplink conveying belt above.

6. The integrated multi-tower vertical distributed vibrating screen crushing system as claimed in claim 4, wherein two adjacent material devices located on the same shelf and having a direct material conveying relationship from top to bottom are arranged in a butt joint mode and material gravity is used for material conveying.

7. The integrated crushing system of the multi-tower vertical distributed vibrating screen as claimed in claim 6, wherein the material devices on the same placing rack are arranged from top to bottom in sequence according to the feeding crushing screening sequence.

8. The integrated multi-tower vertical-cloth type vibrating screen crushing system according to claim 7, wherein the material crushing production line comprises a feeding machine, two crushing machines and two vibrating screens, the shelf is divided into a first shelf and a second shelf, the two crushing machines are divided into a first crushing machine and a second crushing machine, the two vibrating screens are divided into a first vibrating screen and a second vibrating screen, the feeding machine, the first crushing machine and the first vibrating screen are vertically arranged on the first shelf from top to bottom, the second crushing machine and the second vibrating screen are vertically arranged on the second shelf from top to bottom, the feeding machine and the first crushing machine are arranged in a butt joint mode through upper and lower conveyer belts or in a butt joint mode and utilize material gravity to carry out material conveying, the first crushing machine is arranged in a butt joint mode with the first vibrating screen and utilize material gravity to carry out material conveying, one of discharge ports of the first vibrating screen is connected with the second crushing machine through the lower and upper conveyer belts, another discharge gate is connected a material output device, and the butt joint setting between second breaker and the second shale shaker utilizes material gravity to carry out the material and carries.

9. The integrated system of claim 7, wherein the material crushing line comprises a feeder, three crushers and two vibrating sieves, the two supporters are divided into a first supporter and a second supporter, the three crushers are divided into a first crusher, a second crusher and a third crusher, the two vibrating sieves are divided into a first vibrating sieve and a second vibrating sieve, and the first vibrating sieve and the second vibrating sieve are both provided with two discharge ports:

if a feeding machine, a first crusher and a second crusher are vertically distributed on a first placing frame from top to bottom, a first vibrating screen, a third crusher and a second vibrating screen are vertically distributed on a second placing frame from top to bottom, the feeding machine and the first crusher are arranged through upper and lower layers of conveyer belts or in a butt joint mode and utilize gravity to carry out material conveying, first crushing equipment and second crushers are arranged in a butt joint mode and utilize material gravity to carry out material conveying, the second crusher and the first vibrating screen carry out material conveying through lower and upper layers of material conveyer belts, one discharge port of the first vibrating screen is connected with material conveying equipment, the other discharge port of the first vibrating screen is arranged in a butt joint mode with the third crusher and utilizes gravity to carry out material conveying, and the third crusher and the second vibrating screen are arranged in a butt joint mode and utilize material gravity to carry out material conveying;

if a feeding machine, a first crusher, a third crusher and a second vibrating screen are vertically distributed on a first placing frame from top to bottom, a second crusher and a first vibrating screen are vertically distributed on a second placing frame from top to bottom, the feeding machine and the first crusher are used for conveying materials through upper and lower layers of conveying belts or butt joint arrangement, the first crusher and the second crusher are used for conveying the materials through the upper and lower layers of conveying belts, the second crusher and the first vibrating screen are arranged in butt joint arrangement and used for conveying the materials through the gravity of the materials, one discharge port of the first vibrating screen is connected with a material conveying device, the other discharge port of the first vibrating screen is connected with the third crusher through the lower and upper layers of conveying belts, and the third crusher and the second vibrating screen are arranged in butt joint arrangement and used for conveying the materials through the gravity;

if the feeding machine is vertically distributed on the first placing frame from top to bottom, the first crusher, the second crusher and the third crusher are vertically distributed on the second placing frame from top to bottom, the first vibrating screen and the second vibrating screen are vertically distributed on the second placing frame from top to bottom, the feeding machine and the first crusher are arranged through an upper layer conveying belt or a lower layer conveying belt or in butt joint and utilize gravity to carry out material conveying, the first crusher and the second crusher are arranged in butt joint and utilize gravity to carry out material conveying, the second crusher and the first vibrating screen carry out material conveying through a lower layer conveying belt and an upper layer conveying belt, one of the discharge ports of the first vibrating screen is connected with a material output device, the other discharge port is connected with the third crusher through the upper layer conveying belt and the lower layer conveying belt, and material conveying is carried out between the third crusher and the second vibrating screen through.

10. The integrated multi-tower vertical distributed vibratory screen crushing system as recited in claim 9,

if two adjacent material devices on the upper layer and the lower layer of the same placing frame are both crushers and have a direct material conveying relationship from top to bottom, the two crushers are jaw crushers or cone crushers or double-roll crushers or impact crushers, and the discharge port of the upper layer crusher is in straight line butt joint with the feed port of the lower layer crusher;

if two adjacent material devices on the upper layer and the lower layer of the same placing frame are all crushers and have a direct stone material conveying relationship from top to bottom, the two crushers are one of impact crushers or hammer crushers, and a discharge hole of the upper layer crusher is obliquely butted with a feed hole of the lower layer crusher;

if two adjacent material devices on the upper layer and the lower layer which are positioned on the same placing frame are both crushers and have direct stone conveying relation from top to bottom, the upper layer crusher is a jaw crusher or a cone crusher or a roll crusher or an impact crusher, the lower layer crusher is a counterattack crusher or a hammer crusher, and a discharge port of the upper layer crusher and a feed port of the lower layer crusher are obliquely butted;

if two adjacent material equipment on the upper and lower layers that lie in same dispenser are the breaker and have from last direct building stones transport relation extremely down, upper breaker be one of impact crusher or hammer crusher, lower floor's breaker be one of jaw crusher or cone crusher or to roll crusher or impact crusher, the discharge gate of upper breaker and the setting of butt joint of the feed inlet straight line of lower floor's breaker.

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