CN209903629U - Automatic mineral aggregate cutting system - Google Patents

Abstract

The utility model discloses an automatic mineral aggregate cutting system, which comprises a raw material bin, wherein the discharge end of the raw material bin is sequentially provided with a cutting feeding frame, a slitting feeding frame, a screening device, a tailing lifting device and a finished product discharging device; through above-mentioned device, finally can cut into the material cubic to sieve through screening plant, sieve qualified outwards to be carried by finished product discharging device, unqualified volume is still great to send back to raw materials storehouse in through tails hoisting device promptly, waits for the secondary cutting to handle, at the material cutting in-process, does not need artificial intervention, and full automation goes on, and cutting efficiency is high, and convenient to use is laborsaving.

Description

Automatic mineral aggregate cutting system

Technical Field

The utility model relates to a soft mineral aggregate cutting equipment technical field especially relates to an automatic stripping and slicing system of mineral aggregate.

Background

In the mineral aggregate processing industry, especially some mineral aggregate processing enterprises with soft texture similar to magnesium, aluminum and the like, the material needs to be processed into individuals with small volume so as to facilitate subsequent processing or form semi-finished products, and because the mineral aggregate has soft texture, the mineral aggregate is difficult to be crushed by using traditional material crushing equipment for processing, the efficiency of manual cutting processing is limited, and the working strength is high, so that the equipment which can be specially used for cutting the soft-texture mineral aggregate is urgently needed to be designed to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an automatic mineral aggregate dicing system that simple to use, cutting efficiency are high is provided.

In order to solve the technical problem, the technical scheme of the utility model is that: the mineral aggregate automatic cutting system comprises a raw material bin, wherein a cutting feeding rack is arranged at the discharge end of the raw material bin, a cutting feeding device is arranged on the cutting feeding rack in a transmission manner, two cutting material blocking vertical plates are oppositely arranged on the cutting feeding rack and positioned on two sides of the feeding direction of the cutting feeding device, a cutting power rack is arranged across the cutting feeding rack, and a cutting device is arranged on the cutting power rack; a slitting feeding rack is vertically arranged at the discharge end of the slitting feeding rack, a slitting feeding device is installed on the slitting feeding rack in a transmission manner, two slitting material blocking vertical plates are oppositely installed on the slitting feeding rack and positioned on two sides of the feeding direction of the slitting feeding device, a slitting power rack is arranged across the slitting feeding rack, and a slitting device is installed on the slitting power rack; the automatic slicing machine is characterized in that a cutting feeding rack is vertically arranged at the discharging end of the cutting feeding rack, the cutting feeding rack is arranged in parallel with the cutting feeding rack, a cutting feeding device is installed on the cutting feeding rack in a transmission mode, two cutting material blocking vertical plates are oppositely installed on two sides of the feeding direction of the cutting feeding device and traverse to the cutting feeding rack, a cutting power rack is arranged on the cutting power rack, a screening device is arranged at the discharging end of the cutting power rack, a material distributing bin is arranged at the discharging end of the screening device, a tail material lifting device is accepted at one side of the material distributing bin, the discharging end of the tail material lifting device is arranged right above a raw material bin, and a finished product discharging device is accepted at the other side of the material distributing bin.

According to the preferable technical scheme, the section feeding device comprises two chain plate driving rollers which are relatively and rotatably mounted on the section feeding rack, a section feeding chain plate is arranged between the two chain plate driving rollers, cutting grooves are uniformly distributed in the section feeding chain plate, one chain plate driving roller is fixedly connected with a roller gear, and an intermittent feeding device is arranged in transmission with the roller gear.

As a preferable technical scheme, the intermittent feeding device comprises an intermittent feeding oil cylinder arranged at the top of the slicing power machine frame, an intermittent feeding driving rod is fixedly arranged on a piston rod of the intermittent feeding oil cylinder, a driving rack is fixedly arranged on the intermittent feeding driving rod, a transmission gear is meshed with the driving rack, a driving rod idler wheel matched with the transmission gear is arranged on one side of the intermittent feeding driving rod, the transmission gear is in transmission connection with a driving gear through a one-way clutch, and the driving gear is in transmission connection with the roller gear.

According to a preferable technical scheme, the slicing device comprises a cutter holder arranged at the end part of a piston rod of the intermittent feeding oil cylinder, a slicing cutter is fixedly arranged on the cutter holder, and at least one slicing and pressing device is further arranged on the side part of the cutter holder.

According to the preferable technical scheme, the slice pressing device comprises a pressing seat fixedly mounted on the cutter holder, the pressing seat is arranged on the feeding side of the slice feeding rack, a pressing rod extending downwards is mounted at the bottom of the pressing seat in an inserted connection mode, a buffer spring is arranged between the pressing seat and the pressing rod, and a pressing plate is fixedly connected to the bottom end of the pressing rod.

According to a preferable technical scheme, the material distribution bin comprises a bin body, a finished product cavity and a tailing cavity are arranged in the bin body at intervals, a finished product discharge port is communicated with the bottom of the finished product cavity and extends to a feed end of the finished product discharge device, a tailing discharge port is communicated with the bottom of the tailing cavity and extends to the tailing lifting device.

As the preferred technical scheme, the screening device comprises a screening rack arranged at the discharge end of the slitting and feeding rack, at least two layers of material shaking screens are obliquely arranged on the screening rack, the discharge end of each material shaking screen at the top layer is arranged right above the tailing cavity, and the discharge end of each material shaking screen at the bottom layer is arranged right above the finished product cavity.

As an optimized technical scheme, the tailing lifting device comprises a lifting frame which is obliquely arranged, two lifting rollers are relatively rotatably mounted on the lifting frame, a lifting conveying belt is arranged between the two lifting rollers, and the discharge end of the lifting conveying belt is arranged right above the raw material bin.

As an improvement on the technical scheme, the finished product discharging device comprises a discharging rack, wherein two discharging rollers are rotatably mounted on the discharging rack relatively, and a discharging conveying belt is arranged between the two discharging rollers.

Since the technical scheme is used, the beneficial effects of the utility model are that: through this device, at first can utilize the section device to cut into slice structure with the mineral aggregate, then carry slice mineral aggregate to the slitting feed arrangement on, cut into the strip structure by the slitting device, along with the antecedent of slitting feed arrangement, carry to on the dicing feed arrangement, cut into the cubic by the dicing device, and sieve through screening plant, the qualified small square material of screening is outwards carried by finished product discharging device, unqualified is volume still great and sends back to raw materials storehouse in through the tails hoisting device, wait for the secondary cutting to handle, this device is in the whole cutting process of material, all need not artificial intervention, full automation goes on, the cutting efficiency is high, and convenient to use is laborsaving.

Drawings

The drawings are only intended to illustrate and explain the present invention and do not limit the scope of the invention. Wherein:

fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is a schematic view of the arrangement structure of the slicing feeding chain plate, the slitting feeding chain plate and the dicing feeding chain plate according to the embodiment of the present invention;

fig. 3 is an enlarged schematic view of a part of the structure of a slicing and feeding chain plate according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of the slicing and feeding frame, the slitting and feeding frame and related components according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of the dicing and feeding frame, the screening device, the tailing lifting device, the finished product discharging device and related components according to the embodiment of the present invention;

fig. 6 is a schematic structural diagram of a slicing and feeding rack, a slicing and feeding device and related components according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a slicing apparatus, an intermittent feeding apparatus and related components according to an embodiment of the present invention;

fig. 8 is a side view of a slicing apparatus according to an embodiment of the present invention;

fig. 9 is a schematic structural view of an intermittent feeding device according to an embodiment of the present invention;

in the figure: 1-raw material bin; 2-a slice feeding rack; 3-slicing and blocking vertical plates; 4-a slicing power frame; 5-chain plate driving roller; 61-a slicing and feeding chain plate; 62-slitting and feeding chain plate; 63-cutting and feeding chain plates; 7-grooving; 8-a roller gear; 9-intermittent feed drive rod; 10-a drive rack; 11-a transmission gear; 12-a drive gear; 13-intermittent feed cylinder; 14-a tool apron; 15-a slicing knife; 16-a material pressing seat; 17-a swaging rod; 18-a buffer spring; 19-a pressure plate; 20-slitting and feeding rack; 21-cutting a strip material blocking vertical plate; 22-a slitting power frame; 23-a dicing and feeding rack; 24-cutting the block blocking vertical plate; 25-screening machine frame; 26-shaking the material screen; 27-a material distribution bin; 28-finished product discharge port; 29-tailing discharge port; 30-lifting the frame; 31-a lift roller; 32-a lifting conveyor belt; 33-a discharge frame; 34-a discharge roller; 35-an outfeed conveyor; 36-drive rod by wheel.

Detailed Description

The invention is further explained below with reference to the drawings and examples. In the following detailed description, certain exemplary embodiments of the present invention have been described by way of illustration only. Needless to say, a person skilled in the art will recognize that the described embodiments can be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and not intended to limit the scope of the claims.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, the automatic mineral aggregate cutting system comprises a raw material bin 1, the raw material bin 1 is used for containing raw materials and cutting produced tailings, a slice feeding rack 2 is arranged at the discharge end of the raw material bin 1, a slice feeding device is installed on the slice feeding rack 2 in a transmission manner, two slice blocking vertical plates 3 are installed on the slice feeding rack 2 and are oppositely positioned on two sides of the feeding direction of the slice feeding device, when mineral aggregates are cut, the mineral aggregates can be prevented from being splashed outwards due to the cutting force, and therefore the mineral aggregates can be smoothly fed forward under the driving of the slice feeding device. A slice power frame 4 is arranged across the slice feeding frame 2, the slice power frame 4 can be arranged into two door-shaped frames which are arranged in parallel across the slice feeding frame 2, a slice device is arranged on the slice power frame 4, and the slice device is arranged between the two door-shaped frames.

As shown in fig. 7 and 9, the slicing and feeding device includes two chain plate driving rollers 5 relatively rotatably mounted on the slicing and feeding frame 2, a slicing and feeding chain plate 61 is disposed between the two chain plate driving rollers 5, cutting grooves 7 are uniformly distributed on the slicing and feeding chain plate 61, the slicing and feeding chain plate 61 is formed by connecting a plurality of chain plate monomers, and each chain plate monomer is provided with a cutting groove 7. One of the chain plates drives the roller 5 to be fixedly connected with a roller gear 8, and an intermittent feeding device is arranged in transmission with the roller gear 8. Specifically, intermittent type feeding device is including installing the intermittent type feed cylinder 13 at 4 tops of section power frame, fixed mounting has intermittent type to feed the actuating lever 9 on the piston rod of intermittent type feed cylinder 13, fixed mounting has drive rack 10 on the intermittent type feed actuating lever 9, with drive rack 10 meshes there is drive gear 11, intermittent type feed actuating lever 9 one side with drive gear 11 is equipped with the cooperation relatively and uses the actuating lever depended wheel 36, drive gear 11 is connected with drive gear 12 through the one-way clutch transmission, drive gear 12 transmission is connected to roller gear 8.

The working principle of the intermittent feeding device is as follows:

the intermittent type feed actuating lever 9 passes through drive rack 10 with transmission gear 11's meshing contact, works as drive rack 10 drives when transmission gear 11 rotates, because transmission gear 11 with the coaxial setting of drive gear 12, both can synchronous revolution, one way clutch's setting can be guaranteed to work as when intermittent type feed actuating lever 9 went upward, make drive gear 12 with transmission gear 11 breaks away from under the cooperation of intermittent type feed depended wheel, make intermittent type feed actuating lever 9 can go upward smoothly, and then guarantees drive gear 12 only can carry out unidirectional rotation towards the direction that the material was marchd. The intermittent feeding oil cylinder 13 drives the intermittent feeding driving rod 9 to move downwards, and the roller gear 8 is driven to rotate through the matching of the driving rack 10, the transmission gear 11 and the driving gear 12, so that the slicing and feeding chain plate 61 is driven to feed, and intermittent feeding is realized. Through multiple times of debugging, the slicing device can stop feeding the slicing feeding chain plate 61 when cutting, and the slicing device starts feeding the slicing feeding chain plate 61 when lifting a knife, so that the perfect matching of cutting and feeding is realized.

As shown in fig. 6, 7 and 8, the slicing device includes a knife holder 14 mounted at an end of the piston rod of the intermittent feed cylinder 13, a slicing knife 15 is fixedly mounted on the knife holder 14, and at least one slicing and pressing device is further mounted at a side of the knife holder 14. By adjusting the intermittent feeding device, the slicing knife 15 can be guaranteed to be opposite to the cutting groove 7 every time the slicing knife falls down, so that the end part of the slicing knife 15 can descend into the cutting groove 7, and mineral aggregates are guaranteed to be thoroughly cut off.

At least one section press device is still installed to the 14 lateral parts of blade holder, section press device include fixed mounting be in pressure material seat 16 on the blade holder 14, pressure material seat 16 locates the feeding side of section pay-off frame 2, 16 bottom grafting of pressure material seat are installed downwardly extending's pressure material pole 17, pressure material seat 16 with be equipped with buffer spring 18 between the pressure material pole 17, pressure material pole 17 bottom fixedly connected with presses flitch 19. When the intermittent feeding oil cylinder 13 descends, the pressure plate 19 firstly contacts with mineral aggregate, and along with the continuous descending of the intermittent feeding oil cylinder 13, the pressure plate 19 is blocked and does not descend any more, at the moment, due to the arrangement of the buffer spring 18, the pressure plate 19 cannot block the descending of the slicing knife 15, so that the pressure plate 19 plays a role in compressing the mineral aggregate in the cutting process of the mineral aggregate, and the cutting is smoothly carried out. When cutting is performed, the slicing and feeding chain plate 61 stops working, and the slicing and feeding chain plate 61 starts feeding synchronously in the process that the slicing knife 15 is lifted.

A slitting feeding rack 20 is vertically arranged at the discharge end of the slitting feeding rack 2, a slitting feeding device is arranged on the slitting feeding rack 20 in a transmission manner, two slitting material blocking vertical plates 21 are oppositely arranged on the slitting feeding rack 20 and positioned on two sides of the feeding direction of the slitting feeding device, a slitting power rack 22 is arranged transversely on the slitting feeding rack 20, a slitting device is arranged on the slitting power rack 22, the specific structure of the slitting feeding device is similar to that of the slitting feeding device, the specific structure of the slitting device is similar to that of the slitting device, and a slitting feeding chain plate 62 is arranged on the slitting feeding device, which will not be described in detail herein.

A cutting block feeding rack 23 is vertically arranged at the discharge end of the cutting block feeding rack 2, the cutting block feeding rack 23 is parallel to the cutting block feeding rack 2, a cutting block feeding device is installed on the cutting block feeding rack 23 in a transmission manner, two cutting block blocking vertical plates 24 are oppositely installed on the cutting block feeding rack 23 and located on two sides of the feeding direction of the cutting block feeding device, a cutting block power rack is arranged across the cutting block feeding rack 23, a cutting block device is installed on the cutting power rack, the specific structure of the cutting block feeding device is similar to that of the cutting block feeding device, the specific structure of the cutting block device is similar to that of the cutting block device, and a cutting block feeding chain plate 63 is arranged on the cutting block feeding device and will not be described in detail here.

As shown in fig. 3, the slicing feeding chain plate 61, the slitting feeding chain plate 62 and the dicing feeding chain plate 63 are vertically arranged at an angle of 90 ° respectively. Mineral aggregate is conveyed to the slicing knife 15 from the raw material bin 1, slicing processing is firstly carried out, the sliced mineral aggregate is conveyed to the slitting feeding chain plate 62 through the slitting feeding chain plate 61, slitting processing is carried out, and the sliced strip mineral aggregate is conveyed to the slitting feeding chain plate 63 for slitting processing.

As shown in fig. 1 and fig. 5, the discharging end of the dicing power frame is provided with a screening device, the screening device includes a screening frame 25 disposed at the discharging end of the dicing feeding frame 20, the screening frame 25 is provided with at least two layers of material shaking screens 26, the material shaking screens 26 are connected to a material shaking motor, which is well known to those skilled in the art, the discharging end of the material shaking screen 26 at the top layer is disposed directly above the tailing cavity, the discharging end of the material shaking screen 26 at the bottom layer is disposed directly above the finished product cavity, the lump mineral material passes through the material shaking screen 26, the small lump descends to the material shaking screen 26 at the lower layer, the large lump is left on the material shaking screen 26 at the upper layer, the discharging end of the screening device is provided with a material separating bin 27, a tailing lifting device is received at one side of the material separating bin 27, the discharging end of the tailing lifting device is disposed directly above the raw material bin 1, the other side of the distributing bin 27 is connected with a finished product discharging device. Divide feed bin 27 to include the storehouse body, the internal interval in storehouse is equipped with finished product chamber and tails chamber, finished product chamber bottom intercommunication is equipped with finished product discharge gate 28, finished product discharge gate 28 extends to finished product discharging device's feed end, tails chamber bottom intercommunication is equipped with tails discharge gate 29, tails discharge gate 29 extends to tails hoisting device.

The tailings lifting device comprises a lifting frame 30 which is obliquely arranged, two lifting rollers 31 and two lifting belts 32 are mounted on the lifting frame 30 in a relatively rotating mode, the discharging ends of the lifting belts 32 are arranged right above the raw material bin 1, and the lifting belts 32 can convey large blocks screened out to the raw material bin 1 to wait for secondary cutting. Finished product discharging device includes discharging frame 33, relative rotation installs two discharging rollers 34 on discharging frame 33, two be equipped with discharge conveyor 35 between the discharging roller 34, the qualified mineral aggregate of stripping and slicing passes through discharge conveyor 35 outwards carries.

The utility model discloses a this device, at first, can utilize the section device to cut into slice structure with the mineral aggregate, then carry slice mineral aggregate to the slitting feed arrangement on, cut into the strip structure by the slitting device, along with the antecedent of slitting feed arrangement, carry to on the slitting feed arrangement, cut into blockily by the slitting device, and sieve through screening plant, sieve qualified small square material and outwards carry by finished product discharging device, unqualified is that the volume is still great and send back to in raw materials storehouse 1 through tails hoisting device, wait for the secondary cutting to handle, this device is in the whole cutting process of material, all do not need human intervention, full automation goes on, the cutting efficiency is high, and convenient to use is laborsaving.

The basic principles, main features and advantages of the present invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. Automatic slabbing system of mineral aggregate, including former feed bin, its characterized in that: the slicing and feeding device comprises a slicing and feeding rack, a slicing and feeding device, two slicing and material blocking vertical plates, a slicing power rack and a slicing device, wherein the slicing and feeding rack is arranged at the discharge end of the raw material bin, the slicing and feeding device is installed on the slicing and feeding rack in a transmission manner, the two slicing and material blocking vertical plates are oppositely installed on the slicing and feeding rack and are positioned on two sides of the slicing and feeding device in the feeding direction, the slicing power rack is transversely arranged on the; a slitting feeding rack is vertically arranged at the discharge end of the slitting feeding rack, a slitting feeding device is installed on the slitting feeding rack in a transmission manner, two slitting material blocking vertical plates are oppositely installed on the slitting feeding rack and positioned on two sides of the feeding direction of the slitting feeding device, a slitting power rack is arranged across the slitting feeding rack, and a slitting device is installed on the slitting power rack; the automatic slicing machine is characterized in that a cutting feeding rack is vertically arranged at the discharging end of the cutting feeding rack, the cutting feeding rack is arranged in parallel with the cutting feeding rack, a cutting feeding device is installed on the cutting feeding rack in a transmission mode, two cutting material blocking vertical plates are oppositely installed on two sides of the feeding direction of the cutting feeding device and traverse to the cutting feeding rack, a cutting power rack is arranged on the cutting power rack, a screening device is arranged at the discharging end of the cutting power rack, a material distributing bin is arranged at the discharging end of the screening device, a tail material lifting device is accepted at one side of the material distributing bin, the discharging end of the tail material lifting device is arranged right above a raw material bin, and a finished product discharging device is accepted at the other side of the material distributing bin.

2. The automatic mineral material slicing system of claim 1, wherein: the section feeding device comprises two chain plate driving rollers which are rotatably mounted on the section feeding rack relatively, a section feeding chain plate is arranged between the two chain plate driving rollers, cutting grooves are uniformly formed in the section feeding chain plate, one chain plate driving roller is fixedly connected with a roller gear, and an intermittent feeding device is arranged in the roller gear transmission mode.

3. The automatic mineral material slicing system of claim 2, wherein: the intermittent feeding device comprises an intermittent feeding oil cylinder arranged at the top of the slicing power machine frame, an intermittent feeding driving rod is fixedly arranged on a piston rod of the intermittent feeding oil cylinder, a driving rack is fixedly arranged on the intermittent feeding driving rod, a transmission gear is meshed with the driving rack, a driving rod idler wheel matched with the transmission gear for use is arranged on one side of the intermittent feeding driving rod and is opposite to the transmission gear, the transmission gear is in transmission connection with a driving gear through a one-way clutch, and the driving gear is in transmission connection with the roller gear.

4. The automatic mineral material slicing system of claim 3, wherein: the slicing device comprises a cutter holder arranged at the end part of the piston rod of the intermittent feeding oil cylinder, a slicing cutter is fixedly arranged on the cutter holder, and at least one slicing and pressing device is further arranged on the side part of the cutter holder.

5. The automatic mineral material slicing system of claim 4, wherein: the section press device comprises a press seat fixedly mounted on the knife holder, the press seat is arranged on the feeding side of the section feeding rack, a press rod extending downwards is installed at the bottom of the press seat in an inserting mode, a buffer spring is arranged between the press seat and the press rod, and a press plate is fixedly connected to the bottom end of the press rod.

6. The automatic mineral material slicing system of claim 1, wherein: divide the feed bin to include the storehouse body, the internal interval in storehouse is equipped with finished product chamber and tails chamber, finished product chamber bottom intercommunication is equipped with the finished product discharge gate, the finished product discharge gate extends to finished product discharging device's feed end, tails chamber bottom intercommunication is equipped with the tails discharge gate, the tails discharge gate extends to tails hoisting device.

7. The automatic mineral material slicing system of claim 6, wherein: screening plant is including locating the screening frame of slitting pay-off frame discharge end, the slope is installed in the screening frame and is shaken two-layer at least and expects the screen cloth, the top layer the discharge end of shaking the material screen cloth is located directly over the tails chamber, the bottom shake the discharge end of expecting the screen cloth and locate directly over the finished product chamber.

8. The automatic mineral material slicing system according to any one of claims 1 to 7, wherein: the tailing lifting device comprises a lifting frame which is obliquely arranged, two lifting rollers are mounted on the lifting frame in a relatively rotating mode, a lifting conveying belt is arranged between the lifting rollers, and the discharging end of the lifting conveying belt is arranged right above the raw material bin.

9. The automatic mineral material slicing system of claim 8, wherein: the finished product discharging device comprises a discharging rack, two discharging rollers are mounted on the discharging rack in a relatively rotating mode, and a discharging conveyor belt is arranged between the discharging rollers.

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