CN110420742B

CN110420742B - A vibration material loading, broken all-in-one for gypsum stone

Info

Publication number: CN110420742B
Application number: CN201910591375.2A
Authority: CN
Inventors: 李维超
Original assignee: Kangding Longyuan Suicheng Gypsum Co ltd
Current assignee: Kangding Longyuan Suicheng Gypsum Co ltd
Priority date: 2019-07-02
Filing date: 2019-07-02
Publication date: 2020-12-29
Anticipated expiration: 2039-07-02
Also published as: CN110420742A

Abstract

The invention discloses a vibration feeding and crushing integrated machine for gypsum stone, which comprises a rack and a working table plate fixed above the rack, wherein a crushing mechanism is installed on one side of the rack, an inclined resonance plate is installed on the working table plate, supporting plates are fixed on two sides of the upper surface of the working table plate, a mixing hopper is installed between the supporting plates on the two sides, a driving mechanism used for driving the mixing hopper to slide is arranged on the supporting plates, the driving mechanism comprises two resonance supporting seats, a chain wheel assembly and a power motor, the chain wheel assembly is connected with the side wall of the mixing hopper, the two resonance supporting seats are respectively fixed on two sides of the bottom of the inner side wall of the supporting plates, and a limiting part used for limiting the. According to the invention, the material is conveyed by the belt conveyor, then the mineral aggregate is vibrated and flattened and then slowly fed and crushed, so that the working surface and the working rhythm of the crushing mechanism are adapted, and the higher crushing efficiency and the longer service life are finally ensured.

Description

A vibration material loading, broken all-in-one for gypsum stone

Technical Field

The invention relates to the technical field of ore processing equipment, in particular to a vibration feeding and crushing integrated machine for gypsum stone.

Background

At present in the ore mining field, can often use crushing equipment to carry out the primary breakage in order to form the less slay of particle size to some small and medium-sized ores to be convenient for carry out subsequent processing. At present, in the ore production line, generally will treat that broken ore carries the breaker feed inlet department top through belt conveyor and carry out the blanking breakage, long-term processing operation proves, this kind of crushed aggregates mode has a bit disadvantage, and the working strength of breaker is very big, leads to the life-span of breaker to shorten to card material phenomenon often appears easily, leads to the breaker fault rate to rise, the condition that the production line stops often, has influenced the machining efficiency of mineral products greatly.

Here, we need to change the feeding mode of ore, so that the labor intensity of the crusher is reduced, the operation rhythm of the crusher is adapted, and a critical point is found between the processing efficiency and the service life, so as to ensure better working efficiency. Originally, through increasing the scram servo function with belt conveyor, change driving motor into servo control motor, make the feeding of ore adapt to the rhythm of breaker, form the mode of intermittent type feeding to reduce the working strength of breaker, guarantee the normal operating of production line. However, although the operation strength of the crusher is reduced by such a feeding mode, damage of the belt conveyor is increased from another aspect, due to the adoption of the emergency stop function, the phenomenon that the belt is scratched by the edge of the ore is serious, the phenomenon of material stacking is easy to occur during feeding, the ore material is extruded into a pile under the action of inertia to enter the crusher, the contact of the crushing roller is uneven, and the middle part of the roller is seriously worn for a long time.

Disclosure of Invention

The invention aims to provide a vibration feeding and crushing integrated machine for gypsum stones, which is used for conveying materials through a belt conveyor, then vibrating and flattening mineral materials and slowly feeding and crushing the mineral materials, so that the vibration feeding and crushing integrated machine is suitable for the working surface and the working rhythm of a crushing mechanism, and finally ensures higher crushing efficiency and service life.

The purpose of the invention is realized by the following technical scheme: a vibration feeding and crushing integrated machine for gypsum stones comprises a frame and a working table board fixed above the frame, wherein one side of the frame is provided with a crushing mechanism, the crushing mechanism comprises a machine body and a crushing roller arranged in the machine body and used for crushing materials, the upper part of the machine body is provided with a feed inlet, the lower part of the machine body is provided with a discharge outlet, the feed inlet is positioned below one end of the working table board, the working table board is provided with an inclined resonance plate, the resonance plate inclines downwards along one side where the crushing roller is positioned, the working table board is provided with a vibration exciter used for vibrating the resonance plate, both sides of the upper surface of the working table board are both fixed with supporting plates, a material mixing funnel capable of sliding transversely is arranged between the supporting plates at both sides, the supporting plates are provided with a driving mechanism used for driving the material mixing funnel to slide, and the driving mechanism comprises two resonance, the two resonance supporting seats are respectively fixed on two sides of the bottom of the inner side wall of the supporting plate, limiting parts used for limiting the amplitude of the resonance plates are arranged on the resonance supporting seats, and two ends of a transmission chain in the chain wheel assembly are respectively fixed on the two resonance supporting seats.

Further, the sprocket assembly includes sprocket, second on the first sprocket, second sprocket and is used for keeping first on the sprocket, second on the sprocket, first sprocket and the synchronous pivoted drive chain of second sprocket, first on the sprocket and the second sprocket rotationally install the both sides on the inboard upper portion of backup pad respectively, open at the middle part of backup pad inside wall has horizontal spout, and sliding fit has the slider in the spout, first sprocket and second sprocket rotationally install the both ends inboard at the slider respectively, inboard middle part and compounding funnel lateral wall fixed connection of slider, power motor is used for driving first on the sprocket and rotates, is provided with the universal driving shaft between the first cochain wheel in the backup pad of both sides, and the universal driving shaft is located one side that the backup pad is close to the organism.

Further, the resonance supporting seat comprises a seat body and a chain fixing support formed on the upper surface of the seat body, the end of the transmission chain is fixedly connected with the chain fixing support through a steel wire rope fixer, the outer side wall of the seat body is fixedly welded with the inner side wall of the supporting plate, a mounting cavity is formed in the bottom of one side, close to the machine body, of the seat body, a positioning column penetrating through the resonance plate is fixed in the mounting cavity, an upper limiting spring and a lower limiting spring are sleeved on the positioning column, the upper limiting spring is located between the seat body and the resonance plate, and the lower limiting spring is located between the working table plate and the resonance.

Furthermore, a gate mechanism used for controlling vibration discharging frequency is arranged between the supporting plates on the two sides, the gate mechanism comprises a cam, a top wheel, a connecting rod and a sealing gate, a supporting shaft is fixed between the resonance supporting seats on the two sides and located right below the linkage shaft, the sealing gate is rotatably sleeved on the supporting shaft and used for movably sealing one end, inclined downwards, of the resonance plate, the cam is installed on the linkage shaft, the top wheel and the cam form a cam pair, and the connecting rod is fixed between the cam and the sealing gate.

Further, the top wheel is located between the cam and the mixing hopper, the sealing gate is located right below the cam, and a sealing strip plate matched with the end portion of the resonance plate is formed at the bottom of the sealing gate.

Further, the compounding funnel includes feeding portion on upper portion and the ejection of compact portion of lower part, and the both sides shaping of feeding portion has the supporting part that forms stable support with the backup pad top surface, supporting part and backup pad top surface sliding fit, the discharge gate department of ejection of compact portion is provided with the control gate.

The invention has the beneficial effects that:

1. by arranging the resonant plate and the vibration exciter, mineral aggregate falling from the mixing hopper can be vibrated and flattened, and then slowly vibrated to the feed inlet of the crushing mechanism for crushing, so that concentrated feeding is avoided, the contact area of the mineral aggregate and the crushing roller is increased, the processing surface of the crushing roller is uniformly contacted, and the service life is reduced due to concentrated abrasion; the feeding speed is controlled, the operation intensity of the crushing mechanism is greatly reduced, and a relatively normal and efficient operation frequency is obtained;

2. the mixing hopper is driven to transversely slide back and forth by the driving mechanism, so that the phenomenon that the vibration flattening efficiency of mineral aggregate is reduced due to centralized blanking is avoided, the efficiency of rapid flattening and shaking discharging of the mineral aggregate is improved on the other hand, and the relatively high processing efficiency is further ensured;

3. through setting up gate mechanism, gate mechanism and the same power of actuating mechanism sharing have reduced the consumption of the energy on the one hand, and on the other hand makes the mineral aggregate shake the ejection of compact and becomes more controllable, and final formation has certain spaced intermittent type feeding, has reserved certain broken time for broken roller to reach the equilibrium point of a relative working strength and efficiency, guarantee the normal high-efficient function of whole production line.

Drawings

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

FIG. 2 is a partial schematic structural view of the present invention;

FIG. 3 is a schematic structural diagram of the resonant support pedestal of the present invention.

The labels in the figure are: 1-a frame; 2-a workbench plate; 3-body; 4-a crushing roller; 5-a support plate; 6-a mixing hopper; 7-a drive mechanism; 8-top wheel; 9-a cam; 10-a connecting rod; 11-sealing the gate; 12-a resonant panel; 13-supporting the shaft; 31-a feed inlet; 32-a discharge hole; 51-a chute; 71-a power motor; 72-a first upper sprocket; 73-first lower sprocket; 74-a slider; 75-a drive chain; 76-a second lower sprocket; 77-a first upper sprocket; 78-resonant support seat; 781-seat body; 782-chain fixing support; 783-installation cavity; 784-locating posts; 785-upper restraining spring; 786-lower retainer spring.

Detailed Description

As shown in fig. 1 to 3, the vibration feeding and crushing all-in-one machine for gypsum stone provided in this embodiment includes a frame 1 and a work table 2 welded and fixed above the frame 1, a crushing mechanism is installed on one side of the frame 1, the crushing mechanism includes a machine body 3 and a set of crushing rollers 4 arranged in the machine body 3 and used for crushing the gypsum stone, a feeding port 31 is opened on the upper portion of the machine body 3, a discharging port 32 is opened on the lower portion of the machine body 3, and the feeding port 31 is located right below one end of the work table 2 and used for rapidly crushing the gypsum stone after the mineral material falls down. The inclined resonance plate 12 is installed on the working table plate 2, the resonance plate 12 is made of high-hardness steel, the resonance plate 12 inclines downwards along one side where the crushing roller 4 is located, the inclination angle range is 3-8 degrees, and the edge of the other side of the resonance plate 12 is sealed, so that mineral aggregate is prevented from scattering. The vibration exciter (not shown) for vibrating the resonance plate 12 is arranged on the working table plate 2, in order to ensure that medium and small ores on a belt conveyor can be uniformly blanked and have high vibration flattening efficiency, the two sides of the upper surface of the working table plate 2 adjacent to the machine body 3 are both fixed with the supporting plates 5, and the material mixing hopper 6 capable of transversely sliding back and forth is arranged between the supporting plates 5 on the two sides, in the embodiment, the material mixing hopper 6 adopts a belt brake form, the material mixing hopper 6 comprises an upper feeding part and a lower discharging part, supporting parts forming stable support with the top surfaces of the supporting plates 5 are formed on the two sides of the feeding part, pulleys are arranged on the supporting parts, the supporting parts and the top surfaces of the supporting plates 5 realize sliding fit through the forms of sliding rails and pulleys, the feeding port of the feeding part is connected with the discharging port of the belt conveyor, the feeding port of the feeding part forms a horn mouth shape and, the discharge gate department of ejection of compact portion is provided with the control gate, and the control gate adopts current finished product, and the purpose is in the conveying capacity of control mineral aggregate.

In order to drive the mixing funnel 6 to slide back and forth to realize uniform blanking, a driving mechanism 7 used for driving the mixing funnel 6 to slide is arranged on each supporting plate 5, and the driving mechanisms 7 on the two sides are mutually matched to realize the transverse sliding of the mixing funnel 6. The driving mechanism 7 comprises two resonant supporting seats 78, a chain wheel assembly connected with the side wall of the mixing hopper 6 and a servo-type power motor 71 for the chain wheel assembly, the chain wheel assembly comprises a first upper chain wheel 72, a second upper chain wheel 77, a first lower chain wheel 73, a second lower chain wheel 76 and a transmission chain 75 for keeping the first upper chain wheel 72, the second upper chain wheel 77, the first lower chain wheel 73 and the second lower chain wheel 76 synchronously rotating, the first upper chain wheel 72 and the second upper chain wheel 77 are respectively rotatably mounted at two sides of the upper part of the inner side wall of the supporting plate 5 through bearings, a transverse sliding groove 51 is formed in the middle of the inner side wall of the supporting plate 5, a strip-shaped sliding block 74 is slidably fitted in the sliding groove 51, the first lower chain wheel 73 and the second lower chain wheel 76 are respectively rotatably mounted at two ends of the inner side of the sliding block 74 through bearings, and the middle of the inner side of the sliding block, an output shaft of the power motor 71 is assembled with the first upper chain wheel 72 and is used for driving the first upper chain wheel 72 to rotate, a linkage shaft 72 for keeping the driving mechanisms on the two sides to move synchronously is arranged between the first upper chain wheels 72 on the supporting plates 5 on the two sides, and the linkage shaft 72 is positioned on one side of the supporting plate 5 close to the machine body 3. The two resonant supporting seats 78 are respectively fixed at two sides of the bottom of the inner side wall of the supporting plate 5, and two ends of the transmission chain 75 are respectively fixed on the two resonant supporting seats 78. And controlling the power motor 71 to rotate forwards or reversely, and finally realizing the back-and-forth transverse sliding of the mixing hopper 6 so that the mineral aggregate is uniformly spread on the resonance plate 12.

In order to keep the vibration amplitude of the resonant plate 12 from being too large, a limiting member for limiting the vibration amplitude of the resonant plate 12 is disposed on the resonant support seat 78, specifically, the resonant support seat 78 includes a seat body 781 and a chain fixing support 782 formed on the upper surface of the seat body 781, the end of the transmission chain 75 is fixedly connected to the chain fixing support 782 through a wire rope fixer, the outer sidewall of the seat body 781 is fixedly welded to the inner sidewall of the support plate 5, the bottom wall of the seat body 781 is 3 to 6cm away from the upper surface of the resonant plate 12, a mounting cavity 783 is disposed at the bottom of one side of the seat body 781 close to the machine body 3, a positioning post 784 penetrating through the resonant plate 12 is fixed in the mounting cavity 783, an upper limiting spring 785 and a lower limiting spring 786 are sleeved on the positioning post 784, the upper limiting spring 785 is disposed between the seat body 781 and the resonant plate 12, the lower limiting spring 786 is, the swing amplitude of the resonator plate 12 can be controlled by selecting the limiting springs with corresponding parameters, and meanwhile, stable support can be provided for the resonator plate 12.

In order to further adapt to the working period of the crushing mechanism and give a certain crushing and extruding working time to the crushing roller 4, a certain control is required to be carried out on the mineral aggregate discharge quantity on the resonance plate 12, specifically, a gate mechanism for controlling the vibration discharge frequency is arranged between the support plates 5 at two sides, the gate mechanism comprises a cam 9, a top wheel 8, a connecting rod 10 and a sealing gate 11, a support shaft 13 is fixed between the resonance support seats 78 at two sides, the support shaft 13 is positioned under the linkage shaft, a transverse shaft hole is arranged on the sealing gate 11, the sealing gate 11 is rotatably sleeved on the support shaft 13 through the shaft hole, a sealing strip plate matched with the end part of the downward inclined end of the resonance plate 12 is formed at the bottom of the sealing gate 11, the sealing strip plate plays a material sealing role, the cam 9 is arranged on the linkage shaft and can be directly driven without extra power, the corresponding power consumption is reduced. The top wheel 8 is located between the cam 9 and the mixing hopper 6, the top wheel 8 and the cam 9 form a cam pair, the connecting rod 10 is fixed between the cam 9 and the sealing gate 11, the sealing gate 11 is located under the cam 9, the top wheel 8 swings back and forth under the action of the cam pair when the universal driving shaft rotates and drives the cam 9 to rotate, and therefore the sealing gate 11 is driven to open and close back and forth, and the intermittent feeding of mineral aggregates is formed, so that the working period of the crushing mechanism is adapted.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any modification and replacement based on the technical solution and inventive concept provided by the present invention should be covered within the scope of the present invention.

Claims

1. A vibration material loading, broken all-in-one for gypsum stone, its characterized in that: the crushing mechanism comprises a machine body and a crushing roller arranged in the machine body and used for crushing materials, a feed inlet is formed in the upper portion of the machine body, a discharge outlet is formed in the lower portion of the machine body, the feed inlet is located below one end of the machine body, an inclined resonance plate is arranged on the machine body and inclines downwards along one side where the crushing roller is located, a vibration exciter used for vibrating the resonance plate is arranged on the machine body, supporting plates are fixed to two sides of the upper surface of the machine body, a mixing hopper capable of sliding transversely is arranged between the supporting plates on the two sides, a driving mechanism used for driving the mixing hopper to slide is arranged on the supporting plates and comprises two resonance supporting seats, a chain wheel assembly connected with the side wall of the mixing hopper and a power motor used for the chain wheel assembly, and the two resonance supporting seats are fixed to two sides of the bottom of the inner side wall of the supporting plates, the resonance supporting seats are provided with limiting pieces for limiting the amplitude of the resonance plates, and two ends of a transmission chain in the chain wheel assembly are respectively fixed on the two resonance supporting seats;

the chain wheel assembly comprises a first upper chain wheel, a second upper chain wheel, a first lower chain wheel, a second lower chain wheel and a transmission chain for keeping the first upper chain wheel, the second upper chain wheel, the first lower chain wheel and the second lower chain wheel to synchronously rotate, the first upper chain wheel and the second upper chain wheel are respectively and rotatably arranged on two sides of the upper part of the inner side of the supporting plate, a transverse sliding groove is formed in the middle of the inner side wall of the supporting plate, a sliding block is in sliding fit in the sliding groove, the first lower chain wheel and the second lower chain wheel are respectively and rotatably arranged at two ends of the inner side of the sliding block, the middle of the inner side of the sliding block is fixedly connected with the side wall of the mixing hopper, the power motor is used for driving the first upper chain wheel to rotate, a linkage shaft is arranged;

be provided with the gate mechanism that is used for controlling vibration ejection of compact frequency between the backup pad of both sides, gate mechanism includes cam, apical wheel, connecting rod and sealed gate, both sides be fixed with the back shaft between the resonance supporting seat, the back shaft is located the universal driving shaft under, sealed gate rotationally the suit is on the back shaft and is used for the decurrent one end of activity sealed resonant plate slope, the cam is installed on the universal driving shaft, the apical wheel forms the cam pair with the cam, the connecting rod is fixed between cam and sealed gate.

2. The vibratory feeding and crushing all-in-one machine for gypsum stone of claim 1, wherein: the resonance supporting seat comprises a seat body and a chain fixing support formed on the upper surface of the seat body, the end part of the transmission chain is fixedly connected with the chain fixing support through a steel wire rope fixer, the outer side wall of the seat body is fixedly welded with the inner side wall of the supporting plate, a mounting cavity is formed in the bottom of one side, close to the machine body, of the seat body, a positioning column penetrating through the resonance plate is fixed in the mounting cavity, an upper limiting spring and a lower limiting spring are sleeved on the positioning column, the upper limiting spring is located between the seat body and the resonance plate, and the lower limiting spring is located between the working bedplate and.

3. The vibratory feeding and crushing all-in-one machine for gypsum stone of claim 1, wherein: the top wheel is located between the cam and the mixing hopper, the sealing gate is located under the cam, and a sealing strip plate matched with the end part of the resonance plate is formed at the bottom of the sealing gate.

4. The vibratory feeding and crushing all-in-one machine for gypsum stone of claim 1, wherein: the compounding funnel includes feeding portion on upper portion and the ejection of compact portion of lower part, and the both sides shaping of feeding portion has the supporting part that forms the outrigger with the backup pad top surface, supporting part and backup pad top surface sliding fit, the discharge gate department of ejection of compact portion is provided with the control gate.