CN111495550A - Composite zeolite powder production device - Google Patents

Abstract

The invention provides a composite zeolite powder production device, which belongs to the technical field of zeolite powder processing and comprises a stone screening mechanism, wherein an inclined discharging guide plate is arranged at the discharging end of the stone screening mechanism, a feeding mechanism is arranged at the bottom of the discharging guide plate, a material receiving plate is transversely arranged at a discharging port at the top of the feeding mechanism, a grinding part for processing stone is arranged at the bottom of the material receiving plate, and a material placing port of the grinding part corresponds to the material receiving plate.

Description

Composite zeolite powder production device

Technical Field

The invention belongs to the technical field of zeolite powder processing, and particularly relates to a composite zeolite powder production device.

Background

The zeolite powder is prepared by grinding natural zeolite rock, and has light green and white color. Can remove 95 percent of ammonia nitrogen in water, purify water and relieve the water transfer phenomenon.

1) At present, the zeolite powder needs to be ground in the processing process, the processing procedure is complex, dust is entrained with air and discharged into the air, and people stay around to cause stone dust suction, which affects the health and has great influence on the environment;

2) the existing zeolite powder has complex processing procedures, a series of manufacturing links of grinding, feeding and discharging are complex in procedures, a series of processes of feeding, selecting stones and discharging and bagging are complex, and the zeolite powder is restricted by workers and has low production efficiency;

3) the existing zeolite powder composite preparation has wide application range, so the production requirement is high, the grinding fine powder degree is high, and the zeolite powder is very easy to dissolve in water, so the production equipment is required to have certain water filtration requirement in the production process.

Disclosure of Invention

The invention aims to provide a composite zeolite powder production device, and aims to solve the problems that in the prior art, grinding is needed in the existing zeolite powder processing process, dust in the processing procedure is complicated and is entrained with air and discharged into the air, and people stay around to cause stone dust suction, which affects the body health and has a large influence on the environment.

In order to achieve the purpose, the invention provides the following technical scheme: the stone screening mechanism comprises a stone screening mechanism, wherein an inclined discharging guide plate is arranged at the discharging end of the stone screening mechanism, a feeding mechanism is arranged at the bottom of the discharging guide plate, a material receiving plate is transversely arranged at a discharging port at the top of the feeding mechanism, a grinding part for stone processing is arranged at the bottom of the material receiving plate, and a material placing port of the grinding part corresponds to the material receiving plate;

the back of grinding portion is provided with and supplies the filterable filter equipment of drain hole dust, and the middle part position department that is located grinding portion is equipped with defeated material part, and this defeated material part is transversely placed, and this defeated material part one end and grinding portion discharge gate intercommunication, the other end are provided with material bagging-off mechanism.

In order to realize the invention, the stone screening mechanism preferably comprises a funnel, a mine vibrating screen, a supporting base, an outer shell, a discharge hole and a discharge guide plate;

the discharging guide plate is obliquely arranged at the bottom of the discharging port, the discharging port is arranged at the bottom of the back of the external shell, the internal of the external shell is hollow and is internally provided with the mining vibrating screen, the bottom of the mining vibrating screen is provided with a vibrating motor for emitting vibration, and the driving end of the vibrating motor is in transmission connection with a surface screen of the mining vibrating screen;

a material guide plate is arranged at the bottom of the mining vibrating screen and is hinged with a discharging guide plate;

the top of mining shale shaker connects material end fixed mounting to have the funnel, and the top outer wall and the fixed interlude of outside casing of this funnel are connected, ejection of compact baffle and outside casing outward appearance fixed connection, the bottom fixed mounting of outside casing has the support base.

To make, as one preferable aspect of the present invention, the feed mechanism includes: the device comprises a rotating roller, a side baffle, a conveying crawler, a stone baffle plate, a crawler frame, a belt pulley, a transmission motor and a material receiving plate;

a crawler frame is arranged on one side of the material receiving plate, the crawler frame is triangular in shape, a conveying crawler for conveying materials is fixedly arranged on the surface of the slope surface, a plurality of stone blocking plates are transversely arranged on the surface of the conveying crawler, the conveying crawler is sleeved on the surfaces of two rotating rollers, and the two rotating rollers are transversely arranged on two sides of the top of the crawler frame through scarf bearings;

the outer wall surface of one side of them of two live-rollers all rotates and is connected with the belt pulley, and the surface cover of two belt pulleys is equipped with the belt, one of them lateral wall fixed surface of track frame installs driving motor, driving motor's output shaft is connected rather than main belt pulley transmission, the equal fixed mounting in both sides side of track frame has the side board that is used for keeping off the stone, ejection of compact baffle one end meets with the conveying track surface of one side.

In order to make, as one preferable aspect of the present invention, the grinding portion includes: the grinding device comprises a housing, a grinding motor and a stone storage box, wherein a material placing opening opposite to a material receiving plate is formed in the top of the stone storage box, a main machine for grinding powder is arranged in the material placing opening, the main machine comprises a volute, a scraper knife, a grinding roller, a grinding ring and a housing, the volute is arranged at the bottom of the stone storage box, the scraper knife rotating at a high speed is arranged in the middle of the volute, the grinding roller is arranged outside the scraper knife, the grinding ring is sleeved outside the grinding roller in a meshing manner, and the outer wall of the grinding ring is embedded in the inner wall of the volute;

the grinding device is characterized in that a housing is covered outside the volute, a grinding motor is fixedly mounted at the bottom of the housing, the output end of the grinding motor sequentially penetrates through the housing and the inner wall of the middle of the volute and is rotatably connected with a grinding roller arranged at the other end of the grinding motor through a coupler, and the top of the stone storage box is fixedly connected with one side of the material receiving plate.

To this end, as one preferable aspect of the present invention, the filter device includes: the bent pipe is connected with the discharge port and is made of soft plastic materials;

a cover shell is arranged at the end head of the bent pipe and is in alternate connection with the discharge hole, a cloth bag storage tank is communicated with the other end of the bent pipe, a dust collection cloth bag is placed in the cloth bag storage tank, a drying agent is placed in the middle of the bottom end of the dust collection cloth bag, and the side wall of the cloth bag storage tank is fixedly connected with the side wall of the stone storage box;

a negative pressure pump is fixedly arranged in the middle of the side wall of the cloth bag storage tank, the air suction end of the negative pressure pump is communicated with the cloth bag storage tank, the air outlet end of the negative pressure pump is covered with an air filter box, and a filter screen is arranged in the air filter box;

the middle part of the bottom end of the cloth bag storage tank is fixedly provided with a supporting bottom tower frame supported on the ground, and the cloth bag storage tank is fixedly connected with the outer wall of the housing.

In order to make, as a preferable aspect of the present invention, the feeding member includes: the auger motor is fixedly arranged on the outer wall of the side surface of the auger pipe, and the output end of the auger motor is in transmission connection with a coupler arranged on the side wall of the auger motor;

the other end of the coupler is in meshed transmission connection with a worm wheel which is arranged in the packing auger pipe, the worm wheel meshed end rotates to be provided with a worm, one end of the worm rotates to be connected with packing auger blades, the packing auger blades are arranged in the packing auger pipe, and the discharge end is communicated with a material storage box which is arranged on the material bagging mechanism.

To this end, as a preferred aspect of the present invention, the material bagging mechanism further includes: the middle part of the bottom end of the material storage box is fixedly communicated with the material discharge valve, the four corners of the bottom of the material storage box are fixedly provided with the supports, and the bottoms of the four supports are provided with supporting plates convenient for bagging;

the baiting valve is an electronic baiting valve, a transparent window is arranged on the side wall of the storage material box, and the middle part of the back surface of the storage material box is communicated with the discharge end of the auger pipe.

In order to enable the storage box to be an optimal choice, a P L C controller is fixedly installed on the side wall of the storage box, the vibration motor, the transmission motor, the grinding motor, the negative pressure pump, the auger motor and the electronic discharge valve are all in electrical control connection with the P L C controller, and the P L C controller is all in electrical connection with an external power supply.

Compared with the prior art, the invention has the beneficial effects that:

1) through the stone screening mechanism, the mining vibrating screen and the funnel, a user only needs to put materials into the funnel and screen the stones which can pass through the screen under the vibration effect of the mining vibrating screen, the screened stone in large batches can be automatically conveyed through the feeding mechanism, the rotating roller and the side baffle, the pressure of manually picking up stones is reduced, and meanwhile, when the stones are lifted upwards, in order to ensure the safety of personnel, the stones can be conveyed in a pile manner by utilizing the side baffle and the stone baffle plate, and the load bearing pressure of the crawler belt is averagely conveyed;

2) the stone is finely ground under the processing action of the grinding part, the shell, the stone storage box and the built-in host, the processing mode mainly based on collision grinding is adopted, so that the materials can be rapidly and finely processed into zeolite powder with composite requirements, and in addition, the cleaning of the filtering device is utilized to filter out the dust in the process of putting broken stones and collision processing, so as to prevent the dust from diffusing;

3) the purpose of conveying the composite zeolite powder is achieved through the arranged auger pipe, the auger motor and the auger blades, and the composite zeolite powder is convenient for a user to pack under the treatment of the material storage box and the material discharge valve.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

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

FIG. 3 is a schematic view of the structure of the feeding mechanism of the present invention;

FIG. 4 is a schematic view of a polishing portion according to the present invention;

FIG. 5 is a schematic view of a backside structure of the polishing portion of the present invention;

FIG. 6 is a schematic view of the back structure of the stone screening mechanism of the present invention;

FIG. 7 is a schematic view of the back structure of the material bagging mechanism of the present invention.

In the figure: 1-a stone screening mechanism; 11-a funnel; 12-a vibrating screen for mining; 121-discharge hole; 122-a discharge guide plate; 123-a support base; 124-an outer housing; 2-a feeding mechanism; 21-a turning roll; 211-side baffle; 212-a conveyor track; 213-a crawler frame; 214-a pulley; 215-a drive motor; 216-receiving plate; 3-a grinding section; 31-a housing; 32-a stone storage box; 311-grinding motor; 4-a material conveying part; 411-auger pipe; 41-auger motor; 412-auger blade; 5-a material bagging mechanism; 51-a storage bin; 511-a stent; 512-a discharge valve; 6-a filtration device; 61-air filtration tank; 611-a negative pressure pump; 612-a bent pipe; 613-cloth bag storage tank; 614-support the base tower.

Detailed Description

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

Example 1

Referring to fig. 1-7, the present invention provides the following technical solutions: the stone screening mechanism comprises a stone screening mechanism 1, an inclined discharging guide plate 122 is arranged at the discharging end of the stone screening mechanism 1, a feeding mechanism 2 is placed at the bottom of the discharging guide plate 122, a material receiving plate 216 is transversely installed at a discharging port at the top of the feeding mechanism 2, a grinding part 3 for stone processing is placed at the bottom of the material receiving plate 216, and a material placing port of the grinding part 3 corresponds to the material receiving plate 216;

the back of the grinding part 3 is provided with a filtering device 6 for filtering dust at a discharge hole, a material conveying part 4 is arranged at the middle position of the grinding part 3, the material conveying component 4 is transversely arranged, one end of the material conveying component 4 is communicated with the material outlet 121 of the grinding part 3, the other end is provided with a material bagging mechanism 5, through the stone screening mechanism 1, the mining vibrating screen 12 and the funnel 11, a user only needs to put materials into the funnel 11 and screen stones which can pass through the screen mesh under the vibration action of the mining vibrating screen 12, the feeding mechanism 2, the rotating roller 21 and the side baffle 211 are arranged to facilitate the automatic conveying of the large batch of stone materials after being screened, reduce the pressure of manual stone picking, meanwhile, when the crawler belt 212 is lifted upwards, in order to ensure the safety of personnel, the side baffle plates 211 and the baffle plates can be used for carrying stones in a stacking mode, and the load-bearing pressure of the crawler belt 212 is averaged.

In this embodiment, the stone screening mechanism 1 comprises a hopper 11, a mining vibrating screen 12, an outer shell 124, a supporting base 123, a discharge port 121 and a discharge guide plate 122;

the discharging guide plate 122 is obliquely arranged at the bottom of the discharging port 121, the discharging port 121 is arranged at the bottom of the back of the external shell 124, the internal part of the external shell 124 is hollow and is internally provided with the mining vibrating screen 12, the bottom of the mining vibrating screen 12 is provided with a vibrating motor for generating vibration, and the driving end of the vibrating motor is in transmission connection with a surface screen of the mining vibrating screen 12;

a material guide plate is arranged at the bottom of the mining vibrating screen 12 and is hinged with a discharging guide plate 122;

the top material receiving end of the mining vibrating screen 12 is fixedly provided with a funnel 11, the top outer wall of the funnel 11 is fixedly connected with an external shell 124 in a penetrating manner, a discharging guide plate 122 is fixedly connected with the outer surface of the external shell 124, and the bottom of the external shell 124 is fixedly provided with a supporting base 123.

Specifically, the method comprises the following steps: in order to achieve the purpose of screening even stones, the most difficult thing to do in the daily use process is to screen the raw stones, the raw stones are put into the hopper 11 from the top end and fall into a narrow space to the screen parts of the mining vibrating screen 12, the high-frequency energy emitted by the output end of the vibrating motor enables the whole outer wall of the mining vibrating screen to give out shock excitation reaction, proper stones are screened out, the stones pass through the screen and enter the surface of the material guide plate and slide out from the material outlet 121 under the influence of the gradient, and the larger stones which do not accord with the standard are left on the surface of the hopper 11 to be taken out.

In this embodiment, the feed mechanism 2 includes: the rotating rollers 21, the side guards 211, the conveying track 212, the guard plates, the track frame 213, the pulleys 214, the transmission motor 215 and the receiving plate 216;

a track frame 213 is arranged on one side of the material receiving plate 216, the track frame 213 is triangular, a conveying track 212 for conveying materials is fixedly arranged on the surface of the slope, a plurality of stone blocking plates are transversely arranged on the surface of the conveying track 212, the conveying track 212 is sleeved on the surfaces of the two rotating rollers 21, and the two rotating rollers 21 are transversely arranged on two sides of the top of the track frame 213 through embedded bearings;

the outer wall surface of one side of the two rotating rollers 21 is rotatably connected with belt pulleys 214, the surface of each belt pulley 214 is sleeved with a belt, the surface of one side wall of the track frame 213 is fixedly provided with a transmission motor 215, the output shaft of the transmission motor 215 is in transmission connection with the main belt pulley thereof, two side sides of the track frame 213 are fixedly provided with side baffles 211 used for blocking stones, and one end of the discharging guide plate 122 is connected with the surface of the conveying track 212 on one side.

Specifically, the method comprises the following steps: in the specific use process, in order to achieve the purpose of reducing the manual feeding and automatic conveying of the raw stones, after the stones are screened, the rotating conveying track 212 is poured out from the discharge port 121 for the first time to be taken in, after the stones are taken in, the stones can be continuously conveyed for the follow-up, when the stones go up a slope, the stones can be separated from the conveying track 212 in order to prevent the stones from falling out of the conveying track 212, the stones can be stacked and conveyed by combining the side wall stone blocking plates and the side surface blocking plates 211, when the stones slide down the slope, the stone blocking plates play a role in blocking and dividing the stones, the side surface blocking plates 211 can also prevent the stones from falling from the edge of the conveying track 212, meanwhile, the transmission motor 215 provides power for the conveying track 212, the output end drives one of the rotating rollers 21 to rotate, the two rollers can coaxially rotate by utilizing the belt pulley 214 and the belt, the materials are conveyed to the high slope, and are taken, and the strength of the stone when falling is relieved.

In this embodiment, the polishing section 3 includes: the grinding machine comprises a housing 31, a grinding motor 311 and a stone storage box 32, wherein a material placing opening opposite to a material receiving plate 216 is formed in the top of the stone storage box 32, a main machine for grinding powder is arranged in the material placing opening, the main machine comprises a volute, a scraper knife, a grinding roller, a grinding ring and the housing 31, the volute is arranged at the bottom of the stone storage box 32, the scraper knife rotating at a high speed is arranged in the middle of the volute, the grinding roller is arranged outside the scraper knife, the grinding ring is sleeved outside the grinding roller in a meshing manner, and the outer wall of the grinding ring is embedded in the inner wall of the volute;

the outer cover of the volute is provided with a housing 31, the bottom of the housing 31 is fixedly provided with a grinding motor 311, the output end of the grinding motor 311 sequentially penetrates through the housing 31 and the inner wall of the middle part of the volute and is rotationally connected with a grinding roller arranged at the other end through a coupler, and the top of the stone storage box 32 is fixedly connected with one side of the material receiving plate 216.

Specifically, the method comprises the following steps: when the grinding machine is used specifically, the conveyed stone falls into the bottom of the stone storage box 32 and is stored by the stone storage box 32, the grinding motor 311 drives the built-in main machine in the starting process, firstly, the scraper knife in the main machine rotates at high speed to realize the overturning and stirring of the stone, not only the positions of the stone are overturned and changed, but also the stone is easy to be broken by the scraper knife rotating at high speed and falls to the grinding roller, and the grinding roller rotates and is matched with the grinding ring to mesh and grind the surrounding crushed stone under the superfine saw-toothed meshing action, when the crushed stone is excited again by the scraper knife, the fine crushed stone can impact the inner wall of the volute again to fall and grind again, and the zeolite powder with the requirement of composite fineness is prepared after cyclic reciprocation, and the generated problem is that the crushed stone is dry and wet unevenly, and dust is generated in the processing of the stone, so that the zeolite powder needs to be dried after the finished product is processed, to meet the processing requirements of the composite zeolite powder, a user is required to mix with other zeolites and inject the raw materials, so that the zeolite powder processed by mixing is in a mixed state.

In the present embodiment, the filter device 6 includes: an elbow pipe 612 connected with the discharge port, wherein the elbow pipe 612 is made of soft plastic material;

a dust hood is arranged at the end of the bent pipe 612 and is in insertion connection with the discharge hole, a cloth bag storage tank 613 is communicated with the other end of the bent pipe 612, a dust collection cloth bag is placed in the cloth bag storage tank 613, a drying agent is placed in the middle of the bottom end of the dust collection cloth bag, and the side wall of the cloth bag storage tank 613 is fixedly connected with the side wall of the stone storage box 32;

a negative pressure pump 611 is fixedly installed in the middle of the side wall of the cloth bag storage tank 613, the air suction end of the negative pressure pump 611 is communicated with the cloth bag storage tank 613, the air outlet end of the negative pressure pump 611 is covered with an air filter box 61, and a filter screen is arranged inside the air filter box 61;

a supporting bottom tower 614 supported on the ground is fixedly arranged in the middle of the bottom end of the cloth bag storage tank 613, and the cloth bag storage tank 613 is fixedly connected with the outer wall of the housing 31.

Specifically, the method comprises the following steps: in the daily treatment process, high-concentration dust smoke can be generated in the stone grinding and stone placing processes, the smoke can fly out from a material discharging port to pollute the environment, therefore, in order to reduce dust pollution, after the negative pressure pump 611 is electrified, a negative pressure air flow is generated at an air inlet of a pump body, the dust is sucked from the end of the dust suction cover, the dust is guided into the cloth bag storage tank 613 through the bent pipe 612, the dust contained in the air at the material discharging port end is filtered by using a dust suction cloth bag in the cloth bag storage tank 613, finally, the gas flowing in the negative pressure environment passes through the drying agent layer and is guided into the air filter box 61, and finally, the tail gas is filtered and discharged by the air filter box 61, in addition, a certain humidifier can realize treatment on part of moisture after being absorbed by the drying agent in the zeolite grinding process.

In this embodiment, the feeding member 4 includes: the auger pipe 411 is transversely communicated with the discharge end of the stone flour mill, an auger motor 41 is fixedly arranged on the outer wall of the side surface of the auger pipe 411, and the output end of the auger motor 41 is in transmission connection with a coupler arranged on the side wall of the auger motor;

the other end of the coupler is in meshed transmission connection with a worm wheel arranged inside the packing auger pipe 411, the worm wheel meshed end is rotatably provided with a worm, one end of the worm is rotatably connected with a packing auger blade 412, the packing auger blade 412 is arranged inside the packing auger pipe 411, and the discharge end is communicated with a material storage box 51 arranged on the material bagging mechanism 5.

Specifically, the method comprises the following steps: when the zeolite powder storage bin is used daily, the zeolite powder is required to be output firstly, so that the auger motor 41 is connected with the coupler, when the auger motor 41 rotates, the coupler connected with the output end drives the worm wheel to rotate, and is meshed with the worm at the meshing end of the worm wheel to rotate, so that the power output direction of the output end is changed upwards, the auger blade 412 built in the auger pipe 411 can be driven finally, the auger blade 412 can automatically transport the zeolite powder processed at one end in the rotating process, the purpose of continuously injecting the zeolite powder into the storage bin 51 from a far source is achieved, and convenience is provided for the subsequent bagging process.

In this embodiment, the material bagging mechanism 5 further includes: the bagging machine comprises a material storage box 51, supports 511 and discharge valves 512, wherein the discharge valves 512 are fixedly communicated with the middle part of the bottom end of the material storage box 51, the supports 511 are fixedly arranged at four corners of the bottom of the material storage box 51, and support plates convenient for bagging are arranged at the bottoms of the four supports 511;

the discharging valve 512 is an electronic discharging valve, a transparent window is arranged on the side wall of the material storage box 51, and the middle part of the back surface of the material storage box 51 is communicated with the discharging end of the auger pipe 411.

The method comprises the following steps of firstly, continuously conveying and accumulating the packing auger pipe 411 raw material by using a storage material box 51, observing the content of the zeolite powder put into the packing auger pipe through a transparent window by a user, preparing the bag by the user, placing the bag on the surface of a supporting plate, opening the bag mouth to align with an electronic discharge valve, manually controlling the electronic discharge valve according to P L C, after the electronic discharge valve is opened, dropping the material stored in the storage material box 51 into the bag along a valve port under the controlled gravity, tightening the bag mouth by the user after the bag is filled, sequentially operating the operation, and putting the new bag into the bag for repeated operation.

In this embodiment, a P L C controller is fixedly mounted on the side wall of the material storage box 51, the vibration motor, the transmission motor 215, the grinding motor 311, the negative pressure pump 611, the auger motor 41 and the electronic discharge valve are all electrically controlled and connected to the P L C controller, and the P L C controller is all electrically connected to an external power supply.

Specifically, the process is characterized in that the vibration motor, the transmission motor 215, the grinding motor 311, the negative pressure pump 611, the auger motor 41 and the electronic discharge valve are controlled by the P L C, and the P L C is automatically controlled by a user except for paying attention to the process of putting and bagging the original stone, so that the occupation of manpower resources is reduced, and the use and operation process is simple.

Firstly, a user needs to prepare zeolite powder stone, the prepared stone is placed at the end of a funnel 11 through a manual operation machine (an excavator), a P L C controller is opened, the mining vibrating screen 12 at the bottom of the funnel 11 generates vibration in a vibrating motor, the vibration reaction generated by an output shaft is transmitted to a screen component, the raw stone passes through the screen under the high-frequency vibration effect generated by the screen component, and the unqualified large-size raw stone stays in the original position continuously;

the raw stones with composite requirements are reset to enter the surface of the guide plate and slide out of the discharge hole 121 under the influence of the gradient, and larger stones which do not meet the standard are left on the surface of the hopper 11 for taking out;

the feeding mechanism 2 that ejection of compact baffle 122 bottom was predetermine can be connect and get the crude stone, carry track 212 and keep off stone board and side baffle 211 and can carry the stone to separate the heap, the drive motor 215 of P L C control can drive the belt pulley 214 of output end, at main belt pulley rotation in-process, utilize the belt not only to make belt pulley 214 coaxial rotatory, still drive two live-rollers 21 and surperficial transport track 212, the stone that the distribution fell reaches the purpose of constantly transporting.

The stones falling from the high place can jump on the surface of the material receiving plate 216 in order to reduce the falling gravity, and then fall into the stone storage box 32 after the gravity is buffered;

driven by the output shaft of the grinding motor 311 at the bottom of the stone storage box 32, the main machine arranged in the housing 31 also runs through a volute, a scraper knife, a grinding roller and a grinding ring, the grinding roller rotates around the grinding ring, the scraper knife firstly carries out primary crushing treatment on the fallen crude stone, large stones are collided with the volute through the crushing of the scraper knife and crushed into small stones, and in order to achieve the purpose of zeolite powder composite manufacturing, other stones can be mixed in the process of putting raw materials in, so that the composite requirement is met, or the mixing can be carried out in the last step;

because the process of crushing the raw stone is violent and generates dust, the negative pressure pump 611 is electrified to operate, the dust is sucked along the bent pipe 612 by the negative pressure environment generated at the material placing opening and is guided into the cloth bag storage tank 613 by the bent pipe 612, the dust contained in the air at the material outlet end is filtered by the stored dust absorption cloth bag inside, and finally the gas flowing in the negative pressure environment passes through the drying agent layer and is guided into the air filter box 61, and the tail gas is filtered and discharged by the air filter box 61;

after the grinding environment is finished, the packing auger motor 41 is electrified to operate, and materials are conveyed to the material bagging mechanism 5 in an auger mode under the meshed rotation of the worm gear and the worm;

finally, in order to achieve the purpose of convenient bagging, a user can open the emptying valve 512 by electrifying, materials are poured into the bag under the driving action of the electric emptying valve, and finally the bag opening is pricked.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The composite zeolite powder production device is characterized by comprising a stone screening mechanism (1), wherein an inclined discharging guide plate (122) is arranged at the discharging end of the stone screening mechanism (1), a feeding mechanism (2) is placed at the bottom of the discharging guide plate (122), a material receiving plate (216) is transversely installed at a discharging port at the top of the feeding mechanism (2), a grinding part (3) for stone processing is placed at the bottom of the material receiving plate (216), and a material placing port of the grinding part (3) corresponds to the material receiving plate (216);

the back of grinding portion (3) is provided with supplies filter equipment (6) of drain hole dust, and the middle part position department that is located grinding portion (3) is equipped with defeated material part (4), and this defeated material part (4) transversely is placed, and this defeated material part (4) one end and grinding portion (3) discharge gate (121) intercommunication, the other end are provided with material bagging-off mechanism (5).

2. The apparatus for producing composite zeolite powder according to claim 1, wherein: the stone screening mechanism (1) comprises a funnel (11), a mining vibrating screen (12), an external shell (124), a supporting base (123), a discharge hole (121) and a discharge guide plate (122);

the discharging guide plate (122) is obliquely arranged at the bottom of the discharging port (121), the discharging port (121) is arranged at the bottom of the back of the external shell (124), the external shell (124) is hollow and internally provided with the mining vibrating screen (12), the bottom of the mining vibrating screen (12) is provided with a vibrating motor for generating vibration, and the driving end of the vibrating motor is in transmission connection with a surface screen of the mining vibrating screen (12);

a material guide plate is arranged at the bottom of the mining vibrating screen (12) and is hinged with a discharging guide plate (122);

the top material receiving end fixed mounting of mining shale shaker (12) has funnel (11), and the top outer wall and outside casing (124) fixed interlude of this funnel (11) are connected, ejection of compact baffle (122) and outside casing (124) outward appearance fixed connection, the bottom fixed mounting of outside casing (124) has support base (123).

3. The apparatus for producing composite zeolite powder according to claim 2, wherein: the feeding mechanism (2) comprises: the device comprises rotating rollers (21), side baffles (211), a conveying crawler (212), baffle plates, a crawler frame (213), a belt pulley (214), a transmission motor (215) and a material receiving plate (216);

a crawler frame (213) is arranged on one side of the material receiving plate (216), the crawler frame (213) is triangular, a conveying crawler (212) for conveying materials is fixedly arranged on the surface of the slope, a plurality of stone blocking plates are transversely arranged on the surface of the conveying crawler (212), the conveying crawler (212) is sleeved on the surfaces of the two rotating rollers (21), and the two rotating rollers (21) are transversely arranged on two sides of the top of the crawler frame (213) through scarf bearings;

the outer wall surface of one side of them of two live-rollers (21) all rotates and is connected with belt pulley (214), and the surface cover of two belt pulleys (214) is equipped with the belt, one of them lateral wall fixed surface of track frame (213) installs drive motor (215), the output shaft of drive motor (215) is connected rather than main belt pulley transmission, the both sides side of track frame (213) all fixed mounting have side baffle (211) that are used for keeping off the stone, ejection of compact baffle (122) one end meets with the transport track (212) surface of one side.

4. The apparatus for producing composite zeolite powder according to claim 3, wherein: the polishing section (3) includes: the grinding device comprises a housing (31), a grinding motor (311) and a stone storage box (32), wherein a material placing opening opposite to a material receiving plate (216) is formed in the top of the stone storage box (32), a main machine for grinding powder is arranged in the material placing opening, the main machine comprises a volute, a scraper knife, a grinding roller, a grinding ring and the housing (31), the volute is arranged at the bottom of the stone storage box (32), the scraper knife rotating at a high speed is arranged in the middle of the volute, the grinding roller is arranged outside the scraper knife, the grinding ring is sleeved outside the grinding roller in a meshing manner, and the outer wall of the grinding ring is embedded in the inner wall of the volute;

the outside cover of spiral case is equipped with housing (31), the bottom fixed mounting of housing (31) has grinding motor (311), the output of grinding motor (311) all passes housing (31) and spiral case middle part inner wall in proper order to the grinding roller that sets up through shaft coupling and the other end rotates and is connected, store up stone case (32) top and connect flitch (216) one side fixed connection.

5. The apparatus for producing composite zeolite powder according to claim 4, wherein: the filtering device (6) comprises: an elbow (612) connected with the discharge port, wherein the elbow (612) is made of soft plastic material;

a dust hood is arranged at the end of the bent pipe (612), the dust hood is connected with the discharge hole in an inserting mode, a cloth bag storage tank (613) is communicated with the other end of the bent pipe (612), a dust collection cloth bag is placed inside the cloth bag storage tank (613), a drying agent is placed in the middle of the bottom end of the dust collection cloth bag, and the side wall of the cloth bag storage tank (613) is fixedly connected with the side wall of the stone storage box (32);

a negative pressure pump (611) is fixedly installed in the middle of the side wall of the cloth bag storage tank (613), the air suction end of the negative pressure pump (611) is communicated with the cloth bag storage tank (613), the air outlet end of the negative pressure pump (611) is covered with an air filter box (61), and a filter screen is arranged inside the air filter box (61);

the middle part of the bottom end of the cloth bag storage tank (613) is fixedly provided with a supporting bottom tower frame (614) supported on the ground, and the cloth bag storage tank (613) is fixedly connected with the outer wall of the housing (31).

6. The apparatus for producing composite zeolite powder according to claim 5, wherein: defeated material part (4) include: the auger motor (41) is fixedly arranged on the outer wall of the side surface of the auger pipe (411), and the output end of the auger motor (41) is in transmission connection with a coupler arranged on the side wall of the auger pipe (411);

the other end of its shaft coupling is connected with auger pipe (411) inside built-in worm wheel meshing transmission, worm wheel meshing end rotates and is equipped with the worm, and the one end of this worm rotates and is connected with auger blade (412), auger blade (412) installation sets up in the inside of auger pipe (411), and storage workbin (51) intercommunication that discharge end and material bagging machine construct (5) and be equipped with, the discharge end intercommunication that the feed end and housing (31) lateral wall of auger pipe (411) were seted up.

7. The apparatus for producing composite zeolite powder according to claim 6, wherein: the material bagging mechanism (5) further comprises supports (511) and a discharge valve (512), the discharge valve (512) is fixedly communicated with the middle of the bottom end of the material storage box (51), the supports (511) are fixedly installed at four corners of the bottom of the material storage box (51), and supporting plates convenient for bagging are arranged at the bottoms of the four supports (511);

the baiting valve (512) is an electronic baiting valve, a transparent window is arranged on the side wall of the material storage box (51), and the middle part of the back surface of the material storage box (51) is communicated with the discharge end of the auger pipe (411).

8. The production device of composite zeolite powder of claim 7, wherein the side wall of the storage bin (51) is fixedly provided with a P L C controller, the vibration motor, the transmission motor (215), the grinding motor (311), the negative pressure pump (611), the packing auger motor (41) and the electronic discharge valve are electrically connected with the P L C controller in a control manner, and the P L C controller is electrically connected with an external power supply.

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