CN114768933A

CN114768933A - Building material recycling and processing equipment

Info

Publication number: CN114768933A
Application number: CN202210389429.9A
Authority: CN
Inventors: 晏晴云
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-04-14
Filing date: 2022-04-14
Publication date: 2022-07-22

Abstract

The invention discloses a building material recycling and processing device which comprises a bottom plate, wherein a material receiving frame is arranged at the upper end of the bottom plate, a supporting longitudinal beam is fixedly connected to one side of the material receiving frame, a supporting ring is fixedly connected to the upper end of the supporting longitudinal beam, a processing barrel is connected to the supporting ring, a material inlet frame is arranged at the upper end of the processing barrel, one side of the material inlet frame is fixedly connected with the supporting longitudinal beam, an upper shaft lever supporting frame is connected to the inner side of the material inlet frame, a lower shaft lever supporting frame is fixedly connected to the lower end of the inner part of the processing barrel, and a stirring shaft is connected between the upper supporting frame and the lower supporting frame. This building material retrieves processing equipment can be convenient for simplify oyster shell and slag recovery processing flow to make oyster shell and slag recovery processing efficiency improve and reduce oyster shell and slag recovery processing's cost, and can be convenient for improve the processing quality, and can be convenient for get rid of oyster shell and slag middlings iron ore metal.

Description

Building material recycling and processing equipment

Technical Field

The invention relates to the technical field of building material processing, in particular to building material recycling and processing equipment.

Background

The oyster shell and the steel slag contain minerals such as dicalcium silicate, tricalcium silicate, iron aluminate and the like which are similar to cement, and have hydraulic gelation shapes, so the oyster shell and the steel slag can be used as raw materials for producing cement without clinker and with less clinker and can also be used as cement admixture, and the oyster shell and the steel slag cement have the advantages of low hydration heat, high later strength, corrosion resistance, wear resistance and the like, are ideal dam cement and road cement, and attract the attention of related industries, so a building material recycling and processing device is needed for processing and treating the cement, thereby recycling the cement.

However, the existing oyster shell and steel slag are complex in process when being made into building materials, the processing efficiency is low, the recycling cost of the oyster shell and the steel slag is increased, the oyster shell and the steel slag are not suitable for being popularized in small factories, the existing oyster shell and steel slag processing device has poor crushing effect on the oyster shell and the steel slag, the processing quality is unqualified, the product quality is influenced, the existing oyster shell and the steel slag contain more iron ore metal, and the iron ore metal can damage the processing device in the processing process, so that the maintenance cost of the processing device is increased for the factory, and the use of raw materials of the oyster shell and the steel slag can be influenced.

Disclosure of Invention

The invention aims to provide a building material recycling and processing device, which aims to solve the problems that the existing oyster shell and steel slag recycling and processing technology is complex, the recycling cost is high, the processing effect is poor, and iron ore metals in the oyster shell and the steel slag cannot be removed in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a building material recycling and processing device comprises a bottom plate, wherein a material receiving frame is arranged at the upper end of the bottom plate, a supporting longitudinal beam is fixedly connected to one side of the material receiving frame, a supporting ring is fixedly connected to the upper end of the supporting longitudinal beam, a processing barrel is connected to the supporting ring, a material inlet frame is arranged at the upper end of the processing barrel, one side of the material inlet frame is fixedly connected to the supporting longitudinal beam, an upper shaft rod supporting frame is connected to the inner side of the material inlet frame, a lower shaft rod supporting frame is fixedly connected to the lower end of the inner part of the processing barrel, a stirring shaft is connected between the upper shaft rod supporting frame and the lower shaft rod supporting frame, a stirring blade is arranged on the stirring shaft, a gear ring is fixedly connected to the middle part of the outer side of the processing barrel, a driving motor is arranged on one side of the processing barrel, a motor gear is connected to the shaft end of the driving motor, the motor gear is meshed with the gear ring, an iron removing frame is connected to the lower end of the processing barrel through a supporting beam, and one side of the iron removing frame is provided with an iron material collecting frame, the inside of the iron removing frame is connected with a magnetic roller, one side of the magnetic roller is connected with a fluted disc at the shaft end, one side of a supporting ring is connected with a transmission shaft bracket, the supporting beam is connected with a transmission shaft bracket, a transmission shaft is connected between the transmission shaft brackets in a bearing way, the upper end of the transmission shaft is connected with a transmission shaft gear in a key way, the transmission shaft gear is meshed with a gear ring in a mutual engagement way, the lower end of the iron removing frame is connected with a screening frame through the screening bracket, a screening plate is arranged in the screening frame, the lower end of the screening plate is fixedly connected with a telescopic shaft, the telescopic shaft is connected with a spring, the two ends of the screening plate are connected with the two ends of the screening frame through the telescopic shaft, a vibrating device is arranged on one side of the screening plate, a fine grinding box bracket is fixedly connected on a bottom plate on one side of the screening plate, and a fine grinding box is arranged on the upper end of the fine grinding box bracket, the fine grinding box is internally connected with fine grinding rollers, a material baffle plate is connected above the fine grinding box, a fine grinding motor is fixedly connected to the fine grinding box on one side of the fine grinding rollers, and a material guide plate is arranged on one side of the lower end of the fine grinding box.

Preferably, circular through holes are formed in two sides of the screening frame, the telescopic shafts on the screening plates are movably connected in the circular through holes in the two sides of the screening frame in a nested mode, and springs are arranged between the screening frame and the screening plates.

Preferably, the feeding frame is connected with the upper end of the processing barrel through a bearing, and the supporting ring is connected with the processing barrel through a bearing.

Preferably, the lower end of the processing barrel is provided with a discharge port, the discharge port at the lower end of the processing barrel is positioned above one side of the magnetic roller, and the iron removing frame at the lower end of the magnetic roller is provided with a discharge port.

Preferably, the lower end of the transmission shaft is provided with an external spiral thread, and the external spiral thread at the lower end of the transmission shaft is meshed with the fluted disc.

Preferably, the structural shape of the horizontal section of the striker plate is U-shaped, and the lower end of the screening plate is positioned in the striker plate.

Preferably, the number of the refining rollers is 2, the refining rollers are in transmission connection through gears, and the surfaces of the refining rollers are provided with hemispherical convex grains.

Preferably, the upper end of the stirring shaft is fixedly connected with the upper support frame of the shaft lever, and the lower end of the stirring shaft is connected with the lower support frame of the shaft lever through a bearing.

Compared with the prior art, the invention has the beneficial effects that: this building material retrieves processing equipment can be convenient for simplify oyster shell and slag recovery processing flow to make oyster shell and slag recovery processing efficiency improve and reduce oyster shell and slag recovery processing's cost, and can be convenient for improve the processing quality, and can be convenient for get rid of oyster shell and slag middlings metal:

1. the screening plate is vibrated by the vibrating device, the telescopic shaft at the lower end of the screening plate moves in a telescopic manner in the circular through holes at two ends of the screening frame, so that oyster shells and steel slag raw materials on the screening plate are screened, the raw materials meeting requirements fall into the material receiving frame through the screening holes in the screening plate, large-particle raw materials enter the fine grinding box through the front end of the screening plate, repeated fine grinding of the oyster shells and the steel slag raw materials meeting the requirements is avoided through screening treatment, the recycling treatment efficiency of the oyster shells and the steel slag is improved, the electric energy use cost of the processing device is reduced, and the quality of products is improved through twice grinding processing treatment;

2. drive transmission shaft gear through ring gear rotation and rotate, transmission shaft gear rotates and drives the transmission shaft and rotate, the transmission shaft drives the fluted disc through the external screw thread of lower extreme and rotates, thereby make magnetic roller rotate, magnetic roller adsorbs the iron ore metal of sneaking into in oyster shell and the slag on magnetic roller surface, and make the iron ore metal enter into the iron material through inertial effect and collect in the frame, oyster shell and slag raw materials enter into the screening board through the discharge gate of iron material collection frame lower extreme on, thereby can be convenient for get rid of iron ore metal in oyster shell and the slag.

Drawings

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

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

FIG. 3 is a front view of the present invention;

FIG. 4 is a schematic cross-sectional front view of the present invention;

FIG. 5 is an enlarged view of point A of FIG. 4 according to the present invention;

FIG. 6 is a right side view schematic of the present invention;

FIG. 7 is a schematic diagram of a right-side cross-sectional structure of the present invention.

In the figure: 1. a base plate; 2. a material receiving frame; 3. supporting the longitudinal beam; 4. screening the bracket; 5. screening the frame; 6. a supporting beam; 7. a drive motor; 8. a drive shaft gear; 9. a motor gear; 10. an upper support frame of the shaft lever; 11. a feeding frame; 12. a support ring; 13. a ring gear; 14. a processing barrel; 15. a drive shaft; 16. a fluted disc; 17. a de-ironing frame; 18. an iron material collecting frame; 19. a striker plate; 20. finely grinding the box; 21. a finish grinding motor; 22. a fine grinding box bracket; 23. stirring blades; 24. a screening plate; 25. fine grinding rollers; 26. a transmission shaft support; 27. a stock guide; 28. a stirring shaft; 29. a magnetic roller; 30. a shaft lever lower support frame; 31. a vibrating device; 32. a telescopic shaft; 33. a spring.

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.

Referring to fig. 1-7, the present invention provides a technical solution: a building material recycling and processing device comprises a bottom plate 1, a material receiving frame 2, a supporting longitudinal beam 3, a screening support 4, a screening frame 5, a supporting beam 6, a driving motor 7, a transmission shaft gear 8, a motor gear 9, an upper shaft rod support frame 10, a material feeding frame 11, a supporting ring 12, a gear ring 13, a processing barrel 14, a transmission shaft 15, a fluted disc 16, an iron removing frame 17, an iron material collecting frame 18, a material baffle plate 19, a fine grinding box 20, a fine grinding motor 21, a fine grinding box support 22, a stirring blade 23, a screening plate 24, a fine grinding roller 25, a transmission shaft support 26, a material guide plate 27, a stirring shaft 28, a magnetic roller 29, a lower shaft rod support frame 30, a vibrating device 31, an expansion shaft 32 and a spring 33, wherein the material receiving frame 2 is arranged at the upper end of the bottom plate 1, the supporting longitudinal beam 3 is fixedly connected to one side of the material receiving frame 2, the supporting longitudinal beam 3 is fixedly connected to the upper end of the supporting longitudinal beam 3, the supporting ring 12 is connected to the supporting ring 12, and the processing barrel 14 is connected to the supporting ring 12, the upper end of a processing barrel 14 is provided with a feeding frame 11, one side of the feeding frame 11 is fixedly connected with a support longitudinal beam 3, the inner side of the feeding frame 11 is connected with an upper shaft rod support frame 10, the lower end of the inner part of the processing barrel 14 is fixedly connected with a lower shaft rod support frame 30, a stirring shaft 28 is connected between the upper shaft rod support frame 10 and the lower shaft rod support frame 30, a stirring blade 23 is arranged on the stirring shaft 28, the middle part of the outer side of the processing barrel 14 is fixedly connected with a gear ring 13, one side of the processing barrel 14 is provided with a driving motor 7, the shaft end of the driving motor 7 is connected with a motor gear 9, the motor gear 9 is meshed with the gear ring 13, the lower end of the processing barrel 14 is connected with a deironing frame 17 through a support beam 6, one side of the deironing frame 17 is provided with an iron material collecting frame 18, the interior of the deironing frame 17 is connected with a magnetic roller 29, one side of the magnetic roller 29 is connected with a fluted disc 16, and one side of the support ring 12 is connected with a transmission shaft support 26, a transmission shaft bracket 26 is connected on the supporting beam 6, a transmission shaft 15 is connected between the transmission shaft brackets 26 through a bearing, the upper end of the transmission shaft 15 is connected with a transmission shaft gear 8 in a key manner, the transmission shaft gear 8 is meshed with the gear ring 13 in a mutually meshed manner, the lower end of the iron removing frame 17 is connected with a screening frame 5 through a screening bracket 4, a screening plate 24 is arranged in the screening frame 5, the lower end of the screening plate 24 is fixedly connected with an expansion shaft 32, a spring 33 is connected on the expansion shaft 32, two ends of the screening plate 24 are connected with two ends of the screening frame 5 through the expansion shaft 32, a vibration device 31 is arranged at one side of the upper end of the screening plate 24, a fine grinding box bracket 22 is fixedly connected on a bottom plate 1 at one side of the screening plate 24, a fine grinding box 20 is arranged at the upper end of the fine grinding box bracket 22, a fine grinding roller 25 is connected in the fine grinding box 20, a material baffle plate 19 is connected above the fine grinding box 20, a fine grinding motor 21 is fixedly connected on the fine grinding box 20 at one side of the fine grinding roller 25, and a material guide plate 27 is provided at one side of the lower end of the refining box 20.

Screening frame 5 both sides are provided with circular through-hole, and the nested swing joint of telescopic shaft 32 on the screening board 24 is in the circular through-hole of screening frame 5 both sides, and be provided with spring 33 between screening frame 5 and the screening board 24, can be convenient for vibrate screening board 24 through vibrating device 31, make telescopic shaft 32 of screening board 24 lower extreme at the circular through-hole concertina movement at 5 both ends of screening frame, and can be convenient for make screening board 24 vibrate under spring 33 spring force, thereby make the material to output in the deironing frame 17 sieve.

The upper ends of the feeding frame 11 and the processing barrel 14 are connected through a bearing, and the supporting ring 12 is connected with the processing barrel 14 through a bearing, so that the processing barrel 14 can be conveniently fixed at the upper end of the supporting longitudinal beam 3, the processing barrel 14 can be stably supported above the iron material collecting frame 18, and the processing barrel 14 can be conveniently rotated relative to the feeding frame 11 and the supporting ring 12.

Processing bucket 14 lower extreme is provided with the discharge gate, and the discharge gate of processing bucket 14 lower extreme is located magnetic roll 29 one side top, and be provided with the discharge gate on the deironing frame 17 of magnetic roll 29 lower extreme, can be convenient for input the rough machining raw materials in the processing bucket 14 into deironing frame 17, magnetic roll 29 anticlockwise rotation in the deironing frame 17, adsorb iron ore metal on magnetic roll 29 surface, make iron ore metal enter into iron material collection frame 18 under inertial effect, thereby make iron ore metal and processing raw materials separate, and can be convenient for make oyster shell and slag enter into screening frame 5 through the discharge gate that removes the iron frame 17 lower extreme in, make screening frame 5 further sieve oyster shell and slag raw materials.

The lower extreme of transmission shaft 15 is provided with outer spiral, and the outer spiral of transmission shaft 15 lower extreme is connected with the meshing of fluted disc 16, can be convenient for rotate through driving motor 7 and drive ring gear 13 and rotate for ring gear 13 rotates and drives transmission shaft gear 8 and rotate, and transmission shaft gear 8 rotates and drives transmission shaft 15 and rotate, and can be convenient for make transmission shaft 15 drive fluted disc 16 through the outer spiral of its below and rotate, thereby make fluted disc 16 drive magnetic force cylinder 29 rotate.

The structural shape of the horizontal cross section of the striker plate 19 is U-shaped, the lower end of the screening plate 24 is positioned in the striker plate 19, raw materials on the screening plate 24 can be enabled to completely enter the fine grinding box 20 through the U-shaped structure of the striker plate 19, and accordingly the screening plate 24 can be prevented from vibrating the raw materials to the outside of the fine grinding box 20 in the vibration process.

The quantity of correct grinding gyro wheel 25 sets up to 2, and connect through gear drive between the correct grinding gyro wheel 25 two, and correct grinding gyro wheel 25 surface is provided with the protruding grain of hemisphere, can be convenient for rotate through correct grinding motor 21 and drive correct grinding gyro wheel 25 and rotate, correct grinding gyro wheel 25 drives one side correct grinding gyro wheel 25 through the gear and rotates, thereby make both inside side antiport of correct grinding gyro wheel 25, and then carry out the correct grinding to the material, and can be convenient for extrude the correct grinding to oyster shell and slag raw materials through the protruding grain of hemisphere on correct grinding gyro wheel 25 surface, thereby improve the correct grinding effect of oyster shell and slag raw materials.

(mixing) shaft 28 upper end and axostylus axostyle upper strut frame 10 fixed connection, and (mixing) shaft 28 lower extreme is connected through the bearing with axostylus axostyle lower strut frame 30, can be convenient for make its rotation not take place with stirring shaft 28 is fixed through axostylus axostyle upper strut frame 10, fix (mixing) shaft 28 through axostylus axostyle lower strut frame 30, make stirring shaft 28 can rotate on axostylus axostyle lower strut frame 30, and can be convenient for rotate through processing bucket 14 and carry out rough machining to oyster shell and slag and handle.

The working principle is as follows: firstly, oyster shell and steel slag raw materials are added into a processing barrel 14 through a feeding frame 11, a processing device is started, a driving motor 7 rotates to drive a motor gear 9 at the shaft end of the driving motor to rotate, the motor gear 9 drives the processing barrel 14 to rotate through a gear ring 13, a stirring shaft 28 is fixed through a support frame 10 on a shaft lever at the upper end of the feeding frame 11, the processing barrel 14 rotates relative to a stirring blade 23 on the stirring shaft 28, and accordingly rough processing is conducted on the oyster shell and the steel slag raw materials in the processing barrel 14;

oyster shell and steel slag raw materials after rough machining enter into an iron removing frame 17 through a discharge hole at the lower end of a machining barrel 14, a gear ring 13 rotates to drive a transmission shaft gear 8 to rotate, the transmission shaft gear 8 rotates to drive a transmission shaft 15 to rotate, the transmission shaft 15 drives a fluted disc 16 to rotate through external threads at the lower end, so that a magnetic roller 29 rotates, the magnetic roller 29 adsorbs iron ore metals mixed in the oyster shell and the steel slag on the surface of the magnetic roller 29, the iron ore metals enter into an iron material collecting frame 18 through the action of inertia, and the oyster shell and the steel slag raw materials enter into a screening plate 24 through a discharge hole at the lower end of the iron material collecting frame 18;

the screening plate 24 is vibrated by the vibrating device 31, the telescopic shaft 32 at the lower end of the screening plate 24 telescopically moves in the circular through holes at the two ends of the screening frame 5, so that oyster shells and steel slag raw materials on the screening plate 24 are screened, the raw materials meeting the requirements fall into the material receiving frame 2 through the screening holes in the screening plate 24, and large-particle raw materials enter the fine grinding box 20 through the front end of the screening plate 24;

the rotation of the fine grinding motor 21 drives the rotation of the fine grinding roller 25 at one side, the rotation of the fine grinding roller 25 at one side drives the rotation of the fine grinding roller 25 at the other side through a gear, so that the fine grinding rollers 25 at two sides rotate towards the inner side, thereby performing the fine grinding treatment on the oyster shell and the steel slag raw material, and the raw material after the fine grinding is finished enters the material collecting frame 2 through the material guide plate 27 at the lower end of the fine grinding box 20.

It is to be understood that the terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the figures, which are based on the orientation or positional relationship shown in the figures, and are used for convenience in describing the invention and to simplify the description, but are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and are not to be construed as limiting the scope of the invention.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A building material recycling and processing device comprises a bottom plate (1), and is characterized in that: the upper end of the bottom plate (1) is provided with a material receiving frame (2), one side of the material receiving frame (2) is fixedly connected with a supporting longitudinal beam (3), the upper end of the supporting longitudinal beam (3) is fixedly connected with a supporting ring (12), the supporting ring (12) is connected with a processing barrel (14), the upper end of the processing barrel (14) is provided with a material inlet frame (11), one side of the material inlet frame (11) is fixedly connected with the supporting longitudinal beam (3), the inner side of the material inlet frame (11) is connected with an upper shaft rod supporting frame (10), the lower end inside the processing barrel (14) is fixedly connected with a lower shaft rod supporting frame (30), a stirring shaft (28) is connected between the upper shaft rod supporting frame (10) and the lower shaft rod supporting frame (30), stirring blades (23) are arranged on the stirring shaft (28), the middle part of the outer side of the processing barrel (14) is fixedly connected with a gear ring (13), and one side of the processing barrel (14) is provided with a driving motor (7), the iron removing machine is characterized in that a motor gear (9) is connected to the shaft end of the driving motor (7), the motor gear (9) is meshed with the gear ring (13) and connected with an iron removing frame (17) through a supporting beam (6), an iron material collecting frame (18) is arranged on one side of the iron removing frame (17), a magnetic roller (29) is connected to the inner portion of the iron removing frame (17), a fluted disc (16) is connected to the shaft end of one side of the magnetic roller (29), a transmission shaft bracket (26) is connected to one side of the supporting ring (12), the transmission shaft bracket (26) is connected to the supporting beam (6), a transmission shaft (15) is connected to a bearing between the transmission shaft brackets (26), a transmission shaft gear (8) is connected to the upper end of the transmission shaft (15) in a key mode and meshed with the gear ring (13), and a screening frame (5) is connected to the lower end of the iron removing frame (17) through a screening bracket (4), and screening board (24) is provided with in screening frame (5), screening board (24) lower extreme fixedly connected with telescopic shaft (32), and be connected with spring (33) on telescopic shaft (32), screening board (24) both ends are connected with screening frame (5) both ends through telescopic shaft (32), and screening board (24) upper end one side is provided with vibrating device (31), fixedly connected with finish grinding case support (22) are gone up in bottom plate (1) of screening board (24) one side, and finish grinding case support (22) upper end is provided with finish grinding case (20), finish grinding case (20) internal connection has finish grinding gyro wheel (25), and is connected with striker plate (19) above finish grinding case (20), fixedly connected with finish grinding motor (21) on finish grinding case (20) of finish grinding gyro wheel (25) one side, and finish grinding case (20) lower extreme one side is provided with stock guide (27).

2. The construction material recycling and processing apparatus of claim 1, wherein: circular through holes are formed in the two sides of the screening frame (5), the telescopic shafts (32) on the screening plates (24) are movably connected into the circular through holes in the two sides of the screening frame (5) in a nesting mode, and springs (33) are arranged between the screening frame (5) and the screening plates (24).

3. The construction material recycling and processing apparatus of claim 1, wherein: the feeding frame (11) is connected with the upper end of the processing barrel (14) through a bearing, and the supporting ring (12) is connected with the processing barrel (14) through a bearing.

4. The construction material recycling processing apparatus according to claim 1, wherein: the lower end of the processing barrel (14) is provided with a discharge hole, the discharge hole at the lower end of the processing barrel (14) is positioned above one side of the magnetic roller (29), and the iron removing frame (17) at the lower end of the magnetic roller (29) is provided with a discharge hole.

5. The construction material recycling and processing apparatus of claim 1, wherein: the lower end of the transmission shaft (15) is provided with an external spiral thread, and the external spiral thread at the lower end of the transmission shaft (15) is meshed with the fluted disc (16).

6. The construction material recycling and processing apparatus of claim 1, wherein: the structure shape of the horizontal section of the striker plate (19) is U-shaped, and the lower end of the screening plate (24) is positioned in the striker plate (19).

7. The construction material recycling and processing apparatus of claim 1, wherein: the number of the fine grinding roller (25) is set to be 2, the fine grinding roller (25) is connected with the fine grinding roller through gear transmission, and the surface of the fine grinding roller (25) is provided with hemispherical convex grains.

8. The construction material recycling processing apparatus according to claim 1, wherein: the upper end of the stirring shaft (28) is fixedly connected with the shaft lever upper support frame (10), and the lower end of the stirring shaft (28) is connected with the shaft lever lower support frame (30) through a bearing.