CN221965506U - A stone particle sand making machine - Google Patents

Abstract

The utility model relates to the technical field of stone particle sand making, in particular to a stone particle sand making machine, which can absorb and clean the dust generated in the material production process during the stone particle sand making process by arranging a dust suction mechanism and a cleaning mechanism, thereby maintaining the working environment; it comprises a crushing mechanism; it also comprises a feeding mechanism, a screening mechanism, a discharging mechanism, a dust suction mechanism and a cleaning mechanism, the feeding mechanism is installed at the left end of the crushing mechanism, the screening mechanism is installed in the crushing mechanism, the discharging mechanism is installed in the crushing mechanism, the dust suction mechanism is installed at the upper end of the crushing mechanism, and the cleaning mechanism is installed at the front end of the crushing mechanism; the crushing mechanism performs crushing, the feeding mechanism performs feeding, the screening mechanism performs screening, the discharging mechanism performs filtering and discharging, the dust suction mechanism performs dust suction, and the cleaning mechanism performs cleaning.

Description

A stone particle sand making machine

Technical Field

The utility model relates to the technical field of stone particle sand making, in particular to a stone particle sand making machine.

Background Art

The new type of sand making machine is suitable for the crushing of soft, medium-hard and extremely hard ore materials with a hardness not higher than spring 0Pa. Sand making machines are widely used in many departments such as large, smelting, building materials, roads, railways, water conservancy and chemical industries.

In the existing stone particle sand making machines, for example, a stone particle sand making machine disclosed in the utility model patent with application number 202321083957.8, the utility model facilitates the screening of completely crushed materials through the coordinated use of the second motor, connecting rod, spring and screening plate, and at the same time, through the coordinated use of the unloading plate and the receiving frame, it is convenient to collect the processed materials in a centralized manner, and cooperates with the first motor, screw rod, mounting seat and pushing block to push the materials screened on the screening plate into the unloading frame, so that the conveying device can transport them to the sand making machine body again for repeated processing to ensure the processing quality. Compared with the existing equipment, the utility model screens the materials that meet the sand making requirements, so that the materials in the sand making machine body are gradually reduced during the repeated processing, so that it is convenient to add materials to the device again during processing, thereby improving the processing efficiency of the device and facilitating use.

However, in the process of stone particle sand making, material impact, collision and crushing will generate a lot of dust, which will cause environmental pollution.

Utility Model Content

In order to solve the above technical problems, the utility model provides a stone particle sand making machine which is equipped with a dust suction mechanism and a cleaning mechanism, so that during the stone particle sand making process, the dust generated in the material production process can be absorbed and cleaned, thereby maintaining the working environment.

The utility model discloses a stone particle sand making machine, comprising a crushing mechanism; a feeding mechanism, a screening mechanism, a discharging mechanism, a dust collecting mechanism and a cleaning mechanism, wherein the feeding mechanism is installed at the left end of the crushing mechanism, the screening mechanism is installed in the crushing mechanism, the discharging mechanism is installed in the crushing mechanism, the dust collecting mechanism is installed at the upper end of the crushing mechanism, and the cleaning mechanism is installed at the front end of the crushing mechanism;

The crushing mechanism performs crushing, the feeding mechanism performs feeding, the screening mechanism performs screening, the discharging mechanism performs filtering and discharging, the dust suction mechanism performs dust suction, and the cleaning mechanism performs cleaning; the material is loaded by opening the feeding mechanism, the material is crushed by opening the crushing mechanism, the dust is absorbed by opening the dust suction mechanism, the absorbed dust is cleaned by opening the cleaning mechanism, the material is screened by opening the screening mechanism, the coarser material is discharged back to the feeding mechanism for further crushing, the material is filtered for a second time by adjusting the discharging mechanism to make the material coarseness and fineness more accurate, so that in the process of stone particle sand making, the dust generated in the material production process can be absorbed and cleaned, thereby maintaining the working environment.

Preferably, the crushing mechanism includes a sand making bin, a crushing shaft and a motor 1. The crushing shaft is rotatably installed in the sand making bin, and the input end of the crushing shaft extends to the sand making bin production line. The motor 1 is installed at the upper end of the sand making bin, and the output end of the motor 1 is connected to the input end of the crushing shaft. The crushing shaft is driven by turning on the motor 1 to rotate the crushing shaft to crush the material.

Preferably, the feeding mechanism includes an auger, a spiral blade shaft and a second motor. The auger is installed at the left end of the sand making bin, the spiral blade shaft is rotatably installed in the auger, and the input end of the spiral blade shaft extends to the upper side of the auger. The second motor is installed at the upper end of the auger, and the output end of the second motor is connected to the input end of the spiral blade shaft. The spiral blade shaft is driven by turning on the second motor to rotate the spiral blade shaft to transport the material.

Preferably, the screening mechanism includes a screen, multiple groups of springs and a vibration motor. The screen is installed in the sand making bin through the multiple groups of springs, and the vibration motor is installed at the lower end of the screen. The screen is vibrated by turning on the vibration motor so that the screen can screen the material.

Preferably, the discharging mechanism includes a bottom screen, an upper screen and a screw, the bottom screen is installed in the sand making bin, the upper screen is slidably installed in the sand making bin, the screw is rotatably installed on the sand making bin, and the screw and the upper screen are threadedly matched; the upper screen is moved by rotating the screw to threadably match the upper screen, and while the upper screen moves, it cooperates with the bottom screen to change the aperture size to limit the coarseness of the material.

Preferably, the dust suction mechanism includes a dust box and a fan, the dust box is installed at the upper end of the sand making bin, and the fan is installed at the right end of the dust box; by turning on the fan, dust is sucked into the dust box for collection.

Preferably, the cleaning mechanism includes a water tank, a drain pipe, a water pump, a water curtain nozzle, an upper water pipe and a filter screen. The water tank is installed at the front end of the sand making bin, the interior of the water tank is connected to the interior of the dust box through the drain pipe, the water pump is installed at the front end of the water tank, the water curtain nozzle is installed in the dust box, and the input end of the water curtain nozzle is connected to the output end of the water pump through the upper water pipe, and the filter screen is slidably installed in the water tank; by turning on the water pump, the water in the water tank is sprayed out through the upper water pipe and the water curtain nozzle to clean the dust, and then the sewage is discharged back to the water tank through the drain pipe and filtered through the filter screen.

Compared with the prior art, the utility model has the following beneficial effects: materials are loaded by opening the feeding mechanism, materials are crushed by opening the crushing mechanism, dust is absorbed by opening the dust suction mechanism, absorbed dust is cleaned by opening the cleaning mechanism, materials are screened by opening the screening mechanism, coarser materials are discharged back to the feeding mechanism for further crushing, and materials are filtered for a second time by adjusting the discharging mechanism to make the coarseness of the materials more precise, so that in the process of stone particle sand making, the dust generated in the material production process can be absorbed and cleaned, thereby maintaining the working environment.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a schematic diagram of the axonometric structure of the utility model;

FIG2 is a schematic diagram of the rear cross-sectional isometric structure of the utility model;

FIG3 is a first right side sectional isometric structural schematic diagram of the utility model;

FIG4 is a second right side sectional isometric structural schematic diagram of the present invention;

FIG5 is a schematic diagram of an axonometric structure of the material discharging mechanism of the present invention in the rear view section of section A in FIG2;

Markings in the attached figure: 1. Crushing mechanism; 11. Sand making bin; 12. Crushing shaft; 13. Motor 1; 2. Feeding mechanism; 21. Auger; 22. Spiral blade shaft; 23. Motor 2; 3. Screening mechanism; 31. Screen; 32. Spring; 33. Vibration motor; 4. Discharge mechanism; 41. Bottom screen; 42. Upper screen; 43. Screw; 5. Dust suction mechanism; 51. Dust box; 52. Fan; 6. Cleaning mechanism; 61. Water tank; 62. Drain pipe; 63. Water pump; 64. Water curtain nozzle; 65. Water pipe; 66. Filter.

DETAILED DESCRIPTION

In order to facilitate the understanding of the utility model, the utility model will be described more comprehensively below with reference to the relevant drawings. The utility model can be implemented in many different forms and is not limited to the embodiments described herein. On the contrary, the purpose of providing these embodiments is to make the disclosure of the utility model more thorough and comprehensive.

Example 1

As shown in Figures 1 to 5, it includes a crushing mechanism 1, a feeding mechanism 2, a screening mechanism 3, a discharging mechanism 4, a dust collecting mechanism 5 and a cleaning mechanism 6. The feeding mechanism 2 is installed at the left end of the crushing mechanism 1, the screening mechanism 3 is installed in the crushing mechanism 1, the discharging mechanism 4 is installed in the crushing mechanism 1, the dust collecting mechanism 5 is installed at the upper end of the crushing mechanism 1, and the cleaning mechanism 6 is installed at the front end of the crushing mechanism 1;

The crushing mechanism 1 performs crushing, the feeding mechanism 2 performs feeding, the screening mechanism 3 performs screening, the discharging mechanism 4 performs filtering and discharging, the dust collecting mechanism 5 performs dust collecting, and the cleaning mechanism 6 performs cleaning;

The crushing mechanism 1 includes a sand making bin 11, a crushing shaft 12 and a motor 13. The crushing shaft 12 is rotatably installed in the sand making bin 11, and the input end of the crushing shaft 12 extends to the sand making bin 11. The motor 13 is installed at the upper end of the sand making bin 11, and the output end of the motor 13 is connected to the input end of the crushing shaft 12.

The feeding mechanism 2 includes an auger 21, a spiral blade shaft 22 and a second motor 23. The auger 21 is installed at the left end of the sand making bin 11. The spiral blade shaft 22 is rotatably installed in the auger 21, and the input end of the spiral blade shaft 22 extends to the upper side of the auger 21. The second motor 23 is installed at the upper end of the auger 21, and the output end of the second motor 23 is connected to the input end of the spiral blade shaft 22.

The screening mechanism 3 includes a screen 31, multiple groups of springs 32 and a vibration motor 33. The screen 31 is installed in the sand making bin 11 through the multiple groups of springs 32, and the vibration motor 33 is installed at the lower end of the screen 31.

The discharge mechanism 4 includes a bottom screen 41, an upper screen 42 and a screw 43. The bottom screen 41 is installed in the sand making bin 11, the upper screen 42 is slidably installed in the sand making bin 11, and the screw 43 is rotatably installed on the sand making bin 11, and the screw 43 is threadedly matched with the upper screen 42.

The dust collecting mechanism 5 comprises a dust box 51 and a fan 52. The dust box 51 is mounted on the upper end of the sand making bin 11, and the fan 52 is mounted on the right end of the dust box 51.

The cleaning mechanism 6 includes a water tank 61, a drain pipe 62, a water pump 63, a water curtain nozzle 64, a water supply pipe 65 and a filter screen 66. The water tank 61 is installed at the front end of the sand making bin 11. The interior of the water tank 61 is connected with the interior of the dust box 51 through the drain pipe 62. The water pump 63 is installed at the front end of the water tank 61. The water curtain nozzle 64 is installed in the dust box 51, and the input end of the water curtain nozzle 64 is connected with the output end of the water pump 63 through the water supply pipe 65. The filter screen 66 is slidably installed in the water tank 61.

The spiral blade shaft 22 is driven by turning on the motor 23 to rotate the spiral blade shaft 22 to transport and load the material. The crushing shaft 12 is driven by turning on the motor 13 to rotate the crushing shaft 12 to crush the material. At the same time, the dust is sucked into the dust box 51 by turning on the fan 52 to absorb it. The water in the water tank 61 is sprayed out through the upper water pipe 65 and the water curtain nozzle 64 by turning on the water pump 63 to clean the dust. After that, the sewage is discharged back to the water tank 61 through the drain pipe 62 and filtered by the filter screen 66. The motor 33 vibrates the screen 31 so that the screen 31 screens the material, and the coarser material is discharged back into the auger 21 for further transportation and crushing. The upper screen 42 is moved by rotating the screw 43 and threading it with the upper screen 42. While the upper screen 42 moves, it cooperates with the bottom screen 41 to change the aperture size to limit the coarseness of the material and make the coarseness of the material more accurate. By arranging the dust suction mechanism and the cleaning mechanism, the dust generated in the material production process can be absorbed and cleaned during the stone particle sand making process, thereby maintaining the working environment.

As shown in Figures 1 to 5, a stone particle sand making machine of the utility model, when working, is driven by turning on the motor 23 to drive the spiral blade shaft 22 so that the spiral blade shaft 22 rotates to transport and feed the material, and is driven by turning on the motor 13 to drive the crushing shaft 12 so that the crushing shaft 12 rotates to crush the material, and at the same time, the dust is sucked into the dust box 51 for absorption by turning on the fan 52, and the water in the water tank 61 is sprayed out through the upper water pipe 65 and the water curtain nozzle 64 by turning on the water pump 63 to clean the dust, and then the sewage is discharged back to the water tank 61 through the drain pipe 62 and filtered by the filter 66, and the screen 31 is vibrated by turning on the vibration motor 33 so that the screen 31 screens the material, and the coarser material is discharged back to the auger 21 for further transportation and crushing, and the upper screen 42 is moved by rotating the screw 43 and threadedly matched with the upper screen 42, and the upper screen 42 moves while cooperating with the bottom screen 41 to change the aperture size to limit the coarseness of the material so that the coarseness of the material is more accurate.

The motor 1 13, the motor 2 23, the vibration motor 33, the fan 52, and the water pump 63 of the utility model are purchased on the market, and the technicians in the industry only need to install and operate them according to the accompanying instruction manual, without the need for the technicians in this field to make creative efforts.

The main function achieved by the utility model is: in the process of stone particle sand making, by arranging the dust suction mechanism and the cleaning mechanism, the dust generated in the material production process can be absorbed and cleaned during the stone particle sand making process, thereby maintaining the working environment.

The above is only a preferred embodiment of the present invention. It should be pointed out that for ordinary technicians in this technical field, several improvements and modifications can be made without departing from the technical principle of the present invention. These improvements and modifications should also be regarded as the protection scope of the present invention.

Claims (7)

1. A stone particle sand making machine, comprising a crushing mechanism (1); characterized in that it also comprises a feeding mechanism (2), a screening mechanism (3), a discharging mechanism (4), a dust collecting mechanism (5) and a cleaning mechanism (6), wherein the feeding mechanism (2) is mounted at the left end of the crushing mechanism (1), the screening mechanism (3) is mounted in the crushing mechanism (1), the discharging mechanism (4) is mounted in the crushing mechanism (1), the dust collecting mechanism (5) is mounted at the upper end of the crushing mechanism (1), and the cleaning mechanism (6) is mounted at the front end of the crushing mechanism (1); The crushing mechanism (1) performs crushing, the feeding mechanism (2) performs feeding, the screening mechanism (3) performs screening, the discharging mechanism (4) performs filtering and discharging, the dust collecting mechanism (5) performs dust collecting, and the cleaning mechanism (6) performs cleaning. 2. A stone particle sand making machine as described in claim 1, characterized in that the crushing mechanism (1) includes a sand making bin (11), a crushing shaft (12) and a motor 1 (13), the crushing shaft (12) is rotatably mounted in the sand making bin (11), and the input end of the crushing shaft (12) extends to the sand making bin (11), the motor 1 (13) is mounted on the upper end of the sand making bin (11), and the output end of the motor 1 (13) is connected to the input end of the crushing shaft (12). 3. A stone particle sand making machine as described in claim 2, characterized in that the feeding mechanism (2) comprises an auger (21), a spiral blade shaft (22) and a second motor (23), the auger (21) is installed at the left end of the sand making bin (11), the spiral blade shaft (22) is rotatably installed in the auger (21), and the input end of the spiral blade shaft (22) extends to the upper side of the auger (21), the second motor (23) is installed at the upper end of the auger (21), and the output end of the second motor (23) is connected to the input end of the spiral blade shaft (22). 4. A stone particle sand making machine as described in claim 2, characterized in that the screening mechanism (3) comprises a screen (31), multiple groups of springs (32) and a vibration motor (33), the screen (31) is installed in the sand making bin (11) through the multiple groups of springs (32), and the vibration motor (33) is installed at the lower end of the screen (31). 5. A stone particle sand making machine as described in claim 2, characterized in that the discharging mechanism (4) comprises a bottom screen (41), an upper screen (42) and a screw (43), the bottom screen (41) is installed in the sand making bin (11), the upper screen (42) is slidably installed in the sand making bin (11), the screw (43) is rotatably installed on the sand making bin (11), and the screw (43) is threadedly matched with the upper screen (42). 6. A stone particle sand making machine as claimed in claim 2, characterized in that the dust suction mechanism (5) comprises a dust box (51) and a fan (52), the dust box (51) is installed at the upper end of the sand making bin (11), and the fan (52) is installed at the right end of the dust box (51). 7. A stone particle sand making machine as claimed in claim 6, characterized in that the cleaning mechanism (6) comprises a water tank (61), a drainage pipe (62), a water pump (63), a water curtain nozzle (64), an upper water pipe (65) and a filter (66), the water tank (61) is installed at the front end of the sand making bin (11), the interior of the water tank (61) is connected to the interior of the dust box (51) through the drainage pipe (62), the water pump (63) is installed at the front end of the water tank (61), the water curtain nozzle (64) is installed in the dust box (51), and the input end of the water curtain nozzle (64) is connected to the output end of the water pump (63) through the upper water pipe (65), and the filter (66) is slidably installed in the water tank (61).