CN217491670U - A broken sieving mechanism for calcium carbonate production - Google Patents

Abstract

The application discloses broken sieving mechanism for calcium carbonate production, including screen cloth and frame, the frame is connected with the feed cylinder of pouring, the screen cloth with the frame is connected, just the opening orientation of feed cylinder of pouring the screen cloth, the frame is connected with the lapse subassembly, it is connected with the baffle to lapse the subassembly, the baffle butt the top surface of screen cloth, and the baffle is followed the top of sieve slides. This application can improve the screening efficiency of calcium carbonate.

Description

A broken sieving mechanism for calcium carbonate production

Technical Field

The application relates to the field of calcium carbonate production and processing, in particular to a crushing and screening device for calcium carbonate production.

Background

The main components of calcium carbonate are heavy calcium carbonate, light calcium carbonate, colloidal calcium carbonate and crystalline calcium carbonate, and the calcium carbonate product is usually processed into powder and then can be used, so that crushing is an essential important link in the production and processing of calcium carbonate.

The calcium carbonate particles obtained by crushing are different in particle size, and in order to obtain calcium carbonate particles with the required particle size, workers can introduce the calcium carbonate particles obtained by crushing into a screen, and the calcium carbonate particles are filtered and screened by the screen to obtain the calcium carbonate with the required particle size.

The common screen mesh is matched with holes in the screen mesh in a shaking mode so as to realize screening of calcium carbonate with different particle sizes, but more and more calcium carbonate with large particle sizes blocks the screen mesh along with the passage of time, so that the filtering performance of the screen mesh is influenced, and the screening efficiency of the calcium carbonate is reduced.

SUMMERY OF THE UTILITY MODEL

In order to improve the screening efficiency of calcium carbonate, this application provides a broken sieving mechanism for calcium carbonate production.

The application provides a broken sieving mechanism for calcium carbonate production adopts following technical scheme:

the utility model provides a broken sieving mechanism for calcium carbonate production, includes screen cloth and frame, the frame is connected with the feed cylinder of pouring, the screen cloth with the frame is connected, just the opening orientation of feed cylinder of pouring the screen cloth, the frame is connected with and passes the subassembly, it is connected with the baffle to pass the subassembly, the baffle butt the top surface of screen cloth, and the baffle is followed the top of sieve slides.

Through adopting above-mentioned technical scheme, through broken calcium carbonate pour into on the screen cloth through the feed cylinder, through the screening of screen cloth, the calcium carbonate that accords with the screening particle diameter just passes the screen cloth, the calcium carbonate that is not conform to the screening particle diameter is then kept apart at the top surface of screen cloth, start and pass the subassembly, it promotes the baffle to pass the subassembly, make the baffle slide on the top surface of screen cloth, the baffle slides the in-process and scrapes away the calcium carbonate that keeps apart on the screen cloth, thereby clear away the large particle diameter calcium carbonate who stagnates in the screen cloth top surface, reduce large particle diameter calcium carbonate and block up the screen cloth, make the screen cloth keep good filtration screening performance all the time, and then effectively improve the screening efficiency of calcium carbonate.

Optionally, the lapse subassembly is including horizontal pole, two slide rails and pneumatic cylinder, the frame is including main fuselage and two ring arms, two ring arms be parallel to each other set up in the both sides of main fuselage, one sliding connection is in one the top of ring arm, the horizontal pole is connected in two between the slide rail, the tip of horizontal pole with slide rail sliding connection, the pneumatic cylinder with the main fuselage is connected, the flexible direction of pneumatic cylinder piston end with the length extending direction syntropy of slide rail, the horizontal pole with the baffle is connected, the length extending direction of horizontal pole with the length extending direction syntropy of baffle.

Through adopting above-mentioned technical scheme, start the pneumatic cylinder, the flexible end of pneumatic cylinder promotes the horizontal pole and slides along the direction of slide rail to the screen cloth, and the horizontal pole slides and drives the baffle and slide in the top of screen cloth to realize the process of clearance screen cloth top calcium carbonate.

Optionally, the two ends of the cross rod are rotatably connected with pulleys, and the pulleys are connected with the sliding rails in a rolling manner.

Through adopting above-mentioned technical scheme, the pulley that the horizontal pole both ends are connected can effectively reduce the horizontal pole slip in-process and the slide rail between the frictional force for the slip of horizontal pole is more smooth, and less idle work improves work efficiency, reduces the energy consumption simultaneously.

Optionally, the edge of the screen is sleeved with a vibration frame, the vibration frame is connected between the two annular arms, and the top of the vibration frame is connected with a vibration motor.

Through adopting above-mentioned technical scheme, start shock dynamo, shock dynamo's vibrations are transmitted to the vibrations frame on, the vibrations frame thereupon and vibrations, and the vibrations of vibrations drive the vibrations of screen cloth of vibrations frame, and the filter effect of screen cloth vibrations can further be improved.

Optionally, the screen cloth is provided with a baffle, the screen cloth is provided with a collecting bucket, the collecting bucket is arranged under the screen cloth, the collecting bucket is arranged on one side of the screen cloth far away from the baffle, and the opening of the collecting bucket faces the baffle.

Through adopting above-mentioned technical scheme, the collecting vessel is used for picking up the calcium carbonate that accords with the screening particle size, and the recycling bin is used for collecting the calcium carbonate that is not conform to the screening particle size, and it is broken to return to the stove again.

Optionally, the annular arm is connected with inclined plates, and the two inclined plates are respectively located on two opposite sides of the screen.

By adopting the technical scheme, the inclined plate is used for separating and blocking calcium carbonate, so that the calcium carbonate is prevented from being sputtered all around in the collision process with the screen, the waste and loss of materials are reduced, and the cleaning of a production workshop is facilitated.

Optionally, a material guide groove body is connected between the two end portions of the ring arm, the material guide groove body is obliquely arranged, and the material guide groove body faces the opening of the recycling bin.

Through adopting above-mentioned technical scheme, the guide cell body plays the guide effect to retrieving calcium carbonate for calcium carbonate retrieves to the recycling bin more orderly, reduces the extravagant loss of material, is favorable to the keeping a public place clean of workshop simultaneously.

Optionally, the bottom of the main body is connected with a noise reduction cushion.

Through adopting above-mentioned technical scheme, the cushion of making an uproar falls that main fuselage bottom set up, and the cushion of making an uproar falls and has the energy-absorbing effect, can effectively reduce the produced vibrations of device during operation, and then with the sound that ground collision sent when reducing the device vibrations to the effect of making an uproar falls in the realization.

In summary, the present application includes the following advantageous effects:

1. the calcium carbonate isolated on the screen is scraped away in the sliding process of the plate, so that the calcium carbonate with large particle size stagnating on the top surface of the screen is removed, the calcium carbonate with large particle size blocks the screen, the screen always keeps good filtering and screening performance, and the screening efficiency of the calcium carbonate is effectively improved.

2. The vibrations of shock dynamo are transmitted to the vibrations frame, and the vibrations frame vibrations thereupon, and the vibrations of vibrations drive the vibrations of screen cloth of vibrations frame, and the screen cloth vibrations can further improve the filter effect of screen cloth.

Drawings

Fig. 1 is a schematic perspective structure diagram of a crushing and screening device for calcium carbonate production in an embodiment of the present application.

Fig. 2 is an enlarged view of a.

Description of reference numerals:

1. a machine base; 11. a main body; 12. a loop arm; 13. a connecting arm; 2. vibrating the frame; 21. screening a screen; 22. vibrating a motor; 3. a pushing assembly; 31. a cross bar; 32. a slide rail; 33. a hydraulic cylinder; 4. pouring the material barrel; 5. a baffle plate; 6. a collection barrel; 61. a recycling bin; 7. a sloping plate; 8. a material guide chute body; 9. a noise reduction cushion.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a broken sieving mechanism for calcium carbonate production. As shown in fig. 1 and 2, a crushing and screening device for calcium carbonate production comprises a machine base 1, a pouring cylinder 4, the machine base 1 comprises a main machine body 11 and two annular arms 12, the main machine body 11 is vertically connected with a connecting arm 13, a material pouring cylinder 4 is vertically connected to one end, away from the main machine body 11, of the connecting arm 13, the two annular arms 12 are mutually and normally arranged on two sides of the main machine body 11, a space is reserved between the two annular arms 12, the length extending direction of the annular arms 12 is in the same direction as that of the connecting arm 13, a vibration frame 2 is connected between the end parts of the two annular arms 12, a screen 21 is arranged in the vibration frame 2, the screen 21 is located right below the material pouring cylinder 4, an opening of the material pouring cylinder 4 is right opposite to the top surface of the screen 21, a space is reserved between the material pouring cylinder 4 and the screen 21, the collecting barrel 6 is placed right below the screen 21, and the recovery barrel 61 is placed on one side, away from the main machine body 11, of the screen 21;

main fuselage 11 is connected with and advances subassembly 3, it is including horizontal pole 31 to advance subassembly 3, two slide rails 32 and pneumatic cylinder 33, two slide rails 32 are fixed connection respectively in the top of two ring arms 12, the length extending direction syntropy of slide rail 32 and ring arm 12, two slide rails 32 parallel arrangement each other, the both ends of horizontal pole 31 are all rotated and are connected with the pulley, horizontal pole 31 is connected between two slide rails 32, horizontal pole 31 passes through pulley and slide rail 32 sliding connection, the one side that horizontal pole 31 deviates from main fuselage 11 is connected with baffle 5, the top surface of 5 bottom border butt screen cloth 21 of baffle, the cylinder bottom fixed connection of pneumatic cylinder 33 is in the lateral wall of main fuselage 11, the piston end of pneumatic cylinder 33 is connected in one side that horizontal pole 31 deviates from baffle 5, the flexible direction of pneumatic cylinder 33 piston end and the length extending direction syntropy of slide rail 32, pneumatic cylinder 33 sets up between two slide rails 32.

Pouring the crushed calcium carbonate onto the screen 21 from the pouring cylinder 4, starting the vibration motor 22, vibrating the vibration motor 22 to drive the vibration frame 2 to vibrate, transmitting the vibration of the vibration frame 2 to the upper part, so that the screen 21 continuously vibrates, screening the calcium carbonate, allowing the calcium carbonate meeting the particle size to pass through the screen 21 and fall into the collection barrel 6, isolating the calcium carbonate not meeting the particle size specification from the top surface of the screen 21, starting the hydraulic cylinder 33, pushing the cross rod 31 to slide along the slide rail 32 in the direction of the screen 21 by the piston end of the hydraulic cylinder 33, sliding the cross rod 31 to drive the baffle 5 to slide along the top surface of the screen 21 in the direction of the recovery barrel 61, pushing the calcium carbonate isolated from the top surface of the screen 21 into the recovery barrel 61 by the baffle 5, thereby removing the calcium carbonate with large particle size stagnating on the top surface of the screen 21, reducing the calcium carbonate with large particle size to block the screen 21, and keeping the good filtering and screening performance of the screen 21 all the time, thereby effectively improving the screening efficiency of the calcium carbonate.

The bottom fixedly connected with of main fuselage 11 falls the cushion 9 of making an uproar, and the cushion 9 of making an uproar falls has the energy-absorbing effect, can effectively reduce the produced vibrations of device during operation, and then reduces the device vibrations when with the sound that ground collision sent to the effect of making an uproar falls in the realization, the harm of noise abatement to workshop operation personnel's health.

The top surface of two circular arms 12 all is connected with swash plate 7, and two swash plates 7 set up in screen cloth 21's both sides, and two swash plates 7 are just right each other, and two swash plates 7 form open one's mouth be located pouring cylinder 4 open-ended under, are connected with guide cell body 8 between two circular arms 12 tip, and guide cell body 8 slope sets up, and 8 one end of guide cell body is towards screen cloth 21, the opening of the other end orientation recycling bin 61.

The inclined plate 7 is used for separating and blocking calcium carbonate, so that peripheral sputtering in the process of collision between the calcium carbonate and the screen 21 is avoided, the waste and loss of materials are reduced, and meanwhile, cleaning of a production workshop is facilitated. The guide chute body 8 plays a guiding role in recycling calcium carbonate, so that the calcium carbonate is recycled to the recycling bin 61 in a more orderly manner, the waste and loss of materials are reduced, and meanwhile, the cleaning of a production workshop is facilitated.

The implementation principle of the crushing and screening device for calcium carbonate production is as follows: pouring the crushed calcium carbonate onto the screen 21 from the pouring cylinder 4, starting the vibration motor 22, vibrating the vibration motor 22 to drive the vibration frame 2 to vibrate, transmitting the vibration of the vibration frame 2 to the upper part, so that the screen 21 continuously vibrates, screening the calcium carbonate, allowing the calcium carbonate meeting the particle size to pass through the screen 21 and fall into the collection barrel 6, isolating the calcium carbonate not meeting the particle size specification from the top surface of the screen 21, starting the hydraulic cylinder 33, pushing the cross rod 31 to slide along the slide rail 32 in the direction of the screen 21 by the piston end of the hydraulic cylinder 33, sliding the cross rod 31 to drive the baffle 5 to slide along the top surface of the screen 21 in the direction of the recovery barrel 61, pushing the calcium carbonate isolated from the top surface of the screen 21 into the recovery barrel 61 by the baffle 5, thereby removing the calcium carbonate with large particle size stagnating on the top surface of the screen 21, reducing the calcium carbonate with large particle size to block the screen 21, and keeping the good filtering and screening performance of the screen 21 all the time, thereby effectively improving the screening efficiency of the calcium carbonate.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A broken sieving mechanism for calcium carbonate production, includes screen cloth (21), its characterized in that: including frame (1), frame (1) is connected with pouring cylinder (4), screen cloth (21) with frame (1) is connected, just the opening orientation of pouring cylinder (4) screen cloth (21), frame (1) is connected with and passes subassembly (3), it is connected with baffle (5) to pass subassembly (3), baffle (5) butt the top surface of screen cloth (21), and baffle (5) are followed the top of screen cloth slides.

2. The crushing and screening device for calcium carbonate production according to claim 1, characterized in that: the pushing component (3) comprises a cross bar (31), two slide rails (32) and a hydraulic cylinder (33), the machine base (1) comprises a main machine body (11) and two annular arms (12), the two annular arms (12) are arranged on two sides of the main machine body (11) in parallel, one sliding rail (32) is connected to the top of one annular arm (12), the cross bar (31) is connected between the two slide rails (32), the end part of the cross bar (31) is connected with the slide rails (32) in a sliding way, the hydraulic cylinder (33) is connected with the main body (11), the extension direction of the piston end of the hydraulic cylinder (33) is the same as the length extension direction of the slide rail (32), the transverse rod (31) is connected with the baffle (5), and the length extending direction of the transverse rod (31) is the same as that of the baffle (5).

3. The crushing and screening device for calcium carbonate production according to claim 2, characterized in that: both ends of horizontal pole (31) all rotate and are connected with the pulley, the pulley with slide rail (32) roll connection.

4. The crushing and screening device for calcium carbonate production according to claim 2, characterized in that: the edge of the screen (21) is sleeved with a vibration frame (2), the vibration frame (2) is connected between the two ring arms (12), and the top of the vibration frame (2) is connected with a vibration motor (22).

5. The crushing and screening device for calcium carbonate production according to claim 2, characterized in that: still including collecting vessel (6) and recycling bin (61), collecting vessel (6) set up in under screen cloth (21), collecting vessel (6) set up in screen cloth (21) are kept away from one side of baffle (5), just the opening orientation of collecting vessel (6) baffle (5).

6. The crushing and screening device for calcium carbonate production according to claim 2, characterized in that: the annular arm (12) is connected with inclined plates (7), and the inclined plates (7) are respectively positioned on two opposite sides of the screen (21).

7. The crushing and screening device for calcium carbonate production according to claim 5, characterized in that: a material guide groove body (8) is connected between the end parts of the two ring arms (12), the material guide groove body (8) is obliquely arranged, and the material guide groove body (8) faces to the opening of the recovery barrel (61).

8. The crushing and screening device for calcium carbonate production according to claim 2, characterized in that: the bottom of the main body (11) is connected with a noise reduction soft pad (9).

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