CN218840732U

CN218840732U - Rotary vibration feeding device

Info

Publication number: CN218840732U
Application number: CN202320110940.0U
Authority: CN
Inventors: 张洪; 廖良
Original assignee: Chengdu Zhixin Refractories Technology Co ltd
Current assignee: Chengdu Zhixin Refractories Technology Co ltd
Priority date: 2023-01-19
Filing date: 2023-01-19
Publication date: 2023-04-11
Anticipated expiration: 2033-01-19

Abstract

A rotary vibration feeding device comprises an aggregate unit, wherein a vibration discharging unit is arranged at the lower end of the aggregate unit, and a discharging mechanism is arranged at one end of the vibration discharging unit; the aggregate unit is provided with a storage bin, and the storage bin is used as a powder material storage component and used for storing materials. The vibrating discharge unit is provided with a vibrating device, the vibrating device is connected with a vibrating tube, the inner side end of the vibrating tube is located under the stock bin, and the vibrating tube provides a relatively closed space for discharging materials, so that dust is prevented from being generated when the materials are discharged. The discharging mechanism is provided with a chute which is rotatably arranged at the outer side end of the vibrating tube. The elephant trunk and the vibrating duct that communicate in the vibrating duct have formed a material and have sealed the runner of arranging the material, and through the mode that rotates the setting, can rotate it to another position department after arranging the material and accomplish simultaneously to avoid the material to spill from the unloading position, and the convenience is collected the tails.

Description

Rotary vibration feeding device

Technical Field

The utility model relates to a technical field is carried to the material, especially relates to a rotatory vibration feeder.

Background

At present, when powder material is discharged, the dust is easily generated and the environment is polluted because the discharging is carried out in an opening, and the quantity of the material is reduced. And the unloader who adopts still appears the phenomenon of putty easily when carrying out the material unloading at present, and then arranges the material and cause the influence, and secondly arrange the in-process of arranging the material because the gesture of arranging the material pipe is fixed unchangeable, consequently when arranging the material and accomplish the back, thereby spill in arranging the material pipe that does not arrange to cause the pollution to processing environment.

SUMMERY OF THE UTILITY MODEL

The utility model provides a rotatory vibration feeder to solve the not enough of above-mentioned prior art, conveniently carry out the accurate row's of material and arrange the material, adopt the mode of vibration to arrange the material simultaneously when arranging the material, and adopt closed pay-off, thereby avoid causing the pollution to the environment, avoid the material to spill everywhere through the pivoted mode simultaneously, and conveniently carry out the accurate row's of material and arrange the material.

In order to realize the purpose of the utility model, the following technologies are adopted:

a rotary vibration feeding device comprises an aggregate unit, wherein a vibration discharging unit is arranged at the lower end of the aggregate unit, and a discharging mechanism is arranged at one end of the vibration discharging unit;

the feed bin has on the unit that gathers materials, and the feed bin stores the part as powder material for storing of material.

The vibrating discharge unit is provided with a vibrating device, the vibrating device is connected with a vibrating tube, the inner side end of the vibrating tube is located under the storage bin, and the vibrating tube provides a relatively closed space for discharging materials, so that dust is prevented from being generated when the materials are discharged.

The discharging mechanism is provided with a chute which is rotatably arranged at the outer side end of the vibrating tube. The elephant trunk and the vibrating tube that communicate in the vibrating tube have formed a material and have sealed the runner of arranging the material, and through the mode that rotates the setting, can rotate it to another position department after arranging the material completion simultaneously to avoid the material to spill from the unloading position and fall, and the convenience is collected the tails.

Further, the upper end of feed bin is equipped with the collecting hopper, and the collecting hopper is the toper structure, and the lower extreme of collecting hopper is the tip, and the setting up of collecting hopper conveniently carries out the injection of material.

Furtherly, the lower extreme of feed bin is equipped with a plurality of support piece, and gravity inductor is installed respectively to support piece's lower extreme, and the support frame is installed to gravity inductor's lower extreme. The gravity sensor can know the amount of the residual materials in the bin, so that the amount of the materials discharged by the bin at each time can be accurately controlled.

Furthermore, the lower extreme of feed bin is equipped with the unloading pipe, is equipped with pneumatic butterfly valve on the unloading pipe. The material discharging of the storage bin is conveniently controlled to be started and stopped by starting the butterfly valve.

Furthermore, the vibration discharging unit comprises an upper plate, a discharging hopper is arranged on the upper plate, the discharging hopper is positioned above the inner side end of the vibration pipe, and the discharging hopper is positioned under the discharging pipe. The arrangement of the blanking hopper is used for receiving materials discharged by the storage bin and simultaneously avoiding the discharged materials from randomly scattering. Simultaneously also conveniently drop into the material to the vibrating tube through lower hopper, and then conveniently arrange the material operation.

Further, the vibrating device is an electromagnetic vibrator, and the output end of the vibrating device is connected to the inner side end of the vibrating tube. Can drive the vibrating tube through electromagnetic vibrator and vibrate to make the material in the vibrating tube move along in the vibration, and carry the material in the vibrating tube to the elephant trunk in, and adopt this kind of mode, conveniently carry out the accuracy of material and throw the material, also conveniently carry out opening of arranging the material and stop control, when vibrating device stop work promptly, because the vibrating tube has lost the vibration, make the material in the vibrating tube stop carrying. In order to realize the discharging operation, the vibrating tube is arranged horizontally, and an included angle formed between the axial direction of the vibrating tube and the horizontal plane is an acute angle, namely, the outer side end of the vibrating tube extends downwards.

Further, the vibration device and the vibration tube are connected to the upper plate through the elastic member. Conveniently carry out the connection of vibrating device and vibrating tube through the elastic component on the one hand and fix, can also vibrate through vibrating device drive vibrating tube simultaneously.

Furthermore, the elastic part comprises a connecting rod arranged on the upper plate, a spring is arranged at the lower end of the connecting rod, and a connecting hook is arranged at the lower end of the spring and is respectively arranged on the vibrating tube and the vibrating device. The connecting hook is convenient to arrange and connected with the spring, and the spring can enable the vibrating tube to vibrate.

Further, discharge mechanism is including locating the rotary device on the vibration pipe outside end, and the elephant trunk is connected on rotary device, and elephant trunk and vibration pipe intercommunication. The rotating device can drive the chute to rotate, so that materials can be accurately discharged. The rotating device can adopt one or more of a gear, a belt or a worm and worm gear transmission mode, and when the rotating device drives the chute to rotate, the chute rotates in a horizontal plane.

Further, the elephant trunk is obliquely arranged. The inclined state facilitates the discharge operation of the materials.

The technical scheme has the advantages that:

compared with the prior art, the utility model, at first conveniently carry out the accurate of material and weigh row material to the mode through vibratory feed conveniently carries out opening of material transport and stops control. Secondly, can also avoid the material diffusion to form the raise dust when the pay-off, and cause the pollution to the environment. Finally, the materials can be prevented from being scattered randomly during discharging.

Drawings

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 shows a perspective view of one embodiment.

Detailed Description

As shown in figure 1, the rotary vibration feeding device comprises an aggregate unit, a vibration discharging unit is arranged at the lower end of the aggregate unit, and a discharging mechanism is arranged at one end of the vibration discharging unit. The aggregate unit is provided with a bin 1. The vibration discharging unit is provided with a vibration device 53, the vibration device 53 is connected with a vibration pipe 54, and the inner side end of the vibration pipe 54 is positioned right below the storage bin 1. The discharge mechanism has a chute 56 rotatably mounted at the outer end of the vibrating tube 54.

In this embodiment, the material in the silo 1 is put into the vibrating tube 54, then the material is driven by the vibrating device 53 to move outwards from the inner end of the vibrating tube 54 and is conveyed from the vibrating tube 54 into the chute 56, then the material is discharged from the outer end of the chute 56, and when the material is discharged, the chute 56 needs to be rotated to a discharging position.

In one embodiment, the upper end of the storage bin 1 is provided with a collecting hopper 2, the collecting hopper 2 is in a conical structure, and the lower end of the collecting hopper 2 is a small end. The lower extreme of feed bin 1 is equipped with a plurality of support piece 10, and gravity inductor 3 is installed respectively to support piece 10's lower extreme, and support frame 4 is installed to gravity inductor 3's lower extreme. The lower extreme of feed bin 1 is equipped with unloading pipe 11, is equipped with pneumatic butterfly valve 12 on the unloading pipe 11.

In this embodiment, the material is conveniently injected into the storage bin 1 through the collecting hopper 2, and in the discharging process, the material in the storage bin 1 can be weighed at any time through the gravity sensor 3, and when the material in the storage bin 1 is monitored by the gravity sensor 3 to be discharged by a certain amount, the pneumatic butterfly valve 12 is closed. During discharge, the pneumatic butterfly valve 12 is open.

In one embodiment, the vibrating discharging unit includes an upper plate 50, the upper plate 50 is provided with a support rod 5 extending downward, the upper plate 50 is provided with a lower hopper 57, the lower hopper 57 is located above the inner end of the vibrating tube 54, and the lower hopper 57 is located right below the discharging tube 11. The vibration device 53 is an electromagnetic vibrator, and an output end of the vibration device 53 is connected to an inner end of the vibration tube 54. The vibration unit 53 and the vibration pipe 54 are connected to the upper plate 50 through an elastic member. The elastic member includes a connecting rod disposed on the upper plate 50, a spring 51 is disposed at a lower end of the connecting rod, a connecting hook 52 is disposed at a lower end of the spring 51, and the connecting hook 52 is disposed on the vibrating tube 54 and the vibrating device 53, respectively.

The principle of the electromagnetic vibrator described herein that drives the vibration tube 54 to vibrate is "an electromagnetic coil in the electromagnetic vibrator, and the current passing through the electromagnetic coil is a half-wave rectified pulse current. In the positive half wave, current passes through, and the electromagnet has attraction force to attract the vibrating plate to approach. When the wave is negative half wave, no current passes through, the attraction force of the electromagnet disappears, and then the vibrating plate returns to the original position under the action of the plate spring, and the vibrating tube 54 is connected to the vibrating plate, so that the vibrating tube 54 continuously vibrates under the action of the electromagnetic vibrator, and the materials are conveyed ".

In this embodiment, the material is discharged from the discharging pipe 11 into the discharging hopper 57, and the material in the discharging hopper 57 moves downward into the vibrating pipe 54, and enters the vibrating pipe 54 to be vibrated by the electromagnetic vibrator, and during the vibration, the material moves along the axial direction of the vibrating pipe 54 to the outside end under vibration, and the material moves into the chute 56 and is discharged from the chute 56.

In one embodiment, the discharging mechanism comprises a rotating device 55 disposed at the outer end of the vibrating tube 54, a chute 56 connected to the rotating device 55, the chute 56 communicating with the vibrating tube 54, the chute 56 being disposed in an inclined manner.

In this embodiment, when the lower end of the chute 56 is rotated to the container by the rotating device during the feeding process, the material in the chute 56 will be discharged along the chute 56, and when the discharging process is completed, the chute 56 is deflected to another position by the rotating device 55, and the feeding process is completed.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and it is obvious that those skilled in the art can make various changes and modifications to the present invention without departing from the spirit and scope of the present invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. A rotary vibration feeding device is characterized by comprising an aggregate unit, wherein a vibration discharging unit is arranged at the lower end of the aggregate unit, and a discharging mechanism is arranged at one end of the vibration discharging unit;

the aggregate unit is provided with a bin (1);

the vibration discharging unit is provided with a vibration device (53), the vibration device (53) is connected with a vibration pipe (54), and the inner side end of the vibration pipe (54) is positioned right below the storage bin (1);

the discharge mechanism has a chute (56) rotatably disposed at the outer end of the vibrating tube (54).

2. A rotary vibratory feeding device as in claim 1, characterized in that the upper end of the silo (1) is provided with a collecting hopper (2), the collecting hopper (2) is of a conical structure, and the lower end of the collecting hopper (2) is a small end.

3. A rotary vibratory feeding device as in claim 1, further characterized in that a plurality of support members (10) are provided at the lower end of the silo (1), a gravity sensor (3) is mounted at the lower end of each support member (10), and a support frame (4) is mounted at the lower end of each gravity sensor (3).

4. A rotary vibratory feeding device as in claim 1, further characterized in that a feed pipe (11) is provided at the lower end of the bin (1), and a pneumatic butterfly valve (12) is provided on the feed pipe (11).

5. A rotary vibratory feeding device as in claim 4, wherein the vibratory discharge unit comprises an upper plate (50), a lower hopper (57) being provided on the upper plate (50), the lower hopper (57) being located above the inner end of the vibratory tube (54) and the lower hopper (57) being located directly below the discharge tube (11).

6. A rotary vibratory feeding device as claimed in claim 5, characterized in that the vibratory device (53) is an electromagnetic vibrator, the output of the vibratory device (53) being connected to the inner end of the vibrating tube (54).

7. A rotary vibratory feeding device as claimed in claim 6, characterized in that the vibratory device (53) and the vibratory tube (54) are connected to the upper plate (50) by means of elastic elements.

8. A rotary vibratory feeding device as in claim 7, wherein the resilient member comprises a connecting rod disposed on the upper plate (50), the connecting rod having a spring (51) disposed at a lower end thereof, the spring (51) having a connecting hook (52) disposed at a lower end thereof, the connecting hook (52) being disposed on the vibrating tube (54) and the vibrating device (53), respectively.

9. A rotary vibratory feeder apparatus as in claim 1, wherein the discharge mechanism includes a rotating device (55) disposed at an outer end of the vibratory tube (54), a chute (56) connected to the rotating device (55), and the chute (56) communicating with the vibratory tube (54).

10. A rotary vibratory feeder apparatus as claimed in claim 9, wherein the chute (56) is inclined.