CN220405914U - Material conveying device - Google Patents

Abstract

The utility model provides a material conveying device, which comprises: a feed assembly comprising a feed hopper; the crushing assembly is arranged below the conveying hopper and comprises a crushing cavity, and the crushing cavity is positioned below the conveying hopper and is used for crushing materials; the auxiliary blanking assembly is arranged on the conveying hopper and comprises a vibrating component which is movably arranged at the position, at least part of the vibrating component is attached to the conveying hopper, and the vibrating component drives the conveying hopper to vibrate so that materials in the conveying hopper are conveyed into the crushing cavity. The utility model solves the problem of lower crushing efficiency of the crusher in the prior art.

Description

Material conveying device

Technical Field

The utility model relates to the technical field of stone crushing, in particular to a conveying device.

Background

In the field of glass fiber production, different kinds of stones need to be crushed to finally form powder for making glass fibers.

At present, in the stone crushing process, stone is generally directly poured into a crusher to be crushed, and the crusher is easy to clamp due to the large size of the stone, so that the crushing efficiency of the crusher is reduced.

Disclosure of Invention

The utility model mainly aims to provide a material conveying device to solve the problem of low crushing efficiency of a crusher in the prior art.

In order to achieve the above object, the present utility model provides a material conveying apparatus comprising: a feed assembly comprising a feed hopper; the crushing assembly is arranged below the conveying hopper and comprises a crushing cavity, and the crushing cavity is positioned below the conveying hopper and is used for crushing materials; the auxiliary blanking assembly is arranged on the conveying hopper and comprises a vibrating component which is movably arranged at the position, at least part of the vibrating component is attached to the conveying hopper, and the vibrating component drives the conveying hopper to vibrate so that materials in the conveying hopper are conveyed into the crushing cavity.

Further, the vibration member is a rotating cam; the rotating cam is arranged on the conveying hopper and can be rotatably arranged around a preset axis, and at least part of the circumferential surface of the rotating cam is attached to the conveying hopper so as to drive the conveying hopper to vibrate in the rotating process of the rotating cam.

Further, supplementary unloading subassembly still includes: the driving part is arranged on the conveying hopper and comprises a driving shaft which is rotatably arranged around the axis of the driving part, the driving shaft is in driving connection with the rotating cam, and the rotating cam is driven to rotate through the driving part.

Further, supplementary unloading subassembly still includes: the mounting bracket is arranged on the conveying hopper, a mounting platform is arranged on the mounting bracket, and the driving part and the rotating cam are respectively arranged on the mounting platform.

Further, a material conveying channel is arranged in the material conveying hopper and is obliquely arranged relative to the horizontal plane, a blanking channel opposite to the crushing cavity is arranged on the material conveying hopper, and the blanking channel is communicated with the lower end of the material conveying channel; the auxiliary blanking component is arranged at the bottom of the conveying hopper, and at least part of the vibrating component is attached to the bottom surface of the conveying hopper.

Further, the feeding device further includes: the conveying hopper is arranged on the supporting frame so as to be supported by the supporting frame; and the buffer part is arranged on the support frame and connected with the conveying hopper, and at least part of the buffer part can be elastically arranged.

Further, a first connecting part is arranged on the supporting frame, a second connecting part is arranged on the conveying hopper, and the first connecting part is opposite to the second connecting part; the two ends of the buffer component are respectively connected with the first connecting part and the second connecting part.

Further, the plurality of second connecting parts are arranged at intervals along the circumferential direction of the conveying hopper; the first connecting portions are multiple, the first connecting portions and the second connecting portions are arranged in one-to-one correspondence, and the first connecting portions and the second connecting portions are connected through buffer components respectively.

Further, the first connecting part is a first connecting column, and the first connecting column extends from the support frame towards the direction close to the conveying hopper; the second connecting portion is a second connecting column, the second connecting column extends from the feeding hopper towards the direction close to the supporting frame, a preset interval is reserved between the first connecting column and the second connecting column, and two ends of the buffer component are connected with the first connecting column and the second connecting column respectively.

Further, an extension plate is arranged on the side wall of the conveying hopper, the extension plate extends along the circumferential direction of the conveying hopper, and the second connecting part is arranged on the extension plate.

By applying the technical scheme of the utility model, the material conveying device comprises a material feeding component, a crushing component and an auxiliary material discharging component, wherein the material feeding component comprises a material conveying hopper; the crushing assembly is arranged below the conveying hopper and comprises a crushing cavity, and the crushing cavity is positioned below the conveying hopper and is used for crushing materials; the auxiliary blanking assembly is arranged on the conveying hopper and comprises a vibrating component which is movably arranged at the position, at least part of the vibrating component is attached to the conveying hopper, and the vibrating component drives the conveying hopper to vibrate so that materials in the conveying hopper are conveyed into the crushing cavity. Wherein, broken subassembly is the breaker, like this sets up at the in-process of defeated material, and the material is carried to the breaker through the defeated hopper in and is broken, utilizes vibrating component to constantly beat the defeated hopper in the removal in-process, makes the defeated hopper produce the vibration, and the material in the defeated hopper falls into broken intracavity gradually under the vibratory action of defeated hopper, has avoided the material directly to empty to the broken intracavity and has easily led to the fact the problem that the material piles up and the breaker takes place the card material at the operation in-process, has reduced the maintenance frequency to the breaker to the crushing efficiency of breaker has been improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

fig. 1 shows a schematic structural view of an embodiment of a feeding device according to the present utility model; and

fig. 2 shows a schematic diagram of the cooperation of a feed hopper and a support frame in a feed conveyor according to the utility model.

Wherein the above figures include the following reference numerals:

1. a feed assembly; 10. a feed hopper; 11. a protruding plate; 12. a second connecting portion; 2. a crushing assembly; 20. a crushing cavity; 3. an auxiliary blanking component; 30. a vibration member; 31. a driving part; 32. a mounting bracket; 4. a support frame; 40. a first connection portion; 5. and a buffer member.

Detailed Description

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

Referring to fig. 1 and 2, the present utility model provides a feeding device, which includes: a feed assembly 1, the feed assembly 1 comprising a feed hopper 10; the crushing assembly 2 is arranged below the conveying hopper 10, and the crushing assembly 2 comprises a crushing cavity 20, wherein the crushing cavity 20 is positioned below the conveying hopper 10 and is used for crushing materials; the auxiliary blanking assembly 3 is arranged on the conveying hopper 10, the auxiliary blanking assembly 3 comprises a vibrating component 30 which is arranged in a position movable mode, at least part of the vibrating component 30 is attached to the conveying hopper 10, and the vibrating component 30 drives the conveying hopper 10 to vibrate so that materials in the conveying hopper 10 are conveyed into the crushing cavity 20.

According to the utility model, the feeding device comprises a feeding assembly 1, a crushing assembly 2 and an auxiliary discharging assembly 3, wherein the feeding assembly 1 comprises a feeding hopper 10; the crushing assembly 2 is arranged below the conveying hopper 10, and the crushing assembly 2 comprises a crushing cavity 20, wherein the crushing cavity 20 is arranged below the conveying hopper 10 and is used for crushing materials; the auxiliary blanking assembly 3 is arranged on the conveying hopper 10, the auxiliary blanking assembly 3 comprises a vibrating component 30 which is arranged in a position movable mode, at least part of the vibrating component 30 is attached to the conveying hopper 10, the vibrating component 30 drives the conveying hopper 10 to vibrate, and therefore materials in the conveying hopper 10 are conveyed into the crushing cavity 20. Wherein, broken subassembly 2 is the breaker, set up the in-process of defeated material like this, the material is carried to the breaker through defeated hopper 10 in and is broken, utilize vibrating member 30 in the removal in-process, constantly strike defeated hopper 10, make defeated hopper 10 produce the vibration, the material in the defeated hopper 10 falls into broken intracavity 20 gradually under the vibrating action of defeated hopper 10, avoided the material directly to empty to the broken intracavity 20 and easily cause the problem that the material piles up and the breaker takes place the card material at the operation in-process, reduced the maintenance frequency to the breaker, thereby the crushing efficiency of breaker has been improved.

In the present application, the vibration member 30 is a rotating cam; the rotating cam is provided on the hopper 10, and the rotating cam is rotatably provided around a predetermined axis, and at least a part of the circumferential surface of the rotating cam is fitted to the hopper 10 to drive the hopper 10 to vibrate during rotation of the rotating cam. Due to the eccentric action of the rotating cam, the material conveying hopper 10 is continuously knocked in the process that the rotating cam continuously rotates, so that the material conveying hopper 10 is driven to vibrate so as to drive the material to move.

Further, in order to facilitate driving the vibration member 30 to rotate, the auxiliary discharging assembly 3 further includes: the driving part 31 is arranged on the hopper 10, the driving part 31 comprises a driving shaft which is rotatably arranged around the axis of the driving part 31, the driving shaft is in driving connection with the rotating cam, and the rotating cam is driven to rotate through the driving part 31. Preferably, the driving part 31 is a driving motor, and the driving motor is used for driving the vibration part 30 to move, so that the structure is simple and the implementation is convenient, and in addition, the driving part 31 is arranged on the conveying hopper 10, so that the vibration generated by the driving part 31 in the running process can be transmitted to the conveying hopper 10.

In a specific implementation process, the auxiliary blanking component 3 further includes: the mounting bracket 32 is arranged on the conveying hopper 10, a mounting platform is arranged on the mounting bracket 32, and the driving part 31 and the rotating cam are respectively arranged on the mounting platform. By providing the mounting bracket 32, the driving part 31 and the rotating cam are respectively carried, so that the driving part 31 and the rotating cam can operate.

In order to improve the conveying efficiency of materials, a material conveying channel is arranged in the material conveying hopper 10, and the material conveying channel is obliquely arranged relative to the horizontal plane; a blanking channel opposite to the crushing cavity 20 is arranged on the material conveying hopper 10, and the blanking channel is communicated with the lower end of the material conveying channel; the auxiliary blanking component 3 is arranged at the bottom of the conveying hopper 10, and at least part of the vibrating component 30 is attached to the bottom surface of the conveying hopper 10. In the process of conveying materials, the material conveying channel is inclined, and the blanking channel is communicated with the lower end of the material conveying channel and is matched with the vibration generated by the material conveying hopper 10, so that the materials on the material conveying channel move towards the blanking channel under the action of gravity and the vibration force of the material conveying hopper 10.

In an embodiment provided by the present utility model, the feeding device further includes: a support frame 4, on which a hopper 10 is provided to support the hopper 10 by the support frame 4; and a buffer member 5 provided on the support frame 4 and connected to the hopper 10, at least a portion of the buffer member 5 being elastically provided. The conveying hopper 10 is supported through the supporting frame 4, and meanwhile, vibration force transmitted to the supporting frame 4 by the conveying hopper 10 is buffered by the buffer component 5, so that the supporting stability of the supporting frame 4 is guaranteed.

In order to facilitate the installation of the buffer component 5, the support frame 4 is provided with a first connecting part 40, the conveying hopper 10 is provided with a second connecting part 12, and the first connecting part 40 is opposite to the second connecting part 12; both ends of the buffer member 5 are connected to the first connecting portion 40 and the second connecting portion 12, respectively.

In specific implementation, the number of the second connecting parts 12 is plural, and the plural second connecting parts 12 are arranged at intervals along the circumferential direction of the conveying hopper 10; the plurality of first connecting portions 40 are provided in one-to-one correspondence with the plurality of second connecting portions 12, and the first connecting portions 40 and the second connecting portions 12 are connected by the buffer members 5. This is arranged to absorb part of the vibratory forces of the hopper 10 by means of the respective cushioning members 5 to avoid subsequent vibrations of the support frame 4.

Preferably, the first connecting portion 40 is a first connecting column, and the first connecting column extends from the support frame 4 towards a direction approaching the conveying hopper 10; the second connecting portion 12 is a second connecting column, the second connecting column extends from the feeding hopper 10 towards the direction close to the supporting frame 4, a predetermined interval is arranged between the first connecting column and the second connecting column, and two ends of the buffer component 5 are respectively connected with the first connecting column and the second connecting column. Through setting up predetermined interval between first spliced pole and second spliced pole, avoid first spliced pole and second spliced pole direct contact, drive support frame 4 and vibrate together when leading to conveying hopper 10 vibration, utilize buffer unit 5, make conveying hopper 10 with vibration force transfer to buffer unit 5 on, utilize buffer unit 5 absorption part amplitude, make buffer unit 5 not only play the effect of connection, play the effect of damping to support frame 4 again.

In a specific implementation, the side wall of the conveying hopper 10 is provided with an extension plate 11, the extension plate 11 extends along the circumferential direction of the conveying hopper 10, and the second connecting portion 12 is provided on the extension plate 11.

In practical application in-process, the conveyer of this application is used for carrying the building stones, and the building stones of exploitation are transported in the conveying hopper 10 at first, fall gradually under the vibratory action of conveying hopper 10 and break in the chamber 20, have avoided directly pouring the building stones into the chamber 20 like this and have produced the problem of piling up and causing the breaker card material, and the below of chamber 20 still is provided with the conveyer belt, and the building stones after breaking chamber 20 pass through the conveyer belt transmission to next station.

From the above description, it can be seen that the above embodiments of the present utility model achieve the following technical effects:

according to the utility model, the feeding device comprises a feeding assembly 1, a crushing assembly 2 and an auxiliary discharging assembly 3, wherein the feeding assembly 1 comprises a feeding hopper 10; the crushing assembly 2 is arranged below the conveying hopper 10, and the crushing assembly 2 comprises a crushing cavity 20, wherein the crushing cavity 20 is arranged below the conveying hopper 10 and is used for crushing materials; the auxiliary blanking assembly 3 is arranged on the conveying hopper 10, the auxiliary blanking assembly 3 comprises a vibrating component 30 which is arranged in a position movable mode, at least part of the vibrating component 30 is attached to the conveying hopper 10, the vibrating component 30 drives the conveying hopper 10 to vibrate, and therefore materials in the conveying hopper 10 are conveyed into the crushing cavity 20. Wherein, broken subassembly 2 is the breaker, set up the in-process of defeated material like this, the material is carried to the breaker through defeated hopper 10 in and is broken, utilize vibrating member 30 in the removal in-process, constantly strike defeated hopper 10, make defeated hopper 10 produce the vibration, the material in the defeated hopper 10 falls into broken intracavity 20 gradually under the vibrating action of defeated hopper 10, avoided the material directly to empty to the broken intracavity 20 and easily cause the problem that the material piles up and the breaker takes place the card material at the operation in-process, reduced the maintenance frequency to the breaker, thereby the crushing efficiency of breaker has been improved.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. A delivery device, comprising:

-a feeding assembly (1), the feeding assembly (1) comprising a feed hopper (10);

the crushing assembly (2) is arranged below the conveying hopper (10), the crushing assembly (2) comprises a crushing cavity (20), and the crushing cavity (20) is positioned below the conveying hopper (10) and is used for crushing materials;

the auxiliary blanking assembly (3) is arranged on the conveying hopper (10), the auxiliary blanking assembly (3) comprises a vibrating component (30) which is movably arranged at the position, at least part of the vibrating component (30) is attached to the conveying hopper (10), and the vibrating component (30) drives the conveying hopper (10) to vibrate so that materials in the conveying hopper (10) are conveyed into the crushing cavity (20).

2. A feeding device according to claim 1, wherein the vibrating member (30) is a rotating cam;

the rotary cam is arranged on the conveying hopper (10), the rotary cam is rotatably arranged around a preset axis, and at least part of the circumferential surface of the rotary cam is attached to the conveying hopper (10) so as to drive the conveying hopper (10) to vibrate in the rotating process of the rotary cam.

3. The feeding device according to claim 2, wherein the auxiliary blanking assembly (3) further comprises:

the driving part (31) is arranged on the conveying hopper (10), the driving part (31) comprises a driving shaft which is rotatably arranged around the axis of the driving part, the driving shaft is in driving connection with the rotating cam, and the rotating cam is driven to rotate through the driving part (31).

4. A feeding device according to claim 3, wherein the auxiliary blanking assembly (3) further comprises:

the mounting bracket (32) is arranged on the conveying hopper (10), a mounting platform is arranged on the mounting bracket (32), and the driving part (31) and the rotating cam are respectively arranged on the mounting platform.

5. The feeding device according to claim 1, characterized in that the feeding hopper (10) is internally provided with a feeding channel which is obliquely arranged relative to the horizontal plane, the feeding hopper (10) is provided with a blanking channel opposite to the crushing cavity (20), and the blanking channel is communicated with the lower end of the feeding channel;

the auxiliary blanking component (3) is arranged at the bottom of the conveying hopper (10), and at least part of the vibrating component (30) is attached to the bottom surface of the conveying hopper (10).

6. The feeding device of claim 1, further comprising:

the conveying hopper (10) is arranged on the supporting frame (4) so as to support the conveying hopper (10) through the supporting frame (4);

and the buffer component (5) is arranged on the supporting frame (4) and is connected with the conveying hopper (10), and at least part of the buffer component (5) can be elastically arranged.

7. The feeding device according to claim 6, wherein a first connecting portion (40) is provided on the support frame (4), a second connecting portion (12) is provided on the feeding hopper (10), and the first connecting portion (40) is opposite to the second connecting portion (12);

both ends of the buffer member (5) are connected to the first connection portion (40) and the second connection portion (12), respectively.

8. The feeding device according to claim 7, wherein the second connecting portions (12) are plural, and the plural second connecting portions (12) are arranged at intervals along the circumferential direction of the feeding hopper (10);

the first connecting parts (40) are arranged in a plurality, the first connecting parts (40) and the second connecting parts (12) are arranged in a one-to-one correspondence, and the first connecting parts (40) and the second connecting parts (12) are connected through the buffer component (5).

9. The feeding device according to claim 7, wherein the first connecting portion (40) is a first connecting column extending from the support frame (4) in a direction approaching the feeding hopper (10);

the second connecting portion (12) is a second connecting column, the second connecting column extends from the feeding hopper (10) towards the direction close to the supporting frame (4), a preset interval is reserved between the first connecting column and the second connecting column, and two ends of the buffer component (5) are respectively connected with the first connecting column and the second connecting column.

10. A feeding device according to claim 7, wherein an extension plate (11) is provided on a side wall of the feeding hopper (10), the extension plate (11) extending in a circumferential direction of the feeding hopper (10), and the second connection portion (12) is provided on the extension plate (11).