CN219943139U - Cone crusher prevents long-pending material device - Google Patents

Abstract

The utility model discloses an anti-accumulation device of a cone crusher, which comprises a machine body, a movable cone, a static cone and a feeding hopper, wherein a disturbance component is arranged at the feeding hopper. The beneficial effects are that: the device can avoid the material card at the feed inlet through setting up disturbance subassembly under the effect of disturbance subassembly to the device can make cone crusher continuous operation, can reduce the problem that the work efficiency that causes because of the time interval that the batch pay-off appears among the prior art is low, and then solves the technical problem that exists among the prior art, improves cone crusher's work efficiency.

Description

Cone crusher prevents long-pending material device

Technical Field

The utility model belongs to the technical field of crushers, and particularly relates to an anti-accumulation device of a cone crusher.

Background

The cone crusher is used as a crusher in places such as mines, smelting, building materials and the like, and is rotated and swung under the urging of an eccentric shaft sleeve through a movable cone, wherein a section of the movable cone, which is close to a static cone, is a crushing cavity, a feeding hopper is arranged above the crushing cavity, and materials enter the crushing cavity through the feeding hopper to be crushed;

when the cone crusher is used for crushing, in order to prevent materials from accumulating at the position of the feed hopper and clamping the main feed inlet, the materials are fed into the cone crusher in batches, for example, the cone crusher with the discharging and accumulating function is disclosed in Chinese patent publication No. CN217249130U, but the materials are fed into the cone crusher in batches for crushing, a certain time interval exists between each batch, the cone crusher idles in the time interval and does not perform crushing, the working efficiency of the cone crusher in a certain time is easily reduced in a plurality of time intervals, and the problem is solved by providing the cone crusher anti-accumulating device.

Disclosure of Invention

The utility model aims to solve the problems and provide a material accumulation preventing device of a cone crusher.

In order to achieve the technical purpose, the utility model provides the following technical scheme:

the utility model provides an anti-accumulation device of a cone crusher, which comprises a machine body, a movable cone, a static cone and a feeding hopper, wherein a disturbance component is arranged at the feeding hopper; the disturbance assembly comprises a disturbance hopper arranged in the feed hopper, the disturbance hopper has the same structure as the feed hopper, and an elastic assembly is arranged between the disturbance hopper and the feed hopper; the elastic component includes second spring and elastic support piece, the second spring sets up and is close to the bottom position in the feeder hopper inside with the disturbance fill outside, the one end of second spring is connected with the feeder hopper inner wall, and the other end is connected with the disturbance fill outside, the top edge bottom surface of disturbance fill is located the top surface top of feeder hopper, support piece is located between feeder hopper top surface and the disturbance fill top edge bottom surface.

Adopt above-mentioned cone crusher to prevent long-pending material device, the device is when using, installs disturbance subassembly in feeder hopper department, will need broken material continuous conveyance get into cone crusher through the conveyer belt in, can avoid the material card at the feed inlet under the effect of disturbance subassembly to the device can make cone crusher continuous operation, can reduce the interval that appears because of batch feeding among the prior art, and then solves the technical problem that exists among the prior art, improves cone crusher's work efficiency.

Preferably, the number of the second springs is at least three and is uniformly distributed.

Preferably, the elastic support piece comprises two ball seats, one ball seat is connected with the bottom surface of the top edge of the disturbance bucket, the other ball seat is connected with the top surface of the feed hopper, the two ball seats are internally connected with ball heads, the outer sides of the ball heads are connected with movable rods, the movable rods are arranged close to the disturbance bucket, the outer sides of the other ball heads are connected with first sleeve rods, the movable rods are in sliding fit with the first sleeve rods, and the outer sides of the first sleeve rods and the movable rods are provided with first springs.

The beneficial effects are that: the device can avoid the material card at the feed inlet through setting up disturbance subassembly under the effect of disturbance subassembly to the device can make cone crusher continuous operation, can reduce the problem that the work efficiency that causes because of the time interval that the batch pay-off appears among the prior art is low, and then solves the technical problem that exists among the prior art, improves cone crusher's work efficiency.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front view of the present utility model;

FIG. 2 is a schematic view of a portion of the structure of a perturbation module of the present utility model;

FIG. 3 is a schematic view of the resilient support structure of the present utility model;

FIG. 4 is a schematic view of the structure of the stirring member of the present utility model;

the reference numerals are explained as follows:

1. a feed hopper; 2. a perturbation component; 201. a disturbance bucket; 202. an elastic support; 2021. a ball seat; 2022. ball head; 2023. a moving rod; 2024. a first loop bar; 2025. a first spring; 203. a second spring; 204. a mounting frame; 205. a rotating block; 206. a universal joint; 207. a second loop bar; 208. a connecting rod; 209. a disturbance rod; 3. static cone; 4. a body; 5. and (5) moving the cone.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, based on the examples herein, which are within the scope of the utility model as defined by the claims, will be within the scope of the utility model as defined by the claims.

Referring to fig. 1-4, the utility model provides an anti-accumulation device of a cone crusher, which comprises a machine body 4, a movable cone 5, a static cone 3 and a feed hopper 1, wherein a disturbance component 2 is arranged at the feed hopper 1, the disturbance component 2 is arranged at the feed hopper 1, materials to be crushed are continuously conveyed into the cone crusher through a conveying belt, the materials can be prevented from being blocked at a feed inlet under the action of the disturbance component 2, the device can enable the cone crusher to continuously work, the problem of low working efficiency caused by time interval of batch feeding in the prior art can be reduced, the technical problem in the prior art is solved, and the working efficiency of the cone crusher is improved.

As an alternative embodiment, the disturbance assembly 2 comprises a disturbance bucket 201 arranged in the feed hopper 1, the disturbance bucket 201 has the same structure as the feed hopper 1, and an elastic assembly is arranged between the disturbance bucket 201 and the feed hopper 1. The stirring hopper 201 is connected in the feed hopper 1 through the elastic component, so that materials can be directly fed into the cone crusher for crushing through the stirring hopper, and the stirring hopper 201 can continuously shake along with continuous impact of the materials under the action of the elastic component, so that the materials in the stirring hopper 201 are in an active state, the materials are prevented from being clamped, and the problem of time interval caused by batch conveying of the materials in the prior art can be avoided.

The elastic component includes second spring 203 and elastic support piece 202, and second spring 203 sets up and is close to the bottom position in the feeder hopper 1 inside and disturbance fill 201 outside, and the one end of second spring 203 is connected with feeder hopper 1 inner wall, and the other end is connected with the disturbance fill 201 outside, and the top edge bottom surface of disturbance fill 201 is located the top surface top of feeder hopper 1, and support piece is located between feeder hopper 1 top surface and the disturbance fill 201 top edge bottom surface. The number of the second springs 203 is at least three and is uniformly distributed. Through the structure, the disturbance bucket 201 can swing under the action of the second spring 203, so that the material close to the feed inlet can be prevented from being blocked.

The elastic support 202 is vertically arranged, the elastic support 202 comprises two ball head seats 2021, one ball head seat 2021 is connected with the bottom surface of the top edge of the disturbance bucket 201, the other ball head seat 2021 is connected with the top surface of the feed hopper 1, ball heads 2022 are connected in the two ball head seats 2021, a movable rod 2023 is connected to the outer side of the ball head 2022, the movable rod 2023 is arranged close to the disturbance bucket 201, a first sleeve rod 2024 is connected to the outer side of the other ball head, the movable rod 2023 is in sliding fit with the first sleeve rod 2024, a first spring 2025 is arranged on the outer side of the first sleeve rod 2024 and the outer side of the movable rod 2023, one end of the first spring 2025 is connected with the disturbance bucket 201, and the other end of the first spring 2025 is connected with the top surface of the feed hopper 1. Through the structure, when the disturbance bucket 201 is impacted by materials from top to bottom, the top of the disturbance bucket 201 can swing under the action of the first spring 2025 and the elastic supporting piece 202, so that the materials in the disturbance bucket 201 can move, and the materials are prevented from being blocked at the feed inlet.

As another optional implementation mode, the disturbance subassembly 2 still includes the mounting bracket 204 of connecting at feeder hopper 1 top surface, and mounting bracket 204 is n shape structure, is connected with stirring piece between moving awl 5 top and the mounting bracket 204, adopts above-mentioned structure to drive through moving awl 5 rotatory swing and stir the piece and rotate, stirs the material in the feeder hopper 1 through the stirring piece of pivoted, and then avoids the material to block to can realize that the conveyer belt is used continuously, cone crusher continuous operation.

The stirring piece is including connecting the dwang 205 on mounting bracket 204, and universal joint 206 is all installed at dwang 205 bottom and moving awl 5 top, is connected with the dwang between two universal joints 206, and the dwang outside is connected with the disturbance pole 209 of shape structure, and the both ends of disturbance pole 209 all are connected with the dwang. The dwang includes second loop bar 207, and second loop bar 207 is connected and is close to the setting of mounting bracket 204 with universal joint 206, and second loop bar 207 internal spline connection has connecting rod 208, is connected through universal joint 206 between the bottom of connecting rod 208 and the awl 5 that moves, sliding fit between connecting rod 208 and the second loop bar 207, and disturbance pole 209 sets up in the connecting rod 208 outside. The structure can drive the connecting rod 208 to rotate through the universal energy conservation by the movable cone 5, and the connecting rod 208 is driven to rotate under the rotation of the movable cone 5 so as to drive the disturbance rod 209 to rotate, so that the materials piled up at the feeding hopper 1 are moved, the materials are prevented from being blocked at the feeding position, and the cone crusher can continuously work.

The present utility model is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present utility model and the inventive concept thereof, can be replaced or changed within the scope of the present utility model.

Claims (6)

1. The utility model provides a cone crusher prevents long-pending material device, includes organism (4), moves awl (5), quiet awl (3) and feeder hopper (1), its characterized in that: a disturbance component (2) is arranged at the feed hopper (1);

the stirring assembly (2) comprises a stirring hopper (201) arranged in the feeding hopper (1), the stirring hopper (201) has the same structure as the feeding hopper (1), and an elastic assembly is arranged between the stirring hopper (201) and the feeding hopper (1);

the elastic component includes second spring (203) and elastic support piece (202), second spring (203) set up inside and disturbance fill (201) outside of feeder hopper (1) are close to the bottom position, the one end of second spring (203) is connected with feeder hopper (1) inner wall, and the other end is connected with disturbance fill (201) outside, the top edge bottom surface of disturbance fill (201) is located the top surface top of feeder hopper (1), support piece is located between feeder hopper (1) top surface and disturbance fill (201) top edge bottom surface.

2. The cone crusher anti-accumulation device according to claim 1, wherein: the number of the second springs (203) is at least three and the second springs are uniformly distributed.

3. The cone crusher anti-accumulation device according to claim 1, wherein: the elastic support piece (202) comprises two ball seat (2021), wherein one ball seat (2021) is connected with the bottom surface of the top edge of the disturbance bucket (201), the other ball seat (2021) is connected with the top surface of the feed hopper (1), two ball seats (2021) are internally connected with ball heads (2022), the outer sides of the ball heads (2022) are connected with moving rods (2023), the moving rods (2023) are arranged close to the disturbance bucket (201), the outer sides of the other ball heads are connected with first sleeve rods (2024), sliding fit is achieved between the moving rods (2023) and the first sleeve rods (2024), and first springs (2025) are arranged on the outer sides of the first sleeve rods (2024) and the moving rods (2023).

4. The cone crusher anti-accumulation device according to claim 1, wherein: the stirring assembly (2) further comprises a mounting frame (204) connected to the top surface of the feed hopper (1), the mounting frame (204) is of an n-shaped structure, and stirring pieces are connected between the top of the movable cone (5) and the mounting frame (204).

5. The cone crusher anti-accumulation device according to claim 4, wherein: the stirring piece is including connecting the dwang (205) on mounting bracket (204), universal joint (206) are all installed at dwang (205) bottom and moving awl (5) top, two be connected with the dwang between universal joint (206), the dwang outside is connected with disturbance pole (209) of shape structure, the both ends of disturbance pole (209) are all connected with the dwang.

6. The cone crusher anti-accumulation device according to claim 5, wherein: the utility model discloses a rotating rod, including second loop bar (207), second loop bar (207) are connected and are close to mounting bracket (204) setting with universal joint (206), spline connection has connecting rod (208) in second loop bar (207), be connected through universal joint (206) between the bottom of connecting rod (208) and moving awl (5), sliding fit between connecting rod (208) and second loop bar (207), disturbance pole (209) set up in connecting rod (208) outside.