CN220194991U - Regeneration denitration catalyst breaker - Google Patents

Abstract

The utility model discloses a regenerated denitration catalyst crushing device, which comprises: the device comprises a device body, wherein a conveying device is arranged on the device body, the tail end of the conveying device is connected with a feeding device, one side end of the feeding device is provided with a coarse crushing device, one side end of the coarse crushing device is provided with a fine crushing device, one side end of the fine crushing device is provided with a dust suction device, the lower end of the fine crushing device is provided with a screening device, and two side ends of the coarse crushing device and the fine crushing device are provided with driving devices; the utility model has the advantages of simple and reasonable structure, convenient use, convenient and smooth material conveying, full and thorough crushing, clean and tidy working environment, high production efficiency and good product quality.

Description

A regeneration denitration catalyst crushing device

Technical field

The utility model relates to a regeneration denitration catalyst crushing device, belonging to the technical field of denitration catalyst production equipment.

Background technique

SCR denitrification technology is the mainstream technology for denitrification in power plants. Denitrification catalysts are often used for catalytic reactions. During long-term use, the catalysts often become deactivated, corroded, and clogged. Direct landfilling as used catalysts will cause a waste of resources and environmental pollution, so catalyst regeneration is chosen. Utilization; At present, after the waste catalyst is regenerated, the mechanical strength of part of the catalyst does not meet the standard or is seriously damaged, and this part needs to be crushed. Traditionally, the regenerated catalyst is directly put into the crushing equipment for crushing. The material is heavy, difficult to transport, has high labor costs, and the crushing equipment is not completely crushed, which affects later production and leads to unqualified products.

To this end, we propose a regeneration denitration catalyst crushing device.

Contents of the invention

(1) Technical problems to be solved

In order to solve the above problems, the utility model provides a regeneration denitration catalyst crushing device with a simple and reasonable structure, easy use, convenient and smooth material conveying, sufficient and thorough crushing, a clean and tidy working environment, high production efficiency and good product quality.

(2) Technical solutions

The utility model provides a regeneration denitration catalyst crushing device, which includes: a device body, a conveying device is provided on the device body, and a feeding device is connected to the end of the conveying device. One side of the feeding device A coarse crushing device is provided at one end of the coarse crushing device, a fine crushing device is provided at one end of the coarse crushing device, a dust suction device is provided at one end of the fine crushing device, and a screening device is provided at the lower end of the fine crushing device. Driving devices are provided at both ends of the coarse crushing device and the fine crushing device.

Further, the conveying device is provided with a feed hopper, a conveyor belt, a driving roller and a conveying drive motor.

Further, the feeding device is provided with a chassis, a feed port and a feed trough, and the coarse crushing device is installed at the inner end of the chassis, and a controller is also installed on the chassis.

Further, the coarse crushing device is provided with a coarse crushing chamber, a coarse crushing roller group and a first blanking chute, the coarse crushing roller group is provided at least in one group, and the coarse crushing roller group is provided with multiple crushing Great.

Further, the fine crushing device is provided with a fine crushing chamber, a fine crushing roller group and a second blanking chute, the fine crushing roller group is provided with at least two groups, and the fine crushing roller group is provided with a plurality of crushers. tooth.

Further, the dust suction device includes a first dust suction mechanism and a second dust suction mechanism, the first dust suction mechanism is connected and installed with the fine crushing device, and the second dust suction mechanism is connected with the screening device. The device is connected and installed. The first vacuum cleaner is provided with a first vacuum cleaner, a first vacuum hood and a first vacuum pipe. The second vacuum cleaner is provided with a second vacuum cleaner, a main vacuum channel, and multiple vacuum cleaners. A separate vacuum tube and a plurality of second vacuum hoods.

Further, the screening device is provided with a first vibrating screen mesh belt, a second vibrating screen mesh belt, a third vibrating screen mesh belt and a vibrator. The first vibrating screen mesh belt, the second vibrating screen mesh belt The end of the vibrating screen belt and the third vibrating screen belt are equipped with discharge troughs.

Further, the driving device is provided with a driving motor, a driving wheel, a driven wheel, a transmission belt and a plurality of bearing seats connected and installed.

(3) Beneficial effects

Compared with the existing technology, the utility model has the following beneficial effects: the utility model has a simple and reasonable structure, is easy to use, convenient and smooth material conveying, sufficient and thorough crushing, a clean and tidy working environment, high production efficiency, and good product quality. .

Description of drawings

In order to explain the embodiments of the present invention or the technical solutions in the prior art more clearly, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings in the following description These are only some embodiments of the present invention. For those of ordinary skill in the art, other drawings can be obtained based on these drawings without exerting creative efforts.

Figure 1 is a schematic structural diagram of the utility model.

Figure 2 is a schematic side structural view of the utility model.

Figure 3 is a partial structural diagram of the utility model.

1-Device body; 2-Conveying device; 3-Feeding device; 4-Coarse crushing device; 5-Fine crushing device; 6-Dust suction device; 7-Screening device; 8-Driving device; 4-1-Coarse crushing device Chamber; 4-2-coarse crushing roller group; 4-3-first blanking chute; 4-4-crushing rod; 5-1-fine crushing chamber; 5-2-fine crushing roller group; 5-3 -The second blanking chute; 5-4-crushing teeth; 6-1-the first dust suction mechanism; 6-2-the second dust suction mechanism; 7-1-the first vibrating screen belt; 7-2-the first The second vibrating screen mesh belt; 7-3-the third vibrating screen mesh belt; 7-4-vibrator.

Detailed ways

This section will describe specific embodiments of the present invention in detail. The preferred embodiments of the present utility model are shown in the accompanying drawings. The function of the accompanying drawings is to supplement the description of the written part of the specification with graphics, so that people can intuitively and vividly Each technical feature and the overall technical solution of the present utility model should be understood, but they cannot be understood as limiting the protection scope of the present utility model.

As shown in Figure 1, a regeneration denitration catalyst crushing device includes: a device body 1, a conveying device 2 is provided on the device body 1, and a feeding device 3 is connected to the end of the conveying device 2, so The feeding device 3 is provided with a coarse crushing device 4 at one end, the coarse crushing device 4 is provided with a fine crushing device 5 at one end, and the fine crushing device 5 is provided with a dust suction device 6 at one end, A screening device 7 is provided at the lower end of the fine crushing device 5, and a driving device 8 is provided at both ends of the coarse crushing device 4 and the fine crushing device 5;

Wherein, the conveying device 2 is provided with a feed hopper, a conveyor belt, a driving roller and a conveying drive motor;

The feeding device 3 is provided with a chassis, a feed port and a feed trough, and the coarse crushing device 4 is installed at the inner end of the chassis, and a controller is also installed on the chassis;

The coarse crushing device 4 is provided with a coarse crushing chamber 4-1, a coarse crushing roller group 4-2 and a first blanking chute 4-3, and the coarse crushing roller group 4-2 is at least one set, and The coarse crushing roller group 4-2 is provided with multiple crushing rods 4-4;

The fine crushing device 5 is provided with a fine crushing chamber 5-1, a fine crushing roller group 5-2 and a second blanking chute 5-3, and the fine crushing roller group 5-2 is arranged in at least two groups, and The fine crushing roller group 5-2 is provided with multiple crushing teeth 5-4;

The dust suction device 6 includes a first suction mechanism 6-1 and a second suction mechanism 6-2. The first suction mechanism 6-1 is connected and installed with the fine crushing device 5, and the second suction mechanism 6-1 is connected to the fine crushing device 5. The dust collecting mechanism 6-2 is connected and installed with the screening device 7. The first dust collecting mechanism is provided with a first vacuum cleaner, a first dust collecting hood and a first dust collecting pipe, and the second dust collecting mechanism is provided with a first vacuum cleaner, a first dust collecting hood and a first dust collecting pipe. A second vacuum cleaner, a main vacuum channel, a plurality of sub-vacuum pipes and a plurality of second vacuum hoods;

The screening device 7 is provided with a first vibrating screen belt 7-1, a second vibrating screen belt 7-2, a third vibrating screen belt 7-3 and an exciter 7-4. The first vibration The ends of the screen belt 7-1, the second vibrating screen belt 7-2 and the third vibrating screen belt 7-3 are all provided with discharging troughs;

The driving device 8 is provided with a driving motor, a driving wheel, a driven wheel, a transmission belt and a plurality of bearing seats for connection and installation.

The utility model has a simple and reasonable structure, is easy to use, has convenient and smooth material conveying, sufficient and thorough crushing, a clean and tidy working environment, high production efficiency and good product quality.

Working principle of the utility model: A regeneration denitration catalyst crushing device shown in the utility model includes a device body 1, a conveying device 2, a feeding device 3, a coarse crushing device 4, a fine crushing device 5, a dust suction device 6, and a screening device 7 and driving device 8; first, the regenerated denitrification catalyst is transported to the feeding device 3 through the conveying device 2, and the coarse crushing device 4 performs coarse crushing processing, and then the fine crushing device 5 performs fine crushing processing, and the crushed materials fall into In the screening device 7, the dust is obtained through screening by the screening device 7. The dust suction device 6 is connected and installed on the fine crushing device 5 and the screening device 7 to inhale and collect dust during the processing and production of the fine crushing device 5 and the screening device 7. , prevent dust from rising during the crushing process, protect the working environment, fully crush, smooth material conveying, and improve production efficiency.

The above-described embodiments are only descriptions of preferred embodiments of the present invention, and do not limit the concept and scope of the present invention. Without departing from the design concept of the present utility model, various modifications and improvements made by ordinary people in the field to the technical solutions of the present utility model shall fall within the protection scope of the present utility model. The technology claimed for protection by the present utility model The content has been fully recorded in the claims.

Claims (8)

1. A regenerated denitration catalyst crushing device, characterized in that: it includes a device body (1), a conveying device (2) is provided on the device body (1), and the end of the conveying device (2) is connected with a Feeding device (3), the feeding device (3) is provided with a coarse crushing device (4) at one end, and the coarse crushing device (4) is provided with a fine crushing device (5) at one end, so A dust suction device (6) is provided at one end of the fine crushing device (5), a screening device (7) is provided at the lower end of the fine crushing device (5), and between the coarse crushing device (4) and Driving devices (8) are provided at both ends of the fine crushing device (5). 2. A regenerated denitration catalyst crushing device according to claim 1, characterized in that: the conveying device (2) is provided with a feed hopper, a conveyor belt, a driving roller and a conveying drive motor. 3. A regenerated denitration catalyst crushing device according to claim 1, characterized in that: the feeding device (3) is provided with an organic box, a feeding port and a feeding trough, and the coarse crushing device (4) It is installed at the inner end of the chassis, and a controller is also installed on the chassis. 4. A regenerated denitration catalyst crushing device according to claim 1, characterized in that: the coarse crushing device (4) is provided with a coarse crushing chamber (4-1) and a coarse crushing roller group (4- 2) and the first blanking chute (4-3), its coarse crushing roller group (4-2) is set at least in one group, and the coarse crushing roller group (4-2) is provided with multiple crushing rods (4- 4). 5. A regenerated denitration catalyst crushing device according to claim 1, characterized in that: the fine crushing device (5) is provided with a fine crushing cavity (5-1) and a fine crushing roller group (5- 2) and the second blanking chute (5-3), the fine crushing roller group (5-2) is provided with at least two groups, and the fine crushing roller group (5-2) is provided with multiple crushing teeth (5- 4). 6. A regenerated denitration catalyst crushing device according to claim 1, characterized in that: the dust suction device (6) includes a first dust suction mechanism (6-1) and a second dust suction mechanism ( 6-2), the first dust collecting mechanism (6-1) is connected and installed with the fine crushing device (5), and the second dust collecting mechanism (6-2) is connected and installed with the screening device (7) , the first vacuum mechanism is provided with a first vacuum cleaner, a first dust hood and a first vacuum pipe, and the second vacuum mechanism is provided with a second vacuum cleaner, a main vacuum channel, a plurality of sub-suction Dust duct and multiple second dust hoods. 7. A regenerated denitration catalyst crushing device according to claim 1, characterized in that: the screening device (7) is provided with a first vibrating screen belt (7-1) and a second vibrating screen belt. (7-2), the third vibrating screen belt (7-3) and the vibrator (7-4), the first vibrating screen belt (7-1), the second vibrating screen belt (7-2 ) and the end of the third vibrating screen belt (7-3) are provided with discharge troughs. 8. A regeneration denitration catalyst crushing device according to claim 1, characterized in that: the driving device (8) is provided with a driving motor, a driving wheel, a driven wheel, a transmission belt and a plurality of bearing seats for connection and installation. .