CN115245948B - Industrial waste treatment device - Google Patents

Abstract

The application discloses an industrial waste treatment device, which comprises a crushing assembly, a crushing device and a triggering device, wherein the crushing assembly comprises a roller, a crushing piece arranged on the roller, and the triggering piece is arranged inside the roller; and the driving assembly comprises a transmission part arranged at the end part of the roller and an adjusting part arranged at one side of the transmission part. Through the setting of crushing subassembly and drive assembly for this device can carry out the self-adaptation to different industry solid waste and break, improves crushing efficiency.

Description

Industrial waste treatment device

Technical Field

The application relates to the technical field of waste treatment, in particular to an industrial waste treatment device.

Background

The solid waste generated in the production process of some ships mainly comprises a waste paint bucket, waste paint slag, waste mineral oil, oily sludge, waste rubber, waste plastic and the like, wherein the waste paint bucket, the waste paint slag, the waste mineral oil, the oily sludge and the like are dangerous waste and cannot be effectively treated. At present, dangerous disposal enterprises are lacking in the market, the acceptance of the solid wastes is limited, the handling cost is high and the secondary environmental risk is limited in the outward transportation, so that the solid wastes are difficult to transfer and dispose, the solid wastes can only be stored in a factory, precious field resources are occupied, and large potential safety hazards and environmental protection hazards exist, so that the industrial wastes are urgently required to be independently put into facilities for treatment and disposal. Based on this, an industrial waste treatment device is designed for treating such waste, and the reduction, harmlessness and recycling of industrial solid waste are realized.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the application and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the application and in the title of the application, which may not be used to limit the scope of the application.

The present application has been made in view of the above-mentioned and/or existing problems with industrial waste treatment devices.

Therefore, the application aims to solve the problems that the solid waste generated in the ship production process is difficult to treat and difficult to recycle.

In order to solve the technical problems, the application provides the following technical scheme: an industrial waste treatment device comprising, a crushing assembly comprising a roller, a crushing member disposed on the roller, and a trigger member disposed inside the roller; and the driving assembly comprises a transmission part arranged at the end part of the roller and an adjusting part arranged at one side of the transmission part.

As a preferable mode of the industrial waste treatment apparatus of the present application, wherein: the crushing piece comprises a fluted disc arranged on the roller, and a part of the fluted disc is also provided with a telescopic groove.

As a preferable mode of the industrial waste treatment apparatus of the present application, wherein: the crushing piece further comprises a movable tooth arranged in the telescopic groove and a first spring arranged at the bottom of the movable tooth, and the bottom of the movable tooth is fixedly connected with the first spring.

As a preferable mode of the industrial waste treatment apparatus of the present application, wherein: the bottom of movable tooth still is provided with the trigger lever, the bottom of trigger lever is provided with first inclined plane, the trigger lever with movable tooth fixed connection.

As a preferable mode of the industrial waste treatment apparatus of the present application, wherein: the trigger piece comprises a sliding rod arranged in the roller and a notch arranged on the sliding rod, and a second inclined plane is further arranged at the notch.

As a preferable mode of the industrial waste treatment apparatus of the present application, wherein: the transmission piece comprises a gear arranged at one end of the roller, a first transmission disc arranged at one side of the gear, a second spring arranged at the middle part of the side surface of the first transmission disc, and a second transmission disc matched with the first transmission disc, wherein the gear and the first transmission disc are fixedly connected with the roller, and the second transmission disc is fixedly connected with the end part of the sliding rod.

As a preferable mode of the industrial waste treatment apparatus of the present application, wherein: the regulating part comprises a tensioning wheel arranged on one side of the first transmission disc and one side of the second transmission disc, a driving motor arranged below the tensioning wheel, and a transmission steel belt arranged between the first transmission disc and the second transmission disc and between the tensioning wheel and the driving motor, wherein a clamping groove is further formed in an inner ring of the transmission steel belt, a regulating block is arranged on the side edge of the tensioning wheel, a third inclined surface is further arranged on the regulating block, and a deflector rod arranged at the end part of the second transmission disc is matched with the third inclined surface.

An industrial waste treatment system, characterized in that: comprising the steps of (a) a step of,

the medium-temperature pyrolysis unit comprises a mixer connected with the crushing assembly and a pyrolysis furnace connected with the mixer;

the high-temperature melting unit comprises a secondary combustion chamber connected with the pyrolysis furnace, a gasification melting furnace connected with the secondary combustion chamber and a slag pool connected with the gasification melting furnace;

the flue gas waste heat utilization purification unit comprises a waste heat boiler connected with the secondary combustion chamber, a hot air heat exchanger connected with the waste heat boiler, a quenching tower connected with the hot air heat exchanger, a dust remover connected with the quenching tower, a washing tower connected with the dust remover, an evaporation crystallization device connected with the washing tower, and a chimney connected with the washing tower

As a preferred embodiment of the industrial waste treatment system of the present application, wherein: and a denitration device is further arranged between the pyrolysis furnace and the secondary combustion chamber and at the waste heat boiler.

As a preferred embodiment of the industrial waste treatment system of the present application, wherein: and a flue gas reheater is arranged between the washing tower and the chimney.

The application has the beneficial effects that: according to the application, through the arrangement of the crushing assembly and the driving assembly, the device can adaptively crush different industrial solid wastes, the crushing efficiency is improved, and the reduction, harmlessness and recycling of the industrial solid wastes can be realized through the industrial waste treatment system.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is a structural view of an industrial waste treatment apparatus.

Fig. 2 is an internal construction view of the industrial waste treatment apparatus.

FIG. 3 is a diagram of the engagement of a toothed disc with a roller of an industrial waste processing apparatus.

FIG. 4 is a diagram showing the cooperation of the toothed plate and the slide bar of the industrial waste treatment device.

FIG. 5 is a block diagram of a toothed disc of an industrial waste processing apparatus.

Figure 6 is a diagram of the fit between a first drive plate and a second drive plate of an industrial waste treatment device.

FIG. 7 is a block diagram of an adjustment member of an industrial waste processing apparatus.

Fig. 8 is a process flow diagram of an industrial waste treatment system.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will become more readily apparent, a more particular description of the application will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present application is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the application. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1, an industrial waste treatment apparatus according to a first embodiment of the present application includes a crushing assembly 100 and a driving assembly 200, and the crushing assembly 100 can crush solid waste to facilitate the next treatment. And then the automatic self-adaptive crushing is realized through the driving assembly 200, so that the crushing efficiency is improved.

Specifically, the crushing assembly 100 includes a roller 101, a crushing member 102 disposed on the roller 101, and a trigger member 103 disposed inside the roller 101. The middle end of the roller 101 is hexagonal, so that the crushing member 102 is conveniently fixed to be driven to rotate, the crushing member 102 is mainly used for crushing waste, and the triggering member 103 is a triggering mechanism for realizing self-adaptive crushing.

Preferably, the driving assembly 200 includes a transmission member 201 disposed at an end of the roller 101, and an adjustment member 202 disposed at one side of the transmission member 201. The driving member 201 rotates the roller 101, and the adjusting member 202 can adaptively adjust the torque of the roller 101, thereby achieving adaptive crushing.

When the crushing assembly 100 is used, industrial solid wastes are placed in the crushing assembly 100, and when the crushing member 102 crushes the wastes, the transmission member 201 and the adjusting member 202 can be triggered by the triggering member 103 according to the hardness degree of different wastes. The crushing device realizes low-speed and high-torque crushing of harder objects, and realizes high-speed and low-torque crushing of softer objects, thereby improving crushing efficiency.

Example 2

Referring to fig. 2 to 7, a second embodiment of the present application is based on the previous embodiment.

Specifically, the crushing member 102 includes a toothed disc 102a disposed on the roller 101, and a telescopic slot is further disposed on a portion of the toothed disc 102 a. The toothed plates 102a on the two rollers 101 are intermeshed and tightly meshed with each other. The hexagonal hole in the middle of the toothed disc 102a cooperates with the roller 101 and rotates with the roller 101.

Preferably, the crushing member 102 further includes a movable tooth 102b disposed in the telescopic slot, and a first spring 102c disposed at the bottom of the movable tooth 102b, where the bottom of the movable tooth 102b is fixedly connected with the first spring 102 c. To ensure the crushing effect, one to two movable teeth 102b are provided on only a portion of the toothed disc 102 a. The first spring 102c is a compression spring, and the movable tooth 102b moves into the expansion groove when pressed.

Preferably, the bottom of the movable tooth 102b is further provided with a trigger lever 102b-1, the bottom of the trigger lever 102b-1 is provided with a first inclined surface 102b-2, and the trigger lever 102b-1 is fixedly connected with the movable tooth 102b. The first ramp 102b-2 on the trigger lever 102b-1 is wedge-shaped.

Preferably, the trigger piece 103 comprises a sliding rod 103a arranged inside the roller 101, and a notch 103b arranged on the sliding rod 103a, wherein a second inclined plane 103b-1 is further arranged at the notch 103 b. The slide bar 103a is slidably engaged with the roller 101 and is movable in the axial direction of the roller 101. The first inclined surface 102b-2 at the bottom of the trigger lever 102b-1 is matched with the second inclined surface 103b-1 at the notch 103b on the slide bar 103a, and when the trigger lever 102b-1 moves toward the slide bar 103a, the slide bar 103a moves along the axial direction of the roller 101.

Preferably, the driving member 201 includes a gear 201a disposed at one end of the roller 101, a first driving disc 201b disposed at one side of the gear 201a, a second spring 201c disposed in a middle portion of a side surface of the first driving disc 201b, and a second driving disc 201d engaged with the first driving disc 201b, where the gear 201a and the first driving disc 201b are fixedly connected to the roller 101, and the second driving disc 201d is fixedly connected to an end portion of the slide bar 103 a. The second spring 201c is a compression spring, and is mainly used for resetting the second driving disc 201d, when the first inclined surface 102b-2 at the bottom of the trigger lever 102b-1 and the second inclined surface 103b-1 at the notch 103b on the sliding rod 103a are dislocated, the sliding rod 103a moves rightward in the illustrated direction, and at this time, the second driving disc 201d is driven to approach the first driving disc 201 b. The gap between the first transmission disc 201b and the second transmission disc 201d forms a V shape.

Further, the adjusting piece 202 includes a tensioning wheel 202a disposed on one side of the first transmission disc 201b and the second transmission disc 201d, a driving motor 202b disposed below the tensioning wheel 202a, and a driving steel belt 202c disposed between the first transmission disc 201b and the second transmission disc 201d, the tensioning wheel 202a and the driving motor 202b, a clamping groove 202c-1 is further disposed on an inner ring of the driving steel belt 202c, an adjusting block 202a-1 is disposed on a side edge of the tensioning wheel 202a, a third inclined surface 202a-2 is further disposed on the adjusting block 202a-1, and a deflector 201d-1 disposed at an end portion of the second transmission disc 201d is matched with the third inclined surface 202 a-2. The tensioning wheel 202a is externally provided with clamping teeth and is matched with a clamping groove 202c-1 on the inner ring of the transmission steel belt 202c, and the tensioning wheel 202a is fixed on the bin wall of the crusher through an adjusting block 202a-1 and is provided with a torsion spring. When the first and second driving disks 201b and 201d are close to each other, the driving steel belt 202c moves to the outer edges of the first and second driving disks 201b and 201d, so that the radius of rotation becomes large and thus the torque becomes large. At the same time, the shift lever 201d-1 at the end of the second driving disc 201d will cooperate with the third inclined surface 202a-2 provided on the adjusting block 202a-1 to press the tensioning wheel 202a to adapt to the change of the driving steel belt 202 c. The clamping groove 202c-1 is provided to prevent slipping, and the section of the transmission steel belt 202c is V-shaped.

In the process of using, when solid waste is crushed, the different degrees of softness and hardness of the waste can cause the movable teeth 102b on the fluted disc 102a to have different degrees of compression. When the movable tooth 102b is compressed, the trigger bar 102b-1 at the bottom thereof engages with the second inclined surface 103b-1 at the notch 103b on the slide bar 103a inside the roller 101 through the first inclined surface 102b-2 at the end, so that the slide bar 103a moves in the illustrated direction. At this time, the second driving disc 201d at the end is pulled to approach the first driving disc 201b, the driving steel belt 202c inside the second driving disc moves to the outer edges of the first driving disc 201b and the second driving disc 201d, so that the radius of rotation becomes larger, and the rotation speed of the fluted disc 102a becomes slower but the torque becomes larger when the power of the driving motor 202b is unchanged. In contrast, when crushing a softer object, the first and second driving disks 201b and 201d are away from each other, the radius of rotation becomes smaller, and the torque of the toothed disk 102a becomes smaller, but the rotational speed becomes faster, contrary to the above-described actions. Therefore, the self-adaptive torque and speed change can greatly improve the crushing efficiency of the crusher. In addition, it should be additionally noted that, for higher crushing efficiency, three crushers may be provided in series and inclined, so that when the first crusher is crushing, the waste waiting to be crushed may roll down onto other crushers below, thereby further improving the working efficiency.

Example 3

Referring to fig. 8, a third embodiment of the present application is based on the first two embodiments. This embodiment provides an industrial waste treatment system including a medium-temperature pyrolysis unit 300 and a high-temperature melting unit 400, and a flue gas waste heat utilization purification unit 500. The hazardous waste with high organic content is reduced by the medium-temperature pyrolysis unit 300, the waste is subjected to innocent treatment by the high-temperature melting unit 400, and the discharged smoke is purified by the smoke waste heat utilization purification unit 500.

Specifically, the medium temperature pyrolysis unit 300 includes a mixer 301 coupled to the crushing assembly 100, and a pyrolysis furnace 302 coupled to the mixer 301.

Preferably, the high temperature melting unit 400 includes a secondary combustion chamber 401 connected to the pyrolysis furnace 302, a gasification melting furnace 402 connected to the secondary combustion chamber 401, and a slag bath 403 connected to the gasification melting furnace 402.

Preferably, the flue gas waste heat utilization purification unit 500 comprises a waste heat boiler 501 connected with the secondary combustion chamber 401, a hot air heat exchanger 502 connected with the waste heat boiler 501, a quenching tower 503 connected with the hot air heat exchanger 502, a dust remover 504 connected with the quenching tower 503, a washing tower 505 connected with the dust remover 504, an evaporation crystallization device 506 connected with the washing tower 505, and a chimney 507 connected with the washing tower 505.

Preferably, an SNCR denitration device 600 is further disposed between the pyrolysis furnace 302 and the secondary combustion chamber 401 and at the waste heat boiler 501.

Further, a flue gas reheater 700 is also arranged between the scrubber 505 and the chimney 507.

When the system is used, the medium-temperature pyrolysis unit 300 and the high-temperature melting unit 400 in the system are both performed in an oxygen-deficient environment, the reaction temperature is effectively controlled, pyrolysis gas is subjected to high-temperature dust removal through a metal film filter before entering the secondary combustion chamber 401, the metal components in the heavy slag pool 403 in smoke cannot enter the high-temperature combustion process of the subsequent secondary combustion chamber 401, and the temperature environment and the catalysis condition required by dioxin generation are effectively restrained. After pyrolysis residues and pyrolysis fly ash enter the plasma high-temperature melting unit 400 through granulation and reasonable compatibility, solid harmful components are fully mixed with compounding agents limestone, glass and the like and stay in a high-temperature melting furnace for a sufficient time to form molten glass bodies, and the molten glass bodies are quenched by water quenching in the slag bath 403 to form stable solid glass bodies, so that harmful heavy metal substances can be fully wrapped and are difficult to separate out under natural conditions, harmless treatment of the residues is realized, and the solid glass bodies can be used for common landfill or as building materials. The density of the solid glass body is far greater than that of residues and fly ash in the common incineration process, the volume of the products after dangerous waste treatment is greatly reduced, and meanwhile, harmless landfill is realized. The plasma fusion gasification product enters the secondary combustion chamber 401 to be fully combusted with the supplementary air, the generated high-temperature flue gas and the high-temperature flue gas of the pyrolysis system respectively enter the waste heat boiler 501 to generate steam for recycling, and then the flue gas is purified by the flue gas purification system

It should be noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present application may be modified or substituted without departing from the spirit and scope of the technical solution of the present application, which is intended to be covered in the scope of the claims of the present application.

Claims (2)

1. An industrial waste treatment device, characterized in that: comprising the steps of (a) a step of,

a crushing assembly (100) comprising a roller (101), a crushing member (102) arranged on the roller (101), and a trigger member (103) arranged inside the roller (101); the method comprises the steps of,

the driving assembly (200) comprises a transmission member (201) arranged at the end part of the roller (101), and an adjusting member (202) arranged at one side of the transmission member (201);

the crushing piece (102) comprises a fluted disc (102 a) arranged on the roller (101), and a part of the fluted disc (102 a) is also provided with a telescopic groove;

the crushing piece (102) further comprises a movable tooth (102 b) arranged in the telescopic groove and a first spring (102 c) arranged at the bottom of the movable tooth (102 b), and the bottom of the movable tooth (102 b) is fixedly connected with the first spring (102 c);

the trigger piece (103) comprises a sliding rod (103 a) arranged inside the roller (101) and a notch (103 b) arranged on the sliding rod (103 a), and a second inclined plane (103 b-1) is further arranged at the notch (103 b);

the transmission piece (201) comprises a gear (201 a) arranged at one end of the roller (101), a first transmission disc (201 b) arranged at one side of the gear (201 a), a second spring (201 c) arranged at the middle part of the side surface of the first transmission disc (201 b), and a second transmission disc (201 d) matched with the first transmission disc (201 b), wherein the gear (201 a) and the first transmission disc (201 b) are fixedly connected with the roller (101), and the second transmission disc (201 d) is fixedly connected with the end part of the sliding rod (103 a);

the adjusting piece (202) comprises a tensioning wheel (202 a) arranged on one side of the first transmission disc (201 b) and one side of the second transmission disc (201 d), a driving motor (202 b) arranged below the tensioning wheel (202 a), and a driving steel belt (202 c) arranged between the first transmission disc (201 b) and the second transmission disc (201 d) and between the tensioning wheel (202 a) and the driving motor (202 b), a clamping groove (202 c-1) is further formed in an inner ring of the driving steel belt (202 c), an adjusting block (202 a-1) is arranged on the side edge of the tensioning wheel (202 a), a third inclined surface (202 a-2) is further arranged on the adjusting block (202 a-1), and a deflector rod (201 d-1) arranged at the end part of the second transmission disc (201 d) is matched with the third inclined surface (202 a-2).

2. An industrial waste treatment device as claimed in claim 1, wherein: the bottom of movable tooth (102 b) still is provided with trigger lever (102 b-1), the bottom of trigger lever (102 b-1) is provided with first inclined plane (102 b-2), trigger lever (102 b-1) with movable tooth (102 b) fixed connection.