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CN-122014569-A - Air compressor machine heat recovery mechanism with slagging-off subassembly

CN122014569ACN 122014569 ACN122014569 ACN 122014569ACN-122014569-A

Abstract

The invention discloses a heat recovery mechanism of an air compressor with a slag removal component, which comprises a heat recovery water tank, an oil inlet pipe, an oil distribution pipe, an oil discharge pipe and the slag removal component, wherein the slag removal component is designed on the heat recovery water tank, a lifting screen is driven to move upwards by a lifting motor, the lifting screen drives a sleeved scraping ring and a slag blocking ring to synchronously move upwards, the outer sides of the periphery of the oil distribution pipe are in butt joint with the scraping ring to scrape slag, so that scale waste slag on the oil distribution pipe enters an annular slag collection groove, after the lifting screen moves upwards, the slag scraping is completed, and finally the lifting screen continues to move upwards, so that the annular slag collection groove is sleeved on each group of slag suction short pipes which encircle to form a ring structure, and the waste slag in the annular slag collection groove is sucked and discharged by the slag suction short pipes.

Inventors

  • SUN XIAO
  • SUN TONGLI

Assignees

  • 江苏新凯晟机械设备有限公司

Dates

Publication Date
20260512
Application Date
20260409

Claims (9)

  1. 1. The air compressor heat recovery mechanism with the slag removal assembly is characterized by comprising a heat recovery water tank, an oil inlet pipe, an oil distribution pipe, an oil discharge pipe and a slag removal assembly; the slag removing assembly comprises a lifting motor, a lifting net cover, a sleeve scraping ring, slag blocking rings, a positioning cavity plate and slag sucking short pipes, wherein the lifting net cover is arranged below the heat recovery water tank, the lifting net cover is in sliding sleeve connection with the plurality of the oil distributing pipes, the upper end of the lifting net cover is uniformly provided with the plurality of sleeve scraping rings, each sleeve scraping ring is respectively sleeved with one oil distributing pipe, the outside of the periphery of each sleeve scraping ring is respectively provided with one slag blocking ring, the slag blocking rings and the sleeve scraping rings on the inner sides of the slag blocking rings enclose an annular slag collecting groove, the positioning cavity plate is arranged above the inside of the heat recovery water tank and is positioned on the lower side of the oil distributing pipe, the positioning cavity plate is fixedly connected to the plurality of the oil distributing pipes in a penetrating manner, the lower side of the positioning cavity plate is respectively provided with a plurality of groups of slag sucking short pipes, each group of slag sucking short pipes are respectively sleeved with the plurality of slag sucking short pipes in a sliding manner, the lifting net cover is respectively provided with the plurality of slag sucking net cover, the lifting motor is respectively connected with the two side of the annular scraping rings in a sliding manner, the two sides of the slag collecting groove are respectively sleeved with the slag blocking rings, the lifting net cover is respectively driven to move upwards, the two sides of the annular scraping rings are respectively sleeved with the annular scraping rings upwards, the annular slag collecting groove is formed, the slag collecting groove is continuously upwards is formed, the slag collecting groove is continuously is formed, and the slag collecting and the slag is moved upwards, and the slag collecting ring is upwards and the slag is moved upwards by the annular ring and the annular scraping ring is correspondingly arranged, and sucking and discharging the waste residues in the annular slag collecting groove through the slag sucking short pipe.
  2. 2. The air compressor heat recovery mechanism with a slag removal assembly of claim 1, wherein a front upper end and a rear lower end of the heat recovery water tank are provided with a water inlet and a water outlet, respectively.
  3. 3. The heat recovery mechanism of the air compressor with the slag removal assembly according to claim 1, wherein a slag storage box body is arranged at the outer end of the heat recovery water tank, the inner side of the slag storage box body is communicated with the inner end of the positioning cavity plate, a suction pipe is arranged at the upper end of the slag storage box body, and a suction pump is arranged on the suction pipe.
  4. 4. The air compressor heat recovery mechanism with a deslagging assembly according to claim 1, wherein a wear-resistant coating is arranged on the periphery of the inner side of the sleeved scraping ring.
  5. 5. The air compressor heat recovery mechanism with the slag removal assembly, which is disclosed in claim 1, is characterized by further comprising a lifting transmission assembly, wherein the lifting transmission assembly comprises a connecting rod, lifting side blocks and a transmission screw rod, transmission rails are respectively arranged on two sides of the heat recovery water tank, connecting rods are respectively arranged on two sides of the lifting net cover, the outer ends of the connecting rods are respectively connected with the lifting side blocks, the lifting side blocks are respectively and slidably arranged in the transmission rails, the upper side of the lifting motor is respectively provided with the transmission screw rod, and the transmission screw rod is upwards connected in the transmission rails in a penetrating manner and is screwed with the lifting side blocks.
  6. 6. The air compressor heat recovery mechanism with a slag removal assembly of claim 5, wherein the drive rail is coated with a wear resistant coating.
  7. 7. The air compressor heat recovery mechanism with a slag removal assembly of claim 1, wherein the upper end of the sleeved scraper ring is in a ring conical structure with a smaller upper part and a larger lower part.
  8. 8. The air compressor heat recovery mechanism with a slag removal assembly of claim 1, wherein the oil distribution pipe is made of a thermally conductive material.
  9. 9. The air compressor heat recovery mechanism with a slag removal assembly of claim 1, wherein the oil inlet pipe and the oil outlet pipe are respectively provided with a delivery pump and a flow control valve.

Description

Air compressor machine heat recovery mechanism with slagging-off subassembly Technical Field The invention belongs to the technical field of air compressor heat recovery, and particularly relates to an air compressor heat recovery mechanism with a deslagging assembly. Background At present, an air compressor is equipment for compressing gas, most of input electric energy is converted into heat energy to be stored in lubricating oil in the working process of the air compressor, if the heat energy stored in the lubricating oil in the working process of the air compressor cannot be effectively released, the air compressor can be stopped due to the over-high oil temperature in an alarm mode, meanwhile, the lubricating oil contains a large amount of heat energy, if the part of heat energy can be utilized, the heat energy recovery performance can be greatly improved, the requirement of energy conservation and emission reduction is met, the traditional air compressor mainly adopts a water cooling or air cooling mode to circularly conduct heat conduction and recover air compressor hot oil, the lubricating oil is discharged into the air compressor after heat recovery, and continuous lubricating oil heat recovery work is realized. Disclosure of Invention Aiming at the defects of the prior art, the invention solves the problem of providing the air compressor heat recovery mechanism with the slag removal assembly, which has high heat recovery efficiency and flexible and convenient use. In order to solve the problems, the invention adopts the following technical scheme: An air compressor heat recovery mechanism with a slag removing component comprises a heat recovery water tank, an oil inlet pipe, oil distribution pipes, oil discharge pipes and a slag removing component, wherein the oil inlet pipe is arranged at the bottom of the heat recovery water tank, the oil discharge pipes are arranged at the top of the heat recovery water tank, a plurality of oil distribution pipes are uniformly arranged between the oil inlet pipe and the oil discharge pipes, the slag removing component is arranged on the heat recovery water tank, the slag removing component comprises a lifting motor, a lifting net cover, a sleeve scraping ring, a slag blocking ring, a positioning cavity plate and a slag suction short pipe, the lifting net cover is arranged below the heat recovery water tank, the lifting net cover is in sliding sleeve connection with the plurality of oil distribution pipes, a plurality of sleeve scraping rings are uniformly arranged at the upper end of the lifting net cover, each sleeve scraping ring is respectively sleeved with one oil distribution pipe, a slag blocking ring is respectively arranged at the outer side of the periphery of each sleeve scraping ring, the slag blocking ring and the sleeve scraping ring at the inner side of the slag blocking ring are surrounded into an annular slag collecting groove, the positioning cavity plate is arranged above the heat recovery water tank and positioned at the lower side of the oil discharge pipes, the positioning cavity plate is fixedly connected to the plurality of oil distribution pipes, the positioning cavity plate penetrates through the lower side of the positioning cavity plate and is respectively arranged on the side of the oil distribution pipes, the positioning plate is respectively arranged below the sleeve, the lifting net cover is respectively arranged on the lower side of the inner side of the oil distribution pipe, the sleeve is respectively, the sleeve scraping ring is respectively sleeved with the scraping ring and the slag scraping ring is respectively, the scraping ring is respectively arranged on the sleeve ring and the sleeve scraping ring and the upper side, the scraping ring is respectively, the scraping ring and the slag is arranged on the upper side and the upper sleeve ring and the side and the slag scraping ring is further in a lifting ring and the upper sleeve and a lifting sleeve is formed. And sucking and discharging the waste residues in the annular slag collecting groove through the slag sucking short pipe. Further, the front upper end and the rear lower end of the heat recovery water tank are respectively provided with a water inlet and a water outlet. Further, the outer end of the heat recovery water tank is provided with a slag storage tank body, the inner side of the slag storage tank body is communicated with the inner end of the positioning cavity plate, the upper end of the slag storage tank body is provided with a suction pipe, and the suction pipe is provided with a suction pump. Further, the periphery of the inner side of the sleeved scraping ring is provided with a wear-resistant coating. The heat recovery device comprises a heat recovery water tank, and is characterized by further comprising a lifting transmission assembly, wherein the lifting transmission assembly comprises a connecting rod, lifting side blocks and transmission screw rods