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CN-224224312-U - Low-noise energy-saving air supply structure for processing tire mold

CN224224312UCN 224224312 UCN224224312 UCN 224224312UCN-224224312-U

Abstract

The utility model discloses a low-noise energy-saving air supply structure for processing a tire mold, which belongs to the technical field of tire mold processing equipment and comprises an equipment shell, wherein an electric cabinet is fixedly arranged on one side of the equipment shell, an air blower is fixedly arranged on one side of the equipment shell, a preheating mechanism is arranged in the equipment shell, and an adjusting mechanism is arranged in the preheating mechanism. The preheating mechanism is arranged, so that the air blown by the air blower can be preheated and circulated, the influence of the temperature of the external air is prevented, a constant-temperature processing environment is provided for the moulding bed, the processing yield of the moulding bed is improved, the noise can be reduced by using the heat-insulating and noise-reducing plate, the temperature loss is reduced, the energy-saving effect is achieved, and the working environment is improved.

Inventors

  • YU QI

Assignees

  • 长春华众延锋彼欧汽车外饰有限公司

Dates

Publication Date
20260512
Application Date
20250530

Claims (7)

  1. 1. The low-noise energy-saving air supply structure for the tire mold machining comprises an equipment shell (1) and is characterized in that an electric cabinet (2) is fixedly arranged on one side of the equipment shell (1), an air blower (3) is fixedly arranged on one side of the equipment shell (1), a preheating mechanism (4) is arranged in the equipment shell (1), and an adjusting mechanism (5) is arranged in the preheating mechanism (4).
  2. 2. The low-noise energy-saving air supply structure for tire mold processing according to claim 1, wherein the preheating mechanism (4) comprises an outer casing (401) fixed between equipment shells (1), an inner casing shell (402) is fixedly arranged in the outer casing (401), and a heat-insulating and noise-reducing plate (403) is fixedly arranged between the outer casing shell (401) and the inner casing shell (402).
  3. 3. The low-noise energy-saving air supply structure for tire mold processing according to claim 2, wherein an air inlet pipe (404) with one end penetrating through and extending to the inner part of the inner sleeve shell (402) is fixedly arranged at the air outlet of the air blower (3), an external heating cylinder (405) is fixedly arranged on the inner wall of the inner sleeve shell (402), and a heater (406) with one end penetrating through and extending to the inner part of the external heating cylinder (405) is fixedly arranged on one side of the equipment shell (1).
  4. 4. The low-noise energy-saving air supply structure for tire mold processing according to claim 2, wherein the adjusting mechanism (5) comprises an inner heating cylinder (501) fixed between the equipment shells (1), and cylinder connecting pipes (502) are fixedly arranged at two ends of the inner heating cylinder (501).
  5. 5. The low-noise energy-saving air supply structure for tire mold processing according to claim 4, wherein a casing connecting pipe (503) is embedded in the outer casing (401) and the inner casing (402), and threaded sleeves (504) are arranged on the external threads of the casing connecting pipe (503) and the barrel connecting pipe (502).
  6. 6. The low-noise energy-saving air supply structure for tire mold processing according to claim 5, wherein an elbow pipe (505) is fixedly arranged at one end of the shell connecting pipe (503), a telescopic pipe (506) is fixedly arranged at the top end of the elbow pipe (505), and an air guide pipe sleeve (507) is fixedly arranged at the top end of the telescopic pipe (506).
  7. 7. The low-noise energy-saving air supply structure for tire mold processing according to claim 6, wherein one end of the air guide pipe sleeve (507) is fixedly provided with a mounting sliding block (508), the inner wall of the equipment shell (1) is fixedly provided with a mounting sliding rail (509), the inside of the mounting sliding rail (509) is in sliding connection with the outside of the mounting sliding block (508), the inner wall of the equipment shell (1) is fixedly provided with an electric lifting rod (510), and one end of a piston rod of the electric lifting rod (510) is fixedly connected with the bottom end of the mounting sliding block (508).

Description

Low-noise energy-saving air supply structure for processing tire mold Technical Field The utility model relates to the technical field of tire mold processing equipment, in particular to a low-noise energy-saving air supply structure for tire mold processing. Background Along with the development of society, in the general life of automobiles, automobile spoilers refer to parts similar to inverted aircraft tail wings arranged on a rear box cover of a sedan, and some automobiles are provided with front spoilers commonly called air dams, a tire mold is a template for a foundation, the automobile spoilers need to be used as a tire mold during processing and production, and air is supplied to the tire mold during processing of the tire mold. When the existing air supply structure is used, air is supplied through the air blower and the heater, the heater is arranged at the air outlet of the air blower, so that the air supply temperature is affected by the air inlet temperature of the air blower, the air supply temperature fluctuates, the yield of processing of the tire mold is reduced, and the requirements of people cannot be met. Therefore, there is a need to provide a low-noise energy-saving air supply structure for tire mold processing to solve the above problems. Disclosure of utility model The utility model aims to overcome the defects of the prior art and provide a low-noise energy-saving air supply structure for processing a tire mold. In order to solve the technical problems, the technical scheme includes that the low-noise energy-saving air supply structure for processing the tire mold comprises an equipment shell, wherein an electric cabinet is fixedly arranged on one side of the equipment shell, an air blower is fixedly arranged on one side of the equipment shell, a preheating mechanism is arranged in the equipment shell, and an adjusting mechanism is arranged in the preheating mechanism. The preheating mechanism further comprises an outer sleeve shell fixed between the equipment shells, an inner sleeve shell is fixedly arranged in the outer sleeve shell, and a heat-insulating noise-reducing plate is fixedly arranged between the outer sleeve shell and the inner sleeve shell. Through above-mentioned technical scheme, install the board of making an uproar falls in heat preservation through shell and endotheca shell, the board of making an uproar falls in heat preservation is rock wool board, and inside trompil fibrous structure can separation sound wave and heat transfer. The utility model is further characterized in that an air inlet pipe with one end penetrating and extending into the inner sleeve shell is fixedly arranged at the air outlet of the air blower, an external heating cylinder is fixedly arranged on the inner wall of the inner sleeve shell, and a heater with one end penetrating and extending into the external heating cylinder is fixedly arranged at one side of the equipment shell. Through the technical scheme, wind enters the inner sleeve shell from the air outlet of the air blower through the air inlet pipe, then enters the outer heating cylinder through the inner sleeve shell, and the air is heated through the heater. The utility model is further arranged that the adjusting mechanism comprises an inner heating cylinder fixed between the equipment shells, and cylinder connecting pipes are fixedly arranged at two ends of the inner heating cylinder. Through the technical scheme, wind enters the inner heating cylinder from the outer heating cylinder, and hot wind is formed after the heater heats the inner heating cylinder and is discharged from the cylinder connecting pipe. The utility model is further characterized in that the shell connecting pipe is embedded and installed inside the shell and the inner sleeve, and the threaded sleeve is installed on the external threads of the shell connecting pipe and the barrel connecting pipe. Through above-mentioned technical scheme, hot-blast through a section of thick bamboo connecting pipe entering casing connecting pipe, threaded sleeve pipe dismouting is carried out casing connecting pipe and a section of thick bamboo connecting pipe. The utility model is further characterized in that an elbow pipe is fixedly arranged at one end of the shell connecting pipe, a telescopic pipe is fixedly arranged at the top end of the elbow pipe, and an air guide pipe sleeve is fixedly arranged at the top end of the telescopic pipe. Through the technical scheme, hot air enters the elbow pipe through the shell connecting pipe, then enters the telescopic pipe through the elbow pipe, and finally is discharged through the air guide pipe sleeve, so that hot air can be uniformly blown to the tire mold, and the tire mold is heated. The air guide pipe assembly is further characterized in that a mounting sliding block is fixedly mounted at one end of the air guide pipe assembly, a mounting sliding rail is fixedly mounted on the inner wall of the equipment shell, the inside