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CN-224212880-U - High-speed energy-saving air jet loom

CN224212880UCN 224212880 UCN224212880 UCN 224212880UCN-224212880-U

Abstract

The utility model discloses a high-speed energy-saving air jet loom, which relates to the technical field of textile machinery and comprises two brackets, wherein an air jet loom body is arranged between the two brackets, a connecting block is fixedly arranged below a sley of the air jet loom body between the two brackets, a collecting bin is arranged on the top surface of the connecting block, an electrostatic field grid is fixedly arranged on the inner wall of the collecting bin, a cleaning component is arranged on the connecting block and used for cleaning the electrostatic field grid and the inside of the collecting bin, and the electrostatic field grid and the cleaning component are arranged, so that the air jet loom can effectively adsorb generated flocks in the production process, prevent the flocks from accumulating in the loom and influencing the production efficiency and the textile quality.

Inventors

  • YANG ZHONGQIANG
  • DONG MEI

Assignees

  • 杭州维涛纺织机械有限公司

Dates

Publication Date
20260508
Application Date
20250605

Claims (6)

  1. 1. A high-speed energy-saving air jet loom is characterized by comprising: The device comprises two brackets (1), wherein two air-jet loom bodies (2) are arranged between the two brackets (1), a connecting block (3) is fixedly arranged below a sley of the air-jet loom bodies (2) between the two brackets (1), a collecting bin (4) is arranged on the top surface of the connecting block (3), and an electrostatic field grid (5) is fixedly arranged on the inner wall of the collecting bin (4); the cleaning component is arranged on the connecting block (3) and is used for cleaning the interiors of the electrostatic field grids (5) and the collecting bin (4).
  2. 2. The high-speed energy-saving air jet loom of claim 1, wherein said cleaning assembly comprises: The bottom plate (6), bottom plate (6) set up in collecting bin (4), opening (7) have been seted up to the right side wall in collecting bin (4), the top surface of bottom plate (6) is provided with a plurality of cylinders (8), and a plurality of the top surface fixed mounting of cylinder (8) has same roof (9), the inside and opening (7) intercommunication of cylinder (8) and roof (9).
  3. 3. The high-speed energy-saving air jet loom of claim 2, wherein said cleaning assembly further comprises: The fan (10), fan (10) fixed mounting is on the right side wall of left side support (1), be provided with suction tube (11) between fan (10) and roof (9), the rear side fixed mounting of fan (10) has dust removal case (12), be provided with connecting pipe (13) between fan (10) and dust removal case (12).
  4. 4. The high-speed energy-saving air jet loom of claim 3, wherein said cleaning assembly further comprises: The driving motor (14), driving motor (14) fixed mounting is on the right side wall on right side, spout (15) have been seted up to the bottom surface of collecting bin (4), the inside rotation of spout (15) is connected with lead screw (16), the surface threaded connection of lead screw (16) has slider (17), slider (17) slip in spout (15).
  5. 5. The high-speed energy-saving air jet loom as claimed in claim 4, wherein the output shaft of the driving motor (14) is connected with the right side wall of the screw rod (16), and the top surface of the sliding block (17) is connected with the bottom surface of the bottom plate (6).
  6. 6. A high-speed energy-saving air jet loom according to claim 2, characterized in that the height of a plurality of said cylinders (8) is identical to the height of the electrostatic field grid (5), the bottom surface of said top plate (9) is in contact with the top surface of the electrostatic field grid (5), and the top surface of said bottom plate (6) is in contact with the bottom surface of the electrostatic field grid (5).

Description

High-speed energy-saving air jet loom Technical Field The utility model relates to the technical field of textile apparatuses, in particular to a high-speed energy-saving air jet loom. Background The air jet loom is a shuttleless loom which uses compressed air jet to make weft yarn pass through shed by friction force produced when air jet, and is characterized by that it uses air jet to make weft yarn pass through, so that its cost is reduced, energy consumption is low, and it is a new type textile machine. Through the mass retrieval, found that prior art publication number is CN217517114U, disclosed a high-speed energy-saving air jet loom, including air jet weft structure, air jet weft structure includes weft ejector, weft ejector's middle part fixedly connected with fine setting removes the post, the front portion and the rear portion of fine setting removes the post all rotate and be connected with the backup pad, weft ejector's bottom is equipped with fine setting supporting shoe, the bottom of fine setting supporting shoe articulates and is connected with fine setting removal bolt, two the bottom fixedly connected with fine setting shell of backup pad, the middle part threaded connection of fine setting removal bolt has the swivel nut, the swivel nut on fixedly connected with promote the removal gear, promote the opposite side meshing of removal gear to be connected with power connection gear, through being equipped with air jet weft structure, can finely tune its loom weft yarn injection device's height, prevent to cause the influence to production because of weft injection height and angle problem in the actual production. However, the prior art does not allow for efficient collection of the batting during the production process, resulting in a large accumulation of batting inside the loom. The air jet loom can not only interfere the normal operation of the air jet loom and reduce the working efficiency of the loom, but also affect the quality of textiles and increase the maintenance cost and failure occurrence rate of equipment. Therefore, based on the above search and in combination with the prior art, a high-speed energy-saving air jet loom is proposed to solve the above problems. Disclosure of utility model The present utility model is directed to a high-speed energy-saving air jet loom, which solves the problems set forth in the background art. In order to achieve the above purpose, the present utility model provides the following technical solutions: The high-speed energy-saving air jet loom comprises two brackets, a cleaning assembly and a cleaning assembly, wherein an air jet loom body is arranged between the two brackets, a connecting block is fixedly arranged between the two brackets and positioned below a sley of the air jet loom body, a collecting bin is arranged on the top surface of the connecting block, an electrostatic field grid is fixedly arranged on the inner wall of the collecting bin, and the cleaning assembly is arranged on the connecting block and is used for cleaning the electrostatic field grid and the inside of the collecting bin. Preferably, the cleaning assembly comprises a bottom plate, wherein the bottom plate is arranged in a collecting bin, an opening is formed in the right side wall of the collecting bin, a plurality of cylinders are arranged on the top surface of the bottom plate, the same top plate is fixedly arranged on the top surfaces of the cylinders, and the cylinders are communicated with the inside of the top plate and the opening. Preferably, the cleaning assembly further comprises a fan, wherein the fan is fixedly arranged on the right side wall of the left side bracket, a suction pipe is arranged between the fan and the top plate, a dust removal box is fixedly arranged on the rear side of the fan, and a connecting pipe is arranged between the fan and the dust removal box. Preferably, the cleaning assembly further comprises a driving motor, the driving motor is fixedly arranged on the right side wall on the right side, a sliding groove is formed in the bottom surface of the collecting bin, a screw rod is rotatably connected to the inside of the sliding groove, a sliding block is connected to the outer surface of the screw rod in a threaded mode, and the sliding block slides in the sliding groove. Preferably, an output shaft of the driving motor is connected with the right side wall of the screw rod, and the top surface of the sliding block is connected with the bottom surface of the bottom plate. Preferably, the height of a plurality of the cylinders is consistent with the height of the electrostatic field grid, the bottom surface of the top plate is in contact with the top surface of the electrostatic field grid, and the top surface of the bottom plate is in contact with the bottom surface of the electrostatic field grid. Compared with the prior art, the utility model has the beneficial effects that: According to the utility model, through the arrangement